diff options
author | Brad Beckmann <Brad.Beckmann@amd.com> | 2011-02-23 16:41:26 -0800 |
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committer | Brad Beckmann <Brad.Beckmann@amd.com> | 2011-02-23 16:41:26 -0800 |
commit | c09a33e5d50bf445545b053d8f15a654ca9c302b (patch) | |
tree | 581fdfd7240c3257013c27ad5023918e73ac1148 | |
parent | 72fb282ab12abf2a1f13c3e9630dff3ffd983863 (diff) | |
download | gem5-c09a33e5d50bf445545b053d8f15a654ca9c302b.tar.xz |
ruby: removed unsupported protocol files
35 files changed, 0 insertions, 14391 deletions
diff --git a/src/mem/protocol/MESI_SCMP_bankdirectory-L1cache.sm b/src/mem/protocol/MESI_SCMP_bankdirectory-L1cache.sm deleted file mode 100644 index 6e707a431..000000000 --- a/src/mem/protocol/MESI_SCMP_bankdirectory-L1cache.sm +++ /dev/null @@ -1,894 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id: MSI_MOSI_CMP_directory-L1cache.sm 1.10 05/01/19 15:55:40-06:00 beckmann@s0-28.cs.wisc.edu $ - * - */ - - -machine(L1Cache, "MSI Directory L1 Cache CMP") { - - // NODE L1 CACHE - // From this node's L1 cache TO the network - // a local L1 -> this L2 bank, currently ordered with directory forwarded requests - MessageBuffer requestFromL1Cache, network="To", virtual_network="0", ordered="false"; - // a local L1 -> this L2 bank - MessageBuffer responseFromL1Cache, network="To", virtual_network="3", ordered="false"; - MessageBuffer unblockFromL1Cache, network="To", virtual_network="4", ordered="false"; - - - // To this node's L1 cache FROM the network - // a L2 bank -> this L1 - MessageBuffer requestToL1Cache, network="From", virtual_network="1", ordered="false"; - // a L2 bank -> this L1 - MessageBuffer responseToL1Cache, network="From", virtual_network="3", ordered="false"; - - // STATES - enumeration(State, desc="Cache states", default="L1Cache_State_I") { - // Base states - NP, desc="Not present in either cache"; - I, desc="a L1 cache entry Idle"; - S, desc="a L1 cache entry Shared"; - E, desc="a L1 cache entry Exclusive"; - M, desc="a L1 cache entry Modified", format="!b"; - - // Transient States - IS, desc="L1 idle, issued GETS, have not seen response yet"; - IM, desc="L1 idle, issued GETX, have not seen response yet"; - SM, desc="L1 idle, issued GETX, have not seen response yet"; - IS_I, desc="L1 idle, issued GETS, saw Inv before data because directory doesn't block on GETS hit"; - - M_I, desc="L1 replacing, waiting for ACK"; - E_I, desc="L1 replacing, waiting for ACK"; - - } - - // EVENTS - enumeration(Event, desc="Cache events") { - // L1 events - Load, desc="Load request from the home processor"; - Ifetch, desc="I-fetch request from the home processor"; - Store, desc="Store request from the home processor"; - - Inv, desc="Invalidate request from L2 bank"; - - // internal generated request - L1_Replacement, desc="L1 Replacement", format="!r"; - - // other requests - Fwd_GETX, desc="GETX from other processor"; - Fwd_GETS, desc="GETS from other processor"; - Fwd_GET_INSTR, desc="GET_INSTR from other processor"; - - Data, desc="Data for processor"; - Data_Exclusive, desc="Data for processor"; - DataS_fromL1, desc="data for GETS request, need to unblock directory"; - Data_all_Acks, desc="Data for processor, all acks"; - - Ack, desc="Ack for processor"; - Ack_all, desc="Last ack for processor"; - - WB_Ack, desc="Ack for replacement"; - } - - // TYPES - - // CacheEntry - structure(Entry, desc="...", interface="AbstractCacheEntry" ) { - State CacheState, desc="cache state"; - DataBlock DataBlk, desc="data for the block"; - bool Dirty, default="false", desc="data is dirty"; - } - - // TBE fields - structure(TBE, desc="...") { - Address Address, desc="Physical address for this TBE"; - State TBEState, desc="Transient state"; - DataBlock DataBlk, desc="Buffer for the data block"; - bool Dirty, default="false", desc="data is dirty"; - bool isPrefetch, desc="Set if this was caused by a prefetch"; - int pendingAcks, default="0", desc="number of pending acks"; - } - - external_type(CacheMemory) { - bool cacheAvail(Address); - Address cacheProbe(Address); - void allocate(Address); - void deallocate(Address); - Entry lookup(Address); - void changePermission(Address, AccessPermission); - bool isTagPresent(Address); - } - - external_type(TBETable) { - TBE lookup(Address); - void allocate(Address); - void deallocate(Address); - bool isPresent(Address); - } - - TBETable L1_TBEs, template_hack="<L1Cache_TBE>"; - - CacheMemory L1IcacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L1_CACHE_NUM_SETS_BITS,L1_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_L1I"', abstract_chip_ptr="true"; - CacheMemory L1DcacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L1_CACHE_NUM_SETS_BITS,L1_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_L1D"', abstract_chip_ptr="true"; - - MessageBuffer mandatoryQueue, ordered="false", rank="100", abstract_chip_ptr="true"; - - Sequencer sequencer, abstract_chip_ptr="true", constructor_hack="i"; - - int cache_state_to_int(State state); - - // inclusive cache returns L1 entries only - Entry getL1CacheEntry(Address addr), return_by_ref="yes" { - if (L1DcacheMemory.isTagPresent(addr)) { - return L1DcacheMemory[addr]; - } else { - return L1IcacheMemory[addr]; - } - } - - void changeL1Permission(Address addr, AccessPermission permission) { - if (L1DcacheMemory.isTagPresent(addr)) { - return L1DcacheMemory.changePermission(addr, permission); - } else if(L1IcacheMemory.isTagPresent(addr)) { - return L1IcacheMemory.changePermission(addr, permission); - } else { - error("cannot change permission, L1 block not present"); - } - } - - bool isL1CacheTagPresent(Address addr) { - return (L1DcacheMemory.isTagPresent(addr) || L1IcacheMemory.isTagPresent(addr)); - } - - State getState(Address addr) { - if((L1DcacheMemory.isTagPresent(addr) && L1IcacheMemory.isTagPresent(addr)) == true){ - DEBUG_EXPR(id); - DEBUG_EXPR(addr); - } - assert((L1DcacheMemory.isTagPresent(addr) && L1IcacheMemory.isTagPresent(addr)) == false); - - if(L1_TBEs.isPresent(addr)) { - return L1_TBEs[addr].TBEState; - } else if (isL1CacheTagPresent(addr)) { - return getL1CacheEntry(addr).CacheState; - } - return State:NP; - } - - - void setState(Address addr, State state) { - assert((L1DcacheMemory.isTagPresent(addr) && L1IcacheMemory.isTagPresent(addr)) == false); - - // MUST CHANGE - if(L1_TBEs.isPresent(addr)) { - L1_TBEs[addr].TBEState := state; - } - - if (isL1CacheTagPresent(addr)) { - getL1CacheEntry(addr).CacheState := state; - - // Set permission - if (state == State:I) { - changeL1Permission(addr, AccessPermission:Invalid); - } else if (state == State:S || state == State:E) { - changeL1Permission(addr, AccessPermission:Read_Only); - } else if (state == State:M) { - changeL1Permission(addr, AccessPermission:Read_Write); - } else { - changeL1Permission(addr, AccessPermission:Busy); - } - } - } - - Event mandatory_request_type_to_event(CacheRequestType type) { - if (type == CacheRequestType:LD) { - return Event:Load; - } else if (type == CacheRequestType:IFETCH) { - return Event:Ifetch; - } else if ((type == CacheRequestType:ST) || (type == CacheRequestType:ATOMIC)) { - return Event:Store; - } else { - error("Invalid CacheRequestType"); - } - } - - GenericMachineType getNondirectHitMachType(Address addr, MachineID sender) { - if (machineIDToMachineType(sender) == MachineType:L1Cache) { - return GenericMachineType:L1Cache_wCC; // NOTE direct L1 hits should not call this - } else if (machineIDToMachineType(sender) == MachineType:L2Cache) { - return GenericMachineType:L2Cache; - } else { - return ConvertMachToGenericMach(machineIDToMachineType(sender)); - } - } - - - - out_port(requestIntraChipL1Network_out, RequestMsg, requestFromL1Cache); - out_port(responseIntraChipL1Network_out, ResponseMsg, responseFromL1Cache); - out_port(unblockNetwork_out, ResponseMsg, unblockFromL1Cache); - - // Response IntraChip L1 Network - response msg to this L1 cache - in_port(responseIntraChipL1Network_in, ResponseMsg, responseToL1Cache) { - if (responseIntraChipL1Network_in.isReady()) { - peek(responseIntraChipL1Network_in, ResponseMsg) { - assert(in_msg.Destination.isElement(machineID)); - if(in_msg.Type == CoherenceResponseType:DATA_EXCLUSIVE) { - trigger(Event:Data_Exclusive, in_msg.Address); - } else if(in_msg.Type == CoherenceResponseType:DATA) { - if ( (getState(in_msg.Address) == State:IS || getState(in_msg.Address) == State:IS_I) && - machineIDToMachineType(in_msg.Sender) == MachineType:L1Cache ) { - - trigger(Event:DataS_fromL1, in_msg.Address); - - } else if ( (L1_TBEs[in_msg.Address].pendingAcks - in_msg.AckCount) == 0 ) { - trigger(Event:Data_all_Acks, in_msg.Address); - } else { - trigger(Event:Data, in_msg.Address); - } - } else if (in_msg.Type == CoherenceResponseType:ACK) { - if ( (L1_TBEs[in_msg.Address].pendingAcks - in_msg.AckCount) == 0 ) { - trigger(Event:Ack_all, in_msg.Address); - } else { - trigger(Event:Ack, in_msg.Address); - } - } else if (in_msg.Type == CoherenceResponseType:WB_ACK) { - trigger(Event:WB_Ack, in_msg.Address); - } else { - error("Invalid L1 response type"); - } - } - } - } - - // Request InterChip network - request from this L1 cache to the shared L2 - in_port(requestIntraChipL1Network_in, RequestMsg, requestToL1Cache) { - if(requestIntraChipL1Network_in.isReady()) { - peek(requestIntraChipL1Network_in, RequestMsg) { - assert(in_msg.Destination.isElement(machineID)); - if (in_msg.Type == CoherenceRequestType:INV) { - trigger(Event:Inv, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GETX || in_msg.Type == CoherenceRequestType:UPGRADE) { - // upgrade transforms to GETX due to race - trigger(Event:Fwd_GETX, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GETS) { - trigger(Event:Fwd_GETS, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GET_INSTR) { - trigger(Event:Fwd_GET_INSTR, in_msg.Address); - } else { - error("Invalid forwarded request type"); - } - } - } - } - - // Mandatory Queue betweens Node's CPU and it's L1 caches - in_port(mandatoryQueue_in, CacheMsg, mandatoryQueue, desc="...") { - if (mandatoryQueue_in.isReady()) { - peek(mandatoryQueue_in, CacheMsg) { - - // Check for data access to blocks in I-cache and ifetchs to blocks in D-cache - - if (in_msg.Type == CacheRequestType:IFETCH) { - // ** INSTRUCTION ACCESS *** - - // Check to see if it is in the OTHER L1 - if (L1DcacheMemory.isTagPresent(in_msg.Address)) { - // The block is in the wrong L1, put the request on the queue to the shared L2 - trigger(Event:L1_Replacement, in_msg.Address); - } - if (L1IcacheMemory.isTagPresent(in_msg.Address)) { - // The tag matches for the L1, so the L1 asks the L2 for it. - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } else { - if (L1IcacheMemory.cacheAvail(in_msg.Address)) { - // L1 does't have the line, but we have space for it in the L1 so let's see if the L2 has it - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } else { - // No room in the L1, so we need to make room in the L1 - trigger(Event:L1_Replacement, L1IcacheMemory.cacheProbe(in_msg.Address)); - } - } - } else { - // *** DATA ACCESS *** - - // Check to see if it is in the OTHER L1 - if (L1IcacheMemory.isTagPresent(in_msg.Address)) { - // The block is in the wrong L1, put the request on the queue to the shared L2 - trigger(Event:L1_Replacement, in_msg.Address); - } - if (L1DcacheMemory.isTagPresent(in_msg.Address)) { - // The tag matches for the L1, so the L1 ask the L2 for it - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } else { - if (L1DcacheMemory.cacheAvail(in_msg.Address)) { - // L1 does't have the line, but we have space for it in the L1 let's see if the L2 has it - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } else { - // No room in the L1, so we need to make room in the L1 - trigger(Event:L1_Replacement, L1DcacheMemory.cacheProbe(in_msg.Address)); - } - } - } - } - } - } - - // ACTIONS - action(a_issueGETS, "a", desc="Issue GETS") { - peek(mandatoryQueue_in, CacheMsg) { - enqueue(requestIntraChipL1Network_out, RequestMsg, latency="L1_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETS; - out_msg.Requestor := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - DEBUG_EXPR(address); - DEBUG_EXPR(out_msg.Destination); - out_msg.MessageSize := MessageSizeType:Control; - out_msg.Prefetch := in_msg.Prefetch; - out_msg.AccessMode := in_msg.AccessMode; - } - } - } - - action(ai_issueGETINSTR, "ai", desc="Issue GETINSTR") { - peek(mandatoryQueue_in, CacheMsg) { - enqueue(requestIntraChipL1Network_out, RequestMsg, latency="L1_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GET_INSTR; - out_msg.Requestor := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - DEBUG_EXPR(address); - DEBUG_EXPR(out_msg.Destination); - out_msg.MessageSize := MessageSizeType:Control; - out_msg.Prefetch := in_msg.Prefetch; - out_msg.AccessMode := in_msg.AccessMode; - } - } - } - - - action(b_issueGETX, "b", desc="Issue GETX") { - peek(mandatoryQueue_in, CacheMsg) { - enqueue(requestIntraChipL1Network_out, RequestMsg, latency="L1_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETX; - out_msg.Requestor := machineID; - DEBUG_EXPR(machineID); - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - DEBUG_EXPR(address); - DEBUG_EXPR(out_msg.Destination); - out_msg.MessageSize := MessageSizeType:Control; - out_msg.Prefetch := in_msg.Prefetch; - out_msg.AccessMode := in_msg.AccessMode; - } - } - } - - action(c_issueUPGRADE, "c", desc="Issue GETX") { - peek(mandatoryQueue_in, CacheMsg) { - enqueue(requestIntraChipL1Network_out, RequestMsg, latency="L1_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:UPGRADE; - out_msg.Requestor := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - DEBUG_EXPR(address); - DEBUG_EXPR(out_msg.Destination); - out_msg.MessageSize := MessageSizeType:Control; - out_msg.Prefetch := in_msg.Prefetch; - out_msg.AccessMode := in_msg.AccessMode; - } - } - } - - action(d_sendDataToRequestor, "d", desc="send data to requestor") { - peek(requestIntraChipL1Network_in, RequestMsg) { - enqueue(responseIntraChipL1Network_out, ResponseMsg, latency="L1_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.DataBlk := getL1CacheEntry(address).DataBlk; - out_msg.Dirty := getL1CacheEntry(address).Dirty; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - } - - action(d2_sendDataToL2, "d2", desc="send data to the L2 cache because of M downgrade") { - enqueue(responseIntraChipL1Network_out, ResponseMsg, latency="L1_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.DataBlk := getL1CacheEntry(address).DataBlk; - out_msg.Dirty := getL1CacheEntry(address).Dirty; - out_msg.Sender := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - - action(dt_sendDataToRequestor_fromTBE, "dt", desc="send data to requestor") { - peek(requestIntraChipL1Network_in, RequestMsg) { - enqueue(responseIntraChipL1Network_out, ResponseMsg, latency="L1_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.DataBlk := L1_TBEs[address].DataBlk; - out_msg.Dirty := L1_TBEs[address].Dirty; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - } - - action(d2t_sendDataToL2_fromTBE, "d2t", desc="send data to the L2 cache") { - enqueue(responseIntraChipL1Network_out, ResponseMsg, latency="L1_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.DataBlk := L1_TBEs[address].DataBlk; - out_msg.Dirty := L1_TBEs[address].Dirty; - out_msg.Sender := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - - action(e_sendAckToRequestor, "e", desc="send invalidate ack to requestor (could be L2 or L1)") { - peek(requestIntraChipL1Network_in, RequestMsg) { - enqueue(responseIntraChipL1Network_out, ResponseMsg, latency="L1_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:ACK; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.MessageSize := MessageSizeType:Response_Control; - } - } - } - - action(f_sendDataToL2, "f", desc="send data to the L2 cache") { - enqueue(responseIntraChipL1Network_out, ResponseMsg, latency="L1_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.DataBlk := getL1CacheEntry(address).DataBlk; - out_msg.Dirty := getL1CacheEntry(address).Dirty; - out_msg.Sender := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - out_msg.MessageSize := MessageSizeType:Writeback_Data; - } - } - - action(ft_sendDataToL2_fromTBE, "ft", desc="send data to the L2 cache") { - enqueue(responseIntraChipL1Network_out, ResponseMsg, latency="L1_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.DataBlk := L1_TBEs[address].DataBlk; - out_msg.Dirty := L1_TBEs[address].Dirty; - out_msg.Sender := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - out_msg.MessageSize := MessageSizeType:Writeback_Data; - } - } - - action(fi_sendInvAck, "fi", desc="send data to the L2 cache") { - peek(requestIntraChipL1Network_in, RequestMsg) { - enqueue(responseIntraChipL1Network_out, ResponseMsg, latency="L1_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:ACK; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.MessageSize := MessageSizeType:Response_Control; - out_msg.AckCount := 1; - } - } - } - - - action(g_issuePUTX, "g", desc="send data to the L2 cache") { - enqueue(requestIntraChipL1Network_out, RequestMsg, latency="L1_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:PUTX; - out_msg.DataBlk := getL1CacheEntry(address).DataBlk; - out_msg.Dirty := getL1CacheEntry(address).Dirty; - out_msg.Requestor:= machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - if (getL1CacheEntry(address).Dirty) { - out_msg.MessageSize := MessageSizeType:Writeback_Data; - } else { - out_msg.MessageSize := MessageSizeType:Writeback_Control; - } - } - } - - action(j_sendUnblock, "j", desc="send unblock to the L2 cache") { - enqueue(unblockNetwork_out, ResponseMsg, latency="1") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:UNBLOCK; - out_msg.Sender := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - out_msg.MessageSize := MessageSizeType:Response_Control; - } - } - - action(jj_sendExclusiveUnblock, "\j", desc="send unblock to the L2 cache") { - enqueue(unblockNetwork_out, ResponseMsg, latency="1") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:EXCLUSIVE_UNBLOCK; - out_msg.Sender := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - out_msg.MessageSize := MessageSizeType:Response_Control; - } - } - - - - action(h_load_hit, "h", desc="If not prefetch, notify sequencer the load completed.") { - DEBUG_EXPR(getL1CacheEntry(address).DataBlk); - sequencer.readCallback(address, getL1CacheEntry(address).DataBlk); - } - - action(x_external_load_hit, "x", desc="Notify sequencer the load completed.") { - peek(responseIntraChipL1Network_in, ResponseMsg) { - sequencer.readCallback(address, getL1CacheEntry(address).DataBlk, getNondirectHitMachType(in_msg.Address, in_msg.Sender), PrefetchBit:No); - } - } - - - action(hh_store_hit, "\h", desc="If not prefetch, notify sequencer that store completed.") { - sequencer.writeCallback(address, getL1CacheEntry(address).DataBlk); - getL1CacheEntry(address).Dirty := true; - } - - action(xx_external_store_hit, "\x", desc="Notify sequencer that store completed.") { - peek(responseIntraChipL1Network_in, ResponseMsg) { - sequencer.writeCallback(address, getL1CacheEntry(address).DataBlk, getNondirectHitMachType(in_msg.Address, in_msg.Sender), PrefetchBit:No); - } - getL1CacheEntry(address).Dirty := true; - } - - - action(i_allocateTBE, "i", desc="Allocate TBE (isPrefetch=0, number of invalidates=0)") { - check_allocate(L1_TBEs); - L1_TBEs.allocate(address); - L1_TBEs[address].isPrefetch := false; - L1_TBEs[address].Dirty := getL1CacheEntry(address).Dirty; - L1_TBEs[address].DataBlk := getL1CacheEntry(address).DataBlk; - } - - action(k_popMandatoryQueue, "k", desc="Pop mandatory queue.") { - mandatoryQueue_in.dequeue(); - } - - action(l_popRequestQueue, "l", desc="Pop incoming request queue and profile the delay within this virtual network") { - profileMsgDelay(2, requestIntraChipL1Network_in.dequeue_getDelayCycles()); - } - - action(o_popIncomingResponseQueue, "o", desc="Pop Incoming Response queue and profile the delay within this virtual network") { - profileMsgDelay(3, responseIntraChipL1Network_in.dequeue_getDelayCycles()); - } - - action(s_deallocateTBE, "s", desc="Deallocate TBE") { - L1_TBEs.deallocate(address); - } - - action(u_writeDataToL1Cache, "u", desc="Write data to cache") { - peek(responseIntraChipL1Network_in, ResponseMsg) { - getL1CacheEntry(address).DataBlk := in_msg.DataBlk; - getL1CacheEntry(address).Dirty := in_msg.Dirty; - } - } - - action(q_updateAckCount, "q", desc="Update ack count") { - peek(responseIntraChipL1Network_in, ResponseMsg) { - L1_TBEs[address].pendingAcks := L1_TBEs[address].pendingAcks - in_msg.AckCount; - APPEND_TRANSITION_COMMENT(in_msg.AckCount); - APPEND_TRANSITION_COMMENT(" p: "); - APPEND_TRANSITION_COMMENT(L1_TBEs[address].pendingAcks); - } - } - - action(z_stall, "z", desc="Stall") { - } - - action(ff_deallocateL1CacheBlock, "\f", desc="Deallocate L1 cache block. Sets the cache to not present, allowing a replacement in parallel with a fetch.") { - if (L1DcacheMemory.isTagPresent(address)) { - L1DcacheMemory.deallocate(address); - } else { - L1IcacheMemory.deallocate(address); - } - } - - action(oo_allocateL1DCacheBlock, "\o", desc="Set L1 D-cache tag equal to tag of block B.") { - if (L1DcacheMemory.isTagPresent(address) == false) { - L1DcacheMemory.allocate(address); - } - } - - action(pp_allocateL1ICacheBlock, "\p", desc="Set L1 I-cache tag equal to tag of block B.") { - if (L1IcacheMemory.isTagPresent(address) == false) { - L1IcacheMemory.allocate(address); - } - } - - action(zz_recycleRequestQueue, "zz", desc="recycle L1 request queue") { - requestIntraChipL1Network_in.recycle(); - } - - action(z_recycleMandatoryQueue, "\z", desc="recycle L1 request queue") { - mandatoryQueue_in.recycle(); - } - - - //***************************************************** - // TRANSITIONS - //***************************************************** - - // Transitions for Load/Store/Replacement/WriteBack from transient states - transition({IS, IM, IS_I, M_I, E_I, SM}, {Load, Ifetch, Store, L1_Replacement}) { - z_recycleMandatoryQueue; - } - - // Transitions from Idle - transition({NP,I}, L1_Replacement) { - ff_deallocateL1CacheBlock; - } - - transition({NP,I}, Load, IS) { - oo_allocateL1DCacheBlock; - i_allocateTBE; - a_issueGETS; - k_popMandatoryQueue; - } - - transition({NP,I}, Ifetch, IS) { - pp_allocateL1ICacheBlock; - i_allocateTBE; - ai_issueGETINSTR; - k_popMandatoryQueue; - } - - transition({NP,I}, Store, IM) { - oo_allocateL1DCacheBlock; - i_allocateTBE; - b_issueGETX; - k_popMandatoryQueue; - } - - transition({NP, I}, Inv) { - fi_sendInvAck; - l_popRequestQueue; - } - - // Transitions from Shared - transition(S, {Load,Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(S, Store, SM) { - i_allocateTBE; - c_issueUPGRADE; - k_popMandatoryQueue; - } - - transition(S, L1_Replacement, I) { - ff_deallocateL1CacheBlock; - } - - transition(S, Inv, I) { - fi_sendInvAck; - l_popRequestQueue; - } - - // Transitions from Exclusive - - transition(E, {Load, Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(E, Store, M) { - hh_store_hit; - k_popMandatoryQueue; - } - - transition(E, L1_Replacement, M_I) { - // silent E replacement?? - i_allocateTBE; - g_issuePUTX; // send data, but hold in case forwarded request - ff_deallocateL1CacheBlock; - } - - transition(E, Inv, I) { - // don't send data - fi_sendInvAck; - l_popRequestQueue; - } - - transition(E, Fwd_GETX, I) { - d_sendDataToRequestor; - l_popRequestQueue; - } - - transition(E, {Fwd_GETS, Fwd_GET_INSTR}, S) { - d_sendDataToRequestor; - d2_sendDataToL2; - l_popRequestQueue; - } - - // Transitions from Modified - transition(M, {Load, Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(M, Store) { - hh_store_hit; - k_popMandatoryQueue; - } - - transition(M, L1_Replacement, M_I) { - i_allocateTBE; - g_issuePUTX; // send data, but hold in case forwarded request - ff_deallocateL1CacheBlock; - } - - transition(M_I, WB_Ack, I) { - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(M, Inv, I) { - f_sendDataToL2; - l_popRequestQueue; - } - - transition(M_I, Inv, I) { - ft_sendDataToL2_fromTBE; - s_deallocateTBE; - l_popRequestQueue; - } - - transition(M, Fwd_GETX, I) { - d_sendDataToRequestor; - l_popRequestQueue; - } - - transition(M, {Fwd_GETS, Fwd_GET_INSTR}, S) { - d_sendDataToRequestor; - d2_sendDataToL2; - l_popRequestQueue; - } - - transition(M_I, Fwd_GETX, I) { - dt_sendDataToRequestor_fromTBE; - s_deallocateTBE; - l_popRequestQueue; - } - - transition(M_I, {Fwd_GETS, Fwd_GET_INSTR}, I) { - dt_sendDataToRequestor_fromTBE; - d2t_sendDataToL2_fromTBE; - s_deallocateTBE; - l_popRequestQueue; - } - - // Transitions from IS - transition({IS, IS_I}, Inv, IS_I) { - fi_sendInvAck; - l_popRequestQueue; - } - - transition(IS, Data_all_Acks, S) { - u_writeDataToL1Cache; - x_external_load_hit; - s_deallocateTBE; - j_sendUnblock; - o_popIncomingResponseQueue; - } - - transition(IS_I, Data_all_Acks, I) { - u_writeDataToL1Cache; - x_external_load_hit; - s_deallocateTBE; - j_sendUnblock; - o_popIncomingResponseQueue; - } - - - transition(IS, DataS_fromL1, S) { - u_writeDataToL1Cache; - j_sendUnblock; - x_external_load_hit; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(IS_I, DataS_fromL1, I) { - u_writeDataToL1Cache; - j_sendUnblock; - x_external_load_hit; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // directory is blocked when sending exclusive data - transition(IS_I, Data_Exclusive, E) { - u_writeDataToL1Cache; - x_external_load_hit; - jj_sendExclusiveUnblock; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(IS, Data_Exclusive, E) { - u_writeDataToL1Cache; - x_external_load_hit; - jj_sendExclusiveUnblock; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // Transitions from IM - transition({IM, SM}, Inv, IM) { - fi_sendInvAck; - l_popRequestQueue; - } - - transition(IM, Data, SM) { - u_writeDataToL1Cache; - q_updateAckCount; - o_popIncomingResponseQueue; - } - - transition(IM, Data_all_Acks, M) { - u_writeDataToL1Cache; - xx_external_store_hit; - jj_sendExclusiveUnblock; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // transitions from SM - transition({SM, IM}, Ack) { - q_updateAckCount; - o_popIncomingResponseQueue; - } - - transition(SM, Ack_all, M) { - jj_sendExclusiveUnblock; - xx_external_store_hit; - s_deallocateTBE; - o_popIncomingResponseQueue; - } -} - - - diff --git a/src/mem/protocol/MESI_SCMP_bankdirectory-L2cache.sm b/src/mem/protocol/MESI_SCMP_bankdirectory-L2cache.sm deleted file mode 100644 index 8d3c2126f..000000000 --- a/src/mem/protocol/MESI_SCMP_bankdirectory-L2cache.sm +++ /dev/null @@ -1,1052 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id: MSI_MOSI_CMP_directory-L2cache.sm 1.12 05/01/19 15:55:40-06:00 beckmann@s0-28.cs.wisc.edu $ - * - */ - -machine(L2Cache, "MOSI Directory L2 Cache CMP") { - - // L2 BANK QUEUES - // From local bank of L2 cache TO the network - MessageBuffer DirRequestFromL2Cache, network="To", virtual_network="2", ordered="false"; // this L2 bank -> Memory - MessageBuffer L1RequestFromL2Cache, network="To", virtual_network="1", ordered="false"; // this L2 bank -> a local L1 - MessageBuffer responseFromL2Cache, network="To", virtual_network="3", ordered="false"; // this L2 bank -> a local L1 || Memory - - // FROM the network to this local bank of L2 cache - MessageBuffer L1RequestToL2Cache, network="From", virtual_network="0", ordered="false"; // a local L1 -> this L2 bank - MessageBuffer responseToL2Cache, network="From", virtual_network="3", ordered="false"; // a local L1 || Memory -> this L2 bank - MessageBuffer unblockToL2Cache, network="From", virtual_network="4", ordered="false"; // a local L1 || Memory -> this L2 bank - - // STATES - enumeration(State, desc="L2 Cache states", default="L2Cache_State_NP") { - // Base states - NP, desc="Not present in either cache"; - SS, desc="L2 cache entry Shared, also present in one or more L1s"; - M, desc="L2 cache entry Modified, not present in any L1s", format="!b"; - MT, desc="L2 cache entry Modified in a local L1, assume L2 copy stale", format="!b"; - - // L2 replacement - M_I, desc="L2 cache replacing, have all acks, sent dirty data to memory, waiting for ACK from memory"; - MT_I, desc="L2 cache replacing, getting data from exclusive"; - MCT_I, desc="L2 cache replacing, clean in L2, getting data or ack from exclusive"; - I_I, desc="L2 replacing clean data, need to inv sharers and then drop data"; - S_I, desc="L2 replacing dirty data, collecting acks from L1s"; - - // Transient States for fetching data from memory - ISS, desc="L2 idle, got single L1_GETS, issued memory fetch, have not seen response yet"; - IS, desc="L2 idle, got L1_GET_INSTR or multiple L1_GETS, issued memory fetch, have not seen response yet"; - IM, desc="L2 idle, got L1_GETX, issued memory fetch, have not seen response(s) yet"; - - // Blocking states - SS_MB, desc="Blocked for L1_GETX from SS"; - MT_MB, desc="Blocked for L1_GETX from MT"; - M_MB, desc="Blocked for L1_GETX from M"; - - MT_IIB, desc="Blocked for L1_GETS from MT, waiting for unblock and data"; - MT_IB, desc="Blocked for L1_GETS from MT, got unblock, waiting for data"; - MT_SB, desc="Blocked for L1_GETS from MT, got data, waiting for unblock"; - - } - - // EVENTS - enumeration(Event, desc="L2 Cache events") { - // L2 events - - // events initiated by the local L1s - L1_GET_INSTR, desc="a L1I GET INSTR request for a block maped to us"; - L1_GETS, desc="a L1D GETS request for a block maped to us"; - L1_GETX, desc="a L1D GETX request for a block maped to us"; - L1_UPGRADE, desc="a L1D GETX request for a block maped to us"; - - L1_PUTX, desc="L1 replacing data"; - L1_PUTX_old, desc="L1 replacing data, but no longer sharer"; - - Fwd_L1_GETX, desc="L1 did not have data, so we supply"; - Fwd_L1_GETS, desc="L1 did not have data, so we supply"; - Fwd_L1_GET_INSTR, desc="L1 did not have data, so we supply"; - - // events initiated by this L2 - L2_Replacement, desc="L2 Replacement", format="!r"; - L2_Replacement_clean, desc="L2 Replacement, but data is clean", format="!r"; - - // events from memory controller - Mem_Data, desc="data from memory", format="!r"; - Mem_Ack, desc="ack from memory", format="!r"; - - // M->S data writeback - WB_Data, desc="data from L1"; - WB_Data_clean, desc="clean data from L1"; - Ack, desc="writeback ack"; - Ack_all, desc="writeback ack"; - - Unblock, desc="Unblock from L1 requestor"; - Unblock_Cancel, desc="Unblock from L1 requestor (FOR XACT MEMORY)"; - Exclusive_Unblock, desc="Unblock from L1 requestor"; - - } - - // TYPES - - // CacheEntry - structure(Entry, desc="...", interface="AbstractCacheEntry") { - State CacheState, desc="cache state"; - NetDest Sharers, desc="tracks the L1 shares on-chip"; - MachineID Exclusive, desc="Exclusive holder of block"; - DataBlock DataBlk, desc="data for the block"; - bool Dirty, default="false", desc="data is dirty"; - } - - // TBE fields - structure(TBE, desc="...") { - Address Address, desc="Physical address for this TBE"; - State TBEState, desc="Transient state"; - DataBlock DataBlk, desc="Buffer for the data block"; - bool Dirty, default="false", desc="Data is Dirty"; - - NetDest L1_GetS_IDs, desc="Set of the internal processors that want the block in shared state"; - MachineID L1_GetX_ID, desc="ID of the L1 cache to forward the block to once we get a response"; - bool isPrefetch, desc="Set if this was caused by a prefetch"; - - int pendingAcks, desc="number of pending acks for invalidates during writeback"; - } - - external_type(CacheMemory) { - bool cacheAvail(Address); - Address cacheProbe(Address); - void allocate(Address); - void deallocate(Address); - Entry lookup(Address); - void changePermission(Address, AccessPermission); - bool isTagPresent(Address); - void setMRU(Address); - } - - external_type(TBETable) { - TBE lookup(Address); - void allocate(Address); - void deallocate(Address); - bool isPresent(Address); - } - - TBETable L2_TBEs, template_hack="<L2Cache_TBE>"; - - CacheMemory L2cacheMemory, template_hack="<L2Cache_Entry>", constructor_hack='L2_CACHE_NUM_SETS_BITS,L2_CACHE_ASSOC,MachineType_L2Cache,int_to_string(i)'; - - // inclusive cache, returns L2 entries only - Entry getL2CacheEntry(Address addr), return_by_ref="yes" { - return L2cacheMemory[addr]; - } - - void changeL2Permission(Address addr, AccessPermission permission) { - if (L2cacheMemory.isTagPresent(addr)) { - return L2cacheMemory.changePermission(addr, permission); - } - } - - std::string getCoherenceRequestTypeStr(CoherenceRequestType type) { - return CoherenceRequestType_to_string(type); - } - - bool isL2CacheTagPresent(Address addr) { - return (L2cacheMemory.isTagPresent(addr)); - } - - bool isOneSharerLeft(Address addr, MachineID requestor) { - assert(L2cacheMemory[addr].Sharers.isElement(requestor)); - return (L2cacheMemory[addr].Sharers.count() == 1); - } - - bool isSharer(Address addr, MachineID requestor) { - if (L2cacheMemory.isTagPresent(addr)) { - return L2cacheMemory[addr].Sharers.isElement(requestor); - } else { - return false; - } - } - - void addSharer(Address addr, MachineID requestor) { - DEBUG_EXPR(machineID); - DEBUG_EXPR(requestor); - DEBUG_EXPR(addr); - assert(map_L1CacheMachId_to_L2Cache(addr, requestor) == machineID); - L2cacheMemory[addr].Sharers.add(requestor); - } - - State getState(Address addr) { - if(L2_TBEs.isPresent(addr)) { - return L2_TBEs[addr].TBEState; - } else if (isL2CacheTagPresent(addr)) { - return getL2CacheEntry(addr).CacheState; - } - return State:NP; - } - - std::string getStateStr(Address addr) { - return L2Cache_State_to_string(getState(addr)); - } - - // when is this called - void setState(Address addr, State state) { - - // MUST CHANGE - if (L2_TBEs.isPresent(addr)) { - L2_TBEs[addr].TBEState := state; - } - - if (isL2CacheTagPresent(addr)) { - getL2CacheEntry(addr).CacheState := state; - - // Set permission - if (state == State:SS ) { - changeL2Permission(addr, AccessPermission:Read_Only); - } else if (state == State:M) { - changeL2Permission(addr, AccessPermission:Read_Write); - } else if (state == State:MT) { - changeL2Permission(addr, AccessPermission:Stale); - } else { - changeL2Permission(addr, AccessPermission:Busy); - } - } - } - - Event L1Cache_request_type_to_event(CoherenceRequestType type, Address addr, MachineID requestor) { - if(type == CoherenceRequestType:GETS) { - return Event:L1_GETS; - } else if(type == CoherenceRequestType:GET_INSTR) { - return Event:L1_GET_INSTR; - } else if (type == CoherenceRequestType:GETX) { - return Event:L1_GETX; - } else if (type == CoherenceRequestType:UPGRADE) { - if ( isL2CacheTagPresent(addr) && getL2CacheEntry(addr).Sharers.isElement(requestor) ) { - return Event:L1_UPGRADE; - } else { - return Event:L1_GETX; - } - } else if (type == CoherenceRequestType:PUTX) { - if (isSharer(addr, requestor)) { - return Event:L1_PUTX; - } else { - return Event:L1_PUTX_old; - } - } else { - DEBUG_EXPR(addr); - DEBUG_EXPR(type); - error("Invalid L1 forwarded request type"); - } - } - - // ** OUT_PORTS ** - - out_port(L1RequestIntraChipL2Network_out, RequestMsg, L1RequestFromL2Cache); - out_port(DirRequestIntraChipL2Network_out, RequestMsg, DirRequestFromL2Cache); - out_port(responseIntraChipL2Network_out, ResponseMsg, responseFromL2Cache); - - - // Response IntraChip L2 Network - response msg to this particular L2 bank - in_port(responseIntraChipL2Network_in, ResponseMsg, responseToL2Cache) { - if (responseIntraChipL2Network_in.isReady()) { - peek(responseIntraChipL2Network_in, ResponseMsg) { - // test wether it's from a local L1 or an off chip source - assert(in_msg.Destination.isElement(machineID)); - if(machineIDToMachineType(in_msg.Sender) == MachineType:L1Cache) { - if(in_msg.Type == CoherenceResponseType:DATA) { - if (in_msg.Dirty) { - trigger(Event:WB_Data, in_msg.Address); - } else { - trigger(Event:WB_Data_clean, in_msg.Address); - } - } else if (in_msg.Type == CoherenceResponseType:ACK) { - if ((L2_TBEs[in_msg.Address].pendingAcks - in_msg.AckCount) == 0) { - trigger(Event:Ack_all, in_msg.Address); - } else { - trigger(Event:Ack, in_msg.Address); - } - } else { - error("unknown message type"); - } - - } else { // external message - if(in_msg.Type == CoherenceResponseType:MEMORY_DATA) { - trigger(Event:Mem_Data, in_msg.Address); // L2 now has data and all off-chip acks - } else if(in_msg.Type == CoherenceResponseType:MEMORY_ACK) { - trigger(Event:Mem_Ack, in_msg.Address); // L2 now has data and all off-chip acks - } else { - error("unknown message type"); - } - } - } - } // if not ready, do nothing - } - - // L1 Request - in_port(L1RequestIntraChipL2Network_in, RequestMsg, L1RequestToL2Cache) { - if(L1RequestIntraChipL2Network_in.isReady()) { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(id); - DEBUG_EXPR(getState(in_msg.Address)); - DEBUG_EXPR(in_msg.Requestor); - DEBUG_EXPR(in_msg.Type); - DEBUG_EXPR(in_msg.Destination); - assert(machineIDToMachineType(in_msg.Requestor) == MachineType:L1Cache); - assert(in_msg.Destination.isElement(machineID)); - if (L2cacheMemory.isTagPresent(in_msg.Address)) { - // The L2 contains the block, so proceeded with handling the request - trigger(L1Cache_request_type_to_event(in_msg.Type, in_msg.Address, in_msg.Requestor), in_msg.Address); - } else { - if (L2cacheMemory.cacheAvail(in_msg.Address)) { - // L2 does't have the line, but we have space for it in the L2 - trigger(L1Cache_request_type_to_event(in_msg.Type, in_msg.Address, in_msg.Requestor), in_msg.Address); - } else { - // No room in the L2, so we need to make room before handling the request - if (L2cacheMemory[ L2cacheMemory.cacheProbe(in_msg.Address) ].Dirty ) { - trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(in_msg.Address)); - } else { - trigger(Event:L2_Replacement_clean, L2cacheMemory.cacheProbe(in_msg.Address)); - } - } - } - } - } - } - - in_port(L1unblockNetwork_in, ResponseMsg, unblockToL2Cache) { - if(L1unblockNetwork_in.isReady()) { - peek(L1unblockNetwork_in, ResponseMsg) { - assert(in_msg.Destination.isElement(machineID)); - if (in_msg.Type == CoherenceResponseType:EXCLUSIVE_UNBLOCK) { - trigger(Event:Exclusive_Unblock, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:UNBLOCK) { - trigger(Event:Unblock, in_msg.Address); - } else { - error("unknown unblock message"); - } - } - } - } - - // ACTIONS - - action(a_issueFetchToMemory, "a", desc="fetch data from memory") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - enqueue(DirRequestIntraChipL2Network_out, RequestMsg, latency="L2_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETS; - out_msg.Requestor := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Control; - } - } - } - - action(b_forwardRequestToExclusive, "b", desc="Forward request to the exclusive L1") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - enqueue(L1RequestIntraChipL2Network_out, RequestMsg, latency="L2_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := in_msg.Type; - out_msg.Requestor := in_msg.Requestor; - out_msg.Destination.add(L2cacheMemory[address].Exclusive); - out_msg.MessageSize := MessageSizeType:Request_Control; - } - } - } - - action(c_exclusiveReplacement, "c", desc="Send data to memory") { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:MEMORY_DATA; - out_msg.Sender := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.Dirty := getL2CacheEntry(address).Dirty; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - - action(ct_exclusiveReplacementFromTBE, "ct", desc="Send data to memory") { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:MEMORY_DATA; - out_msg.Sender := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.DataBlk := L2_TBEs[address].DataBlk; - out_msg.Dirty := L2_TBEs[address].Dirty; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - - - action(d_sendDataToRequestor, "d", desc="Send data from cache to reqeustor") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.Dirty := getL2CacheEntry(address).Dirty; - out_msg.MessageSize := MessageSizeType:Response_Data; - - out_msg.AckCount := 0 - getL2CacheEntry(address).Sharers.count(); - if (getL2CacheEntry(address).Sharers.isElement(in_msg.Requestor)) { - out_msg.AckCount := out_msg.AckCount + 1; - } - } - } - } - - action(dd_sendExclusiveDataToRequestor, "dd", desc="Send data from cache to reqeustor") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA_EXCLUSIVE; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.Dirty := getL2CacheEntry(address).Dirty; - out_msg.MessageSize := MessageSizeType:Response_Data; - - out_msg.AckCount := 0 - getL2CacheEntry(address).Sharers.count(); - if (getL2CacheEntry(address).Sharers.isElement(in_msg.Requestor)) { - out_msg.AckCount := out_msg.AckCount + 1; - } - } - } - } - - action(ds_sendSharedDataToRequestor, "ds", desc="Send data from cache to reqeustor") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.Dirty := getL2CacheEntry(address).Dirty; - out_msg.MessageSize := MessageSizeType:Response_Data; - out_msg.AckCount := 0; - } - } - } - - action(e_sendDataToGetSRequestors, "e", desc="Send data from cache to all GetS IDs") { - assert(L2_TBEs[address].L1_GetS_IDs.count() > 0); - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="1") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - //out_msg.Sender := machineID; - out_msg.Sender := map_Address_to_Directory(address); - out_msg.Destination := L2_TBEs[address].L1_GetS_IDs; // internal nodes - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.Dirty := getL2CacheEntry(address).Dirty; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - - action(ex_sendExclusiveDataToGetSRequestors, "ex", desc="Send data from cache to all GetS IDs") { - assert(L2_TBEs[address].L1_GetS_IDs.count() == 1); - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="1") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA_EXCLUSIVE; - // out_msg.Sender := machineID; - out_msg.Sender := map_Address_to_Directory(address); - out_msg.Destination := L2_TBEs[address].L1_GetS_IDs; // internal nodes - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.Dirty := getL2CacheEntry(address).Dirty; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - - - action(ee_sendDataToGetXRequestor, "ee", desc="Send data from cache to GetX ID") { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="1") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - // out_msg.Sender := machineID; - out_msg.Sender := map_Address_to_Directory(address); - out_msg.Destination.add(L2_TBEs[address].L1_GetX_ID); - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.Dirty := getL2CacheEntry(address).Dirty; - DEBUG_EXPR(out_msg.Address); - DEBUG_EXPR(out_msg.Destination); - DEBUG_EXPR(out_msg.DataBlk); - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - - - action(f_sendInvToSharers, "f", desc="invalidate sharers for L2 replacement") { - enqueue(L1RequestIntraChipL2Network_out, RequestMsg, latency="L2_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:INV; - out_msg.Requestor := machineID; - out_msg.Destination := L2cacheMemory[address].Sharers; - out_msg.MessageSize := MessageSizeType:Request_Control; - } - } - - action(fw_sendFwdInvToSharers, "fw", desc="invalidate sharers for request") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - enqueue(L1RequestIntraChipL2Network_out, RequestMsg, latency="L2_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:INV; - out_msg.Requestor := in_msg.Requestor; - out_msg.Destination := L2cacheMemory[address].Sharers; - out_msg.MessageSize := MessageSizeType:Request_Control; - } - } - } - - - action(fwm_sendFwdInvToSharersMinusRequestor, "fwm", desc="invalidate sharers for request, requestor is sharer") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - enqueue(L1RequestIntraChipL2Network_out, RequestMsg, latency="L2_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:INV; - out_msg.Requestor := in_msg.Requestor; - out_msg.Destination := L2cacheMemory[address].Sharers; - out_msg.Destination.remove(in_msg.Requestor); - out_msg.MessageSize := MessageSizeType:Request_Control; - } - } - } - - // OTHER ACTIONS - action(i_allocateTBE, "i", desc="Allocate TBE for internal/external request(isPrefetch=0, number of invalidates=0)") { - check_allocate(L2_TBEs); - L2_TBEs.allocate(address); - L2_TBEs[address].L1_GetS_IDs.clear(); - L2_TBEs[address].DataBlk := getL2CacheEntry(address).DataBlk; - L2_TBEs[address].Dirty := getL2CacheEntry(address).Dirty; - L2_TBEs[address].pendingAcks := getL2CacheEntry(address).Sharers.count(); - } - - action(s_deallocateTBE, "s", desc="Deallocate external TBE") { - L2_TBEs.deallocate(address); - } - - action(jj_popL1RequestQueue, "\j", desc="Pop incoming L1 request queue") { - profileMsgDelay(0, L1RequestIntraChipL2Network_in.dequeue_getDelayCycles()); - } - - action(k_popUnblockQueue, "k", desc="Pop incoming unblock queue") { - profileMsgDelay(0, L1unblockNetwork_in.dequeue_getDelayCycles()); - } - - - action(o_popIncomingResponseQueue, "o", desc="Pop Incoming Response queue") { - profileMsgDelay(3, responseIntraChipL2Network_in.dequeue_getDelayCycles()); - } - - - action(m_writeDataToCache, "m", desc="Write data from response queue to cache") { - peek(responseIntraChipL2Network_in, ResponseMsg) { - getL2CacheEntry(address).DataBlk := in_msg.DataBlk; - getL2CacheEntry(address).Dirty := in_msg.Dirty; - } - } - - action(mr_writeDataToCacheFromRequest, "mr", desc="Write data from response queue to cache") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - getL2CacheEntry(address).DataBlk := in_msg.DataBlk; - getL2CacheEntry(address).Dirty := in_msg.Dirty; - } - } - - action(q_updateAck, "q", desc="update pending ack count") { - peek(responseIntraChipL2Network_in, ResponseMsg) { - L2_TBEs[address].pendingAcks := L2_TBEs[address].pendingAcks - in_msg.AckCount; - APPEND_TRANSITION_COMMENT(in_msg.AckCount); - APPEND_TRANSITION_COMMENT(" p: "); - APPEND_TRANSITION_COMMENT(L2_TBEs[address].pendingAcks); - } - } - - action(qq_writeDataToTBE, "\qq", desc="Write data from response queue to TBE") { - peek(responseIntraChipL2Network_in, ResponseMsg) { - L2_TBEs[address].DataBlk := in_msg.DataBlk; - L2_TBEs[address].Dirty := in_msg.Dirty; - } - } - - - action(z_stall, "z", desc="Stall") { - } - - - action(ss_recordGetSL1ID, "\s", desc="Record L1 GetS for load response") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - L2_TBEs[address].L1_GetS_IDs.add(in_msg.Requestor); - } - } - - action(xx_recordGetXL1ID, "\x", desc="Record L1 GetX for store response") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - L2_TBEs[address].L1_GetX_ID := in_msg.Requestor; - } - } - - action(set_setMRU, "\set", desc="set the MRU entry") { - L2cacheMemory.setMRU(address); - } - - action(qq_allocateL2CacheBlock, "\q", desc="Set L2 cache tag equal to tag of block B.") { - if (L2cacheMemory.isTagPresent(address) == false) { - L2cacheMemory.allocate(address); - } - } - - action(rr_deallocateL2CacheBlock, "\r", desc="Deallocate L2 cache block. Sets the cache to not present, allowing a replacement in parallel with a fetch.") { - L2cacheMemory.deallocate(address); - } - - action(t_sendWBAck, "t", desc="Send writeback ACK") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="1") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:WB_ACK; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.MessageSize := MessageSizeType:Response_Control; - } - } - } - - action(ts_sendInvAckToUpgrader, "ts", desc="Send ACK to upgrader") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:ACK; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.MessageSize := MessageSizeType:Response_Control; - // upgrader doesn't get ack from itself, hence the + 1 - out_msg.AckCount := 0 - getL2CacheEntry(address).Sharers.count() + 1; - } - } - } - - action(uu_profileMiss, "\u", desc="Profile the demand miss") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - //profile_L2Cache_miss(convertToGenericType(in_msg.Type), in_msg.AccessMode, MessageSizeTypeToInt(in_msg.MessageSize), in_msg.Prefetch, L1CacheMachIDToProcessorNum(in_msg.Requestor)); - } - } - - action(ww_profileMissNoDir, "\w", desc="Profile this transition at the L2 because Dir won't see the request") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - // profile_request(in_msg.L1CacheStateStr, getStateStr(address), "NA", getCoherenceRequestTypeStr(in_msg.Type)); - } - } - - - - action(nn_addSharer, "\n", desc="Add L1 sharer to list") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - addSharer(address, in_msg.Requestor); - APPEND_TRANSITION_COMMENT( getL2CacheEntry(address).Sharers ); - } - } - - action(nnu_addSharerFromUnblock, "\nu", desc="Add L1 sharer to list") { - peek(L1unblockNetwork_in, ResponseMsg) { - addSharer(address, in_msg.Sender); - } - } - - - action(kk_removeRequestSharer, "\k", desc="Remove L1 Request sharer from list") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - L2cacheMemory[address].Sharers.remove(in_msg.Requestor); - } - } - - action(ll_clearSharers, "\l", desc="Remove all L1 sharers from list") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - L2cacheMemory[address].Sharers.clear(); - } - } - - action(mm_markExclusive, "\m", desc="set the exclusive owner") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - L2cacheMemory[address].Sharers.clear(); - L2cacheMemory[address].Exclusive := in_msg.Requestor; - addSharer(address, in_msg.Requestor); - } - } - - action(mmu_markExclusiveFromUnblock, "\mu", desc="set the exclusive owner") { - peek(L1unblockNetwork_in, ResponseMsg) { - L2cacheMemory[address].Sharers.clear(); - L2cacheMemory[address].Exclusive := in_msg.Sender; - addSharer(address, in_msg.Sender); - } - } - - action(zz_recycleL1RequestQueue, "zz", desc="recycle L1 request queue") { - L1RequestIntraChipL2Network_in.recycle(); - } - - //***************************************************** - // TRANSITIONS - //***************************************************** - - - //=============================================== - // BASE STATE - I - - // Transitions from I (Idle) - transition({NP, IS, ISS, IM, SS, M, M_I, MT_I, MCT_I, I_I, S_I, SS_MB, M_MB, MT_IIB, MT_IB, MT_SB}, L1_PUTX) { - jj_popL1RequestQueue; - } - - transition({NP, SS, M, MT, M_I, MT_I, MCT_I, I_I, S_I, IS, ISS, IM, SS_MB, MT_MB, M_MB, MT_IIB, MT_IB, MT_SB}, L1_PUTX_old) { - jj_popL1RequestQueue; - } - - transition({IM, IS, ISS, SS_MB, M_MB, MT_MB, MT_IIB, MT_IB, MT_SB}, {L2_Replacement, L2_Replacement_clean}) { - zz_recycleL1RequestQueue; - } - - transition({SS_MB, M_MB, MT_MB, MT_IIB, MT_IB, MT_SB}, {L1_GETS, L1_GET_INSTR, L1_GETX, L1_UPGRADE}) { - zz_recycleL1RequestQueue; - } - - - transition(NP, L1_GETS, ISS) { - qq_allocateL2CacheBlock; - ll_clearSharers; - nn_addSharer; - i_allocateTBE; - ss_recordGetSL1ID; - a_issueFetchToMemory; - uu_profileMiss; - jj_popL1RequestQueue; - } - - transition(NP, L1_GET_INSTR, IS) { - qq_allocateL2CacheBlock; - ll_clearSharers; - nn_addSharer; - i_allocateTBE; - ss_recordGetSL1ID; - a_issueFetchToMemory; - uu_profileMiss; - jj_popL1RequestQueue; - } - - transition(NP, L1_GETX, IM) { - qq_allocateL2CacheBlock; - ll_clearSharers; - // nn_addSharer; - i_allocateTBE; - xx_recordGetXL1ID; - a_issueFetchToMemory; - uu_profileMiss; - jj_popL1RequestQueue; - } - - - // transitions from IS/IM - - transition(ISS, Mem_Data, MT_MB) { - m_writeDataToCache; - ex_sendExclusiveDataToGetSRequestors; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // transition(IS, Mem_Data, SS) { - transition(IS, Mem_Data, SS_MB) { - m_writeDataToCache; - e_sendDataToGetSRequestors; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(IM, Mem_Data, MT_MB) { - m_writeDataToCache; - ee_sendDataToGetXRequestor; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - -/* - transition({IS, ISS}, {L1_GETS, L1_GET_INSTR}, IS) { - nn_addSharer; - ss_recordGetSL1ID; - uu_profileMiss; - jj_popL1RequestQueue; - } -*/ - - transition({IS, ISS}, {L1_GETS, L1_GET_INSTR}) { - zz_recycleL1RequestQueue; - } - - transition({IS, ISS}, L1_GETX) { - zz_recycleL1RequestQueue; - } - - transition(IM, {L1_GETX, L1_GETS, L1_GET_INSTR}) { - zz_recycleL1RequestQueue; - } - - // transitions from SS - // transition(SS, {L1_GETS, L1_GET_INSTR}) { - transition(SS, {L1_GETS, L1_GET_INSTR}, SS_MB) { - ds_sendSharedDataToRequestor; - nn_addSharer; - uu_profileMiss; - set_setMRU; - jj_popL1RequestQueue; - } - - - transition(SS, L1_GETX, SS_MB) { - d_sendDataToRequestor; - // fw_sendFwdInvToSharers; - fwm_sendFwdInvToSharersMinusRequestor; - uu_profileMiss; - set_setMRU; - jj_popL1RequestQueue; - } - - transition(SS, L1_UPGRADE, SS_MB) { - fwm_sendFwdInvToSharersMinusRequestor; - ts_sendInvAckToUpgrader; - uu_profileMiss; - set_setMRU; - jj_popL1RequestQueue; - } - - transition(SS, L2_Replacement_clean, I_I) { - i_allocateTBE; - f_sendInvToSharers; - rr_deallocateL2CacheBlock; - } - - transition(SS, L2_Replacement, S_I) { - i_allocateTBE; - f_sendInvToSharers; - rr_deallocateL2CacheBlock; - } - - transition(M, L1_GETX, MT_MB) { - d_sendDataToRequestor; - uu_profileMiss; - set_setMRU; - jj_popL1RequestQueue; - } - - // transition(M, L1_GET_INSTR, SS) { - transition(M, L1_GET_INSTR, SS_MB) { - d_sendDataToRequestor; - nn_addSharer; - uu_profileMiss; - set_setMRU; - jj_popL1RequestQueue; - } - - transition(M, L1_GETS, MT_MB) { - dd_sendExclusiveDataToRequestor; - uu_profileMiss; - set_setMRU; - jj_popL1RequestQueue; - } - - transition(M, L2_Replacement, M_I) { - i_allocateTBE; - c_exclusiveReplacement; - rr_deallocateL2CacheBlock; - } - - transition(M, L2_Replacement_clean, M_I) { - rr_deallocateL2CacheBlock; - } - - - // transitions from MT - - transition(MT, L1_GETX, MT_MB) { - b_forwardRequestToExclusive; - uu_profileMiss; - set_setMRU; - jj_popL1RequestQueue; - } - - - transition(MT, {L1_GETS, L1_GET_INSTR}, MT_IIB) { - b_forwardRequestToExclusive; - uu_profileMiss; - set_setMRU; - jj_popL1RequestQueue; - } - - transition(MT, L2_Replacement, MT_I) { - i_allocateTBE; - f_sendInvToSharers; - rr_deallocateL2CacheBlock; - } - - transition(MT, L2_Replacement_clean, MCT_I) { - i_allocateTBE; - f_sendInvToSharers; - rr_deallocateL2CacheBlock; - } - - transition(MT, L1_PUTX, M) { - ll_clearSharers; - mr_writeDataToCacheFromRequest; - t_sendWBAck; - jj_popL1RequestQueue; - } - - - // transitions from blocking states - transition(SS_MB, Unblock_Cancel, SS) { - k_popUnblockQueue; - } - - transition(MT_MB, Unblock_Cancel, MT) { - k_popUnblockQueue; - } - - transition(MT_IB, Unblock_Cancel, MT) { - k_popUnblockQueue; - } - - transition(SS_MB, Exclusive_Unblock, MT) { - // update actual directory - mmu_markExclusiveFromUnblock; - k_popUnblockQueue; - } - - transition(SS_MB, Unblock, SS) { - k_popUnblockQueue; - } - - transition({M_MB, MT_MB}, Exclusive_Unblock, MT) { - // update actual directory - mmu_markExclusiveFromUnblock; - k_popUnblockQueue; - } - - transition(MT_IIB, Unblock, MT_IB) { - nnu_addSharerFromUnblock; - k_popUnblockQueue; - } - - transition(MT_IIB, {WB_Data, WB_Data_clean}, MT_SB) { - m_writeDataToCache; - o_popIncomingResponseQueue; - } - - transition(MT_IB, {WB_Data, WB_Data_clean}, SS) { - m_writeDataToCache; - o_popIncomingResponseQueue; - } - - transition(MT_SB, Unblock, SS) { - nnu_addSharerFromUnblock; - k_popUnblockQueue; - } - - // writeback states - transition({I_I, S_I, MT_I, MCT_I, M_I}, {L1_GETX, L1_UPGRADE, L1_GETS, L1_GET_INSTR}) { - zz_recycleL1RequestQueue; - } - - transition(I_I, Ack) { - q_updateAck; - o_popIncomingResponseQueue; - } - - transition(I_I, Ack_all, NP) { - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition({MT_I, MCT_I}, WB_Data, M_I) { - qq_writeDataToTBE; - ct_exclusiveReplacementFromTBE; - o_popIncomingResponseQueue; - } - - transition(MCT_I, WB_Data_clean, NP) { - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // L1 never changed Dirty data - transition(MT_I, Ack_all, M_I) { - ct_exclusiveReplacementFromTBE; - o_popIncomingResponseQueue; - } - - // clean data that L1 exclusive never wrote - transition(MCT_I, Ack_all, NP) { - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // drop this because L1 will send data again - // the reason we don't accept is that the request virtual network may be completely backed up - // transition(MT_I, L1_PUTX) { - // jj_popL1RequestQueue; - //} - - // possible race between unblock and immediate replacement - transition(MT_MB, L1_PUTX) { - zz_recycleL1RequestQueue; - } - - transition(MT_I, WB_Data_clean, NP) { - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(S_I, Ack) { - q_updateAck; - o_popIncomingResponseQueue; - } - - transition(S_I, Ack_all, M_I) { - ct_exclusiveReplacementFromTBE; - o_popIncomingResponseQueue; - } - - transition(M_I, Mem_Ack, NP) { - s_deallocateTBE; - o_popIncomingResponseQueue; - } -} - diff --git a/src/mem/protocol/MESI_SCMP_bankdirectory-mem.sm b/src/mem/protocol/MESI_SCMP_bankdirectory-mem.sm deleted file mode 100644 index 1fcd234fe..000000000 --- a/src/mem/protocol/MESI_SCMP_bankdirectory-mem.sm +++ /dev/null @@ -1,166 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id: MOESI_CMP_token-dir.sm 1.6 05/01/19 15:48:35-06:00 mikem@royal16.cs.wisc.edu $ - */ - - -machine(Directory, "Token protocol") { - - MessageBuffer requestToDir, network="From", virtual_network="2", ordered="false"; - MessageBuffer responseToDir, network="From", virtual_network="3", ordered="false"; - MessageBuffer responseFromDir, network="To", virtual_network="3", ordered="false"; - - // STATES - enumeration(State, desc="Directory states", default="Directory_State_I") { - // Base states - I, desc="Owner"; - } - - // Events - enumeration(Event, desc="Directory events") { - Fetch, desc="A GETX arrives"; - Data, desc="A GETS arrives"; - } - - // TYPES - - // DirectoryEntry - structure(Entry, desc="...") { - DataBlock DataBlk, desc="data for the block"; - } - - external_type(DirectoryMemory) { - Entry lookup(Address); - bool isPresent(Address); - } - - - // ** OBJECTS ** - - DirectoryMemory directory, constructor_hack="i"; - - State getState(Address addr) { - return State:I; - } - - void setState(Address addr, State state) { - } - - // ** OUT_PORTS ** - out_port(responseNetwork_out, ResponseMsg, responseFromDir); - - // ** IN_PORTS ** - - in_port(requestNetwork_in, RequestMsg, requestToDir) { - if (requestNetwork_in.isReady()) { - peek(requestNetwork_in, RequestMsg) { - assert(in_msg.Destination.isElement(machineID)); - if (in_msg.Type == CoherenceRequestType:GETS) { - trigger(Event:Fetch, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GETX) { - trigger(Event:Fetch, in_msg.Address); - } else { - error("Invalid message"); - } - } - } - } - - in_port(responseNetwork_in, ResponseMsg, responseToDir) { - if (responseNetwork_in.isReady()) { - peek(responseNetwork_in, ResponseMsg) { - assert(in_msg.Destination.isElement(machineID)); - if (in_msg.Type == CoherenceResponseType:MEMORY_DATA) { - trigger(Event:Data, in_msg.Address); - } else { - DEBUG_EXPR(in_msg.Type); - error("Invalid message"); - } - } - } - } - - // Actions - action(a_sendAck, "a", desc="Send ack to L2") { - peek(responseNetwork_in, ResponseMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="MEMORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:MEMORY_ACK; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Sender); - out_msg.MessageSize := MessageSizeType:Response_Control; - } - } - } - - action(d_sendData, "d", desc="Send data to requestor") { - peek(requestNetwork_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="MEMORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:MEMORY_DATA; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DataBlk := directory[in_msg.Address].DataBlk; - out_msg.Dirty := false; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - } - - action(j_popIncomingRequestQueue, "j", desc="Pop incoming request queue") { - requestNetwork_in.dequeue(); - } - - action(k_popIncomingResponseQueue, "k", desc="Pop incoming request queue") { - responseNetwork_in.dequeue(); - } - - action(m_writeDataToMemory, "m", desc="Write dirty writeback to memory") { - peek(responseNetwork_in, ResponseMsg) { - directory[in_msg.Address].DataBlk := in_msg.DataBlk; - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(in_msg.DataBlk); - } - } - - // TRANSITIONS - - transition(I, Fetch) { - d_sendData; - j_popIncomingRequestQueue; - } - - transition(I, Data) { - m_writeDataToMemory; - a_sendAck; - k_popIncomingResponseQueue; - } -} diff --git a/src/mem/protocol/MESI_SCMP_bankdirectory-msg.sm b/src/mem/protocol/MESI_SCMP_bankdirectory-msg.sm deleted file mode 100644 index c2d02b59d..000000000 --- a/src/mem/protocol/MESI_SCMP_bankdirectory-msg.sm +++ /dev/null @@ -1,112 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id: MSI_MOSI_CMP_directory-msg.sm 1.5 05/01/19 15:48:37-06:00 mikem@royal16.cs.wisc.edu $ - * - */ - -// CoherenceRequestType -enumeration(CoherenceRequestType, desc="...") { - GETX, desc="Get eXclusive"; - UPGRADE, desc="UPGRADE to exclusive"; - GETS, desc="Get Shared"; - GET_INSTR, desc="Get Instruction"; - INV, desc="INValidate"; - PUTX, desc="replacement message"; -} - -// CoherenceResponseType -enumeration(CoherenceResponseType, desc="...") { - MEMORY_ACK, desc="Ack from memory controller"; - DATA, desc="Data"; - DATA_EXCLUSIVE, desc="Data"; - MEMORY_DATA, desc="Data"; - ACK, desc="Generic invalidate ack"; - WB_ACK, desc="writeback ack"; - UNBLOCK, desc="unblock"; - EXCLUSIVE_UNBLOCK, desc="exclusive unblock"; -} - -// RequestMsg -structure(RequestMsg, desc="...", interface="NetworkMessage") { - Address Address, desc="Physical address for this request"; - CoherenceRequestType Type, desc="Type of request (GetS, GetX, PutX, etc)"; - AccessModeType AccessMode, desc="user/supervisor access type"; - MachineID Requestor , desc="What component request"; - NetDest Destination, desc="What components receive the request, includes MachineType and num"; - MessageSizeType MessageSize, desc="size category of the message"; - DataBlock DataBlk, desc="Data for the cache line (if PUTX)"; - bool Dirty, default="false", desc="Dirty bit"; - PrefetchBit Prefetch, desc="Is this a prefetch request"; -} - -// ResponseMsg -structure(ResponseMsg, desc="...", interface="NetworkMessage") { - Address Address, desc="Physical address for this request"; - CoherenceResponseType Type, desc="Type of response (Ack, Data, etc)"; - MachineID Sender, desc="What component sent the data"; - NetDest Destination, desc="Node to whom the data is sent"; - DataBlock DataBlk, desc="Data for the cache line"; - bool Dirty, default="false", desc="Dirty bit"; - int AckCount, default="0", desc="number of acks in this message"; - MessageSizeType MessageSize, desc="size category of the message"; -} - -/* -GenericRequestType convertToGenericType(CoherenceRequestType type) { - if(type == CoherenceRequestType:PUTX) { - return GenericRequestType:PUTX; - } else if(type == CoherenceRequestType:GETS) { - return GenericRequestType:GETS; - } else if(type == CoherenceRequestType:GET_INSTR) { - return GenericRequestType:GET_INSTR; - } else if(type == CoherenceRequestType:GETX) { - return GenericRequestType:GETX; - } else if(type == CoherenceRequestType:UPGRADE) { - return GenericRequestType:UPGRADE; - } else if(type == CoherenceRequestType:PUTS) { - return GenericRequestType:PUTS; - } else if(type == CoherenceRequestType:INV) { - return GenericRequestType:INV; - } else if(type == CoherenceRequestType:INV_S) { - return GenericRequestType:INV_S; - } else if(type == CoherenceRequestType:L1_DG) { - return GenericRequestType:DOWNGRADE; - } else if(type == CoherenceRequestType:WB_ACK) { - return GenericRequestType:WB_ACK; - } else if(type == CoherenceRequestType:EXE_ACK) { - return GenericRequestType:EXE_ACK; - } else { - DEBUG_EXPR(type); - error("invalid CoherenceRequestType"); - } -} -*/ - diff --git a/src/mem/protocol/MESI_SCMP_bankdirectory.slicc b/src/mem/protocol/MESI_SCMP_bankdirectory.slicc deleted file mode 100644 index 2d07999d7..000000000 --- a/src/mem/protocol/MESI_SCMP_bankdirectory.slicc +++ /dev/null @@ -1,5 +0,0 @@ -MESI_SCMP_bankdirectory-msg.sm -MESI_SCMP_bankdirectory-L2cache.sm -MESI_SCMP_bankdirectory-L1cache.sm -MESI_SCMP_bankdirectory-mem.sm -standard_CMP-protocol.sm diff --git a/src/mem/protocol/MESI_SCMP_bankdirectory_m-mem.sm b/src/mem/protocol/MESI_SCMP_bankdirectory_m-mem.sm deleted file mode 100644 index 37ecb2ffa..000000000 --- a/src/mem/protocol/MESI_SCMP_bankdirectory_m-mem.sm +++ /dev/null @@ -1,250 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id: MOESI_CMP_token-dir.sm 1.6 05/01/19 15:48:35-06:00 mikem@royal16.cs.wisc.edu $ - */ - -// This file is copied from Yasuko Watanabe's prefetch / memory protocol -// Copied here by aep 12/14/07 - - -machine(Directory, "MESI_SCMP_bankdirectory protocol") { - - MessageBuffer requestToDir, network="From", virtual_network="2", ordered="false"; - MessageBuffer responseToDir, network="From", virtual_network="3", ordered="false"; - MessageBuffer responseFromDir, network="To", virtual_network="3", ordered="false"; - - // STATES - enumeration(State, desc="Directory states", default="Directory_State_I") { - // Base states - I, desc="Owner"; - } - - // Events - enumeration(Event, desc="Directory events") { - Fetch, desc="A memory fetch arrives"; - Data, desc="writeback data arrives"; - Memory_Data, desc="Fetched data from memory arrives"; - Memory_Ack, desc="Writeback Ack from memory arrives"; - } - - // TYPES - - // DirectoryEntry - structure(Entry, desc="...") { - DataBlock DataBlk, desc="data for the block"; - } - - external_type(DirectoryMemory) { - Entry lookup(Address); - bool isPresent(Address); - } - - // to simulate detailed DRAM - external_type(MemoryControl, inport="yes", outport="yes") { - - } - - - // ** OBJECTS ** - - DirectoryMemory directory, constructor_hack="i"; - MemoryControl memBuffer, constructor_hack="i"; - - State getState(Address addr) { - return State:I; - } - - void setState(Address addr, State state) { - } - - bool isGETRequest(CoherenceRequestType type) { - return (type == CoherenceRequestType:GETS) || - (type == CoherenceRequestType:GET_INSTR) || - (type == CoherenceRequestType:GETX); - } - - - // ** OUT_PORTS ** - out_port(responseNetwork_out, ResponseMsg, responseFromDir); - out_port(memQueue_out, MemoryMsg, memBuffer); - - // ** IN_PORTS ** - - in_port(requestNetwork_in, RequestMsg, requestToDir) { - if (requestNetwork_in.isReady()) { - peek(requestNetwork_in, RequestMsg) { - assert(in_msg.Destination.isElement(machineID)); - if (isGETRequest(in_msg.Type)) { - trigger(Event:Fetch, in_msg.Address); - } else { - DEBUG_EXPR(in_msg); - error("Invalid message"); - } - } - } - } - - in_port(responseNetwork_in, ResponseMsg, responseToDir) { - if (responseNetwork_in.isReady()) { - peek(responseNetwork_in, ResponseMsg) { - assert(in_msg.Destination.isElement(machineID)); - if (in_msg.Type == CoherenceResponseType:MEMORY_DATA) { - trigger(Event:Data, in_msg.Address); - } else { - DEBUG_EXPR(in_msg.Type); - error("Invalid message"); - } - } - } - } - - // off-chip memory request/response is done - in_port(memQueue_in, MemoryMsg, memBuffer) { - if (memQueue_in.isReady()) { - peek(memQueue_in, MemoryMsg) { - if (in_msg.Type == MemoryRequestType:MEMORY_READ) { - trigger(Event:Memory_Data, in_msg.Address); - } else if (in_msg.Type == MemoryRequestType:MEMORY_WB) { - trigger(Event:Memory_Ack, in_msg.Address); - } else { - DEBUG_EXPR(in_msg.Type); - error("Invalid message"); - } - } - } - } - - - - // Actions - action(a_sendAck, "a", desc="Send ack to L2") { - peek(memQueue_in, MemoryMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="1") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:MEMORY_ACK; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.OriginalRequestorMachId); - out_msg.MessageSize := MessageSizeType:Response_Control; - } - } - } - - action(d_sendData, "d", desc="Send data to requestor") { - peek(memQueue_in, MemoryMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="1") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:MEMORY_DATA; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.OriginalRequestorMachId); - out_msg.DataBlk := in_msg.DataBlk; - out_msg.Dirty := false; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - } - - action(j_popIncomingRequestQueue, "j", desc="Pop incoming request queue") { - requestNetwork_in.dequeue(); - } - - action(k_popIncomingResponseQueue, "k", desc="Pop incoming request queue") { - responseNetwork_in.dequeue(); - } - - action(l_popMemQueue, "q", desc="Pop off-chip request queue") { - memQueue_in.dequeue(); - } - - action(qf_queueMemoryFetchRequest, "qf", desc="Queue off-chip fetch request") { - peek(requestNetwork_in, RequestMsg) { - enqueue(memQueue_out, MemoryMsg, latency="1") { - out_msg.Address := address; - out_msg.Type := MemoryRequestType:MEMORY_READ; - out_msg.Sender := machineID; - out_msg.OriginalRequestorMachId := in_msg.Requestor; - out_msg.MessageSize := in_msg.MessageSize; - out_msg.Prefetch := in_msg.Prefetch; - out_msg.DataBlk := directory[in_msg.Address].DataBlk; - - DEBUG_EXPR(out_msg); - } - } - } - - action(qw_queueMemoryWBRequest, "qw", desc="Queue off-chip writeback request") { - peek(responseNetwork_in, ResponseMsg) { - enqueue(memQueue_out, MemoryMsg, latency="1") { - out_msg.Address := address; - out_msg.Type := MemoryRequestType:MEMORY_WB; - out_msg.Sender := machineID; - out_msg.OriginalRequestorMachId := in_msg.Sender; - out_msg.DataBlk := in_msg.DataBlk; - out_msg.MessageSize := in_msg.MessageSize; - //out_msg.Prefetch := in_msg.Prefetch; - - DEBUG_EXPR(out_msg); - } - } - } - - action(m_writeDataToMemory, "m", desc="Write dirty writeback to memory") { - peek(responseNetwork_in, ResponseMsg) { - directory[in_msg.Address].DataBlk := in_msg.DataBlk; - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(in_msg.DataBlk); - } - } - - // TRANSITIONS - - transition(I, Fetch) { - //d_sendData; - qf_queueMemoryFetchRequest; - j_popIncomingRequestQueue; - } - - transition(I, Data) { - m_writeDataToMemory; - //a_sendAck; - qw_queueMemoryWBRequest; - k_popIncomingResponseQueue; - } - - transition(I, Memory_Data) { - d_sendData; - l_popMemQueue; - } - - transition(I, Memory_Ack) { - a_sendAck; - l_popMemQueue; - } -} diff --git a/src/mem/protocol/MESI_SCMP_bankdirectory_m.slicc b/src/mem/protocol/MESI_SCMP_bankdirectory_m.slicc deleted file mode 100644 index 4752cea5a..000000000 --- a/src/mem/protocol/MESI_SCMP_bankdirectory_m.slicc +++ /dev/null @@ -1,5 +0,0 @@ -MESI_SCMP_bankdirectory-msg.sm -MESI_SCMP_bankdirectory-L2cache.sm -MESI_SCMP_bankdirectory-L1cache.sm -MESI_SCMP_bankdirectory_m-mem.sm -standard_CMP-protocol.sm diff --git a/src/mem/protocol/MOESI_CMP_directory-perfectDir.sm b/src/mem/protocol/MOESI_CMP_directory-perfectDir.sm deleted file mode 100644 index 52d6ca48b..000000000 --- a/src/mem/protocol/MOESI_CMP_directory-perfectDir.sm +++ /dev/null @@ -1,573 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id: MOESI_CMP_directory-dir.sm 1.11 05/01/19 15:48:35-06:00 mikem@royal16.cs.wisc.edu $ - */ - -machine(Directory, "Directory protocol") { - - // ** IN QUEUES ** - MessageBuffer foo1, network="From", virtual_network="0", ordered="false"; // a mod-L2 bank -> this Dir - MessageBuffer requestToDir, network="From", virtual_network="1", ordered="false"; // a mod-L2 bank -> this Dir - MessageBuffer responseToDir, network="From", virtual_network="2", ordered="false"; // a mod-L2 bank -> this Dir - - MessageBuffer goo1, network="To", virtual_network="0", ordered="false"; - MessageBuffer forwardFromDir, network="To", virtual_network="1", ordered="false"; - MessageBuffer responseFromDir, network="To", virtual_network="2", ordered="false"; // Dir -> mod-L2 bank - - - // STATES - enumeration(State, desc="Directory states", default="Directory_State_I") { - // Base states - I, desc="Invalid"; - S, desc="Shared"; - O, desc="Owner"; - M, desc="Modified"; - - IS, desc="Blocked, was in idle"; - SS, desc="Blocked, was in shared"; - OO, desc="Blocked, was in owned"; - MO, desc="Blocked, going to owner or maybe modified"; - MM, desc="Blocked, going to modified"; - - MI, desc="Blocked on a writeback"; - MIS, desc="Blocked on a writeback, but don't remove from sharers when received"; - OS, desc="Blocked on a writeback"; - OSS, desc="Blocked on a writeback, but don't remove from sharers when received"; - } - - // Events - enumeration(Event, desc="Directory events") { - GETX, desc="A GETX arrives"; - GETS, desc="A GETS arrives"; - PUTX, desc="A PUTX arrives"; - PUTO, desc="A PUTO arrives"; - PUTO_SHARERS, desc="A PUTO arrives, but don't remove from sharers list"; - Unblock, desc="An unblock message arrives"; - Last_Unblock, desc="An unblock message arrives, we're not waiting for any additional unblocks"; - Exclusive_Unblock, desc="The processor become the exclusive owner (E or M) of the line"; - Clean_Writeback, desc="The final message as part of a PutX/PutS, no data"; - Dirty_Writeback, desc="The final message as part of a PutX/PutS, contains data"; - } - - // TYPES - - // DirectoryEntry - structure(Entry, desc="...") { - State DirectoryState, desc="Directory state"; - DataBlock DataBlk, desc="data for the block"; - NetDest Sharers, desc="Sharers for this block"; - NetDest Owner, desc="Owner of this block"; - int WaitingUnblocks, desc="Number of acks we're waiting for"; - } - - external_type(DirectoryMemory) { - Entry lookup(Address); - bool isPresent(Address); - } - - - // ** OBJECTS ** - - DirectoryMemory directory, constructor_hack="i"; - - State getState(Address addr) { - return directory[addr].DirectoryState; - } - - void setState(Address addr, State state) { - if (directory.isPresent(addr)) { - - if (state == State:I) { - assert(directory[addr].Owner.count() == 0); - assert(directory[addr].Sharers.count() == 0); - } - - if (state == State:S) { - assert(directory[addr].Owner.count() == 0); - } - - if (state == State:O) { - assert(directory[addr].Owner.count() == 1); - assert(directory[addr].Sharers.isSuperset(directory[addr].Owner) == false); - } - - if (state == State:M) { - assert(directory[addr].Owner.count() == 1); - assert(directory[addr].Sharers.count() == 0); - } - - if ((state != State:SS) && (state != State:OO)) { - assert(directory[addr].WaitingUnblocks == 0); - } - - if ( (directory[addr].DirectoryState != State:I) && (state == State:I) ) { - directory[addr].DirectoryState := state; - // disable coherence checker - // sequencer.checkCoherence(addr); - } - else { - directory[addr].DirectoryState := state; - } - } - } - - // if no sharers, then directory can be considered both a sharer and exclusive w.r.t. coherence checking - bool isBlockShared(Address addr) { - if (directory.isPresent(addr)) { - if (directory[addr].DirectoryState == State:I) { - return true; - } - } - return false; - } - - bool isBlockExclusive(Address addr) { - if (directory.isPresent(addr)) { - if (directory[addr].DirectoryState == State:I) { - return true; - } - } - return false; - } - - - // ** OUT_PORTS ** - out_port(forwardNetwork_out, RequestMsg, forwardFromDir); - out_port(responseNetwork_out, ResponseMsg, responseFromDir); -// out_port(requestQueue_out, ResponseMsg, requestFromDir); // For recycling requests - out_port(goo1_out, ResponseMsg, goo1); - - // ** IN_PORTS ** - - in_port(foo1_in, ResponseMsg, foo1) { - - } - - // in_port(unblockNetwork_in, ResponseMsg, unblockToDir) { - // if (unblockNetwork_in.isReady()) { - in_port(unblockNetwork_in, ResponseMsg, responseToDir) { - if (unblockNetwork_in.isReady()) { - peek(unblockNetwork_in, ResponseMsg) { - if (in_msg.Type == CoherenceResponseType:UNBLOCK) { - if (directory[in_msg.Address].WaitingUnblocks == 1) { - trigger(Event:Last_Unblock, in_msg.Address); - } else { - trigger(Event:Unblock, in_msg.Address); - } - } else if (in_msg.Type == CoherenceResponseType:UNBLOCK_EXCLUSIVE) { - trigger(Event:Exclusive_Unblock, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:WRITEBACK_DIRTY_DATA) { - trigger(Event:Dirty_Writeback, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:WRITEBACK_CLEAN_ACK) { - trigger(Event:Clean_Writeback, in_msg.Address); - } else { - error("Invalid message"); - } - } - } - } - - in_port(requestQueue_in, RequestMsg, requestToDir) { - if (requestQueue_in.isReady()) { - peek(requestQueue_in, RequestMsg) { - if (in_msg.Type == CoherenceRequestType:GETS) { - trigger(Event:GETS, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GETX) { - trigger(Event:GETX, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:PUTX) { - trigger(Event:PUTX, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:PUTO) { - trigger(Event:PUTO, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:PUTO_SHARERS) { - trigger(Event:PUTO_SHARERS, in_msg.Address); - } else { - error("Invalid message"); - } - } - } - } - - // Actions - - action(a_sendWriteBackAck, "a", desc="Send writeback ack to requestor") { - peek(requestQueue_in, RequestMsg) { - enqueue(forwardNetwork_out, RequestMsg, latency="DIRECTORY_CACHE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:WB_ACK; - out_msg.Requestor := in_msg.Requestor; - out_msg.Destination.add(in_msg.Requestor); - out_msg.MessageSize := MessageSizeType:Writeback_Control; - } - } - } - - action(b_sendWriteBackNack, "b", desc="Send writeback nack to requestor") { - peek(requestQueue_in, RequestMsg) { - enqueue(forwardNetwork_out, RequestMsg, latency="DIRECTORY_CACHE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:WB_NACK; - out_msg.Requestor := in_msg.Requestor; - out_msg.Destination.add(in_msg.Requestor); - out_msg.MessageSize := MessageSizeType:Writeback_Control; - } - } - } - - action(c_clearOwner, "c", desc="Clear the owner field") { - directory[address].Owner.clear(); - } - - action(c_moveOwnerToSharer, "cc", desc="Move owner to sharers") { - directory[address].Sharers.addNetDest(directory[address].Owner); - directory[address].Owner.clear(); - } - - action(cc_clearSharers, "\c", desc="Clear the sharers field") { - directory[address].Sharers.clear(); - } - - action(d_sendData, "d", desc="Send data to requestor") { - peek(requestQueue_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="MEMORY_LATENCY") { - // enqueue(responseNetwork_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - - if (in_msg.Type == CoherenceRequestType:GETS && directory[address].Sharers.count() == 0) { - out_msg.Type := CoherenceResponseType:DATA_EXCLUSIVE; - } else { - out_msg.Type := CoherenceResponseType:DATA; - } - - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:Directory; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DataBlk := directory[in_msg.Address].DataBlk; - out_msg.Dirty := false; // By definition, the block is now clean - out_msg.Acks := directory[address].Sharers.count(); - if (directory[address].Sharers.isElement(in_msg.Requestor)) { - out_msg.Acks := out_msg.Acks - 1; - } - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - } - - action(e_ownerIsUnblocker, "e", desc="The owner is now the unblocker") { - peek(unblockNetwork_in, ResponseMsg) { - directory[address].Owner.clear(); - directory[address].Owner.add(in_msg.Sender); - } - } - - action(f_forwardRequest, "f", desc="Forward request to owner") { - peek(requestQueue_in, RequestMsg) { - enqueue(forwardNetwork_out, RequestMsg, latency="DIRECTORY_CACHE_LATENCY") { - out_msg.Address := address; - out_msg.Type := in_msg.Type; - out_msg.Requestor := in_msg.Requestor; - out_msg.Destination.addNetDest(directory[in_msg.Address].Owner); - out_msg.Acks := directory[address].Sharers.count(); - if (directory[address].Sharers.isElement(in_msg.Requestor)) { - out_msg.Acks := out_msg.Acks - 1; - } - out_msg.MessageSize := MessageSizeType:Forwarded_Control; - } - } - } - - action(g_sendInvalidations, "g", desc="Send invalidations to sharers, not including the requester") { - peek(requestQueue_in, RequestMsg) { - if ((directory[in_msg.Address].Sharers.count() > 1) || - ((directory[in_msg.Address].Sharers.count() > 0) && (directory[in_msg.Address].Sharers.isElement(in_msg.Requestor) == false))) { - enqueue(forwardNetwork_out, RequestMsg, latency="DIRECTORY_CACHE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:INV; - out_msg.Requestor := in_msg.Requestor; - // out_msg.Destination := directory[in_msg.Address].Sharers; - out_msg.Destination.addNetDest(directory[in_msg.Address].Sharers); - out_msg.Destination.remove(in_msg.Requestor); - out_msg.MessageSize := MessageSizeType:Invalidate_Control; - } - } - } - } - - action(i_popIncomingRequestQueue, "i", desc="Pop incoming request queue") { - requestQueue_in.dequeue(); - } - - action(j_popIncomingUnblockQueue, "j", desc="Pop incoming unblock queue") { - unblockNetwork_in.dequeue(); - } - - action(l_writeDataToMemory, "l", desc="Write PUTX/PUTO data to memory") { - peek(unblockNetwork_in, ResponseMsg) { - assert(in_msg.Dirty); - assert(in_msg.MessageSize == MessageSizeType:Writeback_Data); - directory[in_msg.Address].DataBlk := in_msg.DataBlk; - DPRINTF(RubySlicc, "Address: %s, Data Block: %s\n", - in_msg.Address, in_msg.DataBlk); - } - } - - action(ll_checkDataInMemory, "\l", desc="Check PUTX/PUTO data is same as in the memory") { - peek(unblockNetwork_in, ResponseMsg) { - assert(in_msg.Dirty == false); - assert(in_msg.MessageSize == MessageSizeType:Writeback_Control); - - // NOTE: The following check would not be valid in a real - // implementation. We include the data in the "dataless" - // message so we can assert the clean data matches the datablock - // in memory - assert(directory[in_msg.Address].DataBlk == in_msg.DataBlk); - } - } - - action(m_addUnlockerToSharers, "m", desc="Add the unlocker to the sharer list") { - peek(unblockNetwork_in, ResponseMsg) { - directory[address].Sharers.add(in_msg.Sender); - } - } - - action(n_incrementOutstanding, "n", desc="Increment outstanding requests") { - directory[address].WaitingUnblocks := directory[address].WaitingUnblocks + 1; - } - - action(o_decrementOutstanding, "o", desc="Decrement outstanding requests") { - directory[address].WaitingUnblocks := directory[address].WaitingUnblocks - 1; - assert(directory[address].WaitingUnblocks >= 0); - } - - // action(z_stall, "z", desc="Cannot be handled right now.") { - // Special name recognized as do nothing case - // } - - action(zz_recycleRequest, "\z", desc="Recycle the request queue") { - requestQueue_in.recycle(); - } - - // TRANSITIONS - - transition(I, GETX, MM) { - d_sendData; - i_popIncomingRequestQueue; - } - - transition(S, GETX, MM) { - d_sendData; - g_sendInvalidations; - i_popIncomingRequestQueue; - } - - transition(I, GETS, IS) { - d_sendData; - i_popIncomingRequestQueue; - } - - transition({S, SS}, GETS, SS) { - d_sendData; - n_incrementOutstanding; - i_popIncomingRequestQueue; - } - - transition({I, S}, PUTO) { - b_sendWriteBackNack; - i_popIncomingRequestQueue; - } - - transition({I, S, O}, PUTX) { - b_sendWriteBackNack; - i_popIncomingRequestQueue; - } - - transition(O, GETX, MM) { - f_forwardRequest; - g_sendInvalidations; - i_popIncomingRequestQueue; - } - - transition({O, OO}, GETS, OO) { - f_forwardRequest; - n_incrementOutstanding; - i_popIncomingRequestQueue; - } - - transition(M, GETX, MM) { - f_forwardRequest; - i_popIncomingRequestQueue; - } - - transition(M, GETS, MO) { - f_forwardRequest; - i_popIncomingRequestQueue; - } - - transition(M, PUTX, MI) { - a_sendWriteBackAck; - i_popIncomingRequestQueue; - } - - // happens if M->O transition happens on-chip - transition(M, PUTO, MI) { - a_sendWriteBackAck; - i_popIncomingRequestQueue; - } - - transition(M, PUTO_SHARERS, MIS) { - a_sendWriteBackAck; - i_popIncomingRequestQueue; - } - - transition(O, PUTO, OS) { - a_sendWriteBackAck; - i_popIncomingRequestQueue; - } - - transition(O, PUTO_SHARERS, OSS) { - a_sendWriteBackAck; - i_popIncomingRequestQueue; - } - - - transition({MM, MO, MI, MIS, OS, OSS}, {GETS, GETX, PUTO, PUTO_SHARERS, PUTX}) { - zz_recycleRequest; - } - - transition({MM, MO}, Exclusive_Unblock, M) { - cc_clearSharers; - e_ownerIsUnblocker; - j_popIncomingUnblockQueue; - } - - transition(MO, Unblock, O) { - m_addUnlockerToSharers; - j_popIncomingUnblockQueue; - } - - transition({IS, SS, OO}, {GETX, PUTO, PUTO_SHARERS, PUTX}) { - zz_recycleRequest; - } - - transition(IS, GETS) { - zz_recycleRequest; - } - - transition(IS, Unblock, S) { - m_addUnlockerToSharers; - j_popIncomingUnblockQueue; - } - - transition(IS, Exclusive_Unblock, M) { - cc_clearSharers; - e_ownerIsUnblocker; - j_popIncomingUnblockQueue; - } - - transition(SS, Unblock) { - m_addUnlockerToSharers; - o_decrementOutstanding; - j_popIncomingUnblockQueue; - } - - transition(SS, Last_Unblock, S) { - m_addUnlockerToSharers; - o_decrementOutstanding; - j_popIncomingUnblockQueue; - } - - transition(OO, Unblock) { - m_addUnlockerToSharers; - o_decrementOutstanding; - j_popIncomingUnblockQueue; - } - - transition(OO, Last_Unblock, O) { - m_addUnlockerToSharers; - o_decrementOutstanding; - j_popIncomingUnblockQueue; - } - - transition(MI, Dirty_Writeback, I) { - c_clearOwner; - cc_clearSharers; - l_writeDataToMemory; - j_popIncomingUnblockQueue; - } - - transition(MIS, Dirty_Writeback, S) { - c_moveOwnerToSharer; - l_writeDataToMemory; - j_popIncomingUnblockQueue; - } - - transition(MIS, Clean_Writeback, S) { - c_moveOwnerToSharer; - j_popIncomingUnblockQueue; - } - - transition(OS, Dirty_Writeback, S) { - c_clearOwner; - l_writeDataToMemory; - j_popIncomingUnblockQueue; - } - - transition(OSS, Dirty_Writeback, S) { - c_moveOwnerToSharer; - l_writeDataToMemory; - j_popIncomingUnblockQueue; - } - - transition(OSS, Clean_Writeback, S) { - c_moveOwnerToSharer; - j_popIncomingUnblockQueue; - } - - transition(MI, Clean_Writeback, I) { - c_clearOwner; - cc_clearSharers; - ll_checkDataInMemory; - j_popIncomingUnblockQueue; - } - - transition(OS, Clean_Writeback, S) { - c_clearOwner; - ll_checkDataInMemory; - j_popIncomingUnblockQueue; - } - - transition({MI, MIS}, Unblock, M) { - j_popIncomingUnblockQueue; - } - - transition({OS, OSS}, Unblock, O) { - j_popIncomingUnblockQueue; - } -} diff --git a/src/mem/protocol/MOESI_SMP_directory-cache.sm b/src/mem/protocol/MOESI_SMP_directory-cache.sm deleted file mode 100644 index 77edeb90c..000000000 --- a/src/mem/protocol/MOESI_SMP_directory-cache.sm +++ /dev/null @@ -1,981 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id$ - * - */ - -machine(L1Cache, "Directory protocol") { - - MessageBuffer requestFromCache, network="To", virtual_network="0", ordered="false"; - MessageBuffer responseFromCache, network="To", virtual_network="2", ordered="false"; - MessageBuffer unblockFromCache, network="To", virtual_network="3", ordered="false"; - - MessageBuffer forwardToCache, network="From", virtual_network="1", ordered="false"; - MessageBuffer responseToCache, network="From", virtual_network="2", ordered="false"; - - // STATES - enumeration(State, desc="Cache states", default="L1Cache_State_I") { - // Base states - NP, desc="Not Present"; - I, desc="Idle"; - S, desc="Shared"; - O, desc="Owned"; - E, desc="Exclusive (clean)"; - M, desc="Modified (dirty)"; - MM, desc="Modified (dirty and locally modified)"; - - // Transient States - IM, "IM", desc="Issued GetX"; - SM, "SM", desc="Issued GetX, we still have an old copy of the line"; - OM, "OM", desc="Issued GetX, received data"; - IS, "IS", desc="Issued GetS"; - OI, "OI", desc="Issued PutO, waiting for ack"; - MI, "MI", desc="Issued PutX, waiting for ack"; - II, "II", desc="Issued PutX/O, saw Fwd_GETS or Fwd_GETX, waiting for ack"; - } - - // EVENTS - enumeration(Event, desc="Cache events") { - Load, desc="Load request from the processor"; - Ifetch, desc="I-fetch request from the processor"; - Store, desc="Store request from the processor"; - L2_Replacement, desc="Replacement"; - L1_to_L2, desc="L1 to L2 transfer"; - L2_to_L1D, desc="L2 to L1-Data transfer"; - L2_to_L1I, desc="L2 to L1-Instruction transfer"; - - // Requests - Own_GETX, desc="We observe our own GetX forwarded back to us"; - Fwd_GETX, desc="A GetX from another processor"; - Fwd_GETS, desc="A GetS from another processor"; - Inv, desc="Invalidations from the directory"; - - // Responses - Ack, desc="Received an ack message"; - Data, desc="Received a data message, responder has a shared copy"; - Exclusive_Data_Clean, desc="Received a data message, no other processor has it, data is clean"; - Exclusive_Data_Dirty, desc="Received a data message, no other processor has it, data is dirty"; - - Writeback_Ack, desc="Writeback O.K. from directory"; - Writeback_Nack, desc="Writeback not O.K. from directory"; - - // Triggers - All_acks, desc="Received all required data and message acks"; - } - - // TYPES - - // CacheEntry - structure(Entry, desc="...", interface="AbstractCacheEntry") { - State CacheState, desc="cache state"; - bool Dirty, desc="Is the data dirty (different than memory)?"; - DataBlock DataBlk, desc="data for the block"; - } - - // TBE fields - structure(TBE, desc="...") { - State TBEState, desc="Transient state"; - DataBlock DataBlk, desc="data for the block, required for concurrent writebacks"; - bool Dirty, desc="Is the data dirty (different than memory)?"; - int NumPendingMsgs, default="0", desc="Number of acks/data messages that this processor is waiting for"; - } - - external_type(CacheMemory) { - bool cacheAvail(Address); - Address cacheProbe(Address); - void allocate(Address); - void deallocate(Address); - Entry lookup(Address); - void changePermission(Address, AccessPermission); - bool isTagPresent(Address); - } - - external_type(TBETable) { - TBE lookup(Address); - void allocate(Address); - void deallocate(Address); - bool isPresent(Address); - } - - MessageBuffer mandatoryQueue, abstract_chip_ptr="true", ordered="false"; - Sequencer sequencer, abstract_chip_ptr="true", constructor_hack="i"; - StoreBuffer storeBuffer, abstract_chip_ptr="true", constructor_hack="i"; - - TBETable TBEs, template_hack="<L1Cache_TBE>"; - CacheMemory L1IcacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L1_CACHE_NUM_SETS_BITS,L1_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_L1I"', abstract_chip_ptr="true"; - CacheMemory L1DcacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L1_CACHE_NUM_SETS_BITS,L1_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_L1D"', abstract_chip_ptr="true"; - CacheMemory L2cacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L2_CACHE_NUM_SETS_BITS,L2_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_L2"', abstract_chip_ptr="true"; - - Entry getCacheEntry(Address addr), return_by_ref="yes" { - if (L2cacheMemory.isTagPresent(addr)) { - return L2cacheMemory[addr]; - } else if (L1DcacheMemory.isTagPresent(addr)) { - return L1DcacheMemory[addr]; - } else { - return L1IcacheMemory[addr]; - } - } - - void changePermission(Address addr, AccessPermission permission) { - if (L2cacheMemory.isTagPresent(addr)) { - return L2cacheMemory.changePermission(addr, permission); - } else if (L1DcacheMemory.isTagPresent(addr)) { - return L1DcacheMemory.changePermission(addr, permission); - } else { - return L1IcacheMemory.changePermission(addr, permission); - } - } - - bool isCacheTagPresent(Address addr) { - return (L2cacheMemory.isTagPresent(addr) || L1DcacheMemory.isTagPresent(addr) || L1IcacheMemory.isTagPresent(addr)); - } - - State getState(Address addr) { - assert((L1DcacheMemory.isTagPresent(addr) && L1IcacheMemory.isTagPresent(addr)) == false); - assert((L1IcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false); - assert((L1DcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false); - - if(TBEs.isPresent(addr)) { - return TBEs[addr].TBEState; - } else if (isCacheTagPresent(addr)) { - return getCacheEntry(addr).CacheState; - } - return State:NP; - } - - void setState(Address addr, State state) { - assert((L1DcacheMemory.isTagPresent(addr) && L1IcacheMemory.isTagPresent(addr)) == false); - assert((L1IcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false); - assert((L1DcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false); - - if (TBEs.isPresent(addr)) { - TBEs[addr].TBEState := state; - } - - if (isCacheTagPresent(addr)) { - getCacheEntry(addr).CacheState := state; - - if (state == State:E) { - assert(getCacheEntry(addr).Dirty == false); - } - - if ((state == State:M) || (state == State:MM)) { - assert(getCacheEntry(addr).Dirty == true); - } - - // Set permission - if (state == State:MM) { - changePermission(addr, AccessPermission:Read_Write); - } else if ((state == State:S) || - (state == State:O) || - (state == State:M) || - (state == State:E) || - (state == State:SM) || - (state == State:OM)) { - changePermission(addr, AccessPermission:Read_Only); - } else { - changePermission(addr, AccessPermission:Invalid); - } - } - } - - Event mandatory_request_type_to_event(CacheRequestType type) { - if (type == CacheRequestType:LD) { - return Event:Load; - } else if (type == CacheRequestType:IFETCH) { - return Event:Ifetch; - } else if ((type == CacheRequestType:ST) || (type == CacheRequestType:ATOMIC)) { - return Event:Store; - } else { - error("Invalid CacheRequestType"); - } - } - - MessageBuffer triggerQueue, ordered="true"; - - // ** OUT_PORTS ** - - out_port(requestNetwork_out, RequestMsg, requestFromCache); - out_port(responseNetwork_out, ResponseMsg, responseFromCache); - out_port(unblockNetwork_out, ResponseMsg, unblockFromCache); - out_port(triggerQueue_out, TriggerMsg, triggerQueue); - - // ** IN_PORTS ** - - // Trigger Queue - in_port(triggerQueue_in, TriggerMsg, triggerQueue) { - if (triggerQueue_in.isReady()) { - peek(triggerQueue_in, TriggerMsg) { - if (in_msg.Type == TriggerType:ALL_ACKS) { - trigger(Event:All_acks, in_msg.Address); - } else { - error("Unexpected message"); - } - } - } - } - - // Nothing from the request network - - // Forward Network - in_port(forwardToCache_in, RequestMsg, forwardToCache) { - if (forwardToCache_in.isReady()) { - peek(forwardToCache_in, RequestMsg) { - if (in_msg.Type == CoherenceRequestType:GETX) { - if (in_msg.Requestor == machineID) { - trigger(Event:Own_GETX, in_msg.Address); - } else { - trigger(Event:Fwd_GETX, in_msg.Address); - } - } else if (in_msg.Type == CoherenceRequestType:GETS) { - trigger(Event:Fwd_GETS, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:INV) { - trigger(Event:Inv, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:WB_ACK) { - trigger(Event:Writeback_Ack, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:WB_NACK) { - trigger(Event:Writeback_Nack, in_msg.Address); - } else { - error("Unexpected message"); - } - } - } - } - - // Response Network - in_port(responseToCache_in, ResponseMsg, responseToCache) { - if (responseToCache_in.isReady()) { - peek(responseToCache_in, ResponseMsg) { - if (in_msg.Type == CoherenceResponseType:ACK) { - trigger(Event:Ack, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:DATA) { - trigger(Event:Data, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:DATA_EXCLUSIVE_CLEAN) { - trigger(Event:Exclusive_Data_Clean, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:DATA_EXCLUSIVE_DIRTY) { - trigger(Event:Exclusive_Data_Dirty, in_msg.Address); - } else { - error("Unexpected message"); - } - } - } - } - - // Nothing from the unblock network - - // Mandatory Queue - in_port(mandatoryQueue_in, CacheMsg, mandatoryQueue, desc="...") { - if (mandatoryQueue_in.isReady()) { - peek(mandatoryQueue_in, CacheMsg) { - - // Check for data access to blocks in I-cache and ifetchs to blocks in D-cache - - if (in_msg.Type == CacheRequestType:IFETCH) { - // ** INSTRUCTION ACCESS *** - - // Check to see if it is in the OTHER L1 - if (L1DcacheMemory.isTagPresent(in_msg.Address)) { - // The block is in the wrong L1, try to write it to the L2 - if (L2cacheMemory.cacheAvail(in_msg.Address)) { - trigger(Event:L1_to_L2, in_msg.Address); - } else { - trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(in_msg.Address)); - } - } - - if (L1IcacheMemory.isTagPresent(in_msg.Address)) { - // The tag matches for the L1, so the L1 fetches the line. We know it can't be in the L2 due to exclusion - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } else { - if (L1IcacheMemory.cacheAvail(in_msg.Address)) { - // L1 does't have the line, but we have space for it in the L1 - if (L2cacheMemory.isTagPresent(in_msg.Address)) { - // L2 has it (maybe not with the right permissions) - trigger(Event:L2_to_L1I, in_msg.Address); - } else { - // We have room, the L2 doesn't have it, so the L1 fetches the line - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } - } else { - // No room in the L1, so we need to make room - if (L2cacheMemory.cacheAvail(L1IcacheMemory.cacheProbe(in_msg.Address))) { - // The L2 has room, so we move the line from the L1 to the L2 - trigger(Event:L1_to_L2, L1IcacheMemory.cacheProbe(in_msg.Address)); - } else { - // The L2 does not have room, so we replace a line from the L2 - trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(L1IcacheMemory.cacheProbe(in_msg.Address))); - } - } - } - } else { - // *** DATA ACCESS *** - - // Check to see if it is in the OTHER L1 - if (L1IcacheMemory.isTagPresent(in_msg.Address)) { - // The block is in the wrong L1, try to write it to the L2 - if (L2cacheMemory.cacheAvail(in_msg.Address)) { - trigger(Event:L1_to_L2, in_msg.Address); - } else { - trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(in_msg.Address)); - } - } - - if (L1DcacheMemory.isTagPresent(in_msg.Address)) { - // The tag matches for the L1, so the L1 fetches the line. We know it can't be in the L2 due to exclusion - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } else { - if (L1DcacheMemory.cacheAvail(in_msg.Address)) { - // L1 does't have the line, but we have space for it in the L1 - if (L2cacheMemory.isTagPresent(in_msg.Address)) { - // L2 has it (maybe not with the right permissions) - trigger(Event:L2_to_L1D, in_msg.Address); - } else { - // We have room, the L2 doesn't have it, so the L1 fetches the line - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } - } else { - // No room in the L1, so we need to make room - if (L2cacheMemory.cacheAvail(L1DcacheMemory.cacheProbe(in_msg.Address))) { - // The L2 has room, so we move the line from the L1 to the L2 - trigger(Event:L1_to_L2, L1DcacheMemory.cacheProbe(in_msg.Address)); - } else { - // The L2 does not have room, so we replace a line from the L2 - trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(L1DcacheMemory.cacheProbe(in_msg.Address))); - } - } - } - } - } - } - } - - // ACTIONS - - action(a_issueGETS, "a", desc="Issue GETS") { - enqueue(requestNetwork_out, RequestMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETS; - out_msg.Requestor := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Request_Control; - // TBEs[address].NumPendingMsgs := numberOfNodes(); // One from each other processor (n-1) plus the memory (+1) - } - } - - action(b_issueGETX, "b", desc="Issue GETX") { - enqueue(requestNetwork_out, RequestMsg, latency="(ISSUE_LATENCY-1)") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETX; - out_msg.Requestor := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Request_Control; - // TBEs[address].NumPendingMsgs := numberOfNodes(); // One from each other processor (n-1) plus the memory (+1) - } - } - - action(d_issuePUTX, "d", desc="Issue PUTX") { - enqueue(requestNetwork_out, RequestMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:PUTX; - out_msg.Requestor := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Writeback_Control; - } - } - - action(dd_issuePUTO, "\d", desc="Issue PUTO") { - enqueue(requestNetwork_out, RequestMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:PUTO; - out_msg.Requestor := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Writeback_Control; - } - } - - action(e_sendData, "e", desc="Send data from cache to requestor") { - peek(forwardToCache_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DataBlk := getCacheEntry(address).DataBlk; - out_msg.Dirty := getCacheEntry(address).Dirty; - out_msg.Acks := in_msg.Acks; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - } - - action(ee_sendDataExclusive, "\e", desc="Send data from cache to requestor, don't keep a shared copy") { - peek(forwardToCache_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA_EXCLUSIVE_DIRTY; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DataBlk := getCacheEntry(address).DataBlk; - out_msg.Dirty := getCacheEntry(address).Dirty; - out_msg.Acks := in_msg.Acks; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - } - - action(f_sendAck, "f", desc="Send ack from cache to requestor") { - peek(forwardToCache_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:ACK; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.Acks := 0 - 1; // -1 - out_msg.MessageSize := MessageSizeType:Response_Control; - } - } - } - - action(g_sendUnblock, "g", desc="Send unblock to memory") { - enqueue(unblockNetwork_out, ResponseMsg, latency="NULL_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:UNBLOCK; - out_msg.Sender := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Unblock_Control; - } - } - - action(gg_sendUnblockExclusive, "\g", desc="Send unblock exclusive to memory") { - enqueue(unblockNetwork_out, ResponseMsg, latency="NULL_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:UNBLOCK_EXCLUSIVE; - out_msg.Sender := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Unblock_Control; - } - } - - action(h_load_hit, "h", desc="Notify sequencer the load completed.") { - DEBUG_EXPR(getCacheEntry(address).DataBlk); - sequencer.readCallback(address, getCacheEntry(address).DataBlk); - } - - action(hh_store_hit, "\h", desc="Notify sequencer that store completed.") { - DEBUG_EXPR(getCacheEntry(address).DataBlk); - sequencer.writeCallback(address, getCacheEntry(address).DataBlk); - getCacheEntry(address).Dirty := true; - } - - action(i_allocateTBE, "i", desc="Allocate TBE") { - check_allocate(TBEs); - TBEs.allocate(address); - TBEs[address].DataBlk := getCacheEntry(address).DataBlk; // Data only used for writebacks - TBEs[address].Dirty := getCacheEntry(address).Dirty; - } - - action(j_popTriggerQueue, "j", desc="Pop trigger queue.") { - triggerQueue_in.dequeue(); - } - - action(k_popMandatoryQueue, "k", desc="Pop mandatory queue.") { - mandatoryQueue_in.dequeue(); - } - - action(l_popForwardQueue, "l", desc="Pop forwareded request queue.") { - forwardToCache_in.dequeue(); - } - - action(m_decrementNumberOfMessages, "m", desc="Decrement the number of messages for which we're waiting") { - peek(responseToCache_in, ResponseMsg) { - TBEs[address].NumPendingMsgs := TBEs[address].NumPendingMsgs - in_msg.Acks; - } - } - - action(mm_decrementNumberOfMessages, "\m", desc="Decrement the number of messages for which we're waiting") { - peek(forwardToCache_in, RequestMsg) { - TBEs[address].NumPendingMsgs := TBEs[address].NumPendingMsgs - in_msg.Acks; - } - } - - action(n_popResponseQueue, "n", desc="Pop response queue") { - responseToCache_in.dequeue(); - } - - action(o_checkForCompletion, "o", desc="Check if we have received all the messages required for completion") { - if (TBEs[address].NumPendingMsgs == 0) { - enqueue(triggerQueue_out, TriggerMsg) { - out_msg.Address := address; - out_msg.Type := TriggerType:ALL_ACKS; - } - } - } - - action(q_sendDataFromTBEToCache, "q", desc="Send data from TBE to cache") { - peek(forwardToCache_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DataBlk := TBEs[address].DataBlk; - out_msg.Dirty := TBEs[address].Dirty; - out_msg.Acks := in_msg.Acks; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - } - - action(qq_sendDataFromTBEToMemory, "\q", desc="Send data from TBE to memory") { - enqueue(unblockNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Sender := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.Dirty := TBEs[address].Dirty; - if (TBEs[address].Dirty) { - out_msg.Type := CoherenceResponseType:WRITEBACK_DIRTY; - out_msg.DataBlk := TBEs[address].DataBlk; - out_msg.MessageSize := MessageSizeType:Writeback_Data; - } else { - out_msg.Type := CoherenceResponseType:WRITEBACK_CLEAN; - // NOTE: in a real system this would not send data. We send - // data here only so we can check it at the memory - out_msg.DataBlk := TBEs[address].DataBlk; - out_msg.MessageSize := MessageSizeType:Writeback_Control; - } - } - } - - action(s_deallocateTBE, "s", desc="Deallocate TBE") { - TBEs.deallocate(address); - } - - action(u_writeDataToCache, "u", desc="Write data to cache") { - peek(responseToCache_in, ResponseMsg) { - getCacheEntry(address).DataBlk := in_msg.DataBlk; - getCacheEntry(address).Dirty := in_msg.Dirty; - } - } - - action(v_writeDataToCacheVerify, "v", desc="Write data to cache, assert it was same as before") { - peek(responseToCache_in, ResponseMsg) { - assert(getCacheEntry(address).DataBlk == in_msg.DataBlk); - getCacheEntry(address).DataBlk := in_msg.DataBlk; - getCacheEntry(address).Dirty := in_msg.Dirty; - } - } - - action(kk_deallocateL1CacheBlock, "\k", desc="Deallocate cache block. Sets the cache to invalid, allowing a replacement in parallel with a fetch.") { - if (L1DcacheMemory.isTagPresent(address)) { - L1DcacheMemory.deallocate(address); - } else { - L1IcacheMemory.deallocate(address); - } - } - - action(ii_allocateL1DCacheBlock, "\i", desc="Set L1 D-cache tag equal to tag of block B.") { - if (L1DcacheMemory.isTagPresent(address) == false) { - L1DcacheMemory.allocate(address); - } - } - - action(jj_allocateL1ICacheBlock, "\j", desc="Set L1 I-cache tag equal to tag of block B.") { - if (L1IcacheMemory.isTagPresent(address) == false) { - L1IcacheMemory.allocate(address); - } - } - - action(vv_allocateL2CacheBlock, "\v", desc="Set L2 cache tag equal to tag of block B.") { - L2cacheMemory.allocate(address); - } - - action(rr_deallocateL2CacheBlock, "\r", desc="Deallocate L2 cache block. Sets the cache to not present, allowing a replacement in parallel with a fetch.") { - L2cacheMemory.deallocate(address); - } - - action(ss_copyFromL1toL2, "\s", desc="Copy data block from L1 (I or D) to L2") { - if (L1DcacheMemory.isTagPresent(address)) { - L2cacheMemory[address] := L1DcacheMemory[address]; - } else { - L2cacheMemory[address] := L1IcacheMemory[address]; - } - } - - action(tt_copyFromL2toL1, "\t", desc="Copy data block from L2 to L1 (I or D)") { - if (L1DcacheMemory.isTagPresent(address)) { - L1DcacheMemory[address] := L2cacheMemory[address]; - } else { - L1IcacheMemory[address] := L2cacheMemory[address]; - } - } - - action(uu_profileMiss, "\u", desc="Profile the demand miss") { - peek(mandatoryQueue_in, CacheMsg) { - profile_miss(in_msg, id); - } - } - - action(zz_recycleMandatoryQueue, "\z", desc="Send the head of the mandatory queue to the back of the queue.") { - mandatoryQueue_in.recycle(); - } - - //***************************************************** - // TRANSITIONS - //***************************************************** - - // Transitions for Load/Store/L2_Replacement from transient states - transition({IM, SM, OM, IS, OI, MI, II}, {Store, L2_Replacement}) { - zz_recycleMandatoryQueue; - } - - transition({IM, IS, OI, MI, II}, {Load, Ifetch}) { - zz_recycleMandatoryQueue; - } - - transition({IM, SM, OM, IS, OI, MI, II}, L1_to_L2) { - zz_recycleMandatoryQueue; - } - - // Transitions moving data between the L1 and L2 caches - transition({I, S, O, E, M, MM}, L1_to_L2) { - vv_allocateL2CacheBlock; - ss_copyFromL1toL2; // Not really needed for state I - kk_deallocateL1CacheBlock; - } - - transition({I, S, O, E, M, MM}, L2_to_L1D) { - ii_allocateL1DCacheBlock; - tt_copyFromL2toL1; // Not really needed for state I - rr_deallocateL2CacheBlock; - } - - transition({I, S, O, E, M, MM}, L2_to_L1I) { - jj_allocateL1ICacheBlock; - tt_copyFromL2toL1; // Not really needed for state I - rr_deallocateL2CacheBlock; - } - - // Transitions from Idle - transition({NP, I}, Load, IS) { - ii_allocateL1DCacheBlock; - i_allocateTBE; - a_issueGETS; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition({NP, I}, Ifetch, IS) { - jj_allocateL1ICacheBlock; - i_allocateTBE; - a_issueGETS; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition({NP, I}, Store, IM) { - ii_allocateL1DCacheBlock; - i_allocateTBE; - b_issueGETX; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition(I, L2_Replacement) { - rr_deallocateL2CacheBlock; - } - - transition({NP, I}, Inv) { - f_sendAck; - l_popForwardQueue; - } - - // Transitions from Shared - transition({S, SM}, {Load, Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(S, Store, SM) { - i_allocateTBE; - b_issueGETX; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition(S, L2_Replacement, I) { - rr_deallocateL2CacheBlock; - } - - transition(S, Inv, I) { - f_sendAck; - l_popForwardQueue; - } - - // Transitions from Owned - transition({O, OM}, {Load, Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(O, Store, OM) { - i_allocateTBE; - b_issueGETX; - // p_decrementNumberOfMessagesByOne; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition(O, L2_Replacement, OI) { - i_allocateTBE; - dd_issuePUTO; - rr_deallocateL2CacheBlock; - } - - transition(O, Fwd_GETX, I) { - e_sendData; - l_popForwardQueue; - } - - transition(O, Fwd_GETS) { - e_sendData; - l_popForwardQueue; - } - - // Transitions from MM - transition(MM, {Load, Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(MM, Store) { - hh_store_hit; - k_popMandatoryQueue; - } - - transition(MM, L2_Replacement, MI) { - i_allocateTBE; - d_issuePUTX; - rr_deallocateL2CacheBlock; - } - - transition(MM, Fwd_GETX, I) { - e_sendData; - l_popForwardQueue; - } - - transition(MM, Fwd_GETS, I) { - ee_sendDataExclusive; - l_popForwardQueue; - } - - // Transitions from M - transition({E, M}, {Load, Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition({E, M}, Store, MM) { - hh_store_hit; - k_popMandatoryQueue; - } - - transition({E, M}, L2_Replacement, MI) { - i_allocateTBE; - d_issuePUTX; - rr_deallocateL2CacheBlock; - } - - transition({E, M}, Fwd_GETX, I) { - e_sendData; - l_popForwardQueue; - } - - transition({E, M}, Fwd_GETS, O) { - e_sendData; - l_popForwardQueue; - } - - // Transitions from IM - - transition(IM, Inv) { - f_sendAck; - l_popForwardQueue; - } - - transition(IM, Ack) { - m_decrementNumberOfMessages; - o_checkForCompletion; - n_popResponseQueue; - } - - transition(IM, Data, OM) { - u_writeDataToCache; - m_decrementNumberOfMessages; - o_checkForCompletion; - n_popResponseQueue; - } - - // Transitions from SM - transition(SM, Inv, IM) { - f_sendAck; - l_popForwardQueue; - } - - transition(SM, Ack) { - m_decrementNumberOfMessages; - o_checkForCompletion; - n_popResponseQueue; - } - - transition(SM, Data, OM) { - v_writeDataToCacheVerify; - m_decrementNumberOfMessages; - o_checkForCompletion; - n_popResponseQueue; - } - - // Transitions from OM - transition(OM, Own_GETX) { - mm_decrementNumberOfMessages; - o_checkForCompletion; - l_popForwardQueue; - } - - transition(OM, Fwd_GETX, IM) { - e_sendData; - l_popForwardQueue; - } - - transition(OM, Fwd_GETS, OM) { - e_sendData; - l_popForwardQueue; - } - - transition(OM, Ack) { - m_decrementNumberOfMessages; - o_checkForCompletion; - n_popResponseQueue; - } - - transition(OM, All_acks, MM) { - hh_store_hit; - gg_sendUnblockExclusive; - s_deallocateTBE; - j_popTriggerQueue; - } - - // Transitions from IS - - transition(IS, Inv) { - f_sendAck; - l_popForwardQueue; - } - - transition(IS, Data, S) { - u_writeDataToCache; - m_decrementNumberOfMessages; - h_load_hit; - g_sendUnblock; - s_deallocateTBE; - n_popResponseQueue; - } - - transition(IS, Exclusive_Data_Clean, E) { - u_writeDataToCache; - m_decrementNumberOfMessages; - h_load_hit; - gg_sendUnblockExclusive; - s_deallocateTBE; - n_popResponseQueue; - } - - transition(IS, Exclusive_Data_Dirty, M) { - u_writeDataToCache; - m_decrementNumberOfMessages; - h_load_hit; - gg_sendUnblockExclusive; - s_deallocateTBE; - n_popResponseQueue; - } - - // Transitions from OI/MI - - transition(MI, Fwd_GETS) { - q_sendDataFromTBEToCache; - l_popForwardQueue; - } - - transition(MI, Fwd_GETX, II) { - q_sendDataFromTBEToCache; - l_popForwardQueue; - } - - transition(OI, Fwd_GETS) { - q_sendDataFromTBEToCache; - l_popForwardQueue; - } - - transition(OI, Fwd_GETX, II) { - q_sendDataFromTBEToCache; - l_popForwardQueue; - } - - transition({OI, MI}, Writeback_Ack, I) { - qq_sendDataFromTBEToMemory; - s_deallocateTBE; - l_popForwardQueue; - } - - transition(MI, Writeback_Nack, OI) { - // FIXME: This might cause deadlock by re-using the writeback - // channel, we should handle this case differently. - dd_issuePUTO; - l_popForwardQueue; - } - - // Transitions from II - transition(II, Writeback_Ack, I) { - g_sendUnblock; - s_deallocateTBE; - l_popForwardQueue; - } - - transition(II, Writeback_Nack, I) { - s_deallocateTBE; - l_popForwardQueue; - } - - transition(II, Inv) { - f_sendAck; - l_popForwardQueue; - } -} - diff --git a/src/mem/protocol/MOESI_SMP_directory-dir.sm b/src/mem/protocol/MOESI_SMP_directory-dir.sm deleted file mode 100644 index b45600448..000000000 --- a/src/mem/protocol/MOESI_SMP_directory-dir.sm +++ /dev/null @@ -1,495 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id$ - */ - -machine(Directory, "Directory protocol") { - - MessageBuffer forwardFromDir, network="To", virtual_network="1", ordered="false"; - MessageBuffer responseFromDir, network="To", virtual_network="2", ordered="false"; - - MessageBuffer requestToDir, network="From", virtual_network="0", ordered="false"; - MessageBuffer unblockToDir, network="From", virtual_network="3", ordered="false"; - - // STATES - enumeration(State, desc="Directory states", default="Directory_State_I") { - // Base states - I, desc="Invalid"; - S, desc="Shared"; - O, desc="Owner"; - M, desc="Modified"; - - IS, desc="Blocked, was in idle"; - SS, desc="Blocked, was in shared"; - OO, desc="Blocked, was in owned"; - MO, desc="Blocked, going to owner or maybe modified"; - MM, desc="Blocked, going to modified"; - - MI, desc="Blocked on a writeback"; - OS, desc="Blocked on a writeback"; - } - - // Events - enumeration(Event, desc="Directory events") { - GETX, desc="A GETX arrives"; - GETS, desc="A GETS arrives"; - PUTX, desc="A PUTX arrives"; - PUTO, desc="A PUTO arrives"; - Unblock, desc="An unblock message arrives"; - Last_Unblock, desc="An unblock message arrives, we're not waiting for any additional unblocks"; - Exclusive_Unblock, desc="The processor become the exclusive owner (E or M) of the line"; - Clean_Writeback, desc="The final message as part of a PutX/PutS, no data"; - Dirty_Writeback, desc="The final message as part of a PutX/PutS, contains data"; - } - - // TYPES - - // DirectoryEntry - structure(Entry, desc="...") { - State DirectoryState, desc="Directory state"; - DataBlock DataBlk, desc="data for the block"; - NetDest Sharers, desc="Sharers for this block"; - NetDest Owner, desc="Owner of this block"; - int WaitingUnblocks, desc="Number of acks we're waiting for"; - } - - external_type(DirectoryMemory) { - Entry lookup(Address); - bool isPresent(Address); - } - - // External function - void profile_sharing(Address addr, AccessType type, NodeID requestor, Set sharers, Set owner); - - // ** OBJECTS ** - - DirectoryMemory directory, constructor_hack="i"; - - State getState(Address addr) { - return directory[addr].DirectoryState; - } - - void setState(Address addr, State state) { - if (directory.isPresent(addr)) { - - if ((state == State:I) || (state == State:IS)) { - assert(directory[addr].Owner.count() == 0); - assert(directory[addr].Sharers.count() == 0); - } - - if ((state == State:S) || (state == State:SS)) { - assert(directory[addr].Owner.count() == 0); - assert(directory[addr].Sharers.count() != 0); - } - - if ((state == State:O) || (state == State:OO)) { - assert(directory[addr].Owner.count() == 1); - assert(directory[addr].Sharers.isSuperset(directory[addr].Owner) == false); - } - - if (state == State:M) { - assert(directory[addr].Owner.count() == 1); - assert(directory[addr].Sharers.count() == 0); - } - - if ((state != State:SS) && (state != State:OO)) { - assert(directory[addr].WaitingUnblocks == 0); - } - - directory[addr].DirectoryState := state; - } - } - - // ** OUT_PORTS ** - out_port(forwardNetwork_out, RequestMsg, forwardFromDir); - out_port(responseNetwork_out, ResponseMsg, responseFromDir); - out_port(requestQueue_out, ResponseMsg, requestToDir); // For recycling requests - - // ** IN_PORTS ** - - in_port(unblockNetwork_in, ResponseMsg, unblockToDir) { - if (unblockNetwork_in.isReady()) { - peek(unblockNetwork_in, ResponseMsg) { - if (in_msg.Type == CoherenceResponseType:UNBLOCK) { - if (directory[in_msg.Address].WaitingUnblocks == 1) { - trigger(Event:Last_Unblock, in_msg.Address); - } else { - trigger(Event:Unblock, in_msg.Address); - } - } else if (in_msg.Type == CoherenceResponseType:UNBLOCK_EXCLUSIVE) { - trigger(Event:Exclusive_Unblock, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:WRITEBACK_DIRTY) { - trigger(Event:Dirty_Writeback, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:WRITEBACK_CLEAN) { - trigger(Event:Clean_Writeback, in_msg.Address); - } else { - error("Invalid message"); - } - } - } - } - - in_port(requestQueue_in, RequestMsg, requestToDir) { - if (requestQueue_in.isReady()) { - peek(requestQueue_in, RequestMsg) { - if (in_msg.Type == CoherenceRequestType:GETS) { - trigger(Event:GETS, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GETX) { - trigger(Event:GETX, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:PUTX) { - trigger(Event:PUTX, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:PUTO) { - trigger(Event:PUTO, in_msg.Address); - } else { - error("Invalid message"); - } - } - } - } - - // Actions - - action(a_sendWriteBackAck, "a", desc="Send writeback ack to requestor") { - peek(requestQueue_in, RequestMsg) { - enqueue(forwardNetwork_out, RequestMsg, latency="DIRECTORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:WB_ACK; - out_msg.Requestor := in_msg.Requestor; - out_msg.Destination.add(in_msg.Requestor); - out_msg.MessageSize := MessageSizeType:Writeback_Control; - } - } - } - - action(b_sendWriteBackNack, "b", desc="Send writeback nack to requestor") { - peek(requestQueue_in, RequestMsg) { - enqueue(forwardNetwork_out, RequestMsg, latency="DIRECTORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:WB_NACK; - out_msg.Requestor := in_msg.Requestor; - out_msg.Destination.add(in_msg.Requestor); - out_msg.MessageSize := MessageSizeType:Writeback_Control; - } - } - } - - action(c_clearOwner, "c", desc="Clear the owner field") { - directory[address].Owner.clear(); - } - - action(cc_clearSharers, "\c", desc="Clear the sharers field") { - directory[address].Sharers.clear(); - } - - action(d_sendData, "d", desc="Send data to requestor") { - peek(requestQueue_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="MEMORY_LATENCY") { - out_msg.Address := address; - - if (in_msg.Type == CoherenceRequestType:GETS && directory[address].Sharers.count() == 0) { - out_msg.Type := CoherenceResponseType:DATA_EXCLUSIVE_CLEAN; - } else { - out_msg.Type := CoherenceResponseType:DATA; - } - - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DataBlk := directory[in_msg.Address].DataBlk; - out_msg.Dirty := false; // By definition, the block is now clean - out_msg.Acks := directory[address].Sharers.count(); - if (directory[address].Sharers.isElement(in_msg.Requestor)) { - out_msg.Acks := out_msg.Acks - 1; - } - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - } - - action(e_ownerIsUnblocker, "e", desc="The owner is now the unblocker") { - peek(unblockNetwork_in, ResponseMsg) { - directory[address].Owner.clear(); - directory[address].Owner.add(in_msg.Sender); - } - } - - action(f_forwardRequest, "f", desc="Forward request to owner") { - peek(requestQueue_in, RequestMsg) { - enqueue(forwardNetwork_out, RequestMsg, latency="DIRECTORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := in_msg.Type; - out_msg.Requestor := in_msg.Requestor; - out_msg.Destination := directory[in_msg.Address].Owner; - out_msg.Acks := directory[address].Sharers.count(); - if (directory[address].Sharers.isElement(in_msg.Requestor)) { - out_msg.Acks := out_msg.Acks - 1; - } - out_msg.MessageSize := MessageSizeType:Forwarded_Control; - } - } - } - - action(g_sendInvalidations, "g", desc="Send invalidations to sharers, not including the requester") { - peek(requestQueue_in, RequestMsg) { - if ((directory[in_msg.Address].Sharers.count() > 1) || - ((directory[in_msg.Address].Sharers.count() > 0) && (directory[in_msg.Address].Sharers.isElement(in_msg.Requestor) == false))) { - enqueue(forwardNetwork_out, RequestMsg, latency="DIRECTORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:INV; - out_msg.Requestor := in_msg.Requestor; - out_msg.Destination := directory[in_msg.Address].Sharers; - out_msg.Destination.remove(in_msg.Requestor); - out_msg.MessageSize := MessageSizeType:Forwarded_Control; - } - } - } - } - - action(i_popIncomingRequestQueue, "i", desc="Pop incoming request queue") { - // Profile the request - peek(requestQueue_in, RequestMsg) { - if (in_msg.Type == CoherenceRequestType:GETX) { - // profile_sharing(address, AccessType:Write, machineIDToNodeID(in_msg.Requestor), directory[address].Sharers, directory[address].Owner); - } else if (in_msg.Type == CoherenceRequestType:GETS) { - // profile_sharing(address, AccessType:Read, machineIDToNodeID(in_msg.Requestor), directory[address].Sharers, directory[address].Owner); - } - } - - requestQueue_in.dequeue(); - } - - action(j_popIncomingUnblockQueue, "j", desc="Pop incoming unblock queue") { - unblockNetwork_in.dequeue(); - } - - action(l_writeDataToMemory, "l", desc="Write PUTX/PUTO data to memory") { - peek(unblockNetwork_in, ResponseMsg) { - assert(in_msg.Dirty); - assert(in_msg.MessageSize == MessageSizeType:Writeback_Data); - directory[in_msg.Address].DataBlk := in_msg.DataBlk; - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(in_msg.DataBlk); - } - } - - action(ll_checkDataInMemory, "\l", desc="Check PUTX/PUTO data is same as in the memory") { - peek(unblockNetwork_in, ResponseMsg) { - assert(in_msg.Dirty == false); - assert(in_msg.MessageSize == MessageSizeType:Writeback_Control); - - // NOTE: The following check would not be valid in a real - // implementation. We include the data in the "dataless" - // message so we can assert the clean data matches the datablock - // in memory - assert(directory[in_msg.Address].DataBlk == in_msg.DataBlk); - } - } - - action(m_addUnlockerToSharers, "m", desc="Add the unlocker to the sharer list") { - peek(unblockNetwork_in, ResponseMsg) { - directory[address].Sharers.add(in_msg.Sender); - } - } - - action(n_incrementOutstanding, "n", desc="Increment outstanding requests") { - directory[address].WaitingUnblocks := directory[address].WaitingUnblocks + 1; - } - - action(o_decrementOutstanding, "o", desc="Decrement outstanding requests") { - directory[address].WaitingUnblocks := directory[address].WaitingUnblocks - 1; - assert(directory[address].WaitingUnblocks >= 0); - } - - // action(z_stall, "z", desc="Cannot be handled right now.") { - // Special name recognized as do nothing case - // } - - action(zz_recycleRequest, "\z", desc="Recycle the request queue") { - requestQueue_in.recycle(); - } - - // TRANSITIONS - - transition(I, GETX, MM) { - d_sendData; - i_popIncomingRequestQueue; - } - - transition(S, GETX, MM) { - d_sendData; - g_sendInvalidations; - i_popIncomingRequestQueue; - } - - transition(I, GETS, IS) { - d_sendData; - i_popIncomingRequestQueue; - } - - transition({S, SS}, GETS, SS) { - d_sendData; - n_incrementOutstanding; - i_popIncomingRequestQueue; - } - - transition({I, S, M}, PUTO) { - b_sendWriteBackNack; - i_popIncomingRequestQueue; - } - - transition({I, S, O}, PUTX) { - b_sendWriteBackNack; - i_popIncomingRequestQueue; - } - - transition(O, GETX, MM) { - f_forwardRequest; - g_sendInvalidations; - i_popIncomingRequestQueue; - } - - transition({O, OO}, GETS, OO) { - f_forwardRequest; - n_incrementOutstanding; - i_popIncomingRequestQueue; - } - - transition(M, GETX, MM) { - f_forwardRequest; - i_popIncomingRequestQueue; - } - - transition(M, GETS, MO) { - f_forwardRequest; - i_popIncomingRequestQueue; - } - - transition(M, PUTX, MI) { - a_sendWriteBackAck; - i_popIncomingRequestQueue; - } - - transition(O, PUTO, OS) { - a_sendWriteBackAck; - i_popIncomingRequestQueue; - } - - transition({MM, MO, MI, OS}, {GETS, GETX, PUTO, PUTX}) { - zz_recycleRequest; - } - - transition({MM, MO}, Exclusive_Unblock, M) { - cc_clearSharers; - e_ownerIsUnblocker; - j_popIncomingUnblockQueue; - } - - transition(MO, Unblock, O) { - m_addUnlockerToSharers; - j_popIncomingUnblockQueue; - } - - transition({IS, SS, OO}, {GETX, PUTO, PUTX}) { - zz_recycleRequest; - } - - transition(IS, GETS) { - zz_recycleRequest; - } - - transition(IS, Unblock, S) { - m_addUnlockerToSharers; - j_popIncomingUnblockQueue; - } - - transition(IS, Exclusive_Unblock, M) { - cc_clearSharers; - e_ownerIsUnblocker; - j_popIncomingUnblockQueue; - } - - transition(SS, Unblock) { - m_addUnlockerToSharers; - o_decrementOutstanding; - j_popIncomingUnblockQueue; - } - - transition(SS, Last_Unblock, S) { - m_addUnlockerToSharers; - o_decrementOutstanding; - j_popIncomingUnblockQueue; - } - - transition(OO, Unblock) { - m_addUnlockerToSharers; - o_decrementOutstanding; - j_popIncomingUnblockQueue; - } - - transition(OO, Last_Unblock, O) { - m_addUnlockerToSharers; - o_decrementOutstanding; - j_popIncomingUnblockQueue; - } - - transition(MI, Dirty_Writeback, I) { - c_clearOwner; - cc_clearSharers; - l_writeDataToMemory; - j_popIncomingUnblockQueue; - } - - transition(OS, Dirty_Writeback, S) { - c_clearOwner; - l_writeDataToMemory; - j_popIncomingUnblockQueue; - } - - transition(MI, Clean_Writeback, I) { - c_clearOwner; - cc_clearSharers; - ll_checkDataInMemory; - j_popIncomingUnblockQueue; - } - - transition(OS, Clean_Writeback, S) { - c_clearOwner; - ll_checkDataInMemory; - j_popIncomingUnblockQueue; - } - - transition(MI, Unblock, M) { - j_popIncomingUnblockQueue; - } - - transition(OS, Unblock, O) { - j_popIncomingUnblockQueue; - } -} diff --git a/src/mem/protocol/MOESI_SMP_directory-msg.sm b/src/mem/protocol/MOESI_SMP_directory-msg.sm deleted file mode 100644 index 1b7424308..000000000 --- a/src/mem/protocol/MOESI_SMP_directory-msg.sm +++ /dev/null @@ -1,89 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id$ - * - */ - -// CoherenceRequestType -enumeration(CoherenceRequestType, desc="...") { - GETX, desc="Get eXclusive"; - GETS, desc="Get Shared"; - PUTX, desc="Put eXclusive"; - PUTO, desc="Put Owned"; - WB_ACK, desc="Writeback ack"; - WB_NACK, desc="Writeback neg. ack"; - INV, desc="Invalidation"; -} - -// CoherenceResponseType -enumeration(CoherenceResponseType, desc="...") { - ACK, desc="ACKnowledgment, responder doesn't have a copy"; - DATA, desc="Data"; - DATA_EXCLUSIVE_CLEAN, desc="Data, no other processor has a copy, data is clean"; - DATA_EXCLUSIVE_DIRTY, desc="Data, no other processor has a copy, data is dirty"; - UNBLOCK, desc="Unblock"; - UNBLOCK_EXCLUSIVE, desc="Unblock, we're in E/M"; - WRITEBACK_CLEAN, desc="Clean writeback (no data)"; - WRITEBACK_DIRTY, desc="Dirty writeback (contains data)"; -} - -// TriggerType -enumeration(TriggerType, desc="...") { - ALL_ACKS, desc="See corresponding event"; -} - -// TriggerMsg -structure(TriggerMsg, desc="...", interface="Message") { - Address Address, desc="Physical address for this request"; - TriggerType Type, desc="Type of trigger"; -} - -// RequestMsg (and also forwarded requests) -structure(RequestMsg, desc="...", interface="NetworkMessage") { - Address Address, desc="Physical address for this request"; - CoherenceRequestType Type, desc="Type of request (GetS, GetX, PutX, etc)"; - MachineID Requestor, desc="Node who initiated the request"; - NetDest Destination, desc="Multicast destination mask"; - int Acks, desc="How many acks to expect"; - MessageSizeType MessageSize, desc="size category of the message"; -} - -// ResponseMsg (and also unblock requests) -structure(ResponseMsg, desc="...", interface="NetworkMessage") { - Address Address, desc="Physical address for this request"; - CoherenceResponseType Type, desc="Type of response (Ack, Data, etc)"; - MachineID Sender, desc="Node who sent the data"; - NetDest Destination, desc="Node to whom the data is sent"; - DataBlock DataBlk, desc="data for the cache line"; - bool Dirty, desc="Is the data dirty (different than memory)?"; - int Acks, desc="How many acks to expect"; - MessageSizeType MessageSize, desc="size category of the message"; -} diff --git a/src/mem/protocol/MOESI_SMP_directory.slicc b/src/mem/protocol/MOESI_SMP_directory.slicc deleted file mode 100644 index e82aaf7f7..000000000 --- a/src/mem/protocol/MOESI_SMP_directory.slicc +++ /dev/null @@ -1,4 +0,0 @@ -MOESI_SMP_directory-msg.sm -MOESI_SMP_directory-cache.sm -MOESI_SMP_directory-dir.sm -standard_SMP-protocol.sm diff --git a/src/mem/protocol/MOESI_SMP_token-cache.sm b/src/mem/protocol/MOESI_SMP_token-cache.sm deleted file mode 100644 index e39f73b18..000000000 --- a/src/mem/protocol/MOESI_SMP_token-cache.sm +++ /dev/null @@ -1,1734 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id: MOESI_token-cache.sm 1.10 05/01/19 15:41:25-06:00 beckmann@emperor11.cs.wisc.edu $ - * - */ - -machine(L1Cache, "Token protocol") { - - MessageBuffer requestFromCache, network="To", virtual_network="1", ordered="false"; - MessageBuffer responseFromCache, network="To", virtual_network="0", ordered="false"; - MessageBuffer persistentFromCache, network="To", virtual_network="2", ordered="true"; - - MessageBuffer requestToCache, network="From", virtual_network="1", ordered="false"; - MessageBuffer responseToCache, network="From", virtual_network="0", ordered="false"; - MessageBuffer persistentToCache, network="From", virtual_network="2", ordered="true"; - - - // STATES - enumeration(State, desc="Cache states", default="L1Cache_State_I") { - // Base states - NP, "NP", desc="Not Present"; - I, "I", desc="Idle"; - S, "S", desc="Shared"; - O, "O", desc="Owned"; - M, "M", desc="Modified (dirty)"; - MM, "MM", desc="Modified (dirty and locally modified)"; - M_W, "M^W", desc="Modified (dirty), waiting"; - MM_W, "MM^W", desc="Modified (dirty and locally modified), waiting"; - - // Transient States - IM, "IM", desc="Issued GetX"; - SM, "SM", desc="Issued GetX, we still have an old copy of the line"; - OM, "OM", desc="Issued GetX, received data"; - IS, "IS", desc="Issued GetS"; - - // Locked states - I_L, "I^L", desc="Invalid, Locked"; - S_L, "S^L", desc="Shared, Locked"; - IM_L, "IM^L", desc="Invalid, Locked, trying to go to Modified"; - SM_L, "SM^L", desc="Shared, Locked, trying to go to Modified"; - IS_L, "IS^L", desc="Invalid, Locked, trying to go to Shared"; - } - - // EVENTS - enumeration(Event, desc="Cache events") { - Load, desc="Load request from the processor"; - Ifetch, desc="I-fetch request from the processor"; - Store, desc="Store request from the processor"; - L2_Replacement, desc="L2 Replacement"; - L1_to_L2, desc="L1 to L2 transfer"; - L2_to_L1D, desc="L2 to L1-Data transfer"; - L2_to_L1I, desc="L2 to L1-Instruction transfer"; - - // Responses - Data_Shared, desc="Received a data message, we are now a sharer"; - Data_Shared_All_Tokens, desc="Received a data message, we are now a sharer, we now have all the tokens"; - Data_Owner, desc="Received a data message, we are now the owner"; - Data_Owner_All_Tokens, desc="Received a data message, we are now the owner, we now have all the tokens"; - Ack, desc="Received an ack message"; - Ack_All_Tokens, desc="Received an ack message, we now have all the tokens"; - - // Requests - Transient_GETX, desc="A GetX from another processor"; - Transient_GETS, desc="A GetS from another processor"; - - // Lock/Unlock - Persistent_GETX, desc="Another processor has priority to read/write"; - Persistent_GETS, desc="Another processor has priority to read"; - Own_Lock_or_Unlock, desc="This processor now has priority"; - - // Triggers - Request_Timeout, desc="Timeout"; - Use_Timeout, desc="Timeout"; - - } - - // TYPES - - int getRetryThreshold(); - - // CacheEntry - structure(Entry, desc="...", interface="AbstractCacheEntry") { - DataBlock DataBlk, desc="data for the block, required by CacheMemory"; - State CacheState, desc="cache state"; - bool Dirty, desc="Is the data dirty (different than memory)?"; - int Tokens, desc="The number of tokens we're holding for the line"; - } - - // TBE fields - structure(TBE, desc="...") { - State TBEState, desc="Transient state"; - int IssueCount, default="0", desc="The number of times we've issued a request for this line."; - Address PC, desc="Program counter of request"; - AccessType AccessType, desc="Type of request (used for profiling)"; - Time IssueTime, desc="Time the request was issued"; - } - - external_type(CacheMemory) { - bool cacheAvail(Address); - Address cacheProbe(Address); - void allocate(Address); - void deallocate(Address); - Entry lookup(Address); - void changePermission(Address, AccessPermission); - bool isTagPresent(Address); - } - - external_type(TBETable) { - TBE lookup(Address); - void allocate(Address); - void deallocate(Address); - bool isPresent(Address); - } - - external_type(TimerTable, inport="yes") { - bool isReady(); - Address readyAddress(); - void set(Address, int); - void unset(Address); - bool isSet(Address); - } - - MessageBuffer mandatoryQueue, ordered="false", abstract_chip_ptr="true"; - Sequencer sequencer, abstract_chip_ptr="true", constructor_hack="i"; - - TBETable TBEs, template_hack="<L1Cache_TBE>"; - CacheMemory L1IcacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L1_CACHE_NUM_SETS_BITS,L1_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_L1I"', abstract_chip_ptr="true"; - CacheMemory L1DcacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L1_CACHE_NUM_SETS_BITS,L1_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_L1D"', abstract_chip_ptr="true"; - CacheMemory L2cacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L2_CACHE_NUM_SETS_BITS,L2_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_L2"', abstract_chip_ptr="true"; - PersistentTable persistentTable, constructor_hack="i"; - TimerTable useTimerTable; - TimerTable reissueTimerTable; - - int outstandingRequests, default="0"; - int outstandingPersistentRequests, default="0"; - void profile_outstanding_request(int outstanding); - void profile_outstanding_persistent_request(int outstanding); - - int averageLatencyHysteresis, default="(8)"; // Constant that provides hysteresis for calculated the estimated average - int averageLatencyCounter, default="(500 << (*(m_L1Cache_averageLatencyHysteresis_vec[i])))"; - // int averageLatencyCounter, default="(250)"; - - int averageLatencyEstimate() { - return averageLatencyCounter >> averageLatencyHysteresis; - } - - void updateAverageLatencyEstimate(int latency) { - assert(latency >= 0); - - // By subtracting the current average and then adding the most - // recent sample, we calculate an estimate of the recent average. - // If we simply used a running sum and divided by the total number - // of entries, the estimate of the average would adapt very slowly - // after the execution has run for a long time. - averageLatencyCounter := averageLatencyCounter - averageLatencyEstimate() + latency; - } - - Entry getCacheEntry(Address addr), return_by_ref="yes" { - if (L2cacheMemory.isTagPresent(addr)) { - return L2cacheMemory[addr]; - } else if (L1DcacheMemory.isTagPresent(addr)) { - return L1DcacheMemory[addr]; - } else { - return L1IcacheMemory[addr]; - } - } - - int getTokens(Address addr) { - if (L2cacheMemory.isTagPresent(addr)) { - return L2cacheMemory[addr].Tokens; - } else if (L1DcacheMemory.isTagPresent(addr)) { - return L1DcacheMemory[addr].Tokens; - } else if (L1IcacheMemory.isTagPresent(addr)) { - return L1IcacheMemory[addr].Tokens; - } else { - return 0; - } - } - - void changePermission(Address addr, AccessPermission permission) { - if (L2cacheMemory.isTagPresent(addr)) { - return L2cacheMemory.changePermission(addr, permission); - } else if (L1DcacheMemory.isTagPresent(addr)) { - return L1DcacheMemory.changePermission(addr, permission); - } else { - return L1IcacheMemory.changePermission(addr, permission); - } - } - - bool isCacheTagPresent(Address addr) { - return (L2cacheMemory.isTagPresent(addr) || L1DcacheMemory.isTagPresent(addr) || L1IcacheMemory.isTagPresent(addr)); - } - - State getState(Address addr) { - assert((L1DcacheMemory.isTagPresent(addr) && L1IcacheMemory.isTagPresent(addr)) == false); - assert((L1IcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false); - assert((L1DcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false); - - if (TBEs.isPresent(addr)) { - return TBEs[addr].TBEState; - } else if (isCacheTagPresent(addr)) { - return getCacheEntry(addr).CacheState; - } else if ((persistentTable.isLocked(addr) == true) && (persistentTable.findSmallest(addr) != machineID)) { - // Not in cache, in persistent table, but this processor isn't highest priority - return State:I_L; - } else { - return State:NP; - } - } - - void setState(Address addr, State state) { - assert((L1DcacheMemory.isTagPresent(addr) && L1IcacheMemory.isTagPresent(addr)) == false); - assert((L1IcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false); - assert((L1DcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false); - - assert(outstandingPersistentRequests >= 0); - assert(outstandingRequests >= 0); - - if (useTimerTable.isSet(addr)) { - assert((state == State:M_W) || (state == State:MM_W)); - } else { - assert(state != State:M_W); - assert(state != State:MM_W); - } - - if (reissueTimerTable.isSet(addr)) { - assert((state == State:IS) || - (state == State:IM) || - (state == State:SM) || - (state == State:OM) || - (state == State:IS_L) || - (state == State:IM_L) || - (state == State:SM_L)); - } else if (TBEs.isPresent(addr) && TBEs[addr].IssueCount < getRetryThreshold()) { - // If the timer is not set, you better have issued a persistent request - assert(state != State:IS); - assert(state != State:IM); - assert(state != State:SM); - assert(state != State:OM); - assert(state != State:IS_L); - assert(state != State:IM_L); - assert(state != State:SM_L); - } - - if (TBEs.isPresent(addr) && (TBEs[addr].IssueCount > getRetryThreshold())) { - assert(reissueTimerTable.isSet(addr) == false); - } - - if (TBEs.isPresent(addr)) { - assert(state != State:I); - assert(state != State:S); - assert(state != State:O); - assert(state != State:MM); - assert(state != State:M); - TBEs[addr].TBEState := state; - } - - if (isCacheTagPresent(addr)) { - // Make sure the token count is in range - assert(getCacheEntry(addr).Tokens >= 0); - assert(getCacheEntry(addr).Tokens <= max_tokens()); - - if ((state == State:I_L) || - (state == State:IM_L) || - (state == State:IS_L)) { - // Make sure we have no tokens in the "Invalid, locked" states - if (isCacheTagPresent(addr)) { - assert(getCacheEntry(addr).Tokens == 0); - } - - // Make sure the line is locked - assert(persistentTable.isLocked(addr)); - - // But we shouldn't have highest priority for it - assert(persistentTable.findSmallest(addr) != machineID); - - } else if ((state == State:S_L) || - (state == State:SM_L)) { - // Make sure we have only one token in the "Shared, locked" states - assert(getCacheEntry(addr).Tokens == 1); - - // Make sure the line is locked... - assert(persistentTable.isLocked(addr)); - - // ...But we shouldn't have highest priority for it... - assert(persistentTable.findSmallest(addr) != machineID); - - // ...And it must be a GETS request - assert(persistentTable.typeOfSmallest(addr) == AccessType:Read); - - } else { - - // If there is an entry in the persistent table of this block, - // this processor needs to have an entry in the table for this - // block, and that entry better be the smallest (highest - // priority). Otherwise, the state should have been one of - // locked states - - if (persistentTable.isLocked(addr)) { - assert(persistentTable.findSmallest(addr) == machineID); - } - } - - // in M and E you have all the tokens - if (state == State:MM || state == State:M || state == State:MM_W || state == State:M_W) { - assert(getCacheEntry(addr).Tokens == max_tokens()); - } - - // in NP you have no tokens - if (state == State:NP) { - assert(getCacheEntry(addr).Tokens == 0); - } - - // You have at least one token in S-like states - if (state == State:S || state == State:SM) { - assert(getCacheEntry(addr).Tokens > 0); - } - - // You have at least half the token in O-like states - if (state == State:O && state == State:OM) { - assert(getCacheEntry(addr).Tokens >= 1); // Must have at least one token - assert(getCacheEntry(addr).Tokens >= (max_tokens() / 2)); // Only mostly true; this might not always hold - } - - getCacheEntry(addr).CacheState := state; - - // Set permission - if (state == State:MM || - state == State:MM_W) { - changePermission(addr, AccessPermission:Read_Write); - } else if ((state == State:S) || - (state == State:O) || - (state == State:M) || - (state == State:M_W) || - (state == State:SM) || - (state == State:SM_L) || - (state == State:OM)) { - changePermission(addr, AccessPermission:Read_Only); - } else { - changePermission(addr, AccessPermission:Invalid); - } - } - } - - Event mandatory_request_type_to_event(CacheRequestType type) { - if (type == CacheRequestType:LD) { - return Event:Load; - } else if (type == CacheRequestType:IFETCH) { - return Event:Ifetch; - } else if ((type == CacheRequestType:ST) || (type == CacheRequestType:ATOMIC)) { - return Event:Store; - } else { - error("Invalid CacheRequestType"); - } - } - - AccessType cache_request_type_to_access_type(CacheRequestType type) { - if ((type == CacheRequestType:LD) || (type == CacheRequestType:IFETCH)) { - return AccessType:Read; - } else if ((type == CacheRequestType:ST) || (type == CacheRequestType:ATOMIC)) { - return AccessType:Write; - } else { - error("Invalid CacheRequestType"); - } - } - - // ** OUT_PORTS ** - out_port(persistentNetwork_out, PersistentMsg, persistentFromCache); - out_port(requestNetwork_out, RequestMsg, requestFromCache); - out_port(responseNetwork_out, ResponseMsg, responseFromCache); - - // ** IN_PORTS ** - - // Use Timer - in_port(useTimerTable_in, Address, useTimerTable) { - if (useTimerTable_in.isReady()) { - trigger(Event:Use_Timeout, useTimerTable.readyAddress()); - } - } - - // Reissue Timer - in_port(reissueTimerTable_in, Address, reissueTimerTable) { - if (reissueTimerTable_in.isReady()) { - trigger(Event:Request_Timeout, reissueTimerTable.readyAddress()); - } - } - - // Persistent Network - in_port(persistentNetwork_in, PersistentMsg, persistentToCache) { - if (persistentNetwork_in.isReady()) { - peek(persistentNetwork_in, PersistentMsg) { - - // Apply the lockdown or unlockdown message to the table - if (in_msg.Type == PersistentRequestType:GETX_PERSISTENT) { - persistentTable.persistentRequestLock(in_msg.Address, in_msg.Requestor, AccessType:Write); - } else if (in_msg.Type == PersistentRequestType:GETS_PERSISTENT) { - persistentTable.persistentRequestLock(in_msg.Address, in_msg.Requestor, AccessType:Read); - } else if (in_msg.Type == PersistentRequestType:DEACTIVATE_PERSISTENT) { - persistentTable.persistentRequestUnlock(in_msg.Address, in_msg.Requestor); - } else { - error("Unexpected message"); - } - - // React to the message based on the current state of the table - if (persistentTable.isLocked(in_msg.Address)) { - if (persistentTable.findSmallest(in_msg.Address) == machineID) { - // Our Own Lock - this processor is highest priority - trigger(Event:Own_Lock_or_Unlock, in_msg.Address); - } else { - if (persistentTable.typeOfSmallest(in_msg.Address) == AccessType:Read) { - trigger(Event:Persistent_GETS, in_msg.Address); - } else { - trigger(Event:Persistent_GETX, in_msg.Address); - } - } - } else { - // Unlock case - no entries in the table - trigger(Event:Own_Lock_or_Unlock, in_msg.Address); - } - } - } - } - - - // Request Network - in_port(requestNetwork_in, RequestMsg, requestToCache) { - if (requestNetwork_in.isReady()) { - peek(requestNetwork_in, RequestMsg) { - if (in_msg.Type == CoherenceRequestType:GETX) { - trigger(Event:Transient_GETX, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GETS) { - trigger(Event:Transient_GETS, in_msg.Address); - } else { - error("Unexpected message"); - } - } - } - } - - // Response Network - in_port(responseNetwork_in, ResponseMsg, responseToCache) { - if (responseNetwork_in.isReady()) { - peek(responseNetwork_in, ResponseMsg) { - - if (getTokens(in_msg.Address) + in_msg.Tokens != max_tokens()) { - if (in_msg.Type == CoherenceResponseType:ACK) { - trigger(Event:Ack, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:DATA_OWNER) { - trigger(Event:Data_Owner, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:DATA_SHARED) { - trigger(Event:Data_Shared, in_msg.Address); - } else { - error("Unexpected message"); - } - } else { - if (in_msg.Type == CoherenceResponseType:ACK) { - trigger(Event:Ack_All_Tokens, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:DATA_OWNER) { - trigger(Event:Data_Owner_All_Tokens, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:DATA_SHARED) { - trigger(Event:Data_Shared_All_Tokens, in_msg.Address); - } else { - error("Unexpected message"); - } - } - } - } - } - - // Mandatory Queue - in_port(mandatoryQueue_in, CacheMsg, mandatoryQueue, desc="...") { - if (mandatoryQueue_in.isReady()) { - peek(mandatoryQueue_in, CacheMsg) { - // Check for data access to blocks in I-cache and ifetchs to blocks in D-cache - - if (in_msg.Type == CacheRequestType:IFETCH) { - // ** INSTRUCTION ACCESS *** - - // Check to see if it is in the OTHER L1 - if (L1DcacheMemory.isTagPresent(in_msg.Address)) { - // The block is in the wrong L1, try to write it to the L2 - if (L2cacheMemory.cacheAvail(in_msg.Address)) { - trigger(Event:L1_to_L2, in_msg.Address); - } else { - trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(in_msg.Address)); - } - } - - if (L1IcacheMemory.isTagPresent(in_msg.Address)) { - // The tag matches for the L1, so the L1 fetches the line. We know it can't be in the L2 due to exclusion - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } else { - if (L1IcacheMemory.cacheAvail(in_msg.Address)) { - // L1 does't have the line, but we have space for it in the L1 - if (L2cacheMemory.isTagPresent(in_msg.Address)) { - // L2 has it (maybe not with the right permissions) - trigger(Event:L2_to_L1I, in_msg.Address); - } else { - // We have room, the L2 doesn't have it, so the L1 fetches the line - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } - } else { - // No room in the L1, so we need to make room - if (L2cacheMemory.cacheAvail(L1IcacheMemory.cacheProbe(in_msg.Address))) { - // The L2 has room, so we move the line from the L1 to the L2 - trigger(Event:L1_to_L2, L1IcacheMemory.cacheProbe(in_msg.Address)); - } else { - // The L2 does not have room, so we replace a line from the L2 - trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(L1IcacheMemory.cacheProbe(in_msg.Address))); - } - } - } - } else { - // *** DATA ACCESS *** - - // Check to see if it is in the OTHER L1 - if (L1IcacheMemory.isTagPresent(in_msg.Address)) { - // The block is in the wrong L1, try to write it to the L2 - if (L2cacheMemory.cacheAvail(in_msg.Address)) { - trigger(Event:L1_to_L2, in_msg.Address); - } else { - trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(in_msg.Address)); - } - } - - if (L1DcacheMemory.isTagPresent(in_msg.Address)) { - // The tag matches for the L1, so the L1 fetches the line. We know it can't be in the L2 due to exclusion - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } else { - if (L1DcacheMemory.cacheAvail(in_msg.Address)) { - // L1 does't have the line, but we have space for it in the L1 - if (L2cacheMemory.isTagPresent(in_msg.Address)) { - // L2 has it (maybe not with the right permissions) - trigger(Event:L2_to_L1D, in_msg.Address); - } else { - // We have room, the L2 doesn't have it, so the L1 fetches the line - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } - } else { - // No room in the L1, so we need to make room - if (L2cacheMemory.cacheAvail(L1DcacheMemory.cacheProbe(in_msg.Address))) { - // The L2 has room, so we move the line from the L1 to the L2 - trigger(Event:L1_to_L2, L1DcacheMemory.cacheProbe(in_msg.Address)); - } else { - // The L2 does not have room, so we replace a line from the L2 - trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(L1DcacheMemory.cacheProbe(in_msg.Address))); - } - } - } - } - } - } - } - - // ACTIONS - - action(a_issueRequest, "a", desc="Issue GETS or GETX request (transient or persistent)") { - - if (TBEs[address].IssueCount == 0) { - // Update outstanding requests - profile_outstanding_request(outstandingRequests); - outstandingRequests := outstandingRequests + 1; - } - - if (TBEs[address].IssueCount < getRetryThreshold()) { - // Issue a normal request - enqueue(requestNetwork_out, RequestMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Requestor := machineID; - out_msg.Destination.broadcast(MachineType:L1Cache); - out_msg.Destination.add(map_Address_to_Directory(address)); - - if (TBEs[address].AccessType == AccessType:Read) { - out_msg.Type := CoherenceRequestType:GETS; - } else { - out_msg.Type := CoherenceRequestType:GETX; - } - - if (TBEs[address].IssueCount == 0) { - out_msg.MessageSize := MessageSizeType:Request_Control; - } else { - out_msg.MessageSize := MessageSizeType:Reissue_Control; - } - } - - // Increment IssueCount - TBEs[address].IssueCount := TBEs[address].IssueCount + 1; - - // Set a wakeup timer - reissueTimerTable.set(address, 2*averageLatencyEstimate()); - - } else { - // Try to issue a Persistent Request - if (persistentTable.okToIssueStarving(address)) { - // Issue a persistent request - enqueue(persistentNetwork_out, PersistentMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - if (TBEs[address].AccessType == AccessType:Read) { - out_msg.Type := PersistentRequestType:GETS_PERSISTENT; - } else { - out_msg.Type := PersistentRequestType:GETX_PERSISTENT; - } - out_msg.Requestor := machineID; - out_msg.Destination.broadcast(MachineType:L1Cache); - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Persistent_Control; - } - persistentTable.markEntries(address); - - // Update outstanding requests - profile_outstanding_persistent_request(outstandingPersistentRequests); - outstandingPersistentRequests := outstandingPersistentRequests + 1; - - // Increment IssueCount - TBEs[address].IssueCount := TBEs[address].IssueCount + 1; - - // Do not schedule a wakeup, a persistent requests will always complete - - } else { - // We'd like to issue a persistent request, but are not allowed - // to issue a P.R. right now. This, we do not increment the - // IssueCount. - - - // Set a wakeup timer - reissueTimerTable.set(address, 10); - } - } - } - - action(b_bounceResponse, "b", desc="Bounce tokens and data to memory") { - peek(responseNetwork_in, ResponseMsg) { - // FIXME, should use a 3rd vnet - enqueue(responseNetwork_out, ResponseMsg, latency="NULL_LATENCY") { - out_msg.Address := address; - out_msg.Type := in_msg.Type; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.DestMachine := MachineType:Directory; - out_msg.Tokens := in_msg.Tokens; - out_msg.MessageSize := in_msg.MessageSize; - out_msg.DataBlk := in_msg.DataBlk; - out_msg.Dirty := in_msg.Dirty; - } - } - } - - action(c_cleanReplacement, "c", desc="Issue clean writeback") { - if (getCacheEntry(address).Tokens > 0) { - enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:ACK; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.DestMachine := MachineType:Directory; - out_msg.Tokens := getCacheEntry(address).Tokens; - out_msg.Dirty := false; - out_msg.MessageSize := MessageSizeType:Writeback_Control; - } - getCacheEntry(address).Tokens := 0; - } - } - - action(cc_dirtyReplacement, "\c", desc="Issue dirty writeback") { - enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.DestMachine := MachineType:Directory; - out_msg.Tokens := getCacheEntry(address).Tokens; - out_msg.Dirty := getCacheEntry(address).Dirty; - if (getCacheEntry(address).Dirty) { - out_msg.Type := CoherenceResponseType:DATA_OWNER; - out_msg.DataBlk := getCacheEntry(address).DataBlk; - out_msg.MessageSize := MessageSizeType:Writeback_Data; - } else { - out_msg.Type := CoherenceResponseType:ACK_OWNER; - // NOTE: in a real system this would not send data. We send - // data here only so we can check it at the memory - out_msg.DataBlk := getCacheEntry(address).DataBlk; - out_msg.MessageSize := MessageSizeType:Writeback_Control; - } - } - getCacheEntry(address).Tokens := 0; - } - - action(d_sendDataWithToken, "d", desc="Send data and a token from cache to requestor") { - peek(requestNetwork_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA_SHARED; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DestMachine := MachineType:L1Cache; - out_msg.Tokens := 1; - out_msg.DataBlk := getCacheEntry(address).DataBlk; - out_msg.Dirty := getCacheEntry(address).Dirty; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - getCacheEntry(address).Tokens := getCacheEntry(address).Tokens - 1; - assert(getCacheEntry(address).Tokens >= 1); - } - - action(dd_sendDataWithAllTokens, "\d", desc="Send data and all tokens from cache to requestor") { - peek(requestNetwork_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA_OWNER; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DestMachine := MachineType:L1Cache; - assert(getCacheEntry(address).Tokens >= 1); - out_msg.Tokens := getCacheEntry(address).Tokens; - out_msg.DataBlk := getCacheEntry(address).DataBlk; - out_msg.Dirty := getCacheEntry(address).Dirty; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - getCacheEntry(address).Tokens := 0; - } - - action(e_sendAckWithCollectedTokens, "e", desc="Send ack with the tokens we've collected thus far.") { - assert(persistentTable.findSmallest(address) != machineID); // Make sure we never bounce tokens to ourself - if (getCacheEntry(address).Tokens > 0) { - enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:ACK; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.Destination.add(persistentTable.findSmallest(address)); - out_msg.DestMachine := MachineType:L1Cache; - assert(getCacheEntry(address).Tokens >= 1); - out_msg.Tokens := getCacheEntry(address).Tokens; - out_msg.MessageSize := MessageSizeType:Response_Control; - } - } - getCacheEntry(address).Tokens := 0; - } - - action(ee_sendDataWithAllTokens, "\e", desc="Send data and all tokens from cache to starver") { - assert(persistentTable.findSmallest(address) != machineID); // Make sure we never bounce tokens to ourself - assert(getCacheEntry(address).Tokens > 0); - enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA_OWNER; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.Destination.add(persistentTable.findSmallest(address)); - out_msg.DestMachine := MachineType:L1Cache; - assert(getCacheEntry(address).Tokens >= 1); - out_msg.Tokens := getCacheEntry(address).Tokens; - out_msg.DataBlk := getCacheEntry(address).DataBlk; - out_msg.Dirty := getCacheEntry(address).Dirty; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - getCacheEntry(address).Tokens := 0; - } - - action(f_sendAckWithAllButOneTokens, "f", desc="Send ack with all our tokens but one to starver.") { - assert(persistentTable.findSmallest(address) != machineID); // Make sure we never bounce tokens to ourself - assert(getCacheEntry(address).Tokens > 0); - if (getCacheEntry(address).Tokens > 1) { - enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:ACK; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.Destination.add(persistentTable.findSmallest(address)); - out_msg.DestMachine := MachineType:L1Cache; - assert(getCacheEntry(address).Tokens >= 1); - out_msg.Tokens := getCacheEntry(address).Tokens - 1; - out_msg.MessageSize := MessageSizeType:Response_Control; - } - } - getCacheEntry(address).Tokens := 1; - } - - action(ff_sendDataWithAllButOneTokens, "\f", desc="Send data and out tokens but one to starver") { - assert(persistentTable.findSmallest(address) != machineID); // Make sure we never bounce tokens to ourself - assert(getCacheEntry(address).Tokens > 0); - if (getCacheEntry(address).Tokens > 1) { - enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA_OWNER; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.Destination.add(persistentTable.findSmallest(address)); - out_msg.DestMachine := MachineType:L1Cache; - assert(getCacheEntry(address).Tokens >= 1); - out_msg.Tokens := getCacheEntry(address).Tokens - 1; - out_msg.DataBlk := getCacheEntry(address).DataBlk; - out_msg.Dirty := getCacheEntry(address).Dirty; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - getCacheEntry(address).Tokens := 1; - } - } - - action(g_bounceResponseToStarver, "g", desc="Redirect response to starving processor") { - assert(persistentTable.isLocked(address)); - peek(responseNetwork_in, ResponseMsg) { - assert(persistentTable.findSmallest(address) != machineID); // Make sure we never bounce tokens to ourself - // FIXME, should use a 3rd vnet in some cases - enqueue(responseNetwork_out, ResponseMsg, latency="NULL_LATENCY") { - out_msg.Address := address; - out_msg.Type := in_msg.Type; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.Destination.add(persistentTable.findSmallest(address)); - out_msg.DestMachine := MachineType:L1Cache; - out_msg.Tokens := in_msg.Tokens; - out_msg.DataBlk := in_msg.DataBlk; - out_msg.Dirty := in_msg.Dirty; - out_msg.MessageSize := in_msg.MessageSize; - } - } - } - - action(h_load_hit, "h", desc="Notify sequencer the load completed.") { - DEBUG_EXPR(getCacheEntry(address).DataBlk); - sequencer.readCallback(address, getCacheEntry(address).DataBlk); - } - - action(hh_store_hit, "\h", desc="Notify sequencer that store completed.") { - DEBUG_EXPR(getCacheEntry(address).DataBlk); - sequencer.writeCallback(address, getCacheEntry(address).DataBlk); - getCacheEntry(address).Dirty := true; - } - - action(i_allocateTBE, "i", desc="Allocate TBE") { - check_allocate(TBEs); - TBEs.allocate(address); - TBEs[address].IssueCount := 0; - peek(mandatoryQueue_in, CacheMsg) { - TBEs[address].PC := in_msg.ProgramCounter; - TBEs[address].AccessType := cache_request_type_to_access_type(in_msg.Type); - } - TBEs[address].IssueTime := get_time(); - } - - action(j_unsetReissueTimer, "j", desc="Unset reissue timer.") { - if (reissueTimerTable.isSet(address)) { - reissueTimerTable.unset(address); - } - } - - action(jj_unsetUseTimer, "\j", desc="Unset use timer.") { - useTimerTable.unset(address); - } - - action(k_popMandatoryQueue, "k", desc="Pop mandatory queue.") { - mandatoryQueue_in.dequeue(); - } - - action(l_popPersistentQueue, "l", desc="Pop persistent queue.") { - persistentNetwork_in.dequeue(); - } - - action(m_popRequestQueue, "m", desc="Pop request queue.") { - requestNetwork_in.dequeue(); - } - - action(n_popResponseQueue, "n", desc="Pop response queue") { - responseNetwork_in.dequeue(); - } - - action(o_scheduleUseTimeout, "o", desc="Schedule a use timeout.") { - useTimerTable.set(address, 15); - } - - action(q_updateTokensFromResponse, "q", desc="Update the token count based on the incoming response message") { - peek(responseNetwork_in, ResponseMsg) { - assert(in_msg.Tokens != 0); - getCacheEntry(address).Tokens := getCacheEntry(address).Tokens + in_msg.Tokens; - } - } - - action(s_deallocateTBE, "s", desc="Deallocate TBE") { - outstandingRequests := outstandingRequests - 1; - if (TBEs[address].IssueCount > getRetryThreshold()) { - outstandingPersistentRequests := outstandingPersistentRequests - 1; - enqueue(persistentNetwork_out, PersistentMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := PersistentRequestType:DEACTIVATE_PERSISTENT; - out_msg.Requestor := machineID; - out_msg.Destination.broadcast(MachineType:L1Cache); - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Persistent_Control; - } - } - - // Update average latency - updateAverageLatencyEstimate(time_to_int(get_time()) - time_to_int(TBEs[address].IssueTime)); - - // Profile - profile_token_retry(address, TBEs[address].AccessType, TBEs[address].IssueCount); - TBEs.deallocate(address); - } - - action(t_sendAckWithCollectedTokens, "t", desc="Send ack with the tokens we've collected thus far.") { - if (getCacheEntry(address).Tokens > 0) { - peek(requestNetwork_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:ACK; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DestMachine := MachineType:L1Cache; - assert(getCacheEntry(address).Tokens >= 1); - out_msg.Tokens := getCacheEntry(address).Tokens; - out_msg.MessageSize := MessageSizeType:Response_Control; - } - } - } - getCacheEntry(address).Tokens := 0; - } - - action(u_writeDataToCache, "u", desc="Write data to cache") { - peek(responseNetwork_in, ResponseMsg) { - getCacheEntry(address).DataBlk := in_msg.DataBlk; - getCacheEntry(address).Dirty := in_msg.Dirty; - } - } - - action(gg_deallocateL1CacheBlock, "\g", desc="Deallocate cache block. Sets the cache to invalid, allowing a replacement in parallel with a fetch.") { - if (L1DcacheMemory.isTagPresent(address)) { - L1DcacheMemory.deallocate(address); - } else { - L1IcacheMemory.deallocate(address); - } - } - - action(ii_allocateL1DCacheBlock, "\i", desc="Set L1 D-cache tag equal to tag of block B.") { - if (L1DcacheMemory.isTagPresent(address) == false) { - L1DcacheMemory.allocate(address); - } - } - - action(pp_allocateL1ICacheBlock, "\p", desc="Set L1 I-cache tag equal to tag of block B.") { - if (L1IcacheMemory.isTagPresent(address) == false) { - L1IcacheMemory.allocate(address); - } - } - - action(vv_allocateL2CacheBlock, "\v", desc="Set L2 cache tag equal to tag of block B.") { - L2cacheMemory.allocate(address); - } - - action(rr_deallocateL2CacheBlock, "\r", desc="Deallocate L2 cache block. Sets the cache to not present, allowing a replacement in parallel with a fetch.") { - L2cacheMemory.deallocate(address); - } - - action(ss_copyFromL1toL2, "\s", desc="Copy data block from L1 (I or D) to L2") { - if (L1DcacheMemory.isTagPresent(address)) { - L2cacheMemory[address] := L1DcacheMemory[address]; - } else { - L2cacheMemory[address] := L1IcacheMemory[address]; - } - } - - action(tt_copyFromL2toL1, "\t", desc="Copy data block from L2 to L1 (I or D)") { - if (L1DcacheMemory.isTagPresent(address)) { - L1DcacheMemory[address] := L2cacheMemory[address]; - } else { - L1IcacheMemory[address] := L2cacheMemory[address]; - } - } - - action(uu_profileMiss, "\u", desc="Profile the demand miss") { - peek(mandatoryQueue_in, CacheMsg) { - profile_miss(in_msg, id); - } - } - - action(w_assertIncomingDataAndCacheDataMatch, "w", desc="Assert that the incoming data and the data in the cache match") { - peek(responseNetwork_in, ResponseMsg) { - assert(getCacheEntry(address).DataBlk == in_msg.DataBlk); - } - } - - // action(z_stall, "z", desc="Stall") { - // } - - action(zz_recycleMandatoryQueue, "\z", desc="Send the head of the mandatory queue to the back of the queue.") { - mandatoryQueue_in.recycle(); - } - - //***************************************************** - // TRANSITIONS - //***************************************************** - - // Transitions for Load/Store/L2_Replacement from transient states - transition({IM, SM, OM, IS, IM_L, IS_L, I_L, S_L, SM_L, M_W, MM_W}, L2_Replacement) { - zz_recycleMandatoryQueue; - } - - transition({IM, SM, OM, IS, IM_L, IS_L, SM_L}, Store) { - zz_recycleMandatoryQueue; - } - - transition({IM, IS, IM_L, IS_L}, {Load, Ifetch}) { - zz_recycleMandatoryQueue; - } - - transition({IM, SM, OM, IS, I_L, IM_L, IS_L, S_L, SM_L}, {L1_to_L2, L2_to_L1D, L2_to_L1I}) { - zz_recycleMandatoryQueue; - } - - // Transitions moving data between the L1 and L2 caches - transition({I, S, O, M, MM, M_W, MM_W}, L1_to_L2) { - vv_allocateL2CacheBlock; - ss_copyFromL1toL2; - gg_deallocateL1CacheBlock; - } - - transition({I, S, O, M, MM, M_W, MM_W}, L2_to_L1D) { - ii_allocateL1DCacheBlock; - tt_copyFromL2toL1; - rr_deallocateL2CacheBlock; - } - - transition({I, S, O, M, MM, M_W, MM_W}, L2_to_L1I) { - pp_allocateL1ICacheBlock; - tt_copyFromL2toL1; - rr_deallocateL2CacheBlock; - } - - // Locks - transition({NP, I, S, O, M, MM, M_W, MM_W, IM, SM, OM, IS}, Own_Lock_or_Unlock) { - l_popPersistentQueue; - } - - // Transitions from NP - transition(NP, Load, IS) { - ii_allocateL1DCacheBlock; - i_allocateTBE; - a_issueRequest; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition(NP, Ifetch, IS) { - pp_allocateL1ICacheBlock; - i_allocateTBE; - a_issueRequest; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition(NP, Store, IM) { - ii_allocateL1DCacheBlock; - i_allocateTBE; - a_issueRequest; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition(NP, {Ack, Data_Shared, Data_Owner, Data_Owner_All_Tokens}) { - b_bounceResponse; - n_popResponseQueue; - } - - transition(NP, {Transient_GETX, Transient_GETS}) { - m_popRequestQueue; - } - - transition(NP, {Persistent_GETX, Persistent_GETS}, I_L) { - l_popPersistentQueue; - } - - // Transitions from Idle - transition(I, Load, IS) { - i_allocateTBE; - a_issueRequest; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition(I, Ifetch, IS) { - i_allocateTBE; - a_issueRequest; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition(I, Store, IM) { - i_allocateTBE; - a_issueRequest; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition(I, L2_Replacement) { - c_cleanReplacement; // Only needed in some cases - rr_deallocateL2CacheBlock; - } - - transition(I, Transient_GETX) { - t_sendAckWithCollectedTokens; - m_popRequestQueue; - } - - transition(I, Transient_GETS) { - m_popRequestQueue; - } - - transition(I, {Persistent_GETX, Persistent_GETS}, I_L) { - e_sendAckWithCollectedTokens; - l_popPersistentQueue; - } - - transition(I_L, {Persistent_GETX, Persistent_GETS}) { - l_popPersistentQueue; - } - - transition(I, Ack) { - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(I, Data_Shared, S) { - u_writeDataToCache; - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(I, Data_Owner, O) { - u_writeDataToCache; - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(I, Data_Owner_All_Tokens, M) { - u_writeDataToCache; - q_updateTokensFromResponse; - n_popResponseQueue; - } - - // Transitions from Shared - transition({S, SM, S_L, SM_L}, {Load, Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(S, Store, SM) { - i_allocateTBE; - a_issueRequest; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition(S, L2_Replacement, I) { - c_cleanReplacement; - rr_deallocateL2CacheBlock; - } - - transition(S, Transient_GETX, I) { - t_sendAckWithCollectedTokens; - m_popRequestQueue; - } - - transition(S, Transient_GETS) { - m_popRequestQueue; - } - - transition({S, S_L}, Persistent_GETX, I_L) { - e_sendAckWithCollectedTokens; - l_popPersistentQueue; - } - - transition(S, Persistent_GETS, S_L) { - f_sendAckWithAllButOneTokens; - l_popPersistentQueue; - } - - transition(S_L, Persistent_GETS) { - l_popPersistentQueue; - } - - transition(S, Ack) { - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(S, Data_Shared) { - w_assertIncomingDataAndCacheDataMatch; - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(S, Data_Owner, O) { - w_assertIncomingDataAndCacheDataMatch; - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(S, Data_Owner_All_Tokens, M) { - w_assertIncomingDataAndCacheDataMatch; - q_updateTokensFromResponse; - n_popResponseQueue; - } - - // Transitions from Owned - transition({O, OM}, {Load, Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(O, Store, OM) { - i_allocateTBE; - a_issueRequest; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition(O, L2_Replacement, I) { - cc_dirtyReplacement; - rr_deallocateL2CacheBlock; - } - - transition(O, Transient_GETX, I) { - dd_sendDataWithAllTokens; - m_popRequestQueue; - } - - transition(O, Persistent_GETX, I_L) { - ee_sendDataWithAllTokens; - l_popPersistentQueue; - } - - transition(O, Persistent_GETS, S_L) { - ff_sendDataWithAllButOneTokens; - l_popPersistentQueue; - } - - transition(O, Transient_GETS) { - d_sendDataWithToken; - m_popRequestQueue; - } - - transition(O, Ack) { - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(O, Ack_All_Tokens, M) { - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(O, Data_Shared) { - w_assertIncomingDataAndCacheDataMatch; - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(O, Data_Shared_All_Tokens, M) { - w_assertIncomingDataAndCacheDataMatch; - q_updateTokensFromResponse; - n_popResponseQueue; - } - - // Transitions from Modified - transition({MM, MM_W}, {Load, Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition({MM, MM_W}, Store) { - hh_store_hit; - k_popMandatoryQueue; - } - - transition(MM, L2_Replacement, I) { - cc_dirtyReplacement; - rr_deallocateL2CacheBlock; - } - - transition(MM, {Transient_GETX, Transient_GETS}, I) { - dd_sendDataWithAllTokens; - m_popRequestQueue; - } - - transition(MM_W, {Transient_GETX, Transient_GETS}) { // Ignore the request - m_popRequestQueue; - } - - // Implement the migratory sharing optimization, even for persistent requests - transition(MM, {Persistent_GETX, Persistent_GETS}, I_L) { - ee_sendDataWithAllTokens; - l_popPersistentQueue; - } - - // Implement the migratory sharing optimization, even for persistent requests - transition(MM_W, {Persistent_GETX, Persistent_GETS}, I_L) { - s_deallocateTBE; - ee_sendDataWithAllTokens; - jj_unsetUseTimer; - l_popPersistentQueue; - } - - transition(MM_W, Use_Timeout, MM) { - s_deallocateTBE; - jj_unsetUseTimer; - } - - // Transitions from Dirty Exclusive - transition({M, M_W}, {Load, Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(M, Store, MM) { - hh_store_hit; - k_popMandatoryQueue; - } - - transition(M_W, Store, MM_W) { - hh_store_hit; - k_popMandatoryQueue; - } - - transition(M, L2_Replacement, I) { - cc_dirtyReplacement; - rr_deallocateL2CacheBlock; - } - - transition(M, Transient_GETX, I) { - dd_sendDataWithAllTokens; - m_popRequestQueue; - } - - transition(M, Transient_GETS, O) { - d_sendDataWithToken; - m_popRequestQueue; - } - - transition(M_W,{Transient_GETX, Transient_GETS}) { // Ignore the request - m_popRequestQueue; - } - - transition(M, Persistent_GETX, I_L) { - ee_sendDataWithAllTokens; - l_popPersistentQueue; - } - - transition(M, Persistent_GETS, S_L) { - ff_sendDataWithAllButOneTokens; - l_popPersistentQueue; - } - - transition(M_W, Persistent_GETX, I_L) { - s_deallocateTBE; - ee_sendDataWithAllTokens; - jj_unsetUseTimer; - l_popPersistentQueue; - } - - transition(M_W, Persistent_GETS, S_L) { - s_deallocateTBE; - ff_sendDataWithAllButOneTokens; - jj_unsetUseTimer; - l_popPersistentQueue; - } - - transition(M_W, Use_Timeout, M) { - s_deallocateTBE; - jj_unsetUseTimer; - } - - // Transient_GETX and Transient_GETS in transient states - transition(OM, {Transient_GETX, Transient_GETS}) { - m_popRequestQueue; // Even if we have the data, we can pretend we don't have it yet. - } - - transition(IS, Transient_GETX) { - t_sendAckWithCollectedTokens; - m_popRequestQueue; - } - - transition(IS, Transient_GETS) { - m_popRequestQueue; - } - - transition(IS, {Persistent_GETX, Persistent_GETS}, IS_L) { - e_sendAckWithCollectedTokens; - l_popPersistentQueue; - } - - transition(IS_L, {Persistent_GETX, Persistent_GETS}) { - l_popPersistentQueue; - } - - transition(IM, {Persistent_GETX, Persistent_GETS}, IM_L) { - e_sendAckWithCollectedTokens; - l_popPersistentQueue; - } - - transition(IM_L, {Persistent_GETX, Persistent_GETS}) { - l_popPersistentQueue; - } - - transition({SM, SM_L}, Persistent_GETX, IM_L) { - e_sendAckWithCollectedTokens; - l_popPersistentQueue; - } - - transition(SM, Persistent_GETS, SM_L) { - f_sendAckWithAllButOneTokens; - l_popPersistentQueue; - } - - transition(SM_L, Persistent_GETS) { - l_popPersistentQueue; - } - - transition(OM, Persistent_GETX, IM_L) { - ee_sendDataWithAllTokens; - l_popPersistentQueue; - } - - transition(OM, Persistent_GETS, SM_L) { - ff_sendDataWithAllButOneTokens; - l_popPersistentQueue; - } - - // Transitions from IM/SM - - transition({IM, SM}, Ack) { - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(IM, Data_Shared, SM) { - u_writeDataToCache; - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(IM, Data_Owner, OM) { - u_writeDataToCache; - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(IM, Data_Owner_All_Tokens, MM_W) { - u_writeDataToCache; - q_updateTokensFromResponse; - hh_store_hit; - o_scheduleUseTimeout; - j_unsetReissueTimer; - n_popResponseQueue; - } - - transition(SM, Data_Shared) { - w_assertIncomingDataAndCacheDataMatch; - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(SM, Data_Owner, OM) { - w_assertIncomingDataAndCacheDataMatch; - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(SM, Data_Owner_All_Tokens, MM_W) { - w_assertIncomingDataAndCacheDataMatch; - q_updateTokensFromResponse; - hh_store_hit; - o_scheduleUseTimeout; - j_unsetReissueTimer; - n_popResponseQueue; - } - - transition({IM, SM}, Transient_GETX, IM) { - t_sendAckWithCollectedTokens; - m_popRequestQueue; - } - - transition({IM, SM}, Transient_GETS) { - m_popRequestQueue; - } - - transition({IM, SM}, Request_Timeout) { - j_unsetReissueTimer; - a_issueRequest; - } - - // Transitions from OM - - transition(OM, Ack) { - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(OM, Ack_All_Tokens, MM_W) { - q_updateTokensFromResponse; - hh_store_hit; - o_scheduleUseTimeout; - j_unsetReissueTimer; - n_popResponseQueue; - } - - transition(OM, Data_Shared) { - w_assertIncomingDataAndCacheDataMatch; - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(OM, Data_Shared_All_Tokens, MM_W) { - w_assertIncomingDataAndCacheDataMatch; - q_updateTokensFromResponse; - hh_store_hit; - o_scheduleUseTimeout; - j_unsetReissueTimer; - n_popResponseQueue; - } - - transition(OM, Request_Timeout) { - j_unsetReissueTimer; - a_issueRequest; - } - - // Transitions from IS - - transition(IS, Ack) { - q_updateTokensFromResponse; - n_popResponseQueue; - } - - transition(IS, Data_Shared, S) { - u_writeDataToCache; - q_updateTokensFromResponse; - h_load_hit; - s_deallocateTBE; - j_unsetReissueTimer; - n_popResponseQueue; - } - - transition(IS, Data_Owner, O) { - u_writeDataToCache; - q_updateTokensFromResponse; - h_load_hit; - s_deallocateTBE; - j_unsetReissueTimer; - n_popResponseQueue; - } - - transition(IS, Data_Owner_All_Tokens, M_W) { - u_writeDataToCache; - q_updateTokensFromResponse; - h_load_hit; - o_scheduleUseTimeout; - j_unsetReissueTimer; - n_popResponseQueue; - } - - transition(IS, Request_Timeout) { - j_unsetReissueTimer; - a_issueRequest; - } - - // Transitions from I_L - - transition(I_L, Load, IS_L) { - ii_allocateL1DCacheBlock; - i_allocateTBE; - a_issueRequest; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition(I_L, Ifetch, IS_L) { - pp_allocateL1ICacheBlock; - i_allocateTBE; - a_issueRequest; - uu_profileMiss; - k_popMandatoryQueue; - } - - transition(I_L, Store, IM_L) { - ii_allocateL1DCacheBlock; - i_allocateTBE; - a_issueRequest; - uu_profileMiss; - k_popMandatoryQueue; - } - - - // Transitions from S_L - - transition(S_L, Store, SM_L) { - i_allocateTBE; - a_issueRequest; - uu_profileMiss; - k_popMandatoryQueue; - } - - // Other transitions from *_L states - - transition({I_L, IM_L, IS_L, S_L, SM_L}, {Transient_GETS, Transient_GETX}) { - m_popRequestQueue; - } - - transition({I_L, IM_L, IS_L, S_L, SM_L}, Ack) { - g_bounceResponseToStarver; - n_popResponseQueue; - } - - transition({I_L, IM_L, S_L, SM_L}, {Data_Shared, Data_Owner}) { - g_bounceResponseToStarver; - n_popResponseQueue; - } - - transition({I_L, S_L}, Data_Owner_All_Tokens) { - g_bounceResponseToStarver; - n_popResponseQueue; - } - - transition(IS_L, Request_Timeout) { - j_unsetReissueTimer; - a_issueRequest; - } - - transition({IM_L, SM_L}, Request_Timeout) { - j_unsetReissueTimer; - a_issueRequest; - } - - // Opportunisticly Complete the memory operation in the following - // cases. Note: these transitions could just use - // g_bounceResponseToStarver, but if we have the data and tokens, we - // might as well complete the memory request while we have the - // chance (and then immediately forward on the data) - - transition(IM_L, Data_Owner_All_Tokens, I_L) { - u_writeDataToCache; - q_updateTokensFromResponse; - hh_store_hit; - ee_sendDataWithAllTokens; - s_deallocateTBE; - j_unsetReissueTimer; - n_popResponseQueue; - } - - transition(SM_L, Data_Owner_All_Tokens, S_L) { - u_writeDataToCache; - q_updateTokensFromResponse; - hh_store_hit; - ff_sendDataWithAllButOneTokens; - s_deallocateTBE; - j_unsetReissueTimer; - n_popResponseQueue; - } - - transition(IS_L, Data_Shared, I_L) { - u_writeDataToCache; - q_updateTokensFromResponse; - h_load_hit; - s_deallocateTBE; - e_sendAckWithCollectedTokens; - j_unsetReissueTimer; - j_unsetReissueTimer; - n_popResponseQueue; - } - - transition(IS_L, {Data_Owner, Data_Owner_All_Tokens}, I_L) { - u_writeDataToCache; - q_updateTokensFromResponse; - h_load_hit; - ee_sendDataWithAllTokens; - s_deallocateTBE; - j_unsetReissueTimer; - n_popResponseQueue; - } - - // Own_Lock_or_Unlock - - transition(I_L, Own_Lock_or_Unlock, I) { - l_popPersistentQueue; - } - - transition(S_L, Own_Lock_or_Unlock, S) { - l_popPersistentQueue; - } - - transition(IM_L, Own_Lock_or_Unlock, IM) { - l_popPersistentQueue; - } - - transition(IS_L, Own_Lock_or_Unlock, IS) { - l_popPersistentQueue; - } - - transition(SM_L, Own_Lock_or_Unlock, SM) { - l_popPersistentQueue; - } -} diff --git a/src/mem/protocol/MOESI_SMP_token-dir.sm b/src/mem/protocol/MOESI_SMP_token-dir.sm deleted file mode 100644 index 5464a25fc..000000000 --- a/src/mem/protocol/MOESI_SMP_token-dir.sm +++ /dev/null @@ -1,405 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id: MOESI_token-dir.sm 1.5 04/11/17 14:07:50-06:00 mikem@emperor15.cs.wisc.edu $ - */ - -machine(Directory, "Token protocol") { - - MessageBuffer responseFromDir, network="To", virtual_network="0", ordered="false"; - - MessageBuffer responseToDir, network="From", virtual_network="0", ordered="false"; - MessageBuffer requestToDir, network="From", virtual_network="1", ordered="false"; - MessageBuffer persistentToDir, network="From", virtual_network="2", ordered="true"; - - - // STATES - enumeration(State, desc="Directory states", default="Directory_State_O") { - // Base states - O, desc="Owner"; - NO, desc="Not Owner"; - L, desc="Locked"; - } - - // Events - enumeration(Event, desc="Directory events") { - GETX, desc="A GETX arrives"; - GETS, desc="A GETS arrives"; - Lockdown, desc="A lockdown request arrives"; - Unlockdown, desc="An un-lockdown request arrives"; - Data_Owner, desc="Data arrive, includes the owner token"; - Data_Shared, desc="Data arrive, does not include the owner token"; - Ack, desc="Tokens arrive"; - Ack_Owner, desc="Tokens arrive, including the owner token"; - } - - // TYPES - - // DirectoryEntry - structure(Entry, desc="...") { - State DirectoryState, desc="Directory state"; - DataBlock DataBlk, desc="data for the block"; - int Tokens, default="max_tokens()", desc="Number of tokens for the line we're holding"; - } - - external_type(DirectoryMemory) { - Entry lookup(Address); - bool isPresent(Address); - } - - // ** OBJECTS ** - - DirectoryMemory directory, constructor_hack="i"; - - PersistentTable persistentTable, constructor_hack="i"; - - State getState(Address addr) { - return directory[addr].DirectoryState; - } - - void setState(Address addr, State state) { - directory[addr].DirectoryState := state; - - if (state == State:L) { - assert(directory[addr].Tokens == 0); - } - - // Make sure the token count is in range - assert(directory[addr].Tokens >= 0); - assert(directory[addr].Tokens <= max_tokens()); - - if (state == State:O) { - assert(directory[addr].Tokens >= 1); // Must have at least one token - assert(directory[addr].Tokens >= (max_tokens() / 2)); // Only mostly true; this might not always hold - } - } - - // ** OUT_PORTS ** - out_port(responseNetwork_out, ResponseMsg, responseFromDir); - - // ** IN_PORTS ** - - in_port(persistentNetwork_in, PersistentMsg, persistentToDir) { - if (persistentNetwork_in.isReady()) { - peek(persistentNetwork_in, PersistentMsg) { - - // Apply the lockdown or unlockdown message to the table - if (in_msg.Type == PersistentRequestType:GETX_PERSISTENT) { - persistentTable.persistentRequestLock(in_msg.Address, in_msg.Requestor, AccessType:Write); - } else if (in_msg.Type == PersistentRequestType:GETS_PERSISTENT) { - persistentTable.persistentRequestLock(in_msg.Address, in_msg.Requestor, AccessType:Read); - } else if (in_msg.Type == PersistentRequestType:DEACTIVATE_PERSISTENT) { - persistentTable.persistentRequestUnlock(in_msg.Address, in_msg.Requestor); - } else { - error("Invalid message"); - } - - // React to the message based on the current state of the table - if (persistentTable.isLocked(in_msg.Address)) { - trigger(Event:Lockdown, in_msg.Address); // locked - } else { - trigger(Event:Unlockdown, in_msg.Address); // unlocked - } - } - } - } - - in_port(requestNetwork_in, RequestMsg, requestToDir) { - if (requestNetwork_in.isReady()) { - peek(requestNetwork_in, RequestMsg) { - if (in_msg.Type == CoherenceRequestType:GETS) { - trigger(Event:GETS, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GETX) { - trigger(Event:GETX, in_msg.Address); - } else { - error("Invalid message"); - } - } - } - } - - in_port(responseNetwork_in, ResponseMsg, responseToDir) { - if (responseNetwork_in.isReady()) { - peek(responseNetwork_in, ResponseMsg) { - if (in_msg.Type == CoherenceResponseType:DATA_OWNER) { - trigger(Event:Data_Owner, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:ACK) { - trigger(Event:Ack, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:DATA_SHARED) { - trigger(Event:Data_Shared, in_msg.Address); - } else if (in_msg.Type == CoherenceResponseType:ACK_OWNER) { - trigger(Event:Ack_Owner, in_msg.Address); - } else { - error("Invalid message"); - } - } - } - } - - - // Actions - - action(a_sendTokens, "a", desc="Send tokens to requestor") { - // Only send a message if we have tokens to send - if (directory[address].Tokens > 0) { - peek(requestNetwork_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="DIRECTORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:ACK; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:Directory; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DestMachine := MachineType:L1Cache; - out_msg.Tokens := directory[in_msg.Address].Tokens; - out_msg.MessageSize := MessageSizeType:Response_Control; - } - } - directory[address].Tokens := 0; - } - } - - action(aa_sendTokensToStarver, "\a", desc="Send tokens to starver") { - // Only send a message if we have tokens to send - if (directory[address].Tokens > 0) { - enqueue(responseNetwork_out, ResponseMsg, latency="DIRECTORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:ACK; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:Directory; - out_msg.Destination.add(persistentTable.findSmallest(address)); - out_msg.DestMachine := MachineType:L1Cache; - out_msg.Tokens := directory[address].Tokens; - out_msg.MessageSize := MessageSizeType:Response_Control; - } - directory[address].Tokens := 0; - } - } - - - action(d_sendDataWithAllTokens, "d", desc="Send data and tokens to requestor") { - peek(requestNetwork_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="MEMORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA_OWNER; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:Directory; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DestMachine := MachineType:L1Cache; - assert(directory[address].Tokens > 0); - out_msg.Tokens := directory[in_msg.Address].Tokens; - out_msg.DataBlk := directory[in_msg.Address].DataBlk; - out_msg.Dirty := false; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - directory[address].Tokens := 0; - } - - action(dd_sendDataWithAllTokensToStarver, "\d", desc="Send data and tokens to starver") { - enqueue(responseNetwork_out, ResponseMsg, latency="MEMORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA_OWNER; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:Directory; - out_msg.Destination.add(persistentTable.findSmallest(address)); - out_msg.DestMachine := MachineType:L1Cache; - assert(directory[address].Tokens > 0); - out_msg.Tokens := directory[address].Tokens; - out_msg.DataBlk := directory[address].DataBlk; - out_msg.Dirty := false; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - directory[address].Tokens := 0; - } - - action(f_incrementTokens, "f", desc="Increment the number of tokens we're tracking") { - peek(responseNetwork_in, ResponseMsg) { - assert(in_msg.Tokens >= 1); - directory[address].Tokens := directory[address].Tokens + in_msg.Tokens; - } - } - - - action(j_popIncomingRequestQueue, "j", desc="Pop incoming request queue") { - requestNetwork_in.dequeue(); - } - - action(k_popIncomingResponseQueue, "k", desc="Pop incoming response queue") { - responseNetwork_in.dequeue(); - } - - action(l_popIncomingPersistentQueue, "l", desc="Pop incoming persistent queue") { - persistentNetwork_in.dequeue(); - } - - action(m_writeDataToMemory, "m", desc="Write dirty writeback to memory") { - peek(responseNetwork_in, ResponseMsg) { - directory[in_msg.Address].DataBlk := in_msg.DataBlk; - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(in_msg.DataBlk); - } - } - - action(n_checkIncomingMsg, "n", desc="Check incoming token message") { - peek(responseNetwork_in, ResponseMsg) { - assert(in_msg.Type == CoherenceResponseType:ACK_OWNER); - assert(in_msg.Dirty == false); - assert(in_msg.MessageSize == MessageSizeType:Writeback_Control); - assert(directory[in_msg.Address].DataBlk == in_msg.DataBlk); - } - } - - action(r_bounceResponse, "r", desc="Bounce response to starving processor") { - peek(responseNetwork_in, ResponseMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="NULL_LATENCY") { - out_msg.Address := address; - out_msg.Type := in_msg.Type; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:Directory; - out_msg.Destination.add(persistentTable.findSmallest(address)); - out_msg.DestMachine := MachineType:L1Cache; - out_msg.Tokens := in_msg.Tokens; - out_msg.DataBlk := in_msg.DataBlk; - out_msg.Dirty := in_msg.Dirty; - out_msg.MessageSize := in_msg.MessageSize; - } - } - } - - action(s_bounceDatalessOwnerToken, "s", desc="Bounce clean owner token to starving processor") { - peek(responseNetwork_in, ResponseMsg) { - assert(in_msg.Type == CoherenceResponseType:ACK_OWNER); - assert(in_msg.Dirty == false); - assert(in_msg.MessageSize == MessageSizeType:Writeback_Control); - - // NOTE: The following check would not be valid in a real - // implementation. We include the data in the "dataless" - // message so we can assert the clean data matches the datablock - // in memory - assert(directory[in_msg.Address].DataBlk == in_msg.DataBlk); - - // Bounce the message, but "re-associate" the data and the owner - // token. In essence we're converting an ACK_OWNER message to a - // DATA_OWNER message, keeping the number of tokens the same. - enqueue(responseNetwork_out, ResponseMsg, latency="NULL_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA_OWNER; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:Directory; - out_msg.Destination.add(persistentTable.findSmallest(address)); - out_msg.DestMachine := MachineType:L1Cache; - out_msg.Tokens := in_msg.Tokens; - out_msg.DataBlk := directory[in_msg.Address].DataBlk; - out_msg.Dirty := in_msg.Dirty; - out_msg.MessageSize := MessageSizeType:Response_Data; - } - } - } - - // TRANSITIONS - - // Trans. from O - transition(O, GETX, NO) { - d_sendDataWithAllTokens; - j_popIncomingRequestQueue; - } - - transition(O, GETS, NO) { - d_sendDataWithAllTokens; - // Since we found the owner, no need to forward - j_popIncomingRequestQueue; - } - - transition(O, Lockdown, L) { - dd_sendDataWithAllTokensToStarver; - l_popIncomingPersistentQueue; - } - - transition(O, {Data_Shared, Ack}) { - f_incrementTokens; - k_popIncomingResponseQueue; - } - - // Trans. from NO - transition(NO, GETX) { - a_sendTokens; - j_popIncomingRequestQueue; - } - - transition(NO, GETS) { - j_popIncomingRequestQueue; - } - - transition(NO, Lockdown, L) { - aa_sendTokensToStarver; - l_popIncomingPersistentQueue; - } - - transition(NO, Data_Owner, O) { - m_writeDataToMemory; - f_incrementTokens; - k_popIncomingResponseQueue; - } - - transition(NO, Ack_Owner, O) { - n_checkIncomingMsg; - f_incrementTokens; - k_popIncomingResponseQueue; - } - - transition(NO, {Data_Shared, Ack}) { - f_incrementTokens; - k_popIncomingResponseQueue; - } - - // Trans. from L - transition(L, {GETX, GETS}) { - j_popIncomingRequestQueue; - } - - transition(L, Lockdown) { - l_popIncomingPersistentQueue; - } - - transition(L, {Data_Owner, Data_Shared, Ack}) { - r_bounceResponse; - k_popIncomingResponseQueue; - } - - transition(L, Ack_Owner) { - s_bounceDatalessOwnerToken; - k_popIncomingResponseQueue; - } - - transition(L, Unlockdown, NO) { - l_popIncomingPersistentQueue; - } - -} diff --git a/src/mem/protocol/MOESI_SMP_token-msg.sm b/src/mem/protocol/MOESI_SMP_token-msg.sm deleted file mode 100644 index 98e27ec02..000000000 --- a/src/mem/protocol/MOESI_SMP_token-msg.sm +++ /dev/null @@ -1,61 +0,0 @@ -/* - * $Id: MOESI_token-msg.sm 1.3 04/06/05 22:43:20-00:00 kmoore@cottons.cs.wisc.edu $ - * - */ - -//int max_tokens(); - -// CoherenceRequestType -enumeration(CoherenceRequestType, desc="...") { - GETX, desc="Get eXclusive"; - GETS, desc="Get Shared"; -} - -// StarvationType -enumeration(PersistentRequestType, desc="...") { - GETX_PERSISTENT, desc="..."; - GETS_PERSISTENT, desc="..."; - DEACTIVATE_PERSISTENT, desc="..."; -} - -// CoherenceResponseType -enumeration(CoherenceResponseType, desc="...") { - DATA_OWNER, desc="Data, with the owner token"; - DATA_SHARED, desc="Data, without the owner token"; - ACK, desc="ACKnowledgment"; - ACK_OWNER, desc="ACKnowledgment, includes the clean owner token"; -} - -// StarvationMsg -structure(PersistentMsg, desc="...", interface="NetworkMessage") { - Address Address, desc="Physical address for this request"; - PersistentRequestType Type, desc="Type of starvation request"; - MachineID Requestor, desc="Node who initiated the request"; - NetDest Destination, desc="Destination set"; - MessageSizeType MessageSize, desc="size category of the message"; -} - -// RequestMsg -structure(RequestMsg, desc="...", interface="NetworkMessage") { - Address Address, desc="Physical address for this request"; - CoherenceRequestType Type, desc="Type of request (GetS, GetX, PutX, etc)"; - MachineID Requestor, desc="Node who initiated the request"; - NetDest Destination, desc="Multicast destination mask"; - MachineType DestMachine, desc="What component receives the data"; - MessageSizeType MessageSize, desc="size category of the message"; -} - -// ResponseMsg -structure(ResponseMsg, desc="...", interface="NetworkMessage") { - Address Address, desc="Physical address for this request"; - CoherenceResponseType Type, desc="Type of response (Ack, Data, etc)"; - MachineID Sender, desc="Node who sent the data"; - MachineType SenderMachine, desc="What component sent the data"; - NetDest Destination, desc="Node to whom the data is sent"; - MachineType DestMachine, desc="What component receives the data"; - int Tokens, desc="Number of tokens being transfered for this line"; - DataBlock DataBlk, desc="data for the cache line"; - bool Dirty, desc="Is the data dirty (different than memory)?"; - MessageSizeType MessageSize, desc="size category of the message"; -} - diff --git a/src/mem/protocol/MOESI_SMP_token.slicc b/src/mem/protocol/MOESI_SMP_token.slicc deleted file mode 100644 index 31822f997..000000000 --- a/src/mem/protocol/MOESI_SMP_token.slicc +++ /dev/null @@ -1,4 +0,0 @@ -MOESI_SMP_token-msg.sm -MOESI_SMP_token-cache.sm -MOESI_SMP_token-dir.sm -standard_SMP-protocol.sm diff --git a/src/mem/protocol/MOSI_SMP_bcast-cache.sm b/src/mem/protocol/MOSI_SMP_bcast-cache.sm deleted file mode 100644 index 6512b435a..000000000 --- a/src/mem/protocol/MOSI_SMP_bcast-cache.sm +++ /dev/null @@ -1,1000 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id$ - */ - -machine(L1Cache, "MOSI Broadcast Optimized") { - - MessageBuffer addressFromCache, network="To", virtual_network="0", ordered="true"; - MessageBuffer dataFromCache, network="To", virtual_network="1", ordered="false"; - - MessageBuffer addressToCache, network="From", virtual_network="0", ordered="true"; - MessageBuffer dataToCache, network="From", virtual_network="1", ordered="false"; - - // STATES - - enumeration(State, desc="Cache states", default="L1Cache_State_I") { - NP, desc="Not Present"; - I, desc="Idle"; - S, desc="Shared"; - O, desc="Owned"; - M, desc="Modified", format="!b"; - IS_AD, "IS^AD", desc="idle, issued GETS, have not seen GETS or data yet"; - IM_AD, "IM^AD", desc="idle, issued GETX, have not seen GETX or data yet"; - SM_AD, "SM^AD",desc="shared, issued GETX, have not seen GETX or data yet"; - OM_A, "OM^A",desc="owned, issued GETX, have not seen GETX yet", format="!b"; - - IS_A, "IS^A",desc="idle, issued GETS, have not seen GETS, have seen data"; - IM_A, "IM^A",desc="idle, issued GETX, have not seen GETX, have seen data"; - SM_A, "SM^A",desc="shared, issued GETX, have not seen GETX, have seen data", format="!b"; - - MI_A, "MI^A", desc="modified, issued PUTX, have not seen PUTX yet"; - OI_A, "OI^A", desc="owned, issued PUTX, have not seen PUTX yet"; - II_A, "II^A", desc="modified, issued PUTX, have not seen PUTX, then saw other GETX", format="!b"; - - IS_D, "IS^D", desc="idle, issued GETS, have seen GETS, have not seen data yet"; - IS_D_I, "IS^D^I", desc="idle, issued GETS, have seen GETS, have not seen data, then saw other GETX"; - IM_D, "IM^D", desc="idle, issued GETX, have seen GETX, have not seen data yet"; - IM_D_O, "IM^D^O", desc="idle, issued GETX, have seen GETX, have not seen data yet, then saw other GETS"; - IM_D_I, "IM^D^I", desc="idle, issued GETX, have seen GETX, have not seen data yet, then saw other GETX"; - IM_D_OI, "IM^D^OI", desc="idle, issued GETX, have seen GETX, have not seen data yet, then saw other GETS, then saw other GETX"; - SM_D, "SM^D", desc="shared, issued GETX, have seen GETX, have not seen data yet"; - SM_D_O, "SM^D^O", desc="shared, issued GETX, have seen GETX, have not seen data yet, then saw other GETS"; - } - - // ** EVENTS ** - - enumeration(Event, desc="Cache events") { - // From processor - Load, desc="Load request from the processor"; - Ifetch, desc="I-fetch request from the processor"; - Store, desc="Store request from the processor"; - L1_to_L2, desc="L1 to L2 transfer"; - L2_to_L1D, desc="L2 to L1-Data transfer"; - L2_to_L1I, desc="L2 to L1-Instruction transfer"; - L2_Replacement, desc="L2 Replacement"; - - // From Address network - Own_GETS, desc="Occurs when we observe our own GETS request in the global order"; - Own_GET_INSTR, desc="Occurs when we observe our own GETInstr request in the global order"; - Own_GETX, desc="Occurs when we observe our own GETX request in the global order"; - Own_PUTX, desc="Occurs when we observe our own PUTX request in the global order", format="!r"; - Other_GETS, desc="Occurs when we observe a GETS request from another processor"; - Other_GET_INSTR, desc="Occurs when we observe a GETInstr request from another processor"; - Other_GETX, desc="Occurs when we observe a GETX request from another processor"; - Other_PUTX, desc="Occurs when we observe a PUTX request from another processor", format="!r"; - - // From Data network - Data, desc="Data for this block from the data network"; - } - - // TYPES - - // CacheEntry - structure(Entry, desc="...", interface="AbstractCacheEntry") { - State CacheState, desc="cache state"; - DataBlock DataBlk, desc="data for the block"; - } - - // TBE fields - structure(TBE, desc="...") { - Address Address, desc="Physical address for this TBE"; - State TBEState, desc="Transient state"; - DataBlock DataBlk, desc="Buffer for the data block"; - NetDest ForwardIDs, desc="IDs of the processors to forward the block"; - Address ForwardAddress, desc="Address of request for forwarding"; - } - - - external_type(CacheMemory) { - bool cacheAvail(Address); - Address cacheProbe(Address); - void allocate(Address); - void deallocate(Address); - Entry lookup(Address); - void changePermission(Address, AccessPermission); - bool isTagPresent(Address); - } - - external_type(TBETable) { - TBE lookup(Address); - void allocate(Address); - void deallocate(Address); - bool isPresent(Address); - } - - TBETable TBEs, template_hack="<L1Cache_TBE>"; - CacheMemory L1IcacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L1_CACHE_NUM_SETS_BITS,L1_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_L1I"', abstract_chip_ptr="true"; - CacheMemory L1DcacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L1_CACHE_NUM_SETS_BITS,L1_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_L1D"', abstract_chip_ptr="true"; - CacheMemory L2cacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L2_CACHE_NUM_SETS_BITS,L2_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_L2"', abstract_chip_ptr="true"; - - MessageBuffer mandatoryQueue, ordered="false", abstract_chip_ptr="true"; - Sequencer sequencer, abstract_chip_ptr="true", constructor_hack="i"; - StoreBuffer storeBuffer, abstract_chip_ptr="true", constructor_hack="i"; - - int cache_state_to_int(State state); - - Entry getCacheEntry(Address addr), return_by_ref="yes" { - if (L2cacheMemory.isTagPresent(addr)) { - return L2cacheMemory[addr]; - } else if (L1DcacheMemory.isTagPresent(addr)) { - return L1DcacheMemory[addr]; - } else { - return L1IcacheMemory[addr]; - } - } - - void changePermission(Address addr, AccessPermission permission) { - if (L2cacheMemory.isTagPresent(addr)) { - return L2cacheMemory.changePermission(addr, permission); - } else if (L1DcacheMemory.isTagPresent(addr)) { - return L1DcacheMemory.changePermission(addr, permission); - } else { - return L1IcacheMemory.changePermission(addr, permission); - } - } - - bool isCacheTagPresent(Address addr) { - return (L2cacheMemory.isTagPresent(addr) || L1DcacheMemory.isTagPresent(addr) || L1IcacheMemory.isTagPresent(addr)); - } - - State getState(Address addr) { - assert((L1DcacheMemory.isTagPresent(addr) && L1IcacheMemory.isTagPresent(addr)) == false); - assert((L1IcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false); - assert((L1DcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false); - - if(TBEs.isPresent(addr)) { - return TBEs[addr].TBEState; - } else if (isCacheTagPresent(addr)) { - return getCacheEntry(addr).CacheState; - } - return State:NP; - } - - void setState(Address addr, State state) { - assert((L1DcacheMemory.isTagPresent(addr) && L1IcacheMemory.isTagPresent(addr)) == false); - assert((L1IcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false); - assert((L1DcacheMemory.isTagPresent(addr) && L2cacheMemory.isTagPresent(addr)) == false); - - if (TBEs.isPresent(addr)) { - TBEs[addr].TBEState := state; - } - - if (isCacheTagPresent(addr)) { - getCacheEntry(addr).CacheState := state; - - // Set permission - if ((state == State:I) || (state == State:MI_A) || (state == State:II_A)) { - changePermission(addr, AccessPermission:Invalid); - } else if (state == State:S || state == State:O) { - changePermission(addr, AccessPermission:Read_Only); - } else if (state == State:M) { - changePermission(addr, AccessPermission:Read_Write); - } else { - changePermission(addr, AccessPermission:Busy); - } - } - } - - Event mandatory_request_type_to_event(CacheRequestType type) { - if (type == CacheRequestType:LD) { - return Event:Load; - } else if (type == CacheRequestType:IFETCH) { - return Event:Ifetch; - } else if ((type == CacheRequestType:ST) || (type == CacheRequestType:ATOMIC)) { - return Event:Store; - } else { - error("Invalid CacheRequestType"); - } - } - - // ** OUT_PORTS ** - - out_port(dataNetwork_out, DataMsg, dataFromCache); - out_port(addressNetwork_out, AddressMsg, addressFromCache); - - // ** IN_PORTS ** - - // Data Network - in_port(dataNetwork_in, DataMsg, dataToCache) { - if (dataNetwork_in.isReady()) { - peek(dataNetwork_in, DataMsg) { - trigger(Event:Data, in_msg.Address); - } - } - } - - // Address Network - in_port(addressNetwork_in, AddressMsg, addressToCache) { - if (addressNetwork_in.isReady()) { - peek(addressNetwork_in, AddressMsg) { - if (in_msg.Type == CoherenceRequestType:GETS) { - if (in_msg.Requestor == machineID) { - trigger(Event:Own_GETS, in_msg.Address); - } else { - trigger(Event:Other_GETS, in_msg.Address); - } - } else if (in_msg.Type == CoherenceRequestType:GETX) { - if (in_msg.Requestor == machineID) { - trigger(Event:Own_GETX, in_msg.Address); - } else { - trigger(Event:Other_GETX, in_msg.Address); - } - } else if (in_msg.Type == CoherenceRequestType:GET_INSTR) { - if (in_msg.Requestor == machineID) { - trigger(Event:Own_GET_INSTR, in_msg.Address); - } else { - trigger(Event:Other_GET_INSTR, in_msg.Address); - } - } else if (in_msg.Type == CoherenceRequestType:PUTX) { - if (in_msg.Requestor == machineID) { - trigger(Event:Own_PUTX, in_msg.Address); - } else { - trigger(Event:Other_PUTX, in_msg.Address); - } - } else { - error("Unexpected message"); - } - } - } - } - - // Mandatory Queue - in_port(mandatoryQueue_in, CacheMsg, mandatoryQueue, desc="...") { - if (mandatoryQueue_in.isReady()) { - peek(mandatoryQueue_in, CacheMsg) { - - // Check for data access to blocks in I-cache and ifetchs to blocks in D-cache - - if (in_msg.Type == CacheRequestType:IFETCH) { - // ** INSTRUCTION ACCESS *** - - // Check to see if it is in the OTHER L1 - if (L1DcacheMemory.isTagPresent(in_msg.Address)) { - // The block is in the wrong L1, try to write it to the L2 - if (L2cacheMemory.cacheAvail(in_msg.Address)) { - trigger(Event:L1_to_L2, in_msg.Address); - } else { - trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(in_msg.Address)); - } - } else if (L1IcacheMemory.isTagPresent(in_msg.Address)) { - // The tag matches for the L1, so the L1 fetches the line. We know it can't be in the L2 due to exclusion - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } else { - // not in any L1 - if (L1IcacheMemory.cacheAvail(in_msg.Address)) { - // L1 does't have the line, but we have space for it in the L1 - if (L2cacheMemory.isTagPresent(in_msg.Address)) { - // L2 has it (maybe not with the right permissions) - trigger(Event:L2_to_L1I, in_msg.Address); - } else { - // We have room, the L2 doesn't have it, so the L1 fetches the line - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } - } else { - // No room in the L1, so we need to make room - if (L2cacheMemory.cacheAvail(L1IcacheMemory.cacheProbe(in_msg.Address))) { - // The L2 has room, so we move the line from the L1 to the L2 - trigger(Event:L1_to_L2, L1IcacheMemory.cacheProbe(in_msg.Address)); - } else { - // The L2 does not have room, so we replace a line from the L2 - trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(L1IcacheMemory.cacheProbe(in_msg.Address))); - } - } - } - } else { - // *** DATA ACCESS *** - - // Check to see if it is in the OTHER L1 - if (L1IcacheMemory.isTagPresent(in_msg.Address)) { - // The block is in the wrong L1, try to write it to the L2 - if (L2cacheMemory.cacheAvail(in_msg.Address)) { - trigger(Event:L1_to_L2, in_msg.Address); - } else { - trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(in_msg.Address)); - } - } else if (L1DcacheMemory.isTagPresent(in_msg.Address)) { - // The tag matches for the L1, so the L1 fetches the line. We know it can't be in the L2 due to exclusion - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } else { - // not in any L1 - if (L1DcacheMemory.cacheAvail(in_msg.Address)) { - // L1 does't have the line, but we have space for it in the L1 - if (L2cacheMemory.isTagPresent(in_msg.Address)) { - // L2 has it (maybe not with the right permissions) - trigger(Event:L2_to_L1D, in_msg.Address); - } else { - // We have room, the L2 doesn't have it, so the L1 fetches the line - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } - } else { - // No room in the L1, so we need to make room - if (L2cacheMemory.cacheAvail(L1DcacheMemory.cacheProbe(in_msg.Address))) { - // The L2 has room, so we move the line from the L1 to the L2 - trigger(Event:L1_to_L2, L1DcacheMemory.cacheProbe(in_msg.Address)); - } else { - // The L2 does not have room, so we replace a line from the L2 - trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(L1DcacheMemory.cacheProbe(in_msg.Address))); - } - } - } - } - } - } - } - - // ACTIONS - action(a_allocateTBE, "a", desc="Allocate TBE with Address=B, ForwardID=null, RetryCount=zero, ForwardIDRetryCount=zero, ForwardProgressBit=unset.") { - check_allocate(TBEs); - TBEs.allocate(address); - TBEs[address].ForwardIDs.clear(); - - // Keep the TBE state consistent with the cache state - if (isCacheTagPresent(address)) { - TBEs[address].TBEState := getCacheEntry(address).CacheState; - } - } - - action(c_allocateL1DCacheBlock, "c", desc="Set L1 D-cache tag equal to tag of block B.") { - if (L1DcacheMemory.isTagPresent(address) == false) { - L1DcacheMemory.allocate(address); - } - } - - action(c_allocateL1ICacheBlock, "c'", desc="Set L1 I-cache tag equal to tag of block B.") { - if (L1IcacheMemory.isTagPresent(address) == false) { - L1IcacheMemory.allocate(address); - } - } - - action(cc_allocateL2CacheBlock, "\c", desc="Set L2 cache tag equal to tag of block B.") { - if (L2cacheMemory.isTagPresent(address) == false) { - L2cacheMemory.allocate(address); - } - } - - action(d_deallocateTBE, "d", desc="Deallocate TBE.") { - TBEs.deallocate(address); - } - - action(e_recordForwardingInfo, "e", desc="Record ID of other processor in ForwardID.") { - peek(addressNetwork_in, AddressMsg){ - TBEs[address].ForwardIDs.add(in_msg.Requestor); - TBEs[address].ForwardAddress := in_msg.Address; - } - } - - action(f_issueGETS, "f", desc="Issue GETS.") { - enqueue(addressNetwork_out, AddressMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETS; - out_msg.CacheState := cache_state_to_int(getState(address)); - out_msg.Requestor := machineID; - out_msg.Destination.broadcast(MachineType:L1Cache); - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Control; - } - } - - action(g_issueGETX, "g", desc="Issue GETX.") { - enqueue(addressNetwork_out, AddressMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETX; - out_msg.CacheState := cache_state_to_int(getState(address)); - out_msg.Requestor := machineID; - out_msg.Destination.broadcast(MachineType:L1Cache); - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Control; - } - } - - action(h_load_hit, "h", desc="Notify sequencer the load completed.") { - DEBUG_EXPR(getCacheEntry(address).DataBlk); - sequencer.readCallback(address, getCacheEntry(address).DataBlk); - } - - action(hh_store_hit, "\h", desc="Notify sequencer that store completed.") { - DEBUG_EXPR(getCacheEntry(address).DataBlk); - sequencer.writeCallback(address, getCacheEntry(address).DataBlk); - } - - action(i_popAddressQueue, "i", desc="Pop incoming address queue.") { - addressNetwork_in.dequeue(); - } - - action(j_popDataQueue, "j", desc="Pop incoming data queue.") { - dataNetwork_in.dequeue(); - } - - action(k_popMandatoryQueue, "k", desc="Pop mandatory queue.") { - mandatoryQueue_in.dequeue(); - } - - action(m_deallocateL1CacheBlock, "m", desc="Deallocate L1 cache block. Sets the cache to not present, allowing a replacement in parallel with a fetch.") { - if (L1DcacheMemory.isTagPresent(address)) { - L1DcacheMemory.deallocate(address); - } else { - L1IcacheMemory.deallocate(address); - } - } - - action(mm_deallocateL2CacheBlock, "\m", desc="Deallocate L2 cache block. Sets the cache to not present, allowing a replacement in parallel with a fetch.") { - L2cacheMemory.deallocate(address); - } - - action(n_copyFromL1toL2, "n", desc="Copy data block from L1 (I or D) to L2") { - if (L1DcacheMemory.isTagPresent(address)) { - L2cacheMemory[address].DataBlk := L1DcacheMemory[address].DataBlk; - } else { - L2cacheMemory[address].DataBlk := L1IcacheMemory[address].DataBlk; - } - } - - action(nn_copyFromL2toL1, "\n", desc="Copy data block from L2 to L1 (I or D)") { - if (L1DcacheMemory.isTagPresent(address)) { - L1DcacheMemory[address].DataBlk := L2cacheMemory[address].DataBlk; - } else { - L1IcacheMemory[address].DataBlk := L2cacheMemory[address].DataBlk; - } - } - - action(o_cacheToForward, "o", desc="Send data from the cache to the processor indicated by ForwardIDs.") { - peek(dataNetwork_in, DataMsg){ - // This has a CACHE_RESPONSE_LATENCY latency because we want to avoid the - // timing strangeness that can occur if requests that source the - // data from the TBE are faster than data sourced from the cache - enqueue(dataNetwork_out, DataMsg, latency="CACHE_RESPONSE_LATENCY"){ - out_msg.Address := TBEs[address].ForwardAddress; - out_msg.Sender := machineID; - out_msg.DataBlk := getCacheEntry(address).DataBlk; - out_msg.Destination := TBEs[address].ForwardIDs; - out_msg.DestMachine := MachineType:L1Cache; - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - action(p_issuePUTX, "p", desc="Issue PUTX.") { - enqueue(addressNetwork_out, AddressMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:PUTX; - out_msg.CacheState := cache_state_to_int(getState(address)); - out_msg.Requestor := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); // To memory - out_msg.Destination.add(machineID); // Back to us - out_msg.DataBlk := getCacheEntry(address).DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - } - - action(q_writeDataFromCacheToTBE, "q", desc="Write data from the cache into the TBE.") { - TBEs[address].DataBlk := getCacheEntry(address).DataBlk; - DEBUG_EXPR(TBEs[address].DataBlk); - } - - action(r_cacheToRequestor, "r", desc="Send data from the cache to the requestor") { - peek(addressNetwork_in, AddressMsg) { - enqueue(dataNetwork_out, DataMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DestMachine := MachineType:L1Cache; - out_msg.DataBlk := getCacheEntry(address).DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - DEBUG_EXPR(getCacheEntry(address).DataBlk); - } - } - - action(s_saveDataInTBE, "s", desc="Save data in data field of TBE.") { - peek(dataNetwork_in, DataMsg) { - TBEs[address].DataBlk := in_msg.DataBlk; - DEBUG_EXPR(TBEs[address].DataBlk); - } - } - - action(t_issueGET_INSTR, "t", desc="Issue GETInstr.") { - enqueue(addressNetwork_out, AddressMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GET_INSTR; - out_msg.CacheState := cache_state_to_int(getState(address)); - out_msg.Requestor := machineID; - out_msg.Destination.broadcast(MachineType:L1Cache); - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Control; - } - } - - action(w_writeDataFromTBEToCache, "w", desc="Write data from the TBE into the cache.") { - getCacheEntry(address).DataBlk := TBEs[address].DataBlk; - DEBUG_EXPR(getCacheEntry(address).DataBlk); - } - - action(x_profileMiss, "x", desc="Profile the demand miss") { - peek(mandatoryQueue_in, CacheMsg) { - profile_miss(in_msg, id); - } - } - - action(y_tbeToReq, "y", desc="Send data from the TBE to the requestor.") { - peek(addressNetwork_in, AddressMsg) { - enqueue(dataNetwork_out, DataMsg, latency="CACHE_RESPONSE_LATENCY") { // Either this or the PutX should have a real latency - out_msg.Address := address; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DestMachine := MachineType:L1Cache; - out_msg.DataBlk := TBEs[address].DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - // action(z_stall, "z", desc="Cannot be handled right now.") { - // Special name recognized as do nothing case - // } - - action(zz_recycleMandatoryQueue, "\z", desc="Send the head of the mandatory queue to the back of the queue.") { - mandatoryQueue_in.recycle(); - } - - // TRANSITIONS - - // Transitions from Idle - transition({NP, I}, Load, IS_AD) { - f_issueGETS; - c_allocateL1DCacheBlock; - a_allocateTBE; - x_profileMiss; - k_popMandatoryQueue; - } - - transition({NP, I}, Ifetch, IS_AD) { - t_issueGET_INSTR; - c_allocateL1ICacheBlock; - a_allocateTBE; - x_profileMiss; - k_popMandatoryQueue; - } - - transition({NP, I}, Store, IM_AD) { - g_issueGETX; - c_allocateL1DCacheBlock; - a_allocateTBE; - x_profileMiss; - k_popMandatoryQueue; - } - - transition(I, L2_Replacement) { - mm_deallocateL2CacheBlock; - } - - transition({NP, I}, { Other_GETS, Other_GET_INSTR, Other_GETX } ) { - i_popAddressQueue; - } - - // Transitions from Shared - transition(S, {Load,Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(S, Store, SM_AD) { - g_issueGETX; - a_allocateTBE; - x_profileMiss; - k_popMandatoryQueue; - } - - transition(S, L2_Replacement, I) { - mm_deallocateL2CacheBlock; - } - - transition(S, {Other_GETS, Other_GET_INSTR}) { - i_popAddressQueue; - } - - transition(S, Other_GETX, I) { - i_popAddressQueue; - } - - // Transitions from Owned - transition(O, {Load,Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(O, Store, OM_A){ - g_issueGETX; - a_allocateTBE; - x_profileMiss; - k_popMandatoryQueue; - } - - transition(O, L2_Replacement, OI_A) { - p_issuePUTX; - a_allocateTBE; - q_writeDataFromCacheToTBE;// the cache line is now empty - mm_deallocateL2CacheBlock; - } - - transition(O, {Other_GETS,Other_GET_INSTR}) { - r_cacheToRequestor; - i_popAddressQueue; - } - - transition(O, Other_GETX, I) { - r_cacheToRequestor; - i_popAddressQueue; - } - - // Transitions from Modified - transition(M, {Load,Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(M, Store) { - hh_store_hit; - k_popMandatoryQueue; - } - - transition(M, L2_Replacement, MI_A) { - p_issuePUTX; - a_allocateTBE; - q_writeDataFromCacheToTBE;// the cache line is now empty - mm_deallocateL2CacheBlock; - } - - transition(M, {Other_GETS,Other_GET_INSTR}, O) { - r_cacheToRequestor; - i_popAddressQueue; - } - - transition(M, Other_GETX, I) { - r_cacheToRequestor; - i_popAddressQueue; - } - - // Transitions moving data between the L1 and L2 caches - - transition({I, S, O, M}, L1_to_L2) { - cc_allocateL2CacheBlock; - n_copyFromL1toL2; // Not really needed for state I - m_deallocateL1CacheBlock; - } - - transition({I, S, O, M}, L2_to_L1D) { - c_allocateL1DCacheBlock; - nn_copyFromL2toL1; // Not really needed for state I - mm_deallocateL2CacheBlock; - } - - transition({I, S, O, M}, L2_to_L1I) { - c_allocateL1ICacheBlock; - nn_copyFromL2toL1; // Not really needed for state I - mm_deallocateL2CacheBlock; - } - - // Transitions for Load/Store/Replacement from transient states - - transition({IS_AD, IM_AD, IS_A, IM_A, SM_AD, OM_A, SM_A, IS_D, IS_D_I, IM_D, IM_D_O, IM_D_I, IM_D_OI, SM_D, SM_D_O}, {Load, Ifetch, Store, L2_Replacement, L1_to_L2, L2_to_L1D, L2_to_L1I}) { - zz_recycleMandatoryQueue; - } - - transition({MI_A, OI_A, II_A}, {Load, Ifetch, Store, L2_Replacement, L1_to_L2, L2_to_L1D, L2_to_L1I}) { - zz_recycleMandatoryQueue; - } - - // Always ignore PUTXs which we are not the owner of - transition({NP, I, S, O, M, IS_AD, IM_AD, SM_AD, OM_A, IS_A, IM_A, SM_A, MI_A, OI_A, II_A, IS_D, IS_D_I, IM_D, IM_D_O, IM_D_I, IM_D_OI, SM_D, SM_D_O }, Other_PUTX) { - i_popAddressQueue; - } - - // transitions from IS_AD - - transition(IS_AD, {Own_GETS,Own_GET_INSTR}, IS_D) { - i_popAddressQueue; - } - transition(IS_AD, {Other_GETS, Other_GET_INSTR, Other_GETX}) { - i_popAddressQueue; - } - transition(IS_AD, Data, IS_A) { - s_saveDataInTBE; - j_popDataQueue; - } - - - // Transitions from IM_AD - - transition(IM_AD, Own_GETX, IM_D) { - i_popAddressQueue; - } - transition(IM_AD, {Other_GETS, Other_GET_INSTR, Other_GETX}) { - i_popAddressQueue; - } - transition(IM_AD, Data, IM_A) { - s_saveDataInTBE; - j_popDataQueue; - } - - // Transitions from OM_A - - transition(OM_A, Own_GETX, M){ - hh_store_hit; - d_deallocateTBE; - i_popAddressQueue; - } - - transition(OM_A, {Other_GETS, Other_GET_INSTR}){ - r_cacheToRequestor; - i_popAddressQueue; - } - - transition(OM_A, Other_GETX, IM_AD){ - r_cacheToRequestor; - i_popAddressQueue; - } - - transition(OM_A, Data, IM_A) { // if we get data, we know we're going to lose block before we see own GETX - s_saveDataInTBE; - j_popDataQueue; - } - - // Transitions from SM_AD - - transition(SM_AD, Own_GETX, SM_D) { - i_popAddressQueue; - } - transition(SM_AD, {Other_GETS,Other_GET_INSTR}) { - i_popAddressQueue; - } - transition(SM_AD, Other_GETX, IM_AD) { - i_popAddressQueue; - } - transition(SM_AD, Data, SM_A) { - s_saveDataInTBE; - j_popDataQueue; - } - - - // Transitions from IS_A - - transition(IS_A, {Own_GETS,Own_GET_INSTR}, S) { - w_writeDataFromTBEToCache; - h_load_hit; - d_deallocateTBE; - i_popAddressQueue; - } - transition(IS_A, {Other_GETS, Other_GET_INSTR, Other_GETX}) { - i_popAddressQueue; - } - - // Transitions from IM_A - - transition(IM_A, Own_GETX, M) { - w_writeDataFromTBEToCache; - hh_store_hit; - d_deallocateTBE; - i_popAddressQueue; - } - transition(IM_A, {Other_GETS, Other_GET_INSTR, Other_GETX}) { - i_popAddressQueue; - } - - // Transitions from SM_A - - transition(SM_A, Own_GETX, M) { - w_writeDataFromTBEToCache; - hh_store_hit; - d_deallocateTBE; - i_popAddressQueue; - } - transition(SM_A, {Other_GETS,Other_GET_INSTR}) { - i_popAddressQueue; - } - transition(SM_A, Other_GETX, IM_A) { - i_popAddressQueue; - } - - - // Transitions from MI_A - - transition(MI_A, Own_PUTX, I) { - d_deallocateTBE; - i_popAddressQueue; - } - - transition(MI_A, {Other_GETS, Other_GET_INSTR}) { - y_tbeToReq; - i_popAddressQueue; - } - - transition(MI_A, Other_GETX, II_A) { - y_tbeToReq; - i_popAddressQueue; - } - - // Transitions from OI_A - - transition(OI_A, Own_PUTX, I) { - d_deallocateTBE; - i_popAddressQueue; - } - - transition(OI_A, {Other_GETS, Other_GET_INSTR}) { - y_tbeToReq; - i_popAddressQueue; - } - - transition(OI_A, Other_GETX, II_A) { - y_tbeToReq; - i_popAddressQueue; - } - - - // Transitions from II_A - - transition(II_A, Own_PUTX, I) { - d_deallocateTBE; - i_popAddressQueue; - } - - transition(II_A, {Other_GETS, Other_GET_INSTR, Other_GETX}) { - i_popAddressQueue; - } - - // Transitions from IS_D, IS_D_I - - transition({IS_D, IS_D_I}, {Other_GETS,Other_GET_INSTR}) { - i_popAddressQueue; - } - transition(IS_D, Other_GETX, IS_D_I) { - i_popAddressQueue; - } - transition(IS_D_I, Other_GETX) { - i_popAddressQueue; - } - transition(IS_D, Data, S) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - h_load_hit; - d_deallocateTBE; - j_popDataQueue; - } - - transition(IS_D_I, Data, I) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - h_load_hit; - d_deallocateTBE; - j_popDataQueue; - } - - // Transitions from IM_D, IM_D_O, IM_D_I, IM_D_OI - - transition( IM_D, {Other_GETS,Other_GET_INSTR}, IM_D_O ) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition( IM_D, Other_GETX, IM_D_I ) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition(IM_D_O, {Other_GETS,Other_GET_INSTR} ) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition(IM_D_O, Other_GETX, IM_D_OI) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition( {IM_D_I, IM_D_OI}, {Other_GETS, Other_GET_INSTR, Other_GETX} ) { - i_popAddressQueue; - } - - transition(IM_D, Data, M) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - hh_store_hit; - d_deallocateTBE; - j_popDataQueue; - } - - transition(IM_D_O, Data, O) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - hh_store_hit; - o_cacheToForward; - d_deallocateTBE; - j_popDataQueue; - } - - transition(IM_D_I, Data, I) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - hh_store_hit; - o_cacheToForward; - d_deallocateTBE; - j_popDataQueue; - } - - transition(IM_D_OI, Data, I) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - hh_store_hit; - o_cacheToForward; - d_deallocateTBE; - j_popDataQueue; - } - - // Transitions for SM_D, SM_D_O - - transition(SM_D, {Other_GETS,Other_GET_INSTR}, SM_D_O) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition(SM_D, Other_GETX, IM_D_I) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition(SM_D_O, {Other_GETS,Other_GET_INSTR}) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition(SM_D_O, Other_GETX, IM_D_OI) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition(SM_D, Data, M) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - hh_store_hit; - d_deallocateTBE; - j_popDataQueue; - } - - transition(SM_D_O, Data, O) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - hh_store_hit; - o_cacheToForward; - d_deallocateTBE; - j_popDataQueue; - } -} diff --git a/src/mem/protocol/MOSI_SMP_bcast-dir.sm b/src/mem/protocol/MOSI_SMP_bcast-dir.sm deleted file mode 100644 index 7cccaf9d3..000000000 --- a/src/mem/protocol/MOSI_SMP_bcast-dir.sm +++ /dev/null @@ -1,267 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id$ - * - */ - -machine(Directory, "MOSI Broadcast Optimized") { - - - MessageBuffer addressFromDir, network="To", virtual_network="0", ordered="true"; - MessageBuffer dataFromDir, network="To", virtual_network="1", ordered="false"; - - MessageBuffer addressToDir, network="From", virtual_network="0", ordered="true"; - MessageBuffer dataToDir, network="From", virtual_network="1", ordered="false"; - - - enumeration(State, desc="Directory states", default="Directory_State_C") { - C, desc="Cold - no processor has requested this line"; - I, desc="Idle"; - S, desc="Shared"; - SS, desc="Shared, 2 or more shares"; - OS, desc="Owned by a cache"; - OSS, desc="Owned by a cache, present in at least 3 caches"; - M, desc="Modified", format="!b"; - } - - // ** EVENTS ** - - enumeration(Event, desc="Directory events") { - // From Address network - OtherAddress, desc="We saw an address msg to someone else"; - GETS, desc="A GETS arrives"; - GET_INSTR, desc="A GETInstr arrives"; - GETX, desc="A GETX arrives", format="!r"; - PUTX_Owner, desc="A PUTX arrives, requestor is owner"; - PUTX_NotOwner, desc="A PUTX arrives, requestor is not owner", format="!r"; - } - - // TYPES - - // DirectoryEntry - structure(Entry, desc="...") { - State DirectoryState, desc="Directory state"; - bool DirOwner, default="true", desc="Is dir owner?"; - MachineID ProcOwner, desc="Processor Owner"; - DataBlock DataBlk, desc="data for the block"; - } - - external_type(DirectoryMemory) { - Entry lookup(Address); - bool isPresent(Address); - } - - // ** OBJECTS ** - - DirectoryMemory directory, constructor_hack="i"; - - void profile_request(int cache_state, State directory_state, GenericRequestType request_type); - - State getState(Address addr) { - if (directory.isPresent(addr)) { - return directory[addr].DirectoryState; - } - return State:C; - } - - void setState(Address addr, State state) { - if (directory.isPresent(addr)) { - directory[addr].DirectoryState := state; - } - } - - // ** OUT_PORTS ** - - out_port(dataNetwork_out, DataMsg, dataFromDir); - out_port(addressNetwork_out, AddressMsg, addressFromDir); - - // ** IN_PORTS ** - - // Address Network - in_port(addressNetwork_in, AddressMsg, addressToDir) { - if (addressNetwork_in.isReady()) { - peek(addressNetwork_in, AddressMsg) { - if(map_Address_to_Directory(in_msg.Address) != machineID) { - trigger(Event:OtherAddress, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GETS) { - trigger(Event:GETS, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GET_INSTR) { - trigger(Event:GET_INSTR, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GETX) { - trigger(Event:GETX, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:PUTX) { - if (in_msg.Requestor == directory[in_msg.Address].ProcOwner && directory[in_msg.Address].DirOwner == false) { - trigger(Event:PUTX_Owner, in_msg.Address); - } else { - trigger(Event:PUTX_NotOwner, in_msg.Address); - } - } else { - error("unexpected message"); - } - } - } - } - - // *** ACTIONS *** - - action(d_sendDataMsg, "d", desc="Send data message to requestor") { - peek(addressNetwork_in, AddressMsg) { - enqueue(dataNetwork_out, DataMsg, latency="MEMORY_LATENCY") { - out_msg.Address := in_msg.Address; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DestMachine := MachineType:L1Cache; - out_msg.DataBlk := directory[in_msg.Address].DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - DEBUG_EXPR(in_msg.Requestor); - DEBUG_EXPR(out_msg.DataBlk); - } - } - } - - action(j_popAddressQueue, "j", desc="Pop address queue.") { - addressNetwork_in.dequeue(); - } - - action(p_profile, "p", desc="Profile this transition.") { - peek(addressNetwork_in, AddressMsg) { - profile_request(in_msg.CacheState, getState(address), convertToGenericType(in_msg.Type)); - } - } - - action(m_setOwnerRequestor, "m", desc="Set owner = requestor") { - peek(addressNetwork_in, AddressMsg) { - directory[in_msg.Address].ProcOwner := in_msg.Requestor; - directory[in_msg.Address].DirOwner := false; - } - } - - action(r_writeDataFromRequest, "r", desc="Write request data to memory") { - peek(addressNetwork_in, AddressMsg) { - directory[in_msg.Address].DataBlk := in_msg.DataBlk; - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(in_msg.DataBlk); - } - } - - action(x_setOwnerToDirectory, "x", desc="Set owner equal to the directory"){ - peek(addressNetwork_in, AddressMsg) { - directory[in_msg.Address].DirOwner := true; - } - } - - // TRANSITIONS - - // Ignore all address and data messages not bound for us - transition(C, OtherAddress) { - j_popAddressQueue; - } - - // PUTX_NotOwner Transitions - transition({I, S, SS, OS, OSS, M}, PUTX_NotOwner) { - p_profile; - j_popAddressQueue; - } - - // Transitions from Idle - transition({C, I}, {GETS,GET_INSTR}, S) { - d_sendDataMsg; - p_profile; - j_popAddressQueue; - } - - transition({C, I}, GETX, M) { - d_sendDataMsg; - m_setOwnerRequestor; - p_profile; - j_popAddressQueue - } - - // Transitions from Shared - transition({S, SS}, {GETS,GET_INSTR}, SS) { - d_sendDataMsg; - p_profile; - j_popAddressQueue; - } - - transition({S, SS}, GETX, M) { - d_sendDataMsg; - m_setOwnerRequestor; - p_profile; - j_popAddressQueue; - } - - // Transitions from Owned - transition({OS, OSS}, {GETS,GET_INSTR}, OSS) { - p_profile; - j_popAddressQueue; - } - - transition({OS, OSS}, GETX, M) { - m_setOwnerRequestor; - p_profile; - j_popAddressQueue; - } - - transition(OS, PUTX_Owner, S) { - x_setOwnerToDirectory; - r_writeDataFromRequest; - p_profile; - j_popAddressQueue; - } - - transition(OSS, PUTX_Owner, SS) { - x_setOwnerToDirectory; - r_writeDataFromRequest; - p_profile; - j_popAddressQueue; - } - - // Transitions from Modified - transition(M, {GETS,GET_INSTR}, OS) { - p_profile; - j_popAddressQueue; - } - - transition(M, GETX) { - m_setOwnerRequestor; - p_profile; - j_popAddressQueue; - } - - transition(M, PUTX_Owner, I) { - x_setOwnerToDirectory; - r_writeDataFromRequest; - p_profile; - j_popAddressQueue; - } - -} diff --git a/src/mem/protocol/MOSI_SMP_bcast-msg.sm b/src/mem/protocol/MOSI_SMP_bcast-msg.sm deleted file mode 100644 index 263cf6f18..000000000 --- a/src/mem/protocol/MOSI_SMP_bcast-msg.sm +++ /dev/null @@ -1,79 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id$ - * - */ - -// CoherenceRequestType -enumeration(CoherenceRequestType, desc="...") { - GET_INSTR, desc="Get Instruction"; - GETS, desc="Get Shared"; - GETX, desc="Get eXclusive"; - PUTX, desc="Put eXclusive"; -} - -// AddressMsg -structure(AddressMsg, desc="...", interface="NetworkMessage") { - Address Address, desc="Physical address for this request"; - CoherenceRequestType Type, desc="Type of request (GetS, GetX, PutX, etc)"; - int CacheState, default="1000", desc="Hack to transfer the cache's state for profiling"; // The default of 1000 will generate an error if we forget to set this - MachineID Requestor, desc="Node who initiated the request"; - NetDest Destination, desc="Multicast destination mask"; - DataBlock DataBlk, desc="data for the cache line"; // This is used for PutX and Downgrades only - MessageSizeType MessageSize, desc="size category of the message"; -} - -// DataMsg -structure(DataMsg, desc="...", interface="NetworkMessage") { - Address Address, desc="Physical address for this request"; - MachineID Sender, desc="Node who sent the data"; - // MachineType SenderType, desc="Component who sent data"; - NetDest Destination, desc="Node to whom the data is sent"; - MachineType DestMachine, desc="What component receives the data"; - DataBlock DataBlk, desc="data for the cache line"; - MessageSizeType MessageSize, desc="size category of the message"; -} - -GenericRequestType convertToGenericType(CoherenceRequestType type) { - if(type == CoherenceRequestType:PUTX) { - return GenericRequestType:PUTX; - } else if(type == CoherenceRequestType:GETS) { - return GenericRequestType:GETS; - } else if(type == CoherenceRequestType:GET_INSTR) { - return GenericRequestType:GET_INSTR; - } else if(type == CoherenceRequestType:GETX) { - return GenericRequestType:GETX; - } else { - DEBUG_EXPR(type); - error("invalid CoherenceRequestType"); - } -} - diff --git a/src/mem/protocol/MOSI_SMP_bcast.slicc b/src/mem/protocol/MOSI_SMP_bcast.slicc deleted file mode 100644 index ac8b85d30..000000000 --- a/src/mem/protocol/MOSI_SMP_bcast.slicc +++ /dev/null @@ -1,4 +0,0 @@ -MOSI_SMP_bcast-msg.sm -MOSI_SMP_bcast-cache.sm -MOSI_SMP_bcast-dir.sm -standard_SMP-protocol.sm diff --git a/src/mem/protocol/MOSI_SMP_bcast_1level-cache.sm b/src/mem/protocol/MOSI_SMP_bcast_1level-cache.sm deleted file mode 100644 index b44e502c0..000000000 --- a/src/mem/protocol/MOSI_SMP_bcast_1level-cache.sm +++ /dev/null @@ -1,921 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id$ - */ - -machine(L1Cache, "MOSI Broadcast Optimized") { - - MessageBuffer addressFromCache, network="To", virtual_network="0", ordered="true"; - MessageBuffer dataFromCache, network="To", virtual_network="1", ordered="false"; - - MessageBuffer addressToCache, network="From", virtual_network="0", ordered="true"; - MessageBuffer dataToCache, network="From", virtual_network="1", ordered="false"; - - // STATES - - enumeration(State, desc="Cache states", default="L1Cache_State_I") { - NP, desc="Not Present"; - I, desc="Idle"; - S, desc="Shared"; - O, desc="Owned"; - M, desc="Modified", format="!b"; - IS_AD, "IS^AD", desc="idle, issued GETS, have not seen GETS or data yet"; - IM_AD, "IM^AD", desc="idle, issued GETX, have not seen GETX or data yet"; - SM_AD, "SM^AD",desc="shared, issued GETX, have not seen GETX or data yet"; - OM_A, "OM^A",desc="owned, issued GETX, have not seen GETX yet", format="!b"; - - IS_A, "IS^A",desc="idle, issued GETS, have not seen GETS, have seen data"; - IM_A, "IM^A",desc="idle, issued GETX, have not seen GETX, have seen data"; - SM_A, "SM^A",desc="shared, issued GETX, have not seen GETX, have seen data", format="!b"; - - MI_A, "MI^A", desc="modified, issued PUTX, have not seen PUTX yet"; - OI_A, "OI^A", desc="owned, issued PUTX, have not seen PUTX yet"; - II_A, "II^A", desc="modified, issued PUTX, have not seen PUTX, then saw other GETX", format="!b"; - - IS_D, "IS^D", desc="idle, issued GETS, have seen GETS, have not seen data yet"; - IS_D_I, "IS^D^I", desc="idle, issued GETS, have seen GETS, have not seen data, then saw other GETX"; - IM_D, "IM^D", desc="idle, issued GETX, have seen GETX, have not seen data yet"; - IM_D_O, "IM^D^O", desc="idle, issued GETX, have seen GETX, have not seen data yet, then saw other GETS"; - IM_D_I, "IM^D^I", desc="idle, issued GETX, have seen GETX, have not seen data yet, then saw other GETX"; - IM_D_OI, "IM^D^OI", desc="idle, issued GETX, have seen GETX, have not seen data yet, then saw other GETS, then saw other GETX"; - SM_D, "SM^D", desc="shared, issued GETX, have seen GETX, have not seen data yet"; - SM_D_O, "SM^D^O", desc="shared, issued GETX, have seen GETX, have not seen data yet, then saw other GETS"; - } - - // ** EVENTS ** - - enumeration(Event, desc="Cache events") { - // From processor - Load, desc="Load request from the processor"; - Ifetch, desc="I-fetch request from the processor"; - Store, desc="Store request from the processor"; - Replacement, desc="Replacement"; - Load_prefetch, desc="Read only prefetch"; - Store_prefetch, desc="Read write prefetch", format="!r"; - - // From Address network - Own_GETS, desc="Occurs when we observe our own GETS request in the global order"; - Own_GET_INSTR, desc="Occurs when we observe our own GETInstr request in the global order"; - Own_GETX, desc="Occurs when we observe our own GETX request in the global order"; - Own_PUTX, desc="Occurs when we observe our own PUTX request in the global order", format="!r"; - Other_GETS, desc="Occurs when we observe a GETS request from another processor"; - Other_GET_INSTR, desc="Occurs when we observe a GETInstr request from another processor"; - Other_GETX, desc="Occurs when we observe a GETX request from another processor"; - Other_PUTX, desc="Occurs when we observe a PUTX request from another processor", format="!r"; - - // From Data network - Data, desc="Data for this block from the data network"; - } - - // TYPES - - // CacheEntry - structure(Entry, desc="...", interface="AbstractCacheEntry") { - State CacheState, desc="cache state"; - DataBlock DataBlk, desc="data for the block"; - } - - // TBE fields - structure(TBE, desc="...") { - Address Address, desc="Physical address for this TBE"; - State TBEState, desc="Transient state"; - DataBlock DataBlk, desc="Buffer for the data block"; - NetDest ForwardIDs, desc="IDs of the processors to forward the block"; - Address ForwardAddress, desc="Address of request for forwarding"; - bool isPrefetch, desc="Set if this request is a prefetch"; - } - - external_type(CacheMemory) { - bool cacheAvail(Address); - Address cacheProbe(Address); - void allocate(Address); - void deallocate(Address); - Entry lookup(Address); - void changePermission(Address, AccessPermission); - bool isTagPresent(Address); - } - - external_type(TBETable) { - TBE lookup(Address); - void allocate(Address); - void deallocate(Address); - bool isPresent(Address); - } - - MessageBuffer mandatoryQueue, ordered="false", abstract_chip_ptr="true"; - MessageBuffer optionalQueue, ordered="true", abstract_chip_ptr="true"; - Sequencer sequencer, abstract_chip_ptr="true", constructor_hack="i"; - StoreBuffer storeBuffer, abstract_chip_ptr="true", constructor_hack="i"; - - - TBETable TBEs, template_hack="<L1Cache_TBE>"; - CacheMemory cacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L1_CACHE_NUM_SETS_BITS,L1_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_unified"', abstract_chip_ptr="true"; - - int cache_state_to_int(State state); - - State getState(Address addr) { - if(TBEs.isPresent(addr)) { - return TBEs[addr].TBEState; - } else if (cacheMemory.isTagPresent(addr)) { - return cacheMemory[addr].CacheState; - } - return State:NP; - } - - void setState(Address addr, State state) { - if (TBEs.isPresent(addr)) { - TBEs[addr].TBEState := state; - } - if (cacheMemory.isTagPresent(addr)) { - cacheMemory[addr].CacheState := state; - - // Set permission - if ((state == State:I) || (state == State:MI_A) || (state == State:II_A)) { - cacheMemory.changePermission(addr, AccessPermission:Invalid); - } else if (state == State:S || state == State:O) { - cacheMemory.changePermission(addr, AccessPermission:Read_Only); - } else if (state == State:M) { - cacheMemory.changePermission(addr, AccessPermission:Read_Write); - } else { - cacheMemory.changePermission(addr, AccessPermission:Busy); - } - } - } - - // ** OUT_PORTS ** - - out_port(dataNetwork_out, DataMsg, dataFromCache); - out_port(addressNetwork_out, AddressMsg, addressFromCache); - - // ** IN_PORTS ** - - // Data Network - in_port(dataNetwork_in, DataMsg, dataToCache) { - if (dataNetwork_in.isReady()) { - peek(dataNetwork_in, DataMsg) { - trigger(Event:Data, in_msg.Address); - } - } - } - - // Address Network - in_port(addressNetwork_in, AddressMsg, addressToCache) { - if (addressNetwork_in.isReady()) { - peek(addressNetwork_in, AddressMsg) { - if (in_msg.Type == CoherenceRequestType:GETS) { - if (in_msg.Requestor == machineID) { - trigger(Event:Own_GETS, in_msg.Address); - } else { - trigger(Event:Other_GETS, in_msg.Address); - } - } else if (in_msg.Type == CoherenceRequestType:GETX) { - if (in_msg.Requestor == machineID) { - trigger(Event:Own_GETX, in_msg.Address); - } else { - trigger(Event:Other_GETX, in_msg.Address); - } - } else if (in_msg.Type == CoherenceRequestType:GET_INSTR) { - if (in_msg.Requestor == machineID) { - trigger(Event:Own_GET_INSTR, in_msg.Address); - } else { - trigger(Event:Other_GET_INSTR, in_msg.Address); - } - } else if (in_msg.Type == CoherenceRequestType:PUTX) { - if (in_msg.Requestor == machineID) { - trigger(Event:Own_PUTX, in_msg.Address); - } else { - trigger(Event:Other_PUTX, in_msg.Address); - } - } else { - error("Unexpected message"); - } - } - } - } - - // Mandatory Queue - in_port(mandatoryQueue_in, CacheMsg, mandatoryQueue, desc="...") { - if (mandatoryQueue_in.isReady()) { - peek(mandatoryQueue_in, CacheMsg) { - if (cacheMemory.cacheAvail(in_msg.Address) == false) { - trigger(Event:Replacement, cacheMemory.cacheProbe(in_msg.Address)); - } else { - if (in_msg.Type == CacheRequestType:LD) { - trigger(Event:Load, in_msg.Address); - } else if (in_msg.Type == CacheRequestType:IFETCH) { - trigger(Event:Ifetch, in_msg.Address); - } else if ((in_msg.Type == CacheRequestType:ST) || (in_msg.Type == CacheRequestType:ATOMIC)) { - trigger(Event:Store, in_msg.Address); - } else { - error("Invalid CacheRequestType"); - } - } - } - } - } - - // Optional Queue - in_port(optionalQueue_in, CacheMsg, optionalQueue, desc="...") { - if (optionalQueue_in.isReady()) { - peek(optionalQueue_in, CacheMsg) { - if (cacheMemory.cacheAvail(in_msg.Address) == false) { - trigger(Event:Replacement, cacheMemory.cacheProbe(in_msg.Address)); - } else { - if ((in_msg.Type == CacheRequestType:LD) || (in_msg.Type == CacheRequestType:IFETCH)) { - trigger(Event:Load_prefetch, in_msg.Address); - } else if ((in_msg.Type == CacheRequestType:ST) || (in_msg.Type == CacheRequestType:ATOMIC)) { - trigger(Event:Store_prefetch, in_msg.Address); - } else { - error("Invalid CacheRequestType"); - } - } - } - } - } - - // ACTIONS - action(a_allocateTBE, "a", desc="Allocate TBE with Address=B, ForwardID=null, RetryCount=zero, ForwardIDRetryCount=zero, ForwardProgressBit=unset.") { - check_allocate(TBEs); - TBEs.allocate(address); - TBEs[address].isPrefetch := false; - TBEs[address].ForwardIDs.clear(); - - // Keep the TBE state consistent with the cache state - if (cacheMemory.isTagPresent(address)) { - TBEs[address].TBEState := cacheMemory[address].CacheState; - } - } - - - action(b_setPrefetchBit, "b", desc="Set prefetch bit in TBE.") { - TBEs[address].isPrefetch := true; - } - - action(c_allocateCacheBlock, "c", desc="Set cache tag equal to tag of block B.") { - if (cacheMemory.isTagPresent(address) == false) { - cacheMemory.allocate(address); - } - } - - action(d_deallocateTBE, "d", desc="Deallocate TBE.") { - TBEs.deallocate(address); - } - - action(e_recordForwardingInfo, "e", desc="Record ID of other processor in ForwardID.") { - peek(addressNetwork_in, AddressMsg){ - TBEs[address].ForwardIDs.add(in_msg.Requestor); - TBEs[address].ForwardAddress := in_msg.Address; - } - } - - action(f_issueGETS, "f", desc="Issue GETS.") { - enqueue(addressNetwork_out, AddressMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETS; - out_msg.CacheState := cache_state_to_int(getState(address)); - out_msg.Requestor := machineID; - out_msg.Destination.broadcast(MachineType:L1Cache); - out_msg.Destination.add(map_Address_to_Directory(address)); // To memory - out_msg.MessageSize := MessageSizeType:Control; - } - } - - action(g_issueGETX, "g", desc="Issue GETX.") { - enqueue(addressNetwork_out, AddressMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETX; - out_msg.CacheState := cache_state_to_int(getState(address)); - out_msg.Requestor := machineID; - out_msg.Destination.broadcast(MachineType:L1Cache); - out_msg.Destination.add(map_Address_to_Directory(address)); // To memory - out_msg.MessageSize := MessageSizeType:Control; - } - } - - action(h_load_hit, "h", desc="If not prefetch, notify sequencer the load completed.") { - DEBUG_EXPR(cacheMemory[address].DataBlk); - if((TBEs.isPresent(address) == false) || (TBEs[address].isPrefetch == false)) { - // Non-prefetch - sequencer.readCallback(address, cacheMemory[address].DataBlk); - } else { - // Prefetch - don't call back - } - } - - action(hh_store_hit, "\h", desc="If not prefetch, notify sequencer that store completed.") { - DEBUG_EXPR(cacheMemory[address].DataBlk); - if((TBEs.isPresent(address) == false) || (TBEs[address].isPrefetch == false)) { - // Non-prefetch - sequencer.writeCallback(address, cacheMemory[address].DataBlk); - } else { - // Prefetch - don't call back - } - } - - action(i_popAddressQueue, "i", desc="Pop incoming address queue.") { - addressNetwork_in.dequeue(); - } - - action(j_popDataQueue, "j", desc="Pop incoming data queue.") { - dataNetwork_in.dequeue(); - } - - action(k_popMandatoryQueue, "k", desc="Pop mandatory queue.") { - mandatoryQueue_in.dequeue(); - } - - action(l_popOptionalQueue, "l", desc="Pop optional queue.") { - optionalQueue_in.dequeue(); - } - - - action(o_cacheToForward, "o", desc="Send data from the cache to the processor indicated by ForwardIDs.") { - peek(dataNetwork_in, DataMsg){ - // This has a CACHE_RESPONSE_LATENCY latency because we want to avoid the - // timing strangeness that can occur if requests that source the - // data from the TBE are faster than data sourced from the cache - enqueue(dataNetwork_out, DataMsg, latency="CACHE_RESPONSE_LATENCY"){ - out_msg.Address := TBEs[address].ForwardAddress; - out_msg.Sender := machineID; - out_msg.DataBlk := cacheMemory[address].DataBlk; - out_msg.Destination := TBEs[address].ForwardIDs; - out_msg.DestMachine := MachineType:L1Cache; - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - action(p_issuePUTX, "p", desc="Issue PUTX.") { - enqueue(addressNetwork_out, AddressMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:PUTX; - out_msg.CacheState := cache_state_to_int(getState(address)); - out_msg.Requestor := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); // To memory - out_msg.Destination.add(machineID); // Back to us - out_msg.DataBlk := cacheMemory[address].DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - } - - action(q_writeDataFromCacheToTBE, "q", desc="Write data from the cache into the TBE.") { - TBEs[address].DataBlk := cacheMemory[address].DataBlk; - DEBUG_EXPR(TBEs[address].DataBlk); - } - - action(r_cacheToRequestor, "r", desc="Send data from the cache to the requestor") { - peek(addressNetwork_in, AddressMsg) { - enqueue(dataNetwork_out, DataMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DestMachine := MachineType:L1Cache; - out_msg.DataBlk := cacheMemory[address].DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - DEBUG_EXPR(cacheMemory[address].DataBlk); - } - } - - - action(s_saveDataInTBE, "s", desc="Save data in data field of TBE.") { - peek(dataNetwork_in, DataMsg) { - TBEs[address].DataBlk := in_msg.DataBlk; - DEBUG_EXPR(TBEs[address].DataBlk); - } - } - - action(t_issueGET_INSTR, "t", desc="Issue GETInstr.") { - enqueue(addressNetwork_out, AddressMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GET_INSTR; - out_msg.CacheState := cache_state_to_int(getState(address)); - out_msg.Requestor := machineID; - out_msg.Destination.broadcast(MachineType:L1Cache); - out_msg.Destination.add(map_Address_to_Directory(address)); // To memory - out_msg.MessageSize := MessageSizeType:Control; - } - } - - action(w_writeDataFromTBEToCache, "w", desc="Write data from the TBE into the cache.") { - cacheMemory[address].DataBlk := TBEs[address].DataBlk; - DEBUG_EXPR(cacheMemory[address].DataBlk); - } - - action(y_tbeToReq, "y", desc="Send data from the TBE to the requestor.") { - peek(addressNetwork_in, AddressMsg) { - enqueue(dataNetwork_out, DataMsg, latency="CACHE_RESPONSE_LATENCY") { // Either this or the PutX should have a real latency - out_msg.Address := address; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DestMachine := MachineType:L1Cache; - out_msg.DataBlk := TBEs[address].DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - action(ff_deallocateCacheBlock, "\f", desc="Deallocate cache block. Sets the cache to invalid, allowing a replacement in parallel with a fetch.") { - cacheMemory.deallocate(address); - } - - action(z_stall, "z", desc="Cannot be handled right now.") { - // Special name recognized as do nothing case - } - - // TRANSITIONS - - // Transitions from Idle - transition({NP, I}, Load, IS_AD) { - f_issueGETS; - c_allocateCacheBlock; - a_allocateTBE; - k_popMandatoryQueue; - } - - transition({NP, I}, Ifetch, IS_AD) { - t_issueGET_INSTR; - c_allocateCacheBlock; - a_allocateTBE; - k_popMandatoryQueue; - } - - transition({NP, I}, Load_prefetch, IS_AD) { - f_issueGETS; - c_allocateCacheBlock; - a_allocateTBE; - b_setPrefetchBit; - l_popOptionalQueue; - } - - transition({NP, I}, Store, IM_AD) { - g_issueGETX; - c_allocateCacheBlock; - a_allocateTBE; - k_popMandatoryQueue; - } - - transition({NP, I}, Store_prefetch, IM_AD) { - g_issueGETX; - c_allocateCacheBlock; - a_allocateTBE; - b_setPrefetchBit; - l_popOptionalQueue; - } - - transition(I, Replacement) { - ff_deallocateCacheBlock; // the cache line is now in NotPresent - } - - transition({NP, I}, { Other_GETS, Other_GET_INSTR, Other_GETX } ) { - i_popAddressQueue; - } - - // Transitions from Shared - transition(S, {Load,Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(S, Load_prefetch) { - l_popOptionalQueue; - } - - transition(S, Store, SM_AD) { - g_issueGETX; - a_allocateTBE; - k_popMandatoryQueue; - } - - transition(S, Store_prefetch, IM_AD) { - g_issueGETX; - a_allocateTBE; - b_setPrefetchBit; // Must be after allocate TBE - l_popOptionalQueue; - } - - transition(S, Replacement, I) { - ff_deallocateCacheBlock; // the cache line is now in NotPresent - } - - transition(S, {Other_GETS, Other_GET_INSTR}) { - i_popAddressQueue; - } - - transition(S, Other_GETX, I) { - i_popAddressQueue; - } - - // Transitions from Owned - transition(O, {Load,Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(O, Store, OM_A){ - g_issueGETX; - a_allocateTBE; - k_popMandatoryQueue; - } - - transition(O, Load_prefetch) { - l_popOptionalQueue; - } - - transition(O, Store_prefetch, OM_A) { - g_issueGETX; - a_allocateTBE; - b_setPrefetchBit; - l_popOptionalQueue; - } - - transition(O, Replacement, OI_A) { - p_issuePUTX; - a_allocateTBE; - q_writeDataFromCacheToTBE;// the cache line is now empty - ff_deallocateCacheBlock; // the cache line is now in NotPresent - } - - transition(O, {Other_GETS,Other_GET_INSTR}) { - r_cacheToRequestor; - i_popAddressQueue; - } - - transition(O, Other_GETX, I) { - r_cacheToRequestor; - i_popAddressQueue; - } - - // Transitions from Modified - transition(M, {Load,Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(M, Store) { - hh_store_hit; - k_popMandatoryQueue; - } - - transition(M, {Load_prefetch,Store_prefetch}) { - l_popOptionalQueue; - } - - transition(M, Replacement, MI_A) { - p_issuePUTX; - a_allocateTBE; - q_writeDataFromCacheToTBE;// the cache line is now empty - ff_deallocateCacheBlock; // the cache line is now in NotPresent - } - - transition(M, {Other_GETS,Other_GET_INSTR}, O) { - r_cacheToRequestor; - i_popAddressQueue; - } - - transition(M, Other_GETX, I) { - r_cacheToRequestor; - i_popAddressQueue; - } - - - // Transitions for Load/Store/Replacement from transient states - - transition({IS_AD, IM_AD, IS_A, IM_A, SM_AD, OM_A, SM_A, IS_D, IS_D_I, IM_D, IM_D_O, IM_D_I, IM_D_OI, SM_D, SM_D_O}, {Load, Ifetch, Store, Replacement}) { - z_stall; - } - - transition({IS_AD, IM_AD, IS_A, IM_A, SM_AD, OM_A, SM_A, IS_D, IM_D, IM_D_O, SM_D, SM_D_O}, Load_prefetch) { - l_popOptionalQueue; - } - - transition({IS_D_I, IM_D_I, IM_D_OI}, Load_prefetch) { - z_stall; - } - - transition({IM_AD, SM_AD, OM_A, IM_A, SM_A, IM_D, SM_D}, Store_prefetch) { - l_popOptionalQueue; - } - - transition({IS_AD, IS_A, IS_D, IS_D_I, IM_D_O, IM_D_I, IM_D_OI, SM_D_O}, Store_prefetch) { - z_stall; - } - - transition({MI_A, OI_A, II_A}, {Load, Ifetch, Store, Load_prefetch, Store_prefetch, Replacement}) { - z_stall; - } - - // Always ignore PUTXs which we are not the owner of - transition({NP, I, S, O, M, IS_AD, IM_AD, SM_AD, OM_A, IS_A, IM_A, SM_A, MI_A, OI_A, II_A, IS_D, IS_D_I, IM_D, IM_D_O, IM_D_I, IM_D_OI, SM_D, SM_D_O }, Other_PUTX) { - i_popAddressQueue; - } - - // transitions from IS_AD - - transition(IS_AD, {Own_GETS,Own_GET_INSTR}, IS_D) { - i_popAddressQueue; - } - transition(IS_AD, {Other_GETS, Other_GET_INSTR, Other_GETX}) { - i_popAddressQueue; - } - transition(IS_AD, Data, IS_A) { - s_saveDataInTBE; - j_popDataQueue; - } - - - // Transitions from IM_AD - - transition(IM_AD, Own_GETX, IM_D) { - i_popAddressQueue; - } - transition(IM_AD, {Other_GETS, Other_GET_INSTR, Other_GETX}) { - i_popAddressQueue; - } - transition(IM_AD, Data, IM_A) { - s_saveDataInTBE; - j_popDataQueue; - } - - // Transitions from OM_A - - transition(OM_A, Own_GETX, M){ - hh_store_hit; - d_deallocateTBE; - i_popAddressQueue; - } - - transition(OM_A, {Other_GETS, Other_GET_INSTR}){ - r_cacheToRequestor; - i_popAddressQueue; - } - - transition(OM_A, Other_GETX, IM_AD){ - r_cacheToRequestor; - i_popAddressQueue; - } - - transition(OM_A, Data, IM_A) { // if we get data, we know we're going to lose block before we see own GETX - s_saveDataInTBE; - j_popDataQueue; - } - - // Transitions from SM_AD - - transition(SM_AD, Own_GETX, SM_D) { - i_popAddressQueue; - } - transition(SM_AD, {Other_GETS,Other_GET_INSTR}) { - i_popAddressQueue; - } - transition(SM_AD, Other_GETX, IM_AD) { - i_popAddressQueue; - } - transition(SM_AD, Data, SM_A) { - s_saveDataInTBE; - j_popDataQueue; - } - - - // Transitions from IS_A - - transition(IS_A, {Own_GETS,Own_GET_INSTR}, S) { - w_writeDataFromTBEToCache; - h_load_hit; - d_deallocateTBE; - i_popAddressQueue; - } - transition(IS_A, {Other_GETS, Other_GET_INSTR, Other_GETX}) { - i_popAddressQueue; - } - - // Transitions from IM_A - - transition(IM_A, Own_GETX, M) { - w_writeDataFromTBEToCache; - hh_store_hit; - d_deallocateTBE; - i_popAddressQueue; - } - transition(IM_A, {Other_GETS, Other_GET_INSTR, Other_GETX}) { - i_popAddressQueue; - } - - // Transitions from SM_A - - transition(SM_A, Own_GETX, M) { - w_writeDataFromTBEToCache; - hh_store_hit; - d_deallocateTBE; - i_popAddressQueue; - } - transition(SM_A, {Other_GETS,Other_GET_INSTR}) { - i_popAddressQueue; - } - transition(SM_A, Other_GETX, IM_A) { - i_popAddressQueue; - } - - - // Transitions from MI_A - - transition(MI_A, Own_PUTX, I) { - d_deallocateTBE; - i_popAddressQueue; - } - - transition(MI_A, {Other_GETS, Other_GET_INSTR}) { - y_tbeToReq; - i_popAddressQueue; - } - - transition(MI_A, Other_GETX, II_A) { - y_tbeToReq; - i_popAddressQueue; - } - - // Transitions from OI_A - - transition(OI_A, Own_PUTX, I) { - d_deallocateTBE; - i_popAddressQueue; - } - - transition(OI_A, {Other_GETS, Other_GET_INSTR}) { - y_tbeToReq; - i_popAddressQueue; - } - - transition(OI_A, Other_GETX, II_A) { - y_tbeToReq; - i_popAddressQueue; - } - - - // Transitions from II_A - - transition(II_A, Own_PUTX, I) { - d_deallocateTBE; - i_popAddressQueue; - } - - transition(II_A, {Other_GETS, Other_GET_INSTR, Other_GETX}) { - i_popAddressQueue; - } - - // Transitions from IS_D, IS_D_I - - transition({IS_D, IS_D_I}, {Other_GETS,Other_GET_INSTR}) { - i_popAddressQueue; - } - transition(IS_D, Other_GETX, IS_D_I) { - i_popAddressQueue; - } - transition(IS_D_I, Other_GETX) { - i_popAddressQueue; - } - transition(IS_D, Data, S) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - h_load_hit; - d_deallocateTBE; - j_popDataQueue; - } - - transition(IS_D_I, Data, I) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - h_load_hit; - d_deallocateTBE; - j_popDataQueue; - } - - // Transitions from IM_D, IM_D_O, IM_D_I, IM_D_OI - - transition( IM_D, {Other_GETS,Other_GET_INSTR}, IM_D_O ) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition( IM_D, Other_GETX, IM_D_I ) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition(IM_D_O, {Other_GETS,Other_GET_INSTR} ) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition(IM_D_O, Other_GETX, IM_D_OI) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition( {IM_D_I, IM_D_OI}, {Other_GETS, Other_GET_INSTR, Other_GETX} ) { - i_popAddressQueue; - } - - transition(IM_D, Data, M) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - hh_store_hit; - d_deallocateTBE; - j_popDataQueue; - } - - transition(IM_D_O, Data, O) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - hh_store_hit; - o_cacheToForward; - d_deallocateTBE; - j_popDataQueue; - } - - transition(IM_D_I, Data, I) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - hh_store_hit; - o_cacheToForward; - d_deallocateTBE; - j_popDataQueue; - } - - transition(IM_D_OI, Data, I) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - hh_store_hit; - o_cacheToForward; - d_deallocateTBE; - j_popDataQueue; - } - - // Transitions for SM_D, SM_D_O - - transition(SM_D, {Other_GETS,Other_GET_INSTR}, SM_D_O) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition(SM_D, Other_GETX, IM_D_I) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition(SM_D_O, {Other_GETS,Other_GET_INSTR}) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition(SM_D_O, Other_GETX, IM_D_OI) { - e_recordForwardingInfo; - i_popAddressQueue; - } - - transition(SM_D, Data, M) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - hh_store_hit; - d_deallocateTBE; - j_popDataQueue; - } - - transition(SM_D_O, Data, O) { - s_saveDataInTBE; - w_writeDataFromTBEToCache; - hh_store_hit; - o_cacheToForward; - d_deallocateTBE; - j_popDataQueue; - } - -} diff --git a/src/mem/protocol/MOSI_SMP_bcast_1level.slicc b/src/mem/protocol/MOSI_SMP_bcast_1level.slicc deleted file mode 100644 index d683743a3..000000000 --- a/src/mem/protocol/MOSI_SMP_bcast_1level.slicc +++ /dev/null @@ -1,4 +0,0 @@ -MOSI_SMP_bcast-msg.sm -MOSI_SMP_bcast_1level-cache.sm -MOSI_SMP_bcast-dir.sm -standard_1level_SMP-protocol.sm diff --git a/src/mem/protocol/MOSI_SMP_bcast_m-dir.sm b/src/mem/protocol/MOSI_SMP_bcast_m-dir.sm deleted file mode 100644 index e241ea25c..000000000 --- a/src/mem/protocol/MOSI_SMP_bcast_m-dir.sm +++ /dev/null @@ -1,345 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id$ - * - */ - -machine(Directory, "MOSI Broadcast Optimized") { - - - MessageBuffer addressFromDir, network="To", virtual_network="0", ordered="true"; - MessageBuffer dataFromDir, network="To", virtual_network="1", ordered="false"; - - MessageBuffer addressToDir, network="From", virtual_network="0", ordered="true"; - MessageBuffer dataToDir, network="From", virtual_network="1", ordered="false"; - - - enumeration(State, desc="Directory states", default="Directory_State_C") { - C, desc="Cold - no processor has requested this line"; - I, desc="Idle"; - S, desc="Shared"; - SS, desc="Shared, 2 or more shares"; - OS, desc="Owned by a cache"; - OSS, desc="Owned by a cache, present in at least 3 caches"; - M, desc="Modified", format="!b"; - } - - // ** EVENTS ** - - enumeration(Event, desc="Directory events") { - // From Address network - OtherAddress, desc="We saw an address msg to someone else"; - GETS, desc="A GETS arrives"; - GET_INSTR, desc="A GETInstr arrives"; - GETX, desc="A GETX arrives", format="!r"; - PUTX_Owner, desc="A PUTX arrives, requestor is owner"; - PUTX_NotOwner, desc="A PUTX arrives, requestor is not owner", format="!r"; - Memory_Data, desc="Fetched data from memory arrives"; - Memory_Ack, desc="Writeback Ack from memory arrives"; - } - - // TYPES - - // DirectoryEntry - structure(Entry, desc="...") { - State DirectoryState, desc="Directory state"; - bool DirOwner, default="true", desc="Is dir owner?"; - MachineID ProcOwner, desc="Processor Owner"; - DataBlock DataBlk, desc="data for the block"; - } - - external_type(DirectoryMemory) { - Entry lookup(Address); - bool isPresent(Address); - } - - // to simulate detailed DRAM - external_type(MemoryControl, inport="yes", outport="yes") { - - } - - // ** OBJECTS ** - - DirectoryMemory directory, constructor_hack="i"; - MemoryControl memBuffer, constructor_hack="i"; - - void profile_request(int cache_state, State directory_state, GenericRequestType request_type); - - State getState(Address addr) { - if (directory.isPresent(addr)) { - return directory[addr].DirectoryState; - } - return State:C; - } - - void setState(Address addr, State state) { - if (directory.isPresent(addr)) { - directory[addr].DirectoryState := state; - } - } - - // ** OUT_PORTS ** - - out_port(dataNetwork_out, DataMsg, dataFromDir); - out_port(addressNetwork_out, AddressMsg, addressFromDir); - out_port(memQueue_out, MemoryMsg, memBuffer); - - - // ** IN_PORTS ** - - // Address Network - in_port(addressNetwork_in, AddressMsg, addressToDir) { - if (addressNetwork_in.isReady()) { - peek(addressNetwork_in, AddressMsg) { - if(map_Address_to_Directory(in_msg.Address) != machineID) { - trigger(Event:OtherAddress, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GETS) { - trigger(Event:GETS, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GET_INSTR) { - trigger(Event:GET_INSTR, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GETX) { - trigger(Event:GETX, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:PUTX) { - if (in_msg.Requestor == directory[in_msg.Address].ProcOwner && directory[in_msg.Address].DirOwner == false) { - trigger(Event:PUTX_Owner, in_msg.Address); - } else { - trigger(Event:PUTX_NotOwner, in_msg.Address); - } - } else { - error("unexpected message"); - } - } - } - } - - // off-chip memory request/response is done - in_port(memQueue_in, MemoryMsg, memBuffer) { - if (memQueue_in.isReady()) { - peek(memQueue_in, MemoryMsg) { - if (in_msg.Type == MemoryRequestType:MEMORY_READ) { - trigger(Event:Memory_Data, in_msg.Address); - } else if (in_msg.Type == MemoryRequestType:MEMORY_WB) { - trigger(Event:Memory_Ack, in_msg.Address); - } else { - DEBUG_EXPR(in_msg.Type); - error("Invalid message"); - } - } - } - } - - // *** ACTIONS *** - - action(d_sendDataMsg, "d", desc="Send data message to requestor") { - peek(memQueue_in, MemoryMsg) { - enqueue(dataNetwork_out, DataMsg, latency="1") { - out_msg.Address := in_msg.Address; - out_msg.Sender := machineID; - out_msg.Destination.add(in_msg.OriginalRequestorMachId); - out_msg.DestMachine := MachineType:L1Cache; - //out_msg.DataBlk := directory[in_msg.Address].DataBlk; - out_msg.DataBlk := in_msg.DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - DEBUG_EXPR(in_msg.OriginalRequestorMachId); - DEBUG_EXPR(out_msg.DataBlk); - } - } - } - - action(j_popAddressQueue, "j", desc="Pop address queue.") { - addressNetwork_in.dequeue(); - } - - action(l_popMemQueue, "q", desc="Pop off-chip request queue") { - memQueue_in.dequeue(); - } - - action(p_profile, "p", desc="Profile this transition.") { - peek(addressNetwork_in, AddressMsg) { - profile_request(in_msg.CacheState, getState(address), convertToGenericType(in_msg.Type)); - } - } - - action(m_setOwnerRequestor, "m", desc="Set owner = requestor") { - peek(addressNetwork_in, AddressMsg) { - directory[in_msg.Address].ProcOwner := in_msg.Requestor; - directory[in_msg.Address].DirOwner := false; - } - } - - action(qf_queueMemoryFetchRequest, "qf", desc="Queue off-chip fetch request") { - peek(addressNetwork_in, AddressMsg) { - enqueue(memQueue_out, MemoryMsg, latency="1") { - out_msg.Address := address; - out_msg.Type := MemoryRequestType:MEMORY_READ; - out_msg.Sender := machineID; - out_msg.OriginalRequestorMachId := in_msg.Requestor; - out_msg.DataBlk := directory[in_msg.Address].DataBlk; - out_msg.MessageSize := in_msg.MessageSize; - //out_msg.Prefetch := in_msg.Prefetch; - DEBUG_EXPR(out_msg); - } - } - } - - action(qw_queueMemoryWBRequest, "qw", desc="Queue off-chip writeback request") { - peek(addressNetwork_in, AddressMsg) { - enqueue(memQueue_out, MemoryMsg, latency="1") { - out_msg.Address := address; - out_msg.Type := MemoryRequestType:MEMORY_WB; - out_msg.Sender := machineID; - out_msg.OriginalRequestorMachId := in_msg.Requestor; - out_msg.DataBlk := in_msg.DataBlk; - out_msg.MessageSize := in_msg.MessageSize; - //out_msg.Prefetch := in_msg.Prefetch; - DEBUG_EXPR(out_msg); - } - } - } - - action(r_writeDataFromRequest, "r", desc="Write request data to memory") { - peek(addressNetwork_in, AddressMsg) { - directory[in_msg.Address].DataBlk := in_msg.DataBlk; - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(in_msg.DataBlk); - } - } - - action(x_setOwnerToDirectory, "x", desc="Set owner equal to the directory"){ - peek(addressNetwork_in, AddressMsg) { - directory[in_msg.Address].DirOwner := true; - } - } - - // TRANSITIONS - - // Ignore all address and data messages not bound for us - transition(C, OtherAddress) { - j_popAddressQueue; - } - - // PUTX_NotOwner Transitions - transition({I, S, SS, OS, OSS, M}, PUTX_NotOwner) { - p_profile; - j_popAddressQueue; - } - - // Transitions from Idle - transition({C, I}, {GETS,GET_INSTR}, S) { - //d_sendDataMsg; - qf_queueMemoryFetchRequest; - p_profile; - j_popAddressQueue; - } - - transition({C, I}, GETX, M) { - //d_sendDataMsg; - qf_queueMemoryFetchRequest; - m_setOwnerRequestor; - p_profile; - j_popAddressQueue - } - - // Transitions from Shared - transition({S, SS}, {GETS,GET_INSTR}, SS) { - //d_sendDataMsg; - qf_queueMemoryFetchRequest; - p_profile; - j_popAddressQueue; - } - - transition({S, SS}, GETX, M) { - //d_sendDataMsg; - qf_queueMemoryFetchRequest; - m_setOwnerRequestor; - p_profile; - j_popAddressQueue; - } - - // Transitions from Owned - transition({OS, OSS}, {GETS,GET_INSTR}, OSS) { - p_profile; - j_popAddressQueue; - } - - transition({OS, OSS}, GETX, M) { - m_setOwnerRequestor; - p_profile; - j_popAddressQueue; - } - - transition(OS, PUTX_Owner, S) { - x_setOwnerToDirectory; - r_writeDataFromRequest; - qw_queueMemoryWBRequest; - p_profile; - j_popAddressQueue; - } - - transition(OSS, PUTX_Owner, SS) { - x_setOwnerToDirectory; - r_writeDataFromRequest; - qw_queueMemoryWBRequest; - p_profile; - j_popAddressQueue; - } - - // Transitions from Modified - transition(M, {GETS,GET_INSTR}, OS) { - p_profile; - j_popAddressQueue; - } - - transition(M, GETX) { - m_setOwnerRequestor; - p_profile; - j_popAddressQueue; - } - - transition(M, PUTX_Owner, I) { - x_setOwnerToDirectory; - r_writeDataFromRequest; - qw_queueMemoryWBRequest; - p_profile; - j_popAddressQueue; - } - - transition({C, I, S, SS, OS, OSS, M}, Memory_Data) { - d_sendDataMsg; - l_popMemQueue; - } - - transition({C, I, S, SS, OS, OSS, M}, Memory_Ack) { - //a_sendAck; - l_popMemQueue; - } - -} diff --git a/src/mem/protocol/MOSI_SMP_bcast_m.slicc b/src/mem/protocol/MOSI_SMP_bcast_m.slicc deleted file mode 100644 index 090df74d9..000000000 --- a/src/mem/protocol/MOSI_SMP_bcast_m.slicc +++ /dev/null @@ -1,4 +0,0 @@ -MOSI_SMP_bcast-msg.sm -MOSI_SMP_bcast-cache.sm -MOSI_SMP_bcast_m-dir.sm -standard_SMP-protocol.sm diff --git a/src/mem/protocol/MOSI_SMP_directory_1level-cache.sm b/src/mem/protocol/MOSI_SMP_directory_1level-cache.sm deleted file mode 100644 index f780bb473..000000000 --- a/src/mem/protocol/MOSI_SMP_directory_1level-cache.sm +++ /dev/null @@ -1,838 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id: MOSI_directory_1level-cache.sm 1.18 04/09/07 13:52:52-05:00 mikem@maya.cs.wisc.edu $ - * - */ - -machine(L1Cache, "MOSI Directory Optimized") { - - MessageBuffer requestFromCache, network="To", virtual_network="0", ordered="false"; - MessageBuffer responseFromCache, network="To", virtual_network="2", ordered="false"; - - MessageBuffer forwardedRequestToCache, network="From", virtual_network="1", ordered="true"; - MessageBuffer responseToCache, network="From", virtual_network="2", ordered="false"; - - // STATES - enumeration(State, desc="Cache states", default="L1Cache_State_I") { - // Base states - I, desc="Idle"; - S, desc="Shared"; - O, desc="Owned"; - M, desc="Modified", format="!b"; - - // Transient States - MI, desc="modified, issued PUTX, have not seen response yet"; - OI, desc="owned, issued PUTX, have not seen response yet"; - - IS, desc="idle, issued GETS, have not seen response yet"; - ISI, desc="idle, issued GETS, saw INV, have not seen data for GETS yet", format="!b"; - - IM, desc="idle, issued GETX, have not seen response yet"; - IMI, desc="idle, issued GETX, saw forwarded GETX"; - IMO, desc="idle, issued GETX, saw forwarded GETS"; - IMOI, desc="idle, issued GETX, saw forwarded GETS, saw forwarded GETX"; - - // Note: OM is a strange state, because it is waiting for the line - // to be stolen away, or look like it has been stolen away. The - // common case is that we see a forward from the directory that is - // really from us, we forwarded the data to our dataqueue, and - // everythings works fine. - - OM, desc="owned, issued GETX, have not seen response yet"; - } - - // EVENTS - enumeration(Event, desc="Cache events") { - Load, desc="Load request from the processor"; - Load_prefetch, desc="Load prefetch request from the processor"; - Ifetch, desc="I-fetch request from the processor"; - Store_prefetch, desc="Store prefetch request from the processor"; - Store, desc="Store request from the processor"; - Replacement, desc="Replacement", format="!r"; - - Forwarded_GETS, "Forwarded GETS", desc="Directory forwards GETS to us"; - Forwarded_GETX, "Forwarded GETX", desc="Directory forwards GETX to us"; - INV, "INV", desc="Invalidation", format="!r"; - - Proc_ack, "Proc ack", desc="Ack from proc"; - Proc_last_ack, "Proc last ack", desc="Last ack", format="!r"; - - Data_ack_0, "Data ack 0", desc="Data with ack count = 0"; - Data_ack_not_0, "Data ack not 0", desc="Data with ack count != 0 (but haven't seen all acks first"; - Data_ack_not_0_last, "Data ack not 0 last", desc="Data with ack count != 0 after having received all acks"; - - Dir_WB_ack, "WB ack", desc="Writeback ack from dir"; - } - - // TYPES - - // CacheEntry - structure(Entry, desc="...", interface="AbstractCacheEntry") { - State CacheState, desc="cache state"; - DataBlock DataBlk, desc="data for the block"; - } - - // TBE fields - structure(TBE, desc="...") { - Address Address, desc="Physical address for this TBE"; - State TBEState, desc="Transient state"; - DataBlock DataBlk, desc="Buffer for the data block"; - int NumPendingAcks, desc="Number of acks that this processor is waiting for"; - NetDest ForwardGetS_IDs, desc="Set of the processors to forward the block"; - MachineID ForwardGetX_ID, desc="ID of the processor to forward the block"; - int ForwardGetX_AckCount, desc="Number of acks the GetX we are forwarded needs"; - bool isPrefetch, desc="Set if this was caused by a prefetch"; - } - - external_type(CacheMemory) { - bool cacheAvail(Address); - Address cacheProbe(Address); - void allocate(Address); - void deallocate(Address); - Entry lookup(Address); - void changePermission(Address, AccessPermission); - bool isTagPresent(Address); - } - - external_type(TBETable) { - TBE lookup(Address); - void allocate(Address); - void deallocate(Address); - bool isPresent(Address); - } - - MessageBuffer mandatoryQueue, ordered="false", abstract_chip_ptr="true"; - MessageBuffer optionalQueue, ordered="false", abstract_chip_ptr="true"; - Sequencer sequencer, abstract_chip_ptr="true", constructor_hack="i"; - StoreBuffer storeBuffer, abstract_chip_ptr="true", constructor_hack="i"; - - TBETable TBEs, template_hack="<L1Cache_TBE>"; - CacheMemory cacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L1_CACHE_NUM_SETS_BITS,L1_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_unified L1"', abstract_chip_ptr="true"; - - State getState(Address addr) { - if(TBEs.isPresent(addr)) { - return TBEs[addr].TBEState; - } else if (cacheMemory.isTagPresent(addr)) { - return cacheMemory[addr].CacheState; - } - return State:I; - } - - void setState(Address addr, State state) { - if (TBEs.isPresent(addr)) { - TBEs[addr].TBEState := state; - } - if (cacheMemory.isTagPresent(addr)) { - cacheMemory[addr].CacheState := state; - - // Set permission - if ((state == State:I) || (state == State:MI) || (state == State:OI)) { - cacheMemory.changePermission(addr, AccessPermission:Invalid); - } else if (state == State:S || state == State:O) { - cacheMemory.changePermission(addr, AccessPermission:Read_Only); - } else if (state == State:M) { - cacheMemory.changePermission(addr, AccessPermission:Read_Write); - } else { - cacheMemory.changePermission(addr, AccessPermission:Busy); - } - } - } - - // ** OUT_PORTS ** - - out_port(requestNetwork_out, RequestMsg, requestFromCache); - out_port(responseNetwork_out, ResponseMsg, responseFromCache); - - // ** IN_PORTS ** - - // Response Network - in_port(responseNetwork_in, ResponseMsg, responseToCache) { - if (responseNetwork_in.isReady()) { - peek(responseNetwork_in, ResponseMsg) { - if(in_msg.Type == CoherenceResponseType:DATA) { - if(in_msg.NumPendingAcks == 0) { - trigger(Event:Data_ack_0, in_msg.Address); - } else { - if(in_msg.NumPendingAcks + TBEs[in_msg.Address].NumPendingAcks != 0) { - trigger(Event:Data_ack_not_0, in_msg.Address); - } else { - trigger(Event:Data_ack_not_0_last, in_msg.Address); - } - } - } else if(in_msg.Type == CoherenceResponseType:ACK) { - if(TBEs[in_msg.Address].NumPendingAcks != 1){ - trigger(Event:Proc_ack, in_msg.Address); - } else { - trigger(Event:Proc_last_ack, in_msg.Address); - } - } - } - } - } - - // Forwarded Request network - in_port(forwardedRequestNetwork_in, RequestMsg, forwardedRequestToCache) { - if(forwardedRequestNetwork_in.isReady()) { - peek(forwardedRequestNetwork_in, RequestMsg) { - if(in_msg.Type == CoherenceRequestType:GETS) { - trigger(Event:Forwarded_GETS, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GETX) { - trigger(Event:Forwarded_GETX, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:INV) { - trigger(Event:INV, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:WB_ACK) { - trigger(Event:Dir_WB_ack, in_msg.Address); - } else { - error("Invalid forwarded request type"); - } - } - } - } - - // Mandatory Queue - in_port(mandatoryQueue_in, CacheMsg, mandatoryQueue, desc="...") { - if (mandatoryQueue_in.isReady()) { - peek(mandatoryQueue_in, CacheMsg) { - if (cacheMemory.cacheAvail(in_msg.Address) == false) { - trigger(Event:Replacement, cacheMemory.cacheProbe(in_msg.Address)); - } else { - if (in_msg.Type == CacheRequestType:LD) { - trigger(Event:Load, in_msg.Address); - } else if (in_msg.Type == CacheRequestType:IFETCH) { - trigger(Event:Ifetch, in_msg.Address); - } else if ((in_msg.Type == CacheRequestType:ST) || (in_msg.Type == CacheRequestType:ATOMIC)) { - trigger(Event:Store, in_msg.Address); - } else { - error("Invalid CacheRequestType"); - } - } - } - } - } - - // Optional Queue - in_port(optionalQueue_in, CacheMsg, optionalQueue, desc="...") { - if (optionalQueue_in.isReady()) { - peek(optionalQueue_in, CacheMsg) { - if (cacheMemory.cacheAvail(in_msg.Address) == false) { - trigger(Event:Replacement, cacheMemory.cacheProbe(in_msg.Address)); - } else { - if (in_msg.Type == CacheRequestType:LD) { - trigger(Event:Load_prefetch, in_msg.Address); - } else if (in_msg.Type == CacheRequestType:IFETCH) { - trigger(Event:Load_prefetch, in_msg.Address); - } else if ((in_msg.Type == CacheRequestType:ST) || (in_msg.Type == CacheRequestType:ATOMIC)) { - trigger(Event:Store_prefetch, in_msg.Address); - } else { - error("Invalid CacheRequestType"); - } - } - } - } - } - - // ACTIONS - - action(a_issueGETS, "a", desc="Issue GETS") { - enqueue(requestNetwork_out, RequestMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETS; - out_msg.Requestor := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Control; - } - } - - action(b_issueGETX, "b", desc="Issue GETX") { - enqueue(requestNetwork_out, RequestMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETX; - out_msg.Requestor := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Control; - } - } - - action(d_issuePUTX, "d", desc="Issue PUTX") { - enqueue(requestNetwork_out, RequestMsg, latency="ISSUE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:PUTX; - out_msg.Requestor := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.DataBlk := cacheMemory[address].DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - } - - action(e_dataFromCacheToRequestor, "e", desc="Send data from cache to requestor") { - peek(forwardedRequestNetwork_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.NumPendingAcks := in_msg.NumPendingAcks; // Needed when in state O and we see a GetX - out_msg.Destination.add(in_msg.Requestor); - out_msg.DestMachine := MachineType:L1Cache; - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := cacheMemory[address].DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - action(g_allocateCacheBlock, "g", desc="Allocate cache block") { - if (cacheMemory.isTagPresent(address) == false) { - cacheMemory.allocate(address); - } - } - - action(h_load_hit, "h", desc="If not prefetch, notify sequencer the load completed.") { - DEBUG_EXPR(cacheMemory[address].DataBlk); - if((TBEs.isPresent(address) == false) || (TBEs[address].isPrefetch == false)) { - // Non-prefetch - sequencer.readCallback(address, cacheMemory[address].DataBlk); - } else { - // Prefetch - don't call back - } - } - - action(hh_store_hit, "\h", desc="If not prefetch, notify sequencer that store completed.") { - DEBUG_EXPR(cacheMemory[address].DataBlk); - if((TBEs.isPresent(address) == false) || (TBEs[address].isPrefetch == false)) { - // Non-prefetch - sequencer.writeCallback(address, cacheMemory[address].DataBlk); - } else { - // Prefetch - don't call back - } - } - - action(i_allocateTBE, "i", desc="Allocate TBE (isPrefetch=0, number of invalidates=0)") { - check_allocate(TBEs); - TBEs.allocate(address); - TBEs[address].NumPendingAcks := 0; // default value - TBEs[address].isPrefetch := false; - TBEs[address].ForwardGetS_IDs.clear(); - } - - action(j_setPrefetchBit, "j", desc="Set prefetch bit") { - TBEs[address].isPrefetch := true; - } - - action(k_popMandatoryQueue, "k", desc="Pop mandatory queue.") { - mandatoryQueue_in.dequeue(); - } - - action(l_popForwardedRequestQueue, "l", desc="Pop incoming forwarded request queue") { - forwardedRequestNetwork_in.dequeue(); - } - - action(m_popOptionalQueue, "m", desc="Pop optional queue") { - optionalQueue_in.dequeue(); - } - - action(o_popIncomingResponseQueue, "o", desc="Pop Incoming Response queue") { - responseNetwork_in.dequeue(); - } - - action(p_addNumberOfPendingAcks, "p", desc="Add number of pending acks to TBE") { - peek(responseNetwork_in, ResponseMsg) { - DEBUG_EXPR(TBEs[address].NumPendingAcks); - TBEs[address].NumPendingAcks := TBEs[address].NumPendingAcks + in_msg.NumPendingAcks; - DEBUG_EXPR(in_msg.NumPendingAcks); - DEBUG_EXPR(TBEs[address].NumPendingAcks); - } - } - - action(q_decrementNumberOfPendingAcks, "q", desc="Decrement number of pending invalidations by one") { - DEBUG_EXPR(TBEs[address].NumPendingAcks); - TBEs[address].NumPendingAcks := TBEs[address].NumPendingAcks - 1; - DEBUG_EXPR(TBEs[address].NumPendingAcks); - } - - action(s_deallocateTBE, "s", desc="Deallocate TBE") { - TBEs.deallocate(address); - } - - action(t_sendAckToInvalidator, "t", desc="Send ack to invalidator") { - peek(forwardedRequestNetwork_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="NULL_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:ACK; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.Destination.add(in_msg.Requestor); - out_msg.DestMachine := MachineType:L1Cache; - DEBUG_EXPR(out_msg.Destination); - out_msg.NumPendingAcks := 0; - out_msg.MessageSize := MessageSizeType:Control; - } - } - } - - action(u_writeDataToCache, "u", desc="Write data to cache") { - peek(responseNetwork_in, ResponseMsg) { - cacheMemory[address].DataBlk := in_msg.DataBlk; - } - } - - action(x_copyDataFromCacheToTBE, "x", desc="Copy data from cache to TBE") { - TBEs[address].DataBlk := cacheMemory[address].DataBlk; - } - - action(y_dataFromTBEToRequestor, "y", desc="Send data from TBE to requestor") { - peek(forwardedRequestNetwork_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="NULL_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.NumPendingAcks := in_msg.NumPendingAcks; // Needed when in state MS and we see a GetX - out_msg.Destination.add(in_msg.Requestor); - out_msg.DestMachine := MachineType:L1Cache; - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := TBEs[address].DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - action(z_stall, "z", desc="Stall") { - } - - action(dd_recordGetSForwardID, "\d", desc="Record forwarded GetS for future forwarding") { - peek(forwardedRequestNetwork_in, RequestMsg) { - TBEs[address].ForwardGetS_IDs.add(in_msg.Requestor); - } - } - - action(ee_dataFromCacheToGetSForwardIDs, "\e", desc="Send data from cache to GetS ForwardIDs") { - // FIXME - In some cases this should be from the TBE, not the cache. - enqueue(responseNetwork_out, ResponseMsg, latency="NULL_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.Destination := TBEs[address].ForwardGetS_IDs; - out_msg.DestMachine := MachineType:L1Cache; - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := cacheMemory[address].DataBlk; - out_msg.NumPendingAcks := 0; - out_msg.MessageSize := MessageSizeType:Data; - } - } - - action(ff_deallocateCacheBlock, "\f", desc="Deallocate cache block. Sets the cache to invalid, allowing a replacement in parallel with a fetch.") { - cacheMemory.deallocate(address); - } - - action(gg_dataFromCacheToGetXForwardID, "\g", desc="Send data from cache to GetX ForwardID") { - // FIXME - In some cases this should be from the TBE, not the cache. - enqueue(responseNetwork_out, ResponseMsg, latency="NULL_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:L1Cache; - out_msg.Destination.add(TBEs[address].ForwardGetX_ID); - out_msg.DestMachine := MachineType:L1Cache; - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := cacheMemory[address].DataBlk; - out_msg.NumPendingAcks := TBEs[address].ForwardGetX_AckCount; - out_msg.MessageSize := MessageSizeType:Data; - } - } - - action(ii_recordGetXForwardID, "\i", desc="Record forwarded GetX and ack count for future forwarding") { - peek(forwardedRequestNetwork_in, RequestMsg) { - TBEs[address].ForwardGetX_ID := in_msg.Requestor; - TBEs[address].ForwardGetX_AckCount := in_msg.NumPendingAcks; - } - } - - //***************************************************** - // TRANSITIONS - //***************************************************** - - // Transitions for Load/Store/Prefetch/Replacement from transient states - transition({OM, OI, IS, ISI, IM, IMO, IMOI, IMI, MI}, {Load, Load_prefetch, Ifetch, Store, Store_prefetch, Replacement}) { - z_stall; - } - - // Transitions from Idle - transition(I, {Load,Ifetch}, IS) { - g_allocateCacheBlock; - i_allocateTBE; - a_issueGETS; - k_popMandatoryQueue; - } - - transition(I, {Load_prefetch}, IS) { - g_allocateCacheBlock; - i_allocateTBE; - j_setPrefetchBit; - a_issueGETS; - m_popOptionalQueue; - } - - transition(I, Store, IM) { - g_allocateCacheBlock; - i_allocateTBE; - b_issueGETX; - k_popMandatoryQueue; - } - - transition(I, Store_prefetch, IM) { - g_allocateCacheBlock; - i_allocateTBE; - j_setPrefetchBit; - b_issueGETX; - m_popOptionalQueue; - } - - transition(I, Replacement) { - ff_deallocateCacheBlock; - } - - transition(I, INV) { - t_sendAckToInvalidator; - l_popForwardedRequestQueue; - } - - // Transitions from Shared - transition({S, O}, {Load,Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition({S, O, M}, Load_prefetch) { - m_popOptionalQueue; - } - - transition(S, Store, IM) { - i_allocateTBE; - b_issueGETX; - k_popMandatoryQueue; - } - - transition(S, Store_prefetch, IM) { - i_allocateTBE; - j_setPrefetchBit; - b_issueGETX; - m_popOptionalQueue; - } - - transition(S, Replacement, I) { - ff_deallocateCacheBlock; - } - - transition(S, INV, I) { - t_sendAckToInvalidator; - l_popForwardedRequestQueue; - } - - // Transitions from Modified - transition(M, {Load, Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(M, Store) { - hh_store_hit; - k_popMandatoryQueue; - } - - transition(M, Store_prefetch) { - m_popOptionalQueue; - } - - transition(M, Replacement, MI) { - i_allocateTBE; - d_issuePUTX; - x_copyDataFromCacheToTBE; - ff_deallocateCacheBlock; - } - - transition(M, Forwarded_GETS, O) { - e_dataFromCacheToRequestor; - l_popForwardedRequestQueue; - } - - transition(M, Forwarded_GETX, I) { - e_dataFromCacheToRequestor; - l_popForwardedRequestQueue; - } - - // Transitions from O - transition(O, Store, OM) { - i_allocateTBE; - b_issueGETX; - k_popMandatoryQueue; - } - - transition(O, Store_prefetch, OM) { - i_allocateTBE; - j_setPrefetchBit; - b_issueGETX; - m_popOptionalQueue; - } - - transition(O, Replacement, OI){ - i_allocateTBE; - d_issuePUTX; - x_copyDataFromCacheToTBE; - ff_deallocateCacheBlock; - } - - transition(O, Forwarded_GETS) { - e_dataFromCacheToRequestor; - l_popForwardedRequestQueue; - } - - transition(O, Forwarded_GETX, I) { - e_dataFromCacheToRequestor; - l_popForwardedRequestQueue; - } - - // transitions from OI - - transition(OI, Forwarded_GETS) { - y_dataFromTBEToRequestor; - l_popForwardedRequestQueue; - } - - transition(OI, Forwarded_GETX) { - y_dataFromTBEToRequestor; - l_popForwardedRequestQueue; - } - - transition(OI, Dir_WB_ack, I) { - s_deallocateTBE; - l_popForwardedRequestQueue; - } - - // Transitions from IS - - transition(IS, INV, ISI) { - t_sendAckToInvalidator; - l_popForwardedRequestQueue; - } - - transition(IS, Data_ack_0, S) { - u_writeDataToCache; - h_load_hit; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // transitions from ISI - - // in ISI, could get data from the Proc whose GETX caused INV to go from IS to ISI - // or, could get data from Dir if Dir's data lost race to Dir's INV - // or, could get data from Dir, if my GETS took forever to get to Dir, and the GETX - // processor already wrote it back - - transition(ISI, Data_ack_0, I) { - u_writeDataToCache; - h_load_hit; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(ISI, INV) { - t_sendAckToInvalidator; - l_popForwardedRequestQueue; - } - - // Transitions from IM - - transition(IM, INV) { // do not need to go to IMI, since INV is for earlier epoch - t_sendAckToInvalidator; - l_popForwardedRequestQueue; - } - - transition({IM, IMO}, Forwarded_GETS, IMO) { - dd_recordGetSForwardID; - l_popForwardedRequestQueue; - } - - transition(IM, Forwarded_GETX, IMI) { - ii_recordGetXForwardID; - l_popForwardedRequestQueue; - } - - transition(IM, {Data_ack_0, Data_ack_not_0_last}, M) { - u_writeDataToCache; - hh_store_hit; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(IM, Data_ack_not_0) { - u_writeDataToCache; - p_addNumberOfPendingAcks; - o_popIncomingResponseQueue; - } - - transition(IM, Proc_ack) { - q_decrementNumberOfPendingAcks; - o_popIncomingResponseQueue; - } - - transition(IM, Proc_last_ack, M) { - hh_store_hit; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // transitions from IMO - - transition(IMO, Forwarded_GETX, IMOI) { - ii_recordGetXForwardID; - l_popForwardedRequestQueue; - } - - transition(IMO, {Data_ack_0, Data_ack_not_0_last}, O) { - u_writeDataToCache; - hh_store_hit; - ee_dataFromCacheToGetSForwardIDs; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(IMO, Data_ack_not_0) { - u_writeDataToCache; - p_addNumberOfPendingAcks; - o_popIncomingResponseQueue; - } - - transition(IMO, Proc_ack) { - q_decrementNumberOfPendingAcks; - o_popIncomingResponseQueue; - } - - transition(IMO, Proc_last_ack, O) { - hh_store_hit; - ee_dataFromCacheToGetSForwardIDs; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // transitions from IMI - - transition(IMI, {Data_ack_0, Data_ack_not_0_last}, I) { - u_writeDataToCache; - hh_store_hit; - gg_dataFromCacheToGetXForwardID; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(IMI, Data_ack_not_0) { - u_writeDataToCache; - p_addNumberOfPendingAcks; - o_popIncomingResponseQueue; - } - - transition(IMI, Proc_ack) { - q_decrementNumberOfPendingAcks; - o_popIncomingResponseQueue; - } - - transition(IMI, Proc_last_ack, I) { - hh_store_hit; - gg_dataFromCacheToGetXForwardID; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // transitions from IMOI - - transition(IMOI, {Data_ack_0, Data_ack_not_0_last}, I) { - u_writeDataToCache; - hh_store_hit; - ee_dataFromCacheToGetSForwardIDs; - gg_dataFromCacheToGetXForwardID; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(IMOI, Data_ack_not_0) { - u_writeDataToCache; - p_addNumberOfPendingAcks; - o_popIncomingResponseQueue; - } - - transition(IMOI, Proc_ack) { - q_decrementNumberOfPendingAcks; - o_popIncomingResponseQueue; - } - - transition(IMOI, Proc_last_ack, I) { - hh_store_hit; - ee_dataFromCacheToGetSForwardIDs; - gg_dataFromCacheToGetXForwardID; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // Transitions from OM - transition(OM, Proc_ack) { - q_decrementNumberOfPendingAcks; - o_popIncomingResponseQueue; - } - - transition(OM, Forwarded_GETS) { - e_dataFromCacheToRequestor; - l_popForwardedRequestQueue; - } - - transition(OM, Forwarded_GETX, IM) { - e_dataFromCacheToRequestor; - l_popForwardedRequestQueue; - } - - // Transitions from MI - - transition(MI, Forwarded_GETS) { - y_dataFromTBEToRequestor; - l_popForwardedRequestQueue; - } - - transition(MI, Forwarded_GETX) { - y_dataFromTBEToRequestor; - l_popForwardedRequestQueue; - } - - transition(MI, Dir_WB_ack, I) { - s_deallocateTBE; - l_popForwardedRequestQueue; - } -} diff --git a/src/mem/protocol/MOSI_SMP_directory_1level-dir.sm b/src/mem/protocol/MOSI_SMP_directory_1level-dir.sm deleted file mode 100644 index fa91b1baa..000000000 --- a/src/mem/protocol/MOSI_SMP_directory_1level-dir.sm +++ /dev/null @@ -1,333 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id: MOSI_directory-dir.sm 1.14 04/09/07 13:52:52-05:00 mikem@maya.cs.wisc.edu $ - */ - -machine(Directory, "MOSI Directory Optimized") { - - - MessageBuffer forwardedRequestFromDir, network="To", virtual_network="1", ordered="true"; - MessageBuffer responseFromDir, network="To", virtual_network="2", ordered="false"; - MessageBuffer requestToDir, network="From", virtual_network="0", ordered="false"; - - // STATES - enumeration(State, desc="Directory states", default="Directory_State_I") { - // Base states - I, desc="Idle"; - S, desc="Shared"; - O, desc="Owned"; - M, desc="Modified", format="!b"; - } - - // Events - enumeration(Event, desc="Directory events") { - GETS, desc="A GETS arrives"; - GETX_Owner, desc="A GETX arrives, requestor is owner"; - GETX_NotOwner, desc="A GETX arrives, requestor is not owner"; - PUTX_Owner, "PUTX (requestor is owner)", desc="A PUTX arrives, requestor is owner"; - PUTX_NotOwner, "PUTX (requestor not owner)",desc="A PUTX arrives, requestor is not owner"; - } - - // TYPES - - // DirectoryEntry - structure(Entry, desc="...") { - State DirectoryState, desc="Directory state"; - NetDest Sharers, desc="Set of sharers"; - bool DirOwner, default="true", desc="Is dir owner?"; - MachineID ProcOwner, desc="Processor owner"; - DataBlock DataBlk, desc="data for the block"; - } - - external_type(DirectoryMemory) { - Entry lookup(Address); - bool isPresent(Address); - } - - // ** OBJECTS ** - - DirectoryMemory directory, constructor_hack="i"; - - State getState(Address addr) { - if (directory.isPresent(addr)) { - return directory[addr].DirectoryState; - } - return State:I; - } - - void setState(Address addr, State state) { - if (directory.isPresent(addr)) { - directory[addr].DirectoryState := state; - } - } - - // ** OUT_PORTS ** - out_port(forwardedRequestNetwork_out, RequestMsg, forwardedRequestFromDir); - out_port(responseNetwork_out, ResponseMsg, responseFromDir); - - // ** IN_PORTS ** - - in_port(requestNetwork_in, RequestMsg, requestToDir) { - if (requestNetwork_in.isReady()) { - peek(requestNetwork_in, RequestMsg) { - if (in_msg.Type == CoherenceRequestType:GETS) { - trigger(Event:GETS, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GETX) { - if(directory[in_msg.Address].DirOwner == false && in_msg.Requestor == directory[in_msg.Address].ProcOwner) { - trigger(Event:GETX_Owner, in_msg.Address); - } else { - trigger(Event:GETX_NotOwner, in_msg.Address); - } - } else if (in_msg.Type == CoherenceRequestType:PUTX) { - if (directory[in_msg.Address].DirOwner == false && in_msg.Requestor == directory[in_msg.Address].ProcOwner) { - trigger(Event:PUTX_Owner, in_msg.Address); - } else { - trigger(Event:PUTX_NotOwner, in_msg.Address); - } - } else { - error("Invalid message"); - } - } - } - } - - - // Actions - - // a_addRequestorToSharers - - action(a_addRequestorToSharers, "a", desc="Add requestor to list of sharers") { - peek(requestNetwork_in, RequestMsg) { - directory[address].Sharers.add(in_msg.Requestor); - DEBUG_EXPR(directory[address].Sharers); - } - } - - // b_dataToRequestor - - action(b_dataToRequestor, "b", desc="Send data to requestor") { - peek(requestNetwork_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="MEMORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.Sender := machineID; - out_msg.SenderMachine := MachineType:Directory; - if(in_msg.Type == CoherenceRequestType:GETX) { - out_msg.NumPendingAcks := directory[address].Sharers.count(); - } else { - out_msg.NumPendingAcks := 0; // don't need to send pending ack count to GETS requestor - } - out_msg.Destination.add(in_msg.Requestor); - out_msg.DestMachine := MachineType:L1Cache; - out_msg.DataBlk := directory[address].DataBlk; - DEBUG_EXPR(out_msg.NumPendingAcks); - DEBUG_EXPR(out_msg.Destination); - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - // d_forwardRequestToOwner - - action(d_forwardRequestToOwner, "d", desc="Forward request to owner") { - peek(requestNetwork_in, RequestMsg) { - enqueue(forwardedRequestNetwork_out, RequestMsg, latency="DIRECTORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := in_msg.Type; - out_msg.Requestor := in_msg.Requestor; - out_msg.Destination.add(directory[address].ProcOwner); - DEBUG_EXPR(out_msg.Destination); - - if(in_msg.Type == CoherenceRequestType:GETX) { - out_msg.NumPendingAcks := directory[address].Sharers.count(); - } else { - out_msg.NumPendingAcks := 0; // don't need to send pending ack count to GETS requestor - } - out_msg.MessageSize := MessageSizeType:Control; - } - } - } - - action(f_setOwnerToRequestor, "f", desc="Set owner equal to requestor") { - peek(requestNetwork_in, RequestMsg) { - directory[address].ProcOwner := in_msg.Requestor; - directory[address].DirOwner := false; - } - DEBUG_EXPR(directory[address].ProcOwner); - } - - action(g_clearSharers, "g", desc="Clear list of sharers") { - directory[address].Sharers.clear(); - } - - // currently done via multicast message - - action(h_invToSharers, "h", desc="Send INVs to all sharers") { - peek(requestNetwork_in, RequestMsg) { - if(directory[address].Sharers.count() != 0){ - enqueue(forwardedRequestNetwork_out, RequestMsg, latency="DIRECTORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:INV; - out_msg.Requestor := in_msg.Requestor; - out_msg.Destination := directory[address].Sharers; - out_msg.MessageSize := MessageSizeType:Control; - } - } - } - DEBUG_EXPR(directory[address].Sharers); - } - - action(j_popIncomingRequestQueue, "j", desc="Pop incoming request queue") { - requestNetwork_in.dequeue(); - } - - action(l_writeRequestDataToMemory, "l", desc="Write PUTX/DWN data to memory") { - peek(requestNetwork_in, RequestMsg) { - directory[in_msg.Address].DataBlk := in_msg.DataBlk; - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(in_msg.DataBlk); - } - } - - action(n_writebackAckToRequestor, "n", desc="Send WB_ack to requestor") { - peek(requestNetwork_in, RequestMsg) { - // This needs to be DIRECTORY_LATENCY to keep the queue fifo - enqueue(forwardedRequestNetwork_out, RequestMsg, latency="DIRECTORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:WB_ACK; - out_msg.Requestor := machineID; - out_msg.Destination.add(in_msg.Requestor); - out_msg.MessageSize := MessageSizeType:Control; - } - } - } - - action(p_clearOwner, "p", desc="Clear owner") { - directory[address].DirOwner := true; // set owner equal to dir - } - - action(r_addOwnerToSharers, "r", desc="Add owner to list of sharers") { - directory[address].Sharers.add(directory[address].ProcOwner); - } - - action(t_removeOwnerFromSharers, "t", desc="Remove owner from list of sharers") { - directory[address].Sharers.remove(directory[address].ProcOwner); - } - - action(u_removeRequestorFromSharers, "u", desc="Remove requestor from list of sharers") { - peek(requestNetwork_in, RequestMsg) { - directory[address].Sharers.remove(in_msg.Requestor); - } - } - - // TRANSITIONS - - transition({I, S, M, O}, PUTX_NotOwner) { - n_writebackAckToRequestor; - j_popIncomingRequestQueue; - } - - // Transitions from Idle - transition(I, GETS, S) { - a_addRequestorToSharers; - b_dataToRequestor; - j_popIncomingRequestQueue; - } - - transition(I, GETX_NotOwner, M) { - f_setOwnerToRequestor; - b_dataToRequestor; - j_popIncomingRequestQueue; - } - - // Transitions from Shared - transition(S, GETS) { - a_addRequestorToSharers; - b_dataToRequestor; - j_popIncomingRequestQueue; - } - - transition(S, GETX_NotOwner, M) { - u_removeRequestorFromSharers; - b_dataToRequestor; - f_setOwnerToRequestor; - h_invToSharers; - g_clearSharers; - j_popIncomingRequestQueue; - } - - // Transitions from Owned - transition(O, GETS) { - a_addRequestorToSharers; - d_forwardRequestToOwner; - j_popIncomingRequestQueue; - } - - transition(O, {GETX_NotOwner, GETX_Owner}, M) { - u_removeRequestorFromSharers; - t_removeOwnerFromSharers; - d_forwardRequestToOwner; - f_setOwnerToRequestor; - h_invToSharers; - g_clearSharers; - j_popIncomingRequestQueue; - } - - transition(O, PUTX_Owner, S) { - u_removeRequestorFromSharers; - l_writeRequestDataToMemory; - n_writebackAckToRequestor; - p_clearOwner; - j_popIncomingRequestQueue; - } - - - // Transitions from Modified - transition(M, GETS, O) { - a_addRequestorToSharers; - r_addOwnerToSharers; - d_forwardRequestToOwner; - j_popIncomingRequestQueue; - } - - transition(M, GETX_NotOwner) { - d_forwardRequestToOwner; - f_setOwnerToRequestor; - j_popIncomingRequestQueue; - } - - transition(M, PUTX_Owner, I) { - l_writeRequestDataToMemory; - n_writebackAckToRequestor; - p_clearOwner; - j_popIncomingRequestQueue; - } -} diff --git a/src/mem/protocol/MOSI_SMP_directory_1level-msg.sm b/src/mem/protocol/MOSI_SMP_directory_1level-msg.sm deleted file mode 100644 index b827ab05e..000000000 --- a/src/mem/protocol/MOSI_SMP_directory_1level-msg.sm +++ /dev/null @@ -1,74 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id: MOSI_directory-msg.sm 1.9 04/08/09 16:11:38-05:00 mikem@maya.cs.wisc.edu $ - * - */ - -// CoherenceRequestType -enumeration(CoherenceRequestType, desc="...") { - GETX, desc="Get eXclusive"; - GETS, desc="Get Shared"; - GET_INSTR, desc="Get Instruction"; - PUTX, desc="Put eXclusive"; - INV, desc="INValidate"; - WB_ACK, desc="Write Back ACKnowledgment"; -} - -// CoherenceResponseType -enumeration(CoherenceResponseType, desc="...") { - ACK, desc="ACKnowledgment"; - NACK, desc="Negative ACKnowledgment"; - DATA, desc="Data"; -} - -// RequestMsg -structure(RequestMsg, desc="...", interface="NetworkMessage") { - Address Address, desc="Physical address for this request"; - CoherenceRequestType Type, desc="Type of request (GetS, GetX, PutX, etc)"; - MachineID Requestor, desc="Node who initiated the request"; - NetDest Destination, desc="Multicast destination mask"; - DataBlock DataBlk, desc="Data for the cache line (if PUTX)"; - int NumPendingAcks, desc="Number of acks to wait for"; // Needed for forwarded responses only - MessageSizeType MessageSize, desc="size category of the message"; -} - -// ResponseMsg -structure(ResponseMsg, desc="...", interface="NetworkMessage") { - Address Address, desc="Physical address for this request"; - CoherenceResponseType Type, desc="Type of response (Ack, Data, etc)"; - MachineID Sender, desc="Node who sent the data"; - MachineType SenderMachine, desc="What component sent the data"; - NetDest Destination, desc="Node to whom the data is sent"; - MachineType DestMachine, desc="What component receives the data"; - DataBlock DataBlk, desc="data for the cache line"; - int NumPendingAcks, desc="Number of acks to wait for"; - MessageSizeType MessageSize, desc="size category of the message"; -} diff --git a/src/mem/protocol/MOSI_SMP_directory_1level.slicc b/src/mem/protocol/MOSI_SMP_directory_1level.slicc deleted file mode 100644 index 250c72ae7..000000000 --- a/src/mem/protocol/MOSI_SMP_directory_1level.slicc +++ /dev/null @@ -1,4 +0,0 @@ -MOSI_SMP_directory_1level-msg.sm -MOSI_SMP_directory_1level-cache.sm -MOSI_SMP_directory_1level-dir.sm -standard_1level_SMP-protocol.sm diff --git a/src/mem/protocol/MSI_MOSI_CMP_directory-L1cache.sm b/src/mem/protocol/MSI_MOSI_CMP_directory-L1cache.sm deleted file mode 100644 index 6ca749ac7..000000000 --- a/src/mem/protocol/MSI_MOSI_CMP_directory-L1cache.sm +++ /dev/null @@ -1,799 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id$ - * - */ - - -machine(L1Cache, "MSI Directory L1 Cache CMP") { - - // NODE L1 CACHE - // From this node's L1 cache TO the network - // a local L1 -> this L2 bank, currently ordered with directory forwarded requests - MessageBuffer requestFromL1Cache, network="To", virtual_network="0", ordered="true"; - MessageBuffer dummyFrom1, network="To", virtual_network="1", ordered="false"; // dummy buffer that shouldn't be used - MessageBuffer dummyFrom2, network="To", virtual_network="2", ordered="false"; // dummy buffer that shouldn't be used - // a local L1 -> this L2 bank - MessageBuffer responseFromL1Cache, network="To", virtual_network="3", ordered="false"; - MessageBuffer dummyFrom4, network="To", virtual_network="4", ordered="false"; // dummy buffer that shouldn't be used - - - // To this node's L1 cache FROM the network - MessageBuffer dummyTo0, network="From", virtual_network="0", ordered="false"; // dummy buffer that shouldn't be used - MessageBuffer dummyTo1, network="From", virtual_network="1", ordered="false"; // dummy buffer that shouldn't be used - // a L2 bank -> this L1 - MessageBuffer requestToL1Cache, network="From", virtual_network="2", ordered="true"; - // a L2 bank -> this L1 - MessageBuffer responseToL1Cache, network="From", virtual_network="3", ordered="false"; - MessageBuffer dummyTo4, network="From", virtual_network="4", ordered="false"; // dummy buffer that shouldn't be used - - // STATES - enumeration(State, desc="Cache states", default="L1Cache_State_L1_I") { - // Base states - NP, desc="Not present in either cache"; - L1_I, desc="a L1 cache entry Idle"; - L1_S, desc="a L1 cache entry Shared"; - L1_M, desc="a L1 cache entry Modified", format="!b"; - - // Transient States - L1_IS, desc="L1 idle, issued GETS, have not seen response yet"; - L1_ISI, desc="L1 idle, issued GETS, saw INV, still waiting for data"; - L1_IM, desc="L1 idle, issued GETX, have not seen response yet"; - L1_IMI, desc="L1 idle, issued GETX, saw INV, still waiting for data"; - L1_IMS, desc="L1 idle, issued GETX, saw DownGrade, still waiting for data"; - L1_IMSI, desc="L1 idle, issued GETX, saw DownGrade, saw INV, still waiting for data"; - - L1_SI, desc="issued PUTS, waiting for response"; - L1_MI, desc="issued PUTX, waiting for response"; - } - - // EVENTS - enumeration(Event, desc="Cache events") { - // L1 events - Load, desc="Load request from the home processor"; - Ifetch, desc="I-fetch request from the home processor"; - Store, desc="Store request from the home processor"; - - // L1 is required to send response to the L2 immediately - L1_INV, "INV", desc="L1 Invalidation of M data", format="!r"; - L1_INV_S, "INV", desc="L1 Invalidation of S data", format="!r"; - L1_DownGrade, "Force DownGrade", desc="L2 cache forces an L1 cache in M to downgrade to S and writeback result"; - - // receiving of data - L1_Data, "Data", desc="Data in response to an L1 request, transistion to M or S depending on request"; - L1_Data_S, "Data S", desc="Data in response to an L1 request, write data then transistion to S"; - L1_Data_I, "Data I", desc="Data in response to an L1 request, write data then transistion to I"; - - // receiving of acks - L1_PutAck, "Put Ack", desc="PutS or PutX ack from L2"; - - // internal generated request - // L1 request to replace block, results in either a PUTS or PUTX request - L1_Replacement, desc="L1 Replacement", format="!r"; - // Currently same as replacement, request initiated when block is in the wrong L1 cache - L1_WriteBack, desc="on-chip L1 cache must write back to shared L2"; - } - - // TYPES - - // CacheEntry - structure(Entry, desc="...", interface="AbstractCacheEntry" ) { - State CacheState, desc="cache state"; - DataBlock DataBlk, desc="data for the block"; - } - - // TBE fields - structure(TBE, desc="...") { - Address Address, desc="Physical address for this TBE"; - State TBEState, desc="Transient state"; - DataBlock DataBlk, desc="Buffer for the data block"; - bool isPrefetch, desc="Set if this was caused by a prefetch"; - } - - external_type(CacheMemory) { - bool cacheAvail(Address); - Address cacheProbe(Address); - void allocate(Address); - void deallocate(Address); - Entry lookup(Address); - void changePermission(Address, AccessPermission); - bool isTagPresent(Address); - } - - external_type(TBETable) { - TBE lookup(Address); - void allocate(Address); - void deallocate(Address); - bool isPresent(Address); - } - - TBETable L1_TBEs, template_hack="<L1Cache_TBE>"; - - CacheMemory L1IcacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L1_CACHE_NUM_SETS_BITS,L1_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_L1I"', abstract_chip_ptr="true"; - CacheMemory L1DcacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L1_CACHE_NUM_SETS_BITS,L1_CACHE_ASSOC,MachineType_L1Cache,int_to_string(i)+"_L1D"', abstract_chip_ptr="true"; - - MessageBuffer mandatoryQueue, ordered="false", rank="100", abstract_chip_ptr="true"; - // the optionalQueue doesn't have to be ordered for correctness - // however inforcing order ensures the prefetches reach the L2 in order - MessageBuffer optionalQueue, ordered="true", rank="101", abstract_chip_ptr="true"; - - Sequencer sequencer, abstract_chip_ptr="true", constructor_hack="i"; - - int cache_state_to_int(State state); - - // inclusive cache returns L1 entries only - Entry getL1CacheEntry(Address addr), return_by_ref="yes" { - if (L1DcacheMemory.isTagPresent(addr)) { - return L1DcacheMemory[addr]; - } else { - return L1IcacheMemory[addr]; - } - } - - void changeL1Permission(Address addr, AccessPermission permission) { - if (L1DcacheMemory.isTagPresent(addr)) { - return L1DcacheMemory.changePermission(addr, permission); - } else if(L1IcacheMemory.isTagPresent(addr)) { - return L1IcacheMemory.changePermission(addr, permission); - } else { - error("cannot change permission, L1 block not present"); - } - } - - bool isL1CacheTagPresent(Address addr) { - return (L1DcacheMemory.isTagPresent(addr) || L1IcacheMemory.isTagPresent(addr)); - } - - State getState(Address addr) { - if((L1DcacheMemory.isTagPresent(addr) && L1IcacheMemory.isTagPresent(addr)) == true){ - DEBUG_EXPR(id); - DEBUG_EXPR(addr); - } - assert((L1DcacheMemory.isTagPresent(addr) && L1IcacheMemory.isTagPresent(addr)) == false); - - if(L1_TBEs.isPresent(addr)) { - return L1_TBEs[addr].TBEState; - } else if (isL1CacheTagPresent(addr)) { - return getL1CacheEntry(addr).CacheState; - } - return State:NP; - } - - std::string getStateStr(Address addr) { - return L1Cache_State_to_string(getState(addr)); - } - - // when is this called? - void setState(Address addr, State state) { - assert((L1DcacheMemory.isTagPresent(addr) && L1IcacheMemory.isTagPresent(addr)) == false); - - // MUST CHANGE - if(L1_TBEs.isPresent(addr)) { - L1_TBEs[addr].TBEState := state; - } - - if (isL1CacheTagPresent(addr)) { - getL1CacheEntry(addr).CacheState := state; - - // Set permission - if (state == State:L1_I || state == State:L1_SI || state == State:L1_MI) { - changeL1Permission(addr, AccessPermission:Invalid); - } else if (state == State:L1_S) { - changeL1Permission(addr, AccessPermission:Read_Only); - } else if (state == State:L1_M) { - changeL1Permission(addr, AccessPermission:Read_Write); - } else { - changeL1Permission(addr, AccessPermission:Busy); - } - } - } - - Event mandatory_request_type_to_event(CacheRequestType type) { - if (type == CacheRequestType:LD) { - return Event:Load; - } else if (type == CacheRequestType:IFETCH) { - return Event:Ifetch; - } else if ((type == CacheRequestType:ST) || (type == CacheRequestType:ATOMIC)) { - return Event:Store; - } else { - error("Invalid CacheRequestType"); - } - } - - // ** OUT_PORTS ** - // All ports are to the same CMP network, queue id numbers determine IntraChip Switch location - - out_port(requestIntraChipL1Network_out, RequestMsg, requestFromL1Cache); - out_port(responseIntraChipL1Network_out, ResponseMsg, responseFromL1Cache); - - // ** IN_PORTS ** - in_port(dummyTo0_in, RequestMsg, dummyTo0) { - if (dummyTo0_in.isReady()) { - peek(dummyTo0_in, RequestMsg) { - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(machineID); - DEBUG_EXPR(in_msg.Type); - DEBUG_EXPR(getState(in_msg.Address)); - DEBUG_EXPR(in_msg.RequestorMachId); - } - error("dummyTo0 port should not be used"); - } - } - - in_port(dummyTo1_in, RequestMsg, dummyTo1) { - if (dummyTo1_in.isReady()) { - peek(dummyTo1_in, RequestMsg) { - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(machineID); - DEBUG_EXPR(in_msg.Type); - DEBUG_EXPR(getState(in_msg.Address)); - DEBUG_EXPR(in_msg.RequestorMachId); - } - error("dummyTo1 port should not be used"); - } - } - - in_port(dummyTo4_in, ResponseMsg, dummyTo4) { - if (dummyTo4_in.isReady()) { - peek(dummyTo4_in, ResponseMsg) { - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(machineID); - DEBUG_EXPR(in_msg.Type); - DEBUG_EXPR(getState(in_msg.Address)); - DEBUG_EXPR(in_msg.SenderMachId); - } - error("dummyTo4 port should not be used"); - } - } - - // Response IntraChip L1 Network - response msg to this L1 cache - in_port(responseIntraChipL1Network_in, ResponseMsg, responseToL1Cache) { - if (responseIntraChipL1Network_in.isReady()) { - peek(responseIntraChipL1Network_in, ResponseMsg) { - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(in_msg.Destination); - DEBUG_EXPR(in_msg.SenderMachId); - DEBUG_EXPR(machineID); - assert(in_msg.Destination.isElement(machineID)); - if(machineIDToMachineType(in_msg.SenderMachId) == MachineType:L2Cache) { - if(in_msg.Type == CoherenceResponseType:DATA) { - trigger(Event:L1_Data, in_msg.Address); // L1 now has data in its desired state - } else if(in_msg.Type == CoherenceResponseType:DATA_S) { - trigger(Event:L1_Data_S, in_msg.Address); // L1 now has data but must imediately move to S state - } else if(in_msg.Type == CoherenceResponseType:DATA_I) { - trigger(Event:L1_Data_I, in_msg.Address); // L1 now has data but must imediately move to INV state - } else if(in_msg.Type == CoherenceResponseType:ACK) { - trigger(Event:L1_PutAck, in_msg.Address); - } else { - error("Invalid L1 response type"); - } - } else { - error("A non-L2 cache sent a response to a L1 cache"); - } - } - } - } - - // Request InterChip network - request from this L1 cache to the shared L2 - in_port(requestIntraChipL1Network_in, RequestMsg, requestToL1Cache) { - if(requestIntraChipL1Network_in.isReady()) { - peek(requestIntraChipL1Network_in, RequestMsg) { - assert(in_msg.Destination.isElement(machineID)); - if(machineIDToMachineType(in_msg.RequestorMachId) == MachineType:L2Cache) { - if(in_msg.Type == CoherenceRequestType:L1_DG) { - trigger(Event:L1_DownGrade, in_msg.Address); // Force L1 to downgrade to S state - } else if (in_msg.Type == CoherenceRequestType:INV) { - trigger(Event:L1_INV, in_msg.Address); // L1 must invalidate it's modified version - } else if (in_msg.Type == CoherenceRequestType:INV_S) { - trigger(Event:L1_INV_S, in_msg.Address); // L1 must invalidate it's shared version - } else { - error("Invalid forwarded request type"); - } - } else { - error("A non-L2 cache sent a request to a L1 cache"); - } - } - } - } - - // Mandatory Queue betweens Node's CPU and it's L1 caches - in_port(mandatoryQueue_in, CacheMsg, mandatoryQueue, desc="...") { - if (mandatoryQueue_in.isReady()) { - peek(mandatoryQueue_in, CacheMsg) { - - // Check for data access to blocks in I-cache and ifetchs to blocks in D-cache - - if (in_msg.Type == CacheRequestType:IFETCH) { - // ** INSTRUCTION ACCESS *** - - // Check to see if it is in the OTHER L1 - if (L1DcacheMemory.isTagPresent(in_msg.Address)) { - // The block is in the wrong L1, put the request on the queue to the shared L2 - trigger(Event:L1_WriteBack, in_msg.Address); - } - if (L1IcacheMemory.isTagPresent(in_msg.Address)) { - // The tag matches for the L1, so the L1 asks the L2 for it. - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } else { - if (L1IcacheMemory.cacheAvail(in_msg.Address)) { - // L1 does't have the line, but we have space for it in the L1 so let's see if the L2 has it - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } else { - // No room in the L1, so we need to make room in the L1 - trigger(Event:L1_Replacement, L1IcacheMemory.cacheProbe(in_msg.Address)); - } - } - } else { - // *** DATA ACCESS *** - - // Check to see if it is in the OTHER L1 - if (L1IcacheMemory.isTagPresent(in_msg.Address)) { - // The block is in the wrong L1, put the request on the queue to the shared L2 - trigger(Event:L1_WriteBack, in_msg.Address); - } - if (L1DcacheMemory.isTagPresent(in_msg.Address)) { - // The tag matches for the L1, so the L1 ask the L2 for it - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } else { - if (L1DcacheMemory.cacheAvail(in_msg.Address)) { - // L1 does't have the line, but we have space for it in the L1 let's see if the L2 has it - trigger(mandatory_request_type_to_event(in_msg.Type), in_msg.Address); - } else { - // No room in the L1, so we need to make room in the L1 - trigger(Event:L1_Replacement, L1DcacheMemory.cacheProbe(in_msg.Address)); - } - } - } - } - } - } - - // ACTIONS - action(a_issueGETS, "a", desc="Issue GETS") { - peek(mandatoryQueue_in, CacheMsg) { - enqueue(requestIntraChipL1Network_out, RequestMsg, latency="L1_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETS; - out_msg.RequestorMachId := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - DEBUG_EXPR(address); - DEBUG_EXPR(out_msg.Destination); - out_msg.MessageSize := MessageSizeType:Control; - out_msg.L1CacheStateStr := getStateStr(address); - out_msg.Prefetch := in_msg.Prefetch; - out_msg.AccessMode := in_msg.AccessMode; - } - } - } - - action(b_issueGETX, "b", desc="Issue GETX") { - peek(mandatoryQueue_in, CacheMsg) { - enqueue(requestIntraChipL1Network_out, RequestMsg, latency="L1_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETX; - out_msg.RequestorMachId := machineID; - DEBUG_EXPR(machineID); - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - DEBUG_EXPR(address); - DEBUG_EXPR(out_msg.Destination); - out_msg.MessageSize := MessageSizeType:Control; - out_msg.L1CacheStateStr := getStateStr(address); - out_msg.Prefetch := in_msg.Prefetch; - out_msg.AccessMode := in_msg.AccessMode; - } - } - } - - action(c_issueUPGRADE, "c", desc="Issue GETX") { - peek(mandatoryQueue_in, CacheMsg) { - enqueue(requestIntraChipL1Network_out, RequestMsg, latency="L1_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:UPGRADE; - out_msg.RequestorMachId := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - DEBUG_EXPR(address); - DEBUG_EXPR(out_msg.Destination); - out_msg.MessageSize := MessageSizeType:Control; - out_msg.L1CacheStateStr := getStateStr(address); - out_msg.Prefetch := in_msg.Prefetch; - out_msg.AccessMode := in_msg.AccessMode; - } - } - } - - action(f_issueGETINSTR, "g", desc="Issue GETINSTR") { - peek(mandatoryQueue_in, CacheMsg) { - enqueue(requestIntraChipL1Network_out, RequestMsg, latency="L1_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GET_INSTR; - out_msg.RequestorMachId := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - DEBUG_EXPR(address); - DEBUG_EXPR(out_msg.Destination); - out_msg.MessageSize := MessageSizeType:Control; - out_msg.L1CacheStateStr := getStateStr(address); - out_msg.Prefetch := in_msg.Prefetch; - out_msg.AccessMode := in_msg.AccessMode; - } - } - } - - action(d_issuePUTX, "d", desc="Issue PUTX") { - enqueue(requestIntraChipL1Network_out, RequestMsg, latency="L1_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:PUTX; - out_msg.RequestorMachId := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - out_msg.DataBlk := getL1CacheEntry(address).DataBlk; - DEBUG_EXPR(address); - DEBUG_EXPR(out_msg.Destination); - DEBUG_EXPR(out_msg.DataBlk); - out_msg.MessageSize := MessageSizeType:Data; - out_msg.L1CacheStateStr := getStateStr(address); - } - } - - action(q_issuePUTS, "q", desc="Issue PUTS") { - enqueue(requestIntraChipL1Network_out, RequestMsg, latency="L1_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:PUTS; - out_msg.RequestorMachId := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - DEBUG_EXPR(address); - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := getL1CacheEntry(address).DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - out_msg.L1CacheStateStr := getStateStr(address); - } - } - - // L1 responding to a L2 request with data - action(e_dataFromL1CacheToL2Cache, "e", desc="Send data from L1 cache to L2 Cache") { - enqueue(responseIntraChipL1Network_out, ResponseMsg, latency="L1_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.SenderMachId := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - out_msg.DataBlk := getL1CacheEntry(address).DataBlk; - DEBUG_EXPR(address); - DEBUG_EXPR(out_msg.Destination); - DEBUG_EXPR(out_msg.DataBlk); - out_msg.MessageSize := MessageSizeType:Data; - } - } - - action(f_dataFromTBEToL2Cache, "f", desc="Send data from L1_TBE to L2 Cache") { - peek(requestIntraChipL1Network_in, RequestMsg) { - enqueue(responseIntraChipL1Network_out, ResponseMsg, latency="L1_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.SenderMachId := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - out_msg.DataBlk := L1_TBEs[in_msg.Address].DataBlk; - DEBUG_EXPR(address); - DEBUG_EXPR(out_msg.Destination); - DEBUG_EXPR(out_msg.DataBlk); - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - // L1 responding to a L2 request with an invadiation ack - action(t_sendInvAckToL2Cache, "t", desc="Send Invadiation ack to L2 Cache") { - enqueue(responseIntraChipL1Network_out, ResponseMsg, latency="L1_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:INV_ACK; - out_msg.SenderMachId := machineID; - out_msg.Destination.add(map_L1CacheMachId_to_L2Cache(address, machineID)); - DEBUG_EXPR(address); - DEBUG_EXPR(out_msg.Destination); - out_msg.MessageSize := MessageSizeType:Control; - } - } - - action(h_load_hit, "h", desc="If not prefetch, notify sequencer the load completed.") { - DEBUG_EXPR(getL1CacheEntry(address).DataBlk); - sequencer.readCallback(address, getL1CacheEntry(address).DataBlk); - } - - action(hh_store_hit, "\h", desc="If not prefetch, notify sequencer that store completed.") { - DEBUG_EXPR(getL1CacheEntry(address).DataBlk); - sequencer.writeCallback(address, getL1CacheEntry(address).DataBlk); - } - - action(i_allocateTBE, "i", desc="Allocate TBE (isPrefetch=0, number of invalidates=0)") { - check_allocate(L1_TBEs); - L1_TBEs.allocate(address); - L1_TBEs[address].isPrefetch := false; - } - - action(k_popMandatoryQueue, "k", desc="Pop mandatory queue.") { - mandatoryQueue_in.dequeue(); - } - - action(l_popRequestQueue, "l", desc="Pop incoming request queue and profile the delay within this virtual network") { - profileMsgDelay(2, requestIntraChipL1Network_in.dequeue_getDelayCycles()); - } - - action(o_popIncomingResponseQueue, "o", desc="Pop Incoming Response queue and profile the delay within this virtual network") { - profileMsgDelay(3, responseIntraChipL1Network_in.dequeue_getDelayCycles()); - } - - action(s_deallocateTBE, "s", desc="Deallocate TBE") { - L1_TBEs.deallocate(address); - } - - action(u_writeDataToL1Cache, "u", desc="Write data to cache") { - peek(responseIntraChipL1Network_in, ResponseMsg) { - getL1CacheEntry(address).DataBlk := in_msg.DataBlk; - } - } - - action(x_copyDataFromL1CacheToTBE, "x", desc="Copy data from cache to TBE") { - L1_TBEs[address].DataBlk := getL1CacheEntry(address).DataBlk; - } - - action(z_stall, "z", desc="Stall") { - } - - action(ff_deallocateL1CacheBlock, "\f", desc="Deallocate L1 cache block. Sets the cache to not present, allowing a replacement in parallel with a fetch.") { - if (L1DcacheMemory.isTagPresent(address)) { - L1DcacheMemory.deallocate(address); - } else { - L1IcacheMemory.deallocate(address); - } - } - - action(oo_allocateL1DCacheBlock, "\o", desc="Set L1 D-cache tag equal to tag of block B.") { - if (L1DcacheMemory.isTagPresent(address) == false) { - L1DcacheMemory.allocate(address); - } - } - - action(pp_allocateL1ICacheBlock, "\p", desc="Set L1 I-cache tag equal to tag of block B.") { - if (L1IcacheMemory.isTagPresent(address) == false) { - L1IcacheMemory.allocate(address); - } - } - - //***************************************************** - // TRANSITIONS - //***************************************************** - - // Transitions for Load/Store/Replacement/WriteBack from transient states - transition({L1_IS, L1_IM, L1_ISI, L1_IMI, L1_IMS, L1_IMSI, L1_SI, L1_MI}, {Load, Ifetch, Store, L1_Replacement, L1_WriteBack}) { - z_stall; - } - - // Transitions from Idle - transition({NP,L1_I}, {L1_Replacement, L1_WriteBack}) { - ff_deallocateL1CacheBlock; - } - - transition({NP,L1_I}, Load, L1_IS) { - oo_allocateL1DCacheBlock; - i_allocateTBE; - a_issueGETS; - k_popMandatoryQueue; - } - - transition({NP,L1_I}, Ifetch, L1_IS) { - pp_allocateL1ICacheBlock; - i_allocateTBE; - f_issueGETINSTR; - k_popMandatoryQueue; - } - - transition({NP,L1_I}, Store, L1_IM) { - oo_allocateL1DCacheBlock; - i_allocateTBE; - b_issueGETX; - k_popMandatoryQueue; - } - - // Transitions from Shared - transition({L1_S}, {Load,Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(L1_S, Store, L1_IM) { - i_allocateTBE; - c_issueUPGRADE; - k_popMandatoryQueue; - } - - transition(L1_S, {L1_Replacement,L1_WriteBack}, L1_SI) { - i_allocateTBE; - q_issuePUTS; - x_copyDataFromL1CacheToTBE; - ff_deallocateL1CacheBlock; - } - - transition(L1_S, L1_INV_S, L1_I) { - t_sendInvAckToL2Cache; - l_popRequestQueue; - } - - // Transitions from Modified - transition(L1_M, {Load, Ifetch}) { - h_load_hit; - k_popMandatoryQueue; - } - - transition(L1_M, Store) { - hh_store_hit; - k_popMandatoryQueue; - } - - transition(L1_M, {L1_Replacement, L1_WriteBack}, L1_MI) { - i_allocateTBE; - d_issuePUTX; - x_copyDataFromL1CacheToTBE; - ff_deallocateL1CacheBlock; - } - - transition(L1_M, L1_INV, L1_I) { - e_dataFromL1CacheToL2Cache; - l_popRequestQueue; - } - - transition(L1_M, L1_DownGrade, L1_S) { - e_dataFromL1CacheToL2Cache; - l_popRequestQueue; - } - - // Transitions from L1_IS - transition(L1_IS, L1_INV_S, L1_ISI) { - t_sendInvAckToL2Cache; - l_popRequestQueue; - } - - transition(L1_IS, L1_Data, L1_S) { - u_writeDataToL1Cache; - h_load_hit; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(L1_IS, L1_Data_I, L1_I) { - u_writeDataToL1Cache; - h_load_hit; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // Transitions from L1_ISI - transition(L1_ISI, L1_Data, L1_I) { - u_writeDataToL1Cache; - h_load_hit; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // Transitions from L1_IM - transition(L1_IM, L1_INV, L1_IMI) { // we don't have to respond immediately because we know the data is coming - l_popRequestQueue; - } - - transition(L1_IM, L1_INV_S) { - t_sendInvAckToL2Cache; - l_popRequestQueue; - } - - transition(L1_IM, L1_DownGrade, L1_IMS) { - l_popRequestQueue; - } - - transition(L1_IM, L1_Data, L1_M) { - u_writeDataToL1Cache; - hh_store_hit; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(L1_IM, L1_Data_S, L1_S) { - u_writeDataToL1Cache; - hh_store_hit; - s_deallocateTBE; - e_dataFromL1CacheToL2Cache; - o_popIncomingResponseQueue; - } - - transition(L1_IM, L1_Data_I, L1_I) { - u_writeDataToL1Cache; - hh_store_hit; - s_deallocateTBE; - e_dataFromL1CacheToL2Cache; - o_popIncomingResponseQueue; - } - - // Transitions from L1_IMI - data should arrive and no request are possilbe - transition(L1_IMI, L1_Data, L1_I) { - u_writeDataToL1Cache; - hh_store_hit; - s_deallocateTBE; - e_dataFromL1CacheToL2Cache; - o_popIncomingResponseQueue; - } - - // Transitions from L1_IMS - transition(L1_IMS, L1_Data, L1_S) { - u_writeDataToL1Cache; - hh_store_hit; - s_deallocateTBE; - e_dataFromL1CacheToL2Cache; - o_popIncomingResponseQueue; - } - - transition(L1_IMS, L1_INV_S, L1_IMSI) { - l_popRequestQueue; - } - - // Transitions from L1_IMSI - transition(L1_IMSI, L1_Data, L1_I) { - u_writeDataToL1Cache; - hh_store_hit; - s_deallocateTBE; - e_dataFromL1CacheToL2Cache; - o_popIncomingResponseQueue; - } - - // Transitions from L1_SI - transition(L1_SI, L1_INV_S) { - t_sendInvAckToL2Cache; - l_popRequestQueue; - } - - transition(L1_SI, L1_PutAck, L1_I) { - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // Transitions from L1_MI - transition(L1_MI, L1_INV) { - f_dataFromTBEToL2Cache; - l_popRequestQueue; - } - - transition(L1_MI, L1_DownGrade, L1_SI) { - f_dataFromTBEToL2Cache; - l_popRequestQueue; - } - - transition(L1_MI, L1_PutAck, L1_I) { - s_deallocateTBE; - o_popIncomingResponseQueue; - } -} - - - diff --git a/src/mem/protocol/MSI_MOSI_CMP_directory-L2cache.sm b/src/mem/protocol/MSI_MOSI_CMP_directory-L2cache.sm deleted file mode 100644 index 8dbe5b8db..000000000 --- a/src/mem/protocol/MSI_MOSI_CMP_directory-L2cache.sm +++ /dev/null @@ -1,2191 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id$ - * - */ - -machine(L2Cache, "MOSI Directory L2 Cache CMP") { - - // L2 BANK QUEUES - // From local bank of L2 cache TO the network - MessageBuffer dummyFrom0, network="To", virtual_network="0", ordered="false"; // dummy buffer that shouldn't be used - MessageBuffer DirRequestFromL2Cache, network="To", virtual_network="1", ordered="false"; // this L2 bank -> mod-directory - MessageBuffer L1RequestFromL2Cache, network="To", virtual_network="2", ordered="true"; // this L2 bank -> a local L1 - MessageBuffer responseFromL2Cache, network="To", virtual_network="3", ordered="false"; // this L2 bank -> a local L1 || mod-directory - MessageBuffer finalAckFromL2Cache, network="To", virtual_network="4", ordered="false"; // this L2 bank -> mod-directory - - // FROM the network to this local bank of L2 cache - //MessageBuffer L1RequestToL2Cache, network="From", virtual_network="1", ordered="true"; // a local L1 -> this L2 bank - MessageBuffer L1RequestToL2Cache, network="From", virtual_network="0", ordered="true"; // a local L1 -> this L2 bank - MessageBuffer dummyTo1, network="From", virtual_network="1", ordered="false"; // dummy buffer that shouldn't be used - MessageBuffer forwardedRequestToL2Cache, network="From", virtual_network="2", ordered="true"; // mod-directory -> this L2 bank - MessageBuffer responseToL2Cache, network="From", virtual_network="3", ordered="false"; // a local L1 || mod-directory -> this L2 bank - MessageBuffer dummyTo4, network="From", virtual_network="4", ordered="false"; // dummy buffer that shouldn't be used - - // STATES - enumeration(State, desc="L2 Cache states", default="L2Cache_State_L2_NP") { - // Base states - L2_NP, desc="Not present in either cache"; - L2_I, desc="L2 cache entry Idle"; - L2_S, desc="L2 cache entry Shared, not present in any local L1s"; - L2_O, desc="L2 cache entry Owned, not present in any local L1s"; - L2_M, desc="L2 cache entry Modified, not present in any L1s", format="!b"; - L2_SS, desc="L2 cache entry Shared, also present in one or more L1s"; - L2_SO, desc="L2 cache entry Owned, also present in one or more L1s or ext L2s"; - L2_MT, desc="L2 cache entry Modified in a local L1, assume L2 copy stale", format="!b"; - - // Transient States - - // Transient States from I - L2_IS, desc="L2 idle, issued GETS, have not seen response yet"; - L2_ISZ, desc="L2 idle, issued GETS, saw a L1_GETX, have not seen data for GETS yet", format="!b"; - L2_ISI, desc="L2 idle, issued GETS, saw INV, have not seen data for GETS yet", format="!b"; - L2_IMV, desc="L2 idle, issued GETX, valid int L1, have not seen response(s) yet"; - L2_MV, desc="L2 modified, a valid old L1 copy exist, external world gave write permission"; - L2_IM, desc="L2 idle, issued GETX, no valid int L1, have not seen response(s) yet"; - L2_IMO, desc="L2 idle, issued GETX, saw forwarded GETS"; - L2_IMI, desc="L2 idle, issued GETX, saw forwarded GETX"; - L2_IMZ, desc="L2 idle, issued GETX, saw another L1_GETX"; - L2_IMOI, desc="L2 idle, issued GETX, saw GETS, saw forwarded GETX"; - L2_IMOZ, desc="L2 idle, issued GETX, saw GETS, then a L1_GETX"; - - // Invalidation steps for S -> I - L2_SIC, desc="L2 shared, L2_INV, valid L1 copies exist, issued invalidates, have not seen responses yet"; - L2_SIV, desc="L2 shared, L2_Replacement, valid L1 copies exist, issued invalidates, have not seen responses yet"; - - // Invalidation steps for M -> I for L2 Repalcement - L2_MIV, desc="L2 modified, a valid L1 copy exist, issued forced writeback, have not seen the response yet"; - L2_MIN, desc="L2 modified, no valid L1 copies, issued PUTX, have not seen response yet"; - - // Invalidation steps for M -> I for a Forwarded GetX - L2_MIC, desc="L2 modified, a valid L1 copy exist, issued forced writeback, have not seen the response yet"; - - // In MT state and see another L1_GETX request - L2_MIT, desc="L2 modified, a valid L1 copy exist, saw L1_GETX, issued INV, have not seen the response yet"; - - // Downgrade steps for M -> SO - L2_MO, desc="L2 modified, a valid L1 copy exist, issued downgrade request, have not seen response yet"; - L2_MOIC, desc="L2 modified, a valid L1 copy exist, issued downgrade request, saw INV, have not seen response yet"; - L2_MOICR, desc="L2 modified, a valid L1 copy exist, issued invalidate request, saw INV, have not seen response yet"; - L2_MOZ, desc="L2 modified, a valid L1 copy exist, issued downgrade request, saw L1_GETX, have not seen response yet"; - - // Invalidation steps for O/SO -> I for L2 Replacement - L2_OIV, desc="L2 owned, valid L1 copies exist, issued invalidates, have not seen responses yet from L1s"; - L2_OIN, desc="L2 owned, no valid L1 copies, issued PUTX, have not seen response yet from dir"; - - // Invalidation steps for SO -> I for a Forwarded GetX - L2_OIC, desc="L2 owned, valid L1 copies exist, issued invalidates, have not seen responses yet from L1s"; - - // Strange OM states - // Note: strange states, because it is waiting for the line - // to be stolen away, or look like it has been stolen away. The - // common case is that we see a forward from the directory that is - // really from us, we forwarded the data to our dataqueue, and - // everythings works fine. - L2_OMV, desc="L2 owned and valid L1 copies, issued GETX and invalidates, have not seen responses yet"; - L2_OM, desc="L2 owned and no valid L1 copies, issued GETX, have not seen response yet"; - } - - // EVENTS - enumeration(Event, desc="L2 Cache events") { - // L2 events - - // events initiated by the local L1s - L1_GET_INSTR, desc="a L1I GET INSTR request for a block maped to us"; - L1_GETS, desc="a L1D GETS request for a block maped to us"; - L1_GETX, desc="a L1D GETX request for a block maped to us"; - L1_UPGRADE, desc="a L1D UPGRADE request for a block maped to us"; - L1_UPGRADE_no_others, desc="a L1D UPGRADE request for a block maped to us, requestor is the only on-chip sharer"; - L1_PUTX, desc="a L1D PUTX request for a block maped to us (L1 replacement of a modified block)"; - L1_PUTX_last, desc="a L1D PUTX request for a block maped to us (L1 replacement of a modified block) last sharer"; - L1_PUTX_old, desc="an old L1D PUTX request for a block maped to us (L1 replacement of a modified block)"; - L1_PUTS, desc="a L1 replacement of a shared block", format="!r"; - L1_PUTS_last, desc="a L1 replacement of the last local L1 shared block", format="!r"; - L1_PUTS_old, desc="an old L1 replacement of a shared block", format="!r"; - - // events of local L1 responses - Proc_int_ack, "Proc on-chip L1 Cache ack", desc="Ack from on-chip L1 Cache"; - Proc_last_int_ack, "Proc last on-chip L1 Cache ack", desc="Last on-chip L1 Cache ack", format="!r"; - - Data_int_ack, "Data int ack", desc="Received modified data from L1 now proceed in handling miss"; - - // events initiated by the external L2s - Forwarded_GETS, "Forwarded GETS", desc="Directory forwards Inter-chip GETS to us"; - Forwarded_GET_INSTR, "Forwarded GETINSTR", desc="Inter-chip Forwarded GETINSTR"; - Forwarded_GETX, "Forwarded GETX", desc="Directory forwards Inter-chip GETX to us"; - L2_INV, "L2_INV", desc="L2 Invalidation initiated from other L2", format="!r"; - - // events initiated by this L2 - L2_Replacement, desc="L2 Replacement", format="!r"; - - // events of external L2 responses - Proc_ext_ack, "Proc off-chip ack", desc="Ack from off-chip"; - Proc_last_ext_ack, "Proc last off-chip ack", desc="Last off-chip ack", format="!r"; - - Data_ext_ack_0, "Data ack 0", desc="Data with ack count = 0"; - Data_ext_ack_not_0, "Data ack not 0", desc="Data with ack count != 0 (but haven't seen all acks first"; - // Data_ext_ack_not_0_last: is when the requestor has seen all acks but the directory has not, therefore - // the directory must be told that we now have the data - Data_ext_ack_not_0_last, "Data ack not 0 last", desc="Data with ack count != 0 after having received all acks"; - - Dir_WB_ack, "WB ack", desc="Writeback ack from dir"; - Dir_exe_ack, "Only copy", desc="Directory tells us we already have exclusive permission, go directly to MT state"; - } - - // TYPES - - // CacheEntry - structure(Entry, desc="...", interface="AbstractCacheEntry") { - State CacheState, desc="cache state"; - NetDest Sharers, desc="tracks the L1 shares on-chip"; - DataBlock DataBlk, desc="data for the block"; - } - - // TBE fields - structure(TBE, desc="...") { - Address Address, desc="Physical address for this TBE"; - State TBEState, desc="Transient state"; - DataBlock DataBlk, desc="Buffer for the data block"; - int NumPendingExtAcks, desc="Number of ext acks that this L2 bank is waiting for"; - int NumPendingIntAcks, desc="Number of int acks that this L2 bank is waiting for"; - NetDest Forward_GetS_IDs, desc="Set of the external processors to forward the block"; - NetDest L1_GetS_IDs, desc="Set of the internal processors that want the block in shared state"; - MachineID Forward_GetX_ID, desc="ID of the L2 cache to forward the block"; - MachineID L1_GetX_ID, desc="ID of the L1 cache to forward the block to once we get a response"; - MachineID InvalidatorID, desc="ID of the L2 cache (needed for L2_SS -> L2_I)"; - int ForwardGetX_AckCount, desc="Number of acks the GetX we are forwarded needs"; - bool isPrefetch, desc="Set if this was caused by a prefetch"; - bool isThreeHop, desc="is this request a three hop"; - bool validForwardedGetXId, desc="Indicate whether a forwarded GetX ID is valid"; - bool validInvalidator, desc="Indicate whether an invalidator is valid"; - bool isInternalRequestOnly, desc="Is internal request only, i.e. only L1s"; - } - - external_type(CacheMemory) { - bool cacheAvail(Address); - Address cacheProbe(Address); - void allocate(Address); - void deallocate(Address); - Entry lookup(Address); - void changePermission(Address, AccessPermission); - bool isTagPresent(Address); - void setMRU(Address); - } - - external_type(TBETable) { - TBE lookup(Address); - void allocate(Address); - void deallocate(Address); - bool isPresent(Address); - } - - TBETable L2_TBEs, template_hack="<L2Cache_TBE>"; - - CacheMemory L2cacheMemory, template_hack="<L2Cache_Entry>", constructor_hack='L2_CACHE_NUM_SETS_BITS,L2_CACHE_ASSOC,MachineType_L2Cache,int_to_string(i)'; - - // inclusive cache, returns L2 entries only - Entry getL2CacheEntry(Address addr), return_by_ref="yes" { - return L2cacheMemory[addr]; - } - - void changeL2Permission(Address addr, AccessPermission permission) { - if (L2cacheMemory.isTagPresent(addr)) { - return L2cacheMemory.changePermission(addr, permission); - } - } - - std::string getCoherenceRequestTypeStr(CoherenceRequestType type) { - return CoherenceRequestType_to_string(type); - } - - bool isL2CacheTagPresent(Address addr) { - return (L2cacheMemory.isTagPresent(addr)); - } - - bool isOneSharerLeft(Address addr, MachineID requestor) { - assert(L2cacheMemory[addr].Sharers.isElement(requestor)); - return (L2cacheMemory[addr].Sharers.count() == 1); - } - - bool isSharer(Address addr, MachineID requestor) { - if (L2cacheMemory.isTagPresent(addr)) { - return L2cacheMemory[addr].Sharers.isElement(requestor); - } else { - return false; - } - } - - void addSharer(Address addr, MachineID requestor) { - DEBUG_EXPR(machineID); - DEBUG_EXPR(requestor); - DEBUG_EXPR(addr); - assert(map_L1CacheMachId_to_L2Cache(addr, requestor) == machineID); - L2cacheMemory[addr].Sharers.add(requestor); - } - - State getState(Address addr) { - if(L2_TBEs.isPresent(addr)) { - return L2_TBEs[addr].TBEState; - } else if (isL2CacheTagPresent(addr)) { - return getL2CacheEntry(addr).CacheState; - } - return State:L2_NP; - } - - std::string getStateStr(Address addr) { - return L2Cache_State_to_string(getState(addr)); - } - - // when is this called - void setState(Address addr, State state) { - - // MUST CHANGE - if (L2_TBEs.isPresent(addr)) { - L2_TBEs[addr].TBEState := state; - } - - if (isL2CacheTagPresent(addr)) { - getL2CacheEntry(addr).CacheState := state; - - // Set permission - if (state == State:L2_I || - state == State:L2_SIC || state == State:L2_SIV || - state == State:L2_MIV || state == State:L2_MIN || state == State:L2_MIC || state == State:L2_MIT || - state == State:L2_OIV || state == State:L2_OIN || state == State:L2_OIC) { - changeL2Permission(addr, AccessPermission:Invalid); - } else if (state == State:L2_S || state == State:L2_O || state == State:L2_SS || state == State:L2_SO) { - changeL2Permission(addr, AccessPermission:Read_Only); - } else if (state == State:L2_OM || state == State:L2_OMV) { - changeL2Permission(addr, AccessPermission:ReadUpgradingToWrite); - } else if (state == State:L2_M) { - changeL2Permission(addr, AccessPermission:Read_Write); - } else if (state == State:L2_MT) { - changeL2Permission(addr, AccessPermission:Stale); - } else { - changeL2Permission(addr, AccessPermission:Busy); - } - } - } - - Event L1Cache_request_type_to_event(CoherenceRequestType type, Address addr, MachineID requestor) { - if(type == CoherenceRequestType:GETS) { - return Event:L1_GETS; - } else if(type == CoherenceRequestType:GET_INSTR) { - return Event:L1_GET_INSTR; - } else if (type == CoherenceRequestType:GETX) { - return Event:L1_GETX; - } else if (type == CoherenceRequestType:UPGRADE) { - if (isSharer(addr, requestor)) { - if (isOneSharerLeft(addr, requestor)) { - return Event:L1_UPGRADE_no_others; - } else { - return Event:L1_UPGRADE; - } - } else { // possible that we removed the line from the L2 before we could process the UPGRADE request - return Event:L1_GETX; - } - } else if (type == CoherenceRequestType:PUTX) { - if (isSharer(addr, requestor)) { - if (isOneSharerLeft(addr, requestor)) { - return Event:L1_PUTX_last; - } else { - return Event:L1_PUTX; - } - } else { - return Event:L1_PUTX_old; - } - } else if (type == CoherenceRequestType:PUTS) { - if (isSharer(addr, requestor)) { - if (isOneSharerLeft(addr, requestor)) { - return Event:L1_PUTS_last; - } else { - return Event:L1_PUTS; - } - } else { // possible that we removed the line from the L2 before we could process the L1_PUTS request - return Event:L1_PUTS_old; - } - } else { - DEBUG_EXPR(addr); - DEBUG_EXPR(type); - error("Invalid L1 forwarded request type"); - } - } - - // ** OUT_PORTS ** - // All ports output to the same CMP network, NI determines where to route msg - - out_port(L1RequestIntraChipL2Network_out, RequestMsg, L1RequestFromL2Cache); - out_port(DirRequestIntraChipL2Network_out, RequestMsg, DirRequestFromL2Cache); - out_port(responseIntraChipL2Network_out, ResponseMsg, responseFromL2Cache); - out_port(finalAckIntraChipL2Network_out, ResponseMsg, finalAckFromL2Cache); - - // ** IN_PORTS ** - - in_port(dummyTo1_in, RequestMsg, dummyTo1) { - if (dummyTo1_in.isReady()) { - peek(dummyTo1_in, RequestMsg) { - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(id); - DEBUG_EXPR(in_msg.Type); - DEBUG_EXPR(getState(in_msg.Address)); - DEBUG_EXPR(in_msg.RequestorMachId); - } - error("dummyTo1 port should not be used"); - } - } - - in_port(dummyTo4_in, ResponseMsg, dummyTo4) { - if (dummyTo4_in.isReady()) { - peek(dummyTo4_in, ResponseMsg) { - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(id); - DEBUG_EXPR(in_msg.Type); - DEBUG_EXPR(getState(in_msg.Address)); - DEBUG_EXPR(in_msg.SenderMachId); - } - error("dummyTo4 port should not be used"); - } - } - - // Response IntraChip L2 Network - response msg to this particular L2 bank - in_port(responseIntraChipL2Network_in, ResponseMsg, responseToL2Cache) { - if (responseIntraChipL2Network_in.isReady()) { - peek(responseIntraChipL2Network_in, ResponseMsg) { - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(id); - DEBUG_EXPR(getState(in_msg.Address)); - DEBUG_EXPR(in_msg.SenderMachId); - DEBUG_EXPR(in_msg.Type); - DEBUG_EXPR(in_msg.NumPendingExtAcks); - // test wether it's from a local L1 or an off chip source - assert(in_msg.Destination.isElement(machineID)); - if(machineIDToMachineType(in_msg.SenderMachId) == MachineType:L1Cache) { - if(in_msg.Type == CoherenceResponseType:DATA) { - if(L2_TBEs[in_msg.Address].NumPendingIntAcks == 1) { - trigger(Event:Data_int_ack, in_msg.Address); // L1 now has data and all on-chip acks - } else { - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(L2_TBEs[in_msg.Address].NumPendingIntAcks); - error("Invalid L1 sent data when L2 wasn't expecting it"); - } - } else if(in_msg.Type == CoherenceResponseType:INV_ACK) { - if(L2_TBEs.isPresent(in_msg.Address)) { // FIXME - possible to get a L1 ack after the transaction is completed - if(L2_TBEs[in_msg.Address].NumPendingIntAcks == 1) { - trigger(Event:Proc_last_int_ack, in_msg.Address); // L1 now has all on-chip acks - } else { - trigger(Event:Proc_int_ack, in_msg.Address); // process on-chip ack - } - } - } - } else { // external message - if(in_msg.Type == CoherenceResponseType:DATA) { - if(in_msg.NumPendingExtAcks == 0) { - trigger(Event:Data_ext_ack_0, in_msg.Address); // L2 now has data and all off-chip acks - } else { - if(in_msg.NumPendingExtAcks + L2_TBEs[in_msg.Address].NumPendingExtAcks != 0) { - trigger(Event:Data_ext_ack_not_0, in_msg.Address); - } else { - trigger(Event:Data_ext_ack_not_0_last, in_msg.Address); - } - } - } else if(in_msg.Type == CoherenceResponseType:ACK) { - if(L2_TBEs[in_msg.Address].NumPendingExtAcks != 1){ - trigger(Event:Proc_ext_ack, in_msg.Address); - } else { - trigger(Event:Proc_last_ext_ack, in_msg.Address); - } - } - } - } - } // if not ready, do nothing - } - - // Forwarded Request from Directory - in_port(forwardedRequestIntraChipL2Network_in, RequestMsg, forwardedRequestToL2Cache) { - if(forwardedRequestIntraChipL2Network_in.isReady()) { - peek(forwardedRequestIntraChipL2Network_in, RequestMsg) { - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(id); - DEBUG_EXPR(getState(in_msg.Address)); - DEBUG_EXPR(in_msg.RequestorMachId); - DEBUG_EXPR(in_msg.Type); - assert(in_msg.Destination.isElement(machineID)); - if(in_msg.Type == CoherenceRequestType:GETS) { - trigger(Event:Forwarded_GETS, in_msg.Address); // L2 - } else if(in_msg.Type == CoherenceRequestType:GET_INSTR) { - trigger(Event:Forwarded_GET_INSTR, in_msg.Address); // L2 - } else if (in_msg.Type == CoherenceRequestType:GETX) { - trigger(Event:Forwarded_GETX, in_msg.Address); // L2 - } else if (in_msg.Type == CoherenceRequestType:INV) { - trigger(Event:L2_INV, in_msg.Address); // L2 - } else if (in_msg.Type == CoherenceRequestType:WB_ACK) { - trigger(Event:Dir_WB_ack, in_msg.Address); // L2 - } else if (in_msg.Type == CoherenceRequestType:EXE_ACK) { - trigger(Event:Dir_exe_ack, in_msg.Address); // L2 - } else { - error("Invalid L2 forwarded request type"); - } - } - } - } - - // L1 Request - in_port(L1RequestIntraChipL2Network_in, RequestMsg, L1RequestToL2Cache) { - if(L1RequestIntraChipL2Network_in.isReady()) { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(id); - DEBUG_EXPR(version); - DEBUG_EXPR(getState(in_msg.Address)); - DEBUG_EXPR(in_msg.RequestorMachId); - DEBUG_EXPR(in_msg.Type); - DEBUG_EXPR(in_msg.Destination); - assert(machineIDToMachineType(in_msg.RequestorMachId) == MachineType:L1Cache); - assert(in_msg.Destination.isElement(machineID)); - if (L2cacheMemory.isTagPresent(in_msg.Address)) { - // The L2 contains the block, so proceeded with handling the request - trigger(L1Cache_request_type_to_event(in_msg.Type, in_msg.Address, in_msg.RequestorMachId), in_msg.Address); - } else { - if (L2cacheMemory.cacheAvail(in_msg.Address)) { - // L2 does't have the line, but we have space for it in the L2 - trigger(L1Cache_request_type_to_event(in_msg.Type, in_msg.Address, in_msg.RequestorMachId), in_msg.Address); - } else { - // No room in the L2, so we need to make room before handling the request - trigger(Event:L2_Replacement, L2cacheMemory.cacheProbe(in_msg.Address)); - } - } - } - } - } - - // ACTIONS - - action(a_issueGETS, "a", desc="Issue GETS") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - enqueue(DirRequestIntraChipL2Network_out, RequestMsg, latency="L2_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETS; - out_msg.RequestorMachId := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Control; - out_msg.L1CacheStateStr := in_msg.L1CacheStateStr; - out_msg.L2CacheStateStr := getStateStr(address); - } - } - } - - action(b_issueGETX, "b", desc="Issue GETX") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - enqueue(DirRequestIntraChipL2Network_out, RequestMsg, latency="L2_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GETX; - out_msg.RequestorMachId := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Control; - out_msg.L1CacheStateStr := in_msg.L1CacheStateStr; - out_msg.L2CacheStateStr := getStateStr(address); - } - } - } - - // finalAck issued from the response queue - action(c_finalAckToDirIfNeeded, "c", desc="Send FinalAck to dir if this is response to 3-hop xfer") { - peek(responseIntraChipL2Network_in, ResponseMsg) { - DEBUG_EXPR(in_msg); - if(machineIDToMachineType(in_msg.SenderMachId) == MachineType:L2Cache) { - enqueue(finalAckIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY"){ - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:FINALACK; - out_msg.SenderMachId := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Control; - DEBUG_EXPR(out_msg); - } - } - } - } - - // finalAck issued from TBE - action(n_sendFinalAckIfThreeHop, "n", desc=""){ - peek(responseIntraChipL2Network_in, ResponseMsg){ - DEBUG_EXPR(in_msg); - if(L2_TBEs[address].isThreeHop == true){ - enqueue(finalAckIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY"){ - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:FINALACK; - out_msg.SenderMachId := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Control; - DEBUG_EXPR(out_msg); - } - } - } - } - - action(mm_rememberIfFinalAckNeeded, "\m", desc=""){ - peek(responseIntraChipL2Network_in, ResponseMsg){ - if(machineIDToMachineType(in_msg.SenderMachId) == MachineType:L2Cache){ - L2_TBEs[address].isThreeHop := true; - } - } - } - - action(d_issuePUTX, "d", desc="Issue PUTX") { - enqueue(DirRequestIntraChipL2Network_out, RequestMsg, latency="L2_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:PUTX; - out_msg.RequestorMachId := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - DEBUG_EXPR(out_msg.Address); - DEBUG_EXPR(out_msg.Destination); - DEBUG_EXPR(out_msg.DataBlk); - out_msg.MessageSize := MessageSizeType:Data; - out_msg.L1CacheStateStr := "NA"; - out_msg.L2CacheStateStr := getStateStr(address); - } - } - - action(f_issueGETINSTR, "f", desc="Issue GETINSTR") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - enqueue(DirRequestIntraChipL2Network_out, RequestMsg, latency="L2_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:GET_INSTR; - out_msg.RequestorMachId := machineID; - out_msg.Destination.add(map_Address_to_Directory(address)); - out_msg.MessageSize := MessageSizeType:Control; - out_msg.L1CacheStateStr := in_msg.L1CacheStateStr; - out_msg.L2CacheStateStr := getStateStr(address); - } - } - } - - // DELAYED RESPONSES - Sorced from a TBE entry - // TBE -> L1 - action(h_issueLoadHit, "h", desc="If not prefetch, notify sequencer the load completed.") { - DEBUG_EXPR(getL2CacheEntry(address).DataBlk); - if((L2_TBEs.isPresent(address) == false) || (L2_TBEs[address].isPrefetch == false)) { - // Non-prefetch - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.SenderMachId := machineID; - out_msg.Destination := L2_TBEs[address].L1_GetS_IDs; // could be multiple internal nodes - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - } else { - // Prefetch - don't issue hit msg - } - } - - action(oo_issueLoadHitInv, "\o", desc="If not prefetch, notify sequencer the load completed.") { - DEBUG_EXPR(getL2CacheEntry(address).DataBlk); - if((L2_TBEs.isPresent(address) == false) || (L2_TBEs[address].isPrefetch == false)) { - // Non-prefetch - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA_I; - out_msg.SenderMachId := machineID; - out_msg.Destination := L2_TBEs[address].L1_GetS_IDs; // could be multiple internal nodes - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - } else { - // Prefetch - don't issue hit msg - } - - } - - action(hh_issueStoreHit, "\h", desc="If not prefetch, issue store hit message to local L1 requestor") { - DEBUG_EXPR(getL2CacheEntry(address).DataBlk); - if((L2_TBEs.isPresent(address) == false) || (L2_TBEs[address].isPrefetch == false)) { - // Non-prefetch - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.SenderMachId := machineID; - out_msg.Destination.add(L2_TBEs[address].L1_GetX_ID); // a single node - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - } else { - // Prefetch - don't issue hit msg - } - } - - action(pp_issueStoreHitInv, "\p", desc="If not prefetch, issue store hit message to local L1 requestor") { - DEBUG_EXPR(getL2CacheEntry(address).DataBlk); - if((L2_TBEs.isPresent(address) == false) || (L2_TBEs[address].isPrefetch == false)) { - // Non-prefetch - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA_I; - out_msg.SenderMachId := machineID; - out_msg.Destination.add(L2_TBEs[address].L1_GetX_ID); // a single node - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - } else { - // Prefetch - don't issue hit msg - } - } - - action(cc_issueStoreHitDG, "\c", desc="If not prefetch, issue store hit message to local L1 requestor") { - DEBUG_EXPR(getL2CacheEntry(address).DataBlk); - if((L2_TBEs.isPresent(address) == false) || (L2_TBEs[address].isPrefetch == false)) { - // Non-prefetch - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA_S; - out_msg.SenderMachId := machineID; - out_msg.Destination.add(L2_TBEs[address].L1_GetX_ID); // a single node - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - } else { - // Prefetch - don't issue hit msg - } - } - - action(w_sendPutAckToL1Cache, "w", desc="send acknowledgement of an L1 replacement") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:ACK; - out_msg.SenderMachId := machineID; - out_msg.Destination.add(in_msg.RequestorMachId); // a single node - DEBUG_EXPR(out_msg.Destination); - out_msg.MessageSize := MessageSizeType:Control; - } - } - } - - // TBE -> L1s and L2s - action(ee_dataFromL2CacheToGetSIDs, "\e", desc="Send data from cache to all GetS IDs") { - // FIXME - In some cases this should be from the TBE, not the cache. - // may send to other mod-L2s - if (L2_TBEs[address].Forward_GetS_IDs.count() > 0) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.SenderMachId := machineID; - out_msg.Destination := L2_TBEs[address].Forward_GetS_IDs; // external nodes - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.NumPendingExtAcks := 0; - DEBUG_EXPR(out_msg.Address); - DEBUG_EXPR(out_msg.Destination); - DEBUG_EXPR(out_msg.DataBlk); - out_msg.MessageSize := MessageSizeType:Data; - } - } - // may send to local L1s - if (L2_TBEs[address].L1_GetS_IDs.count() > 0) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.SenderMachId := machineID; - out_msg.Destination := L2_TBEs[address].L1_GetS_IDs; // internal nodes - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - // TBE -> L2s only - action(bb_dataFromL2CacheToGetSForwardIDs, "\b", desc="Send data from cache to GetS ForwardIDs") { - // FIXME - In some cases this should be from the TBE, not the cache. - if ((L2_TBEs[address].Forward_GetS_IDs.count() > 0) || (L2_TBEs[address].L1_GetS_IDs.count() > 0)) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.SenderMachId := machineID; - out_msg.Destination := L2_TBEs[address].Forward_GetS_IDs; // external nodes - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.NumPendingExtAcks := 0; - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - // TBE -> L2 only - action(gg_dataFromL2CacheToGetXForwardID, "\g", desc="Send data from cache to GetX ForwardID") { - // FIXME - In some cases this should be from the TBE, not the cache. - if (L2_TBEs[address].validForwardedGetXId) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.SenderMachId := machineID; - out_msg.Destination.add(L2_TBEs[address].Forward_GetX_ID); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.NumPendingExtAcks := L2_TBEs[address].ForwardGetX_AckCount; - DEBUG_EXPR(out_msg.Address); - DEBUG_EXPR(out_msg.Destination); - DEBUG_EXPR(out_msg.DataBlk); - DEBUG_EXPR(out_msg.NumPendingExtAcks); - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - // IMMEDIATE RESPONSES directly from the ForwardRequest queue - // ForwardRequest -> L2 - action(e_dataFromL2CacheToL2Requestor, "e", desc="Send data from cache to requestor") { - peek(forwardedRequestIntraChipL2Network_in, RequestMsg) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.SenderMachId := machineID; - out_msg.NumPendingExtAcks := in_msg.NumPendingExtAcks; // Needed when in state O and we see a GetX - out_msg.Destination.add(in_msg.RequestorMachId); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - DEBUG_EXPR(out_msg.Address); - DEBUG_EXPR(out_msg.Destination); - DEBUG_EXPR(out_msg.DataBlk); - DEBUG_EXPR(out_msg.NumPendingExtAcks); - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - // ForwardRequest -> L1 - action(k_dataFromL2CacheToL1Requestor, "k", desc="Send data from cache to L1 requestor") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.SenderMachId := machineID; - out_msg.Destination.add(in_msg.RequestorMachId); - DEBUG_EXPR(out_msg.Destination); - out_msg.DataBlk := getL2CacheEntry(address).DataBlk; - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - // OTHER ACTIONS - action(i_allocateTBE, "i", desc="Allocate TBE for internal/external request(isPrefetch=0, number of invalidates=0)") { - check_allocate(L2_TBEs); - L2_TBEs.allocate(address); - L2_TBEs[address].NumPendingIntAcks := 0; // default value - L2_TBEs[address].NumPendingExtAcks := 0; // default value - L2_TBEs[address].isPrefetch := false; - L2_TBEs[address].isThreeHop := false; - L2_TBEs[address].Forward_GetS_IDs.clear(); - L2_TBEs[address].L1_GetS_IDs.clear(); - L2_TBEs[address].validInvalidator := false; - L2_TBEs[address].validForwardedGetXId := false; - L2_TBEs[address].isInternalRequestOnly := false; - } - - action(s_deallocateTBE, "s", desc="Deallocate external TBE") { - L2_TBEs.deallocate(address); - } - - action(jj_popL1RequestQueue, "\j", desc="Pop incoming L1 request queue") { - profileMsgDelay(0, L1RequestIntraChipL2Network_in.dequeue_getDelayCycles()); - } - - action(l_popForwardedRequestQueue, "l", desc="Pop incoming forwarded request queue") { - profileMsgDelay(2, forwardedRequestIntraChipL2Network_in.dequeue_getDelayCycles()); - } - - action(o_popIncomingResponseQueue, "o", desc="Pop Incoming Response queue") { - profileMsgDelay(3, responseIntraChipL2Network_in.dequeue_getDelayCycles()); - } - - action(p_addNumberOfPendingExtAcks, "p", desc="Add number of pending acks to TBE") { - peek(responseIntraChipL2Network_in, ResponseMsg) { - DEBUG_EXPR(L2_TBEs[address].NumPendingExtAcks); - L2_TBEs[address].NumPendingExtAcks := L2_TBEs[address].NumPendingExtAcks + in_msg.NumPendingExtAcks; - DEBUG_EXPR(in_msg.NumPendingExtAcks); - DEBUG_EXPR(L2_TBEs[address].NumPendingExtAcks); - } - } - - action(q_decrementNumberOfPendingExtAcks, "q", desc="Decrement number of pending ext invalidations by one") { - DEBUG_EXPR(L2_TBEs[address].NumPendingExtAcks); - L2_TBEs[address].NumPendingExtAcks := L2_TBEs[address].NumPendingExtAcks - 1; - DEBUG_EXPR(L2_TBEs[address].NumPendingExtAcks); - } - - action(r_decrementNumberOfPendingIntAcks, "r", desc="Decrement number of pending int invalidations by one") { - DEBUG_EXPR(L2_TBEs[address].NumPendingExtAcks); - L2_TBEs[address].NumPendingIntAcks := L2_TBEs[address].NumPendingIntAcks - 1; - DEBUG_EXPR(L2_TBEs[address].NumPendingExtAcks); - } - - action(t_sendAckToInvalidator, "t", desc="Send ack to invalidator") { - peek(forwardedRequestIntraChipL2Network_in, RequestMsg) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:ACK; - out_msg.SenderMachId := machineID; - out_msg.Destination.add(in_msg.RequestorMachId); - DEBUG_EXPR(out_msg.Destination); - out_msg.NumPendingExtAcks := 0; - out_msg.MessageSize := MessageSizeType:Control; - } - } - } - - action(u_writeDataFromResponseQueueToL2Cache, "u", desc="Write data from response queue to cache") { - peek(responseIntraChipL2Network_in, ResponseMsg) { - getL2CacheEntry(address).DataBlk := in_msg.DataBlk; - } - } - - // FIXME - probably need to change this to a seperate low priority request queue - action(m_writeDataFromRequestQueueToL2Cache, "m", desc="Write data from response queue to cache") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - getL2CacheEntry(address).DataBlk := in_msg.DataBlk; - } - } - - action(x_copyDataFromL2CacheToTBE, "x", desc="Copy data from cache to TBE") { - L2_TBEs[address].DataBlk := getL2CacheEntry(address).DataBlk; - } - - action(y_dataFromTBEToRequestor, "y", desc="Send data from TBE to requestor") { - peek(forwardedRequestIntraChipL2Network_in, RequestMsg) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.SenderMachId := machineID; - out_msg.NumPendingExtAcks := in_msg.NumPendingExtAcks; - out_msg.Destination.add(in_msg.RequestorMachId); - out_msg.DataBlk := L2_TBEs[address].DataBlk; - DEBUG_EXPR(out_msg.Address); - DEBUG_EXPR(out_msg.Destination); - DEBUG_EXPR(out_msg.DataBlk); - DEBUG_EXPR(out_msg.NumPendingExtAcks); - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - action(zz_sendAckToQueuedInvalidator, "\z", desc="Send ack to invalidator") { - if (L2_TBEs[address].validInvalidator) { - enqueue(responseIntraChipL2Network_out, ResponseMsg, latency="L2_RESPONSE_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:ACK; - out_msg.SenderMachId := machineID; - out_msg.Destination.add(L2_TBEs[address].InvalidatorID); - DEBUG_EXPR(out_msg.Destination); - out_msg.NumPendingExtAcks := 0; - out_msg.MessageSize := MessageSizeType:Control; - } - } - } - - action(z_stall, "z", desc="Stall") { - } - - action(yy_recordInvalidatorID, "\y", desc="Record Invalidator for future response") { - peek(forwardedRequestIntraChipL2Network_in, RequestMsg) { - L2_TBEs[address].InvalidatorID := in_msg.RequestorMachId; - L2_TBEs[address].validInvalidator := true; - } - } - - action(dd_recordGetSForwardID, "\d", desc="Record forwarded GetS for future forwarding") { - peek(forwardedRequestIntraChipL2Network_in, RequestMsg) { - L2_TBEs[address].Forward_GetS_IDs.add(in_msg.RequestorMachId); - } - } - - action(ss_recordGetSL1ID, "\s", desc="Record forwarded L1 GetS for load response") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - L2_TBEs[address].L1_GetS_IDs.add(in_msg.RequestorMachId); - } - } - - action(ii_recordGetXForwardID, "\i", desc="Record forwarded GetX and ack count for future forwarding") { - peek(forwardedRequestIntraChipL2Network_in, RequestMsg) { - L2_TBEs[address].Forward_GetX_ID := in_msg.RequestorMachId; - L2_TBEs[address].ForwardGetX_AckCount := in_msg.NumPendingExtAcks; - L2_TBEs[address].validForwardedGetXId := true; - } - } - - action(xx_recordGetXL1ID, "\x", desc="Record L1 GetX for store response") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - L2_TBEs[address].L1_GetX_ID := in_msg.RequestorMachId; - } - } - - action(set_setMRU, "\set", desc="set the MRU entry") { - L2cacheMemory.setMRU(address); - } - - action(bbb_setPendingIntAcksToSharers, "\bb", desc="Set number of pending acks equal to number of sharers") { - L2_TBEs[address].NumPendingIntAcks := L2cacheMemory[address].Sharers.count(); - } - - action(ddd_setPendingIntAcksToOne, "\dd", desc="Set number of pending acks equal to one") { - L2_TBEs[address].NumPendingIntAcks := 1; - } - - action(ccc_setPendingIntAcksMinusOne, "\cc", desc="Set number of pending acks equal to number of sharers minus one") { - L2_TBEs[address].NumPendingIntAcks := L2cacheMemory[address].Sharers.count() - 1; - } - - action(qq_allocateL2CacheBlock, "\q", desc="Set L2 cache tag equal to tag of block B.") { - if (L2cacheMemory.isTagPresent(address) == false) { - L2cacheMemory.allocate(address); - } - } - - action(rr_deallocateL2CacheBlock, "\r", desc="Deallocate L2 cache block. Sets the cache to not present, allowing a replacement in parallel with a fetch.") { - L2cacheMemory.deallocate(address); - } - - action(uu_profileMiss, "\u", desc="Profile the demand miss") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - //profile_L2Cache_miss(convertToGenericType(in_msg.Type), in_msg.AccessMode, MessageSizeTypeToInt(in_msg.MessageSize), in_msg.Prefetch, L1CacheMachIDToProcessorNum(in_msg.RequestorMachId)); - } - } - - action(ww_profileMissNoDir, "\w", desc="Profile this transition at the L2 because Dir won't see the request") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - profile_request(in_msg.L1CacheStateStr, getStateStr(address), "NA", getCoherenceRequestTypeStr(in_msg.Type)); - } - } - - action(v_issueInvalidateIntL1copyRequest, "v", desc="invalidate the L1 M copy") { - enqueue(L1RequestIntraChipL2Network_out, RequestMsg, latency="L2_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:INV; - out_msg.RequestorMachId := machineID; - out_msg.Destination := L2cacheMemory[address].Sharers; - out_msg.MessageSize := MessageSizeType:Control; - } - } - - action(tt_issueSharedInvalidateIntL1copiesRequest, "\t", desc="invalidate all L1 S copies") { - enqueue(L1RequestIntraChipL2Network_out, RequestMsg, latency="L2_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:INV_S; - out_msg.RequestorMachId := machineID; - out_msg.Destination := L2cacheMemory[address].Sharers; - out_msg.MessageSize := MessageSizeType:Control; - } - } - - action(vv_issueInvalidateOtherIntL1copiesRequest, "\v", desc="invalidate other L1 copies not the local requestor") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - if ((L2cacheMemory[address].Sharers.count() > 1) || (L2cacheMemory[address].Sharers.isElement(in_msg.RequestorMachId) != true)) { - enqueue(L1RequestIntraChipL2Network_out, RequestMsg, latency="L2_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:INV_S; - out_msg.RequestorMachId := machineID; - out_msg.Destination := L2cacheMemory[address].Sharers; - out_msg.Destination.remove(in_msg.RequestorMachId); - out_msg.MessageSize := MessageSizeType:Control; - } - } - } - } - - action(g_issueDownGradeIntL1copiesRequest, "g", desc="DownGrade L1 copy") { - enqueue(L1RequestIntraChipL2Network_out, RequestMsg, latency="L2_REQUEST_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:L1_DG; - out_msg.RequestorMachId := machineID; - out_msg.Destination := L2cacheMemory[address].Sharers; - out_msg.MessageSize := MessageSizeType:Control; - } - } - - action(nn_addSharer, "\n", desc="Add L1 sharer to list") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - addSharer(address, in_msg.RequestorMachId); - } - } - - action(kk_removeRequestSharer, "\k", desc="Remove L1 Request sharer from list") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - L2cacheMemory[address].Sharers.remove(in_msg.RequestorMachId); - } - } - - action(aa_removeResponseSharer, "\a", desc="Remove L1 Response sharer from list") { - peek(responseIntraChipL2Network_in, ResponseMsg) { - L2cacheMemory[address].Sharers.remove(in_msg.SenderMachId); - } - } - - action(ll_clearSharers, "\l", desc="Remove all L1 sharers from list") { - peek(L1RequestIntraChipL2Network_in, RequestMsg) { - L2cacheMemory[address].Sharers.clear(); - } - } - - //***************************************************** - // TRANSITIONS - //***************************************************** - - //=============================================== - // STALLS - - // Stalls L2 Replacement and L1 PUT for all transient states - transition({L2_IS, L2_ISZ, L2_ISI, L2_IMV, L2_MV, L2_IM, L2_IMO, L2_IMI, L2_IMZ, L2_IMOI, L2_IMOZ, - L2_SIV, L2_SIC, - L2_MIV, L2_MIN, L2_MIC, L2_MIT, L2_MO, L2_MOIC, L2_MOICR, L2_MOZ, - L2_OIV, L2_OIN, L2_OIC, L2_OMV, L2_OM}, - {L2_Replacement, L1_PUTX, L1_PUTX_last, L1_PUTS, L1_PUTS_last, L1_PUTX_old, L1_PUTS_old, }) { - z_stall; - } - - //=============================================== - // old L1_PUT requests - - transition({L2_NP, L2_I, L2_S, L2_SS, L2_M, L2_MT, L2_O, L2_SO}, {L1_PUTX_old, L1_PUTS_old}) { - w_sendPutAckToL1Cache; - jj_popL1RequestQueue; - } - - //=============================================== - // BASE STATE - I - - // Transitions from I (Idle) - transition({L2_NP,L2_I}, L2_Replacement) { - rr_deallocateL2CacheBlock; - } - - transition({L2_NP,L2_I}, L2_INV) { // could see an invalidate from the directory, but not Forwards - t_sendAckToInvalidator; - l_popForwardedRequestQueue; - } - - transition({L2_NP,L2_I}, L1_GETS, L2_IS) { - qq_allocateL2CacheBlock; - ll_clearSharers; - nn_addSharer; - i_allocateTBE; - ss_recordGetSL1ID; - a_issueGETS; - uu_profileMiss; - jj_popL1RequestQueue; - } - - transition({L2_NP,L2_I}, L1_GET_INSTR, L2_IS) { - qq_allocateL2CacheBlock; - ll_clearSharers; - nn_addSharer; - i_allocateTBE; - ss_recordGetSL1ID; - f_issueGETINSTR; - uu_profileMiss; - jj_popL1RequestQueue; - } - - transition({L2_NP,L2_I}, {L1_GETX, L1_UPGRADE, L1_UPGRADE_no_others}, L2_IM) { // UPGRADE possible because L2_Replacement have higher priority - qq_allocateL2CacheBlock; - ll_clearSharers; - nn_addSharer; - i_allocateTBE; - xx_recordGetXL1ID; - b_issueGETX; - uu_profileMiss; - jj_popL1RequestQueue; - } - - // Transitions from L2_IS - // could see L2_INVs or more L1 requests - transition(L2_IS, L2_INV, L2_ISI) { // could see an invalidate from the directory, but not Forwards - t_sendAckToInvalidator; - l_popForwardedRequestQueue; - } - - transition(L2_IS, Data_ext_ack_0, L2_SS) { - u_writeDataFromResponseQueueToL2Cache; - h_issueLoadHit; - c_finalAckToDirIfNeeded; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(L2_IS, {L1_GETS,L1_GET_INSTR}) { - set_setMRU; - ww_profileMissNoDir; - nn_addSharer; - ss_recordGetSL1ID; - jj_popL1RequestQueue; - } - - transition(L2_IS, L1_GETX, L2_ISZ) { // don't go there, just go to stall state - z_stall; - } - - // Transitions from L2_ISZ - // could see L2_INVs or more L1 requests - // stall all L1 requests, wait for data - transition(L2_ISZ, L2_INV, L2_ISI) { // could see an invalidate from the directory, but not Forwards - t_sendAckToInvalidator; - l_popForwardedRequestQueue; - } - - transition(L2_ISZ, Data_ext_ack_0, L2_SS) { - u_writeDataFromResponseQueueToL2Cache; - h_issueLoadHit; - c_finalAckToDirIfNeeded; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(L2_ISZ, {L1_GETS, L1_GET_INSTR, L1_GETX}) { - z_stall; - } - - // Transitions from L2_ISI, already sent the invalidate ack so can imediately go to I - // - in ISI, could get data from the Proc whose GETX caused INV to go from IS to ISI - // or, could get data from Dir if Dir's data lost race to Dir's INV - // or, could get data from Dir, if my GETS took forever to get to Dir, and the GETX - // processor already wrote it back - transition(L2_ISI, Data_ext_ack_0, L2_I) { - u_writeDataFromResponseQueueToL2Cache; - oo_issueLoadHitInv; - c_finalAckToDirIfNeeded; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(L2_ISI, L2_INV) { // could see an invalidate from the directory, but not Forwards - t_sendAckToInvalidator; - l_popForwardedRequestQueue; - } - - transition(L2_ISI, {L1_GETS, L1_GET_INSTR, L1_GETX}) { // stall all L1 requests - z_stall; - } - - // Transitions from L2_IMV, waiting for int_acks - // currently stall all request - // could see forwards and/or more L1 requests - transition(L2_IMV, L2_INV) { // could see an invalidate for SS - yy_recordInvalidatorID; - l_popForwardedRequestQueue; - } - - // stall all Forwarded request - transition(L2_IMV, {Forwarded_GETS, Forwarded_GET_INSTR, Forwarded_GETX}) { - z_stall; - } - - // stall all L1 request - transition(L2_IMV, {L1_GETS, L1_GET_INSTR, L1_GETX, L1_UPGRADE, L1_UPGRADE_no_others}) { - z_stall; - } - - transition(L2_IMV, {Data_ext_ack_0, Data_ext_ack_not_0_last}, L2_MV) { - u_writeDataFromResponseQueueToL2Cache; - c_finalAckToDirIfNeeded; - o_popIncomingResponseQueue; - } - - transition(L2_IMV, Data_ext_ack_not_0) { - u_writeDataFromResponseQueueToL2Cache; - p_addNumberOfPendingExtAcks; - mm_rememberIfFinalAckNeeded; - o_popIncomingResponseQueue; - } - - transition(L2_IMV, Proc_ext_ack) { - q_decrementNumberOfPendingExtAcks; - o_popIncomingResponseQueue; - } - - transition(L2_IMV, Proc_last_ext_ack, L2_MV) { - n_sendFinalAckIfThreeHop; - o_popIncomingResponseQueue; - } - - transition(L2_IMV, Proc_int_ack) { - aa_removeResponseSharer; - r_decrementNumberOfPendingIntAcks; - o_popIncomingResponseQueue; - } - - transition(L2_IMV, Proc_last_int_ack, L2_IM) { - aa_removeResponseSharer; - r_decrementNumberOfPendingIntAcks; - o_popIncomingResponseQueue; - zz_sendAckToQueuedInvalidator; - } - - // Transitions from L2_MV, waiting for int_acks - // external world gave us write permission - - // stall all Forwarded request - transition(L2_MV, {Forwarded_GETS, Forwarded_GET_INSTR, Forwarded_GETX}) { - z_stall; - } - - // stall all L1 request - transition(L2_MV, {L1_GETS, L1_GET_INSTR, L1_GETX, L1_UPGRADE, L1_UPGRADE_no_others}) { - z_stall; - } - - transition(L2_MV, Proc_int_ack) { - aa_removeResponseSharer; - r_decrementNumberOfPendingIntAcks; - o_popIncomingResponseQueue; - } - - transition(L2_MV, Proc_last_int_ack, L2_MT) { - aa_removeResponseSharer; - r_decrementNumberOfPendingIntAcks; - hh_issueStoreHit; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // Transitions from L2_IM, waiting for external data before going to MT state - // could see forwards and/or more L1 requests - transition(L2_IM, L2_INV) { // could see an invalidate from the directory (earlier epoch) - t_sendAckToInvalidator; - l_popForwardedRequestQueue; - } - - transition(L2_IM, {Forwarded_GETS,Forwarded_GET_INSTR}, L2_IMO) { // could see Forwards, if directory responses get out-of-order - dd_recordGetSForwardID; - l_popForwardedRequestQueue; - } - - transition(L2_IM, {L1_GETS,L1_GET_INSTR}, L2_IMO) { - set_setMRU; - ww_profileMissNoDir; - nn_addSharer; - ss_recordGetSL1ID; - jj_popL1RequestQueue; - } - - transition(L2_IM, Forwarded_GETX, L2_IMI) { // could see Forwards, if directory requests get ahead of responses - ii_recordGetXForwardID; - l_popForwardedRequestQueue; - } - - transition(L2_IM, L1_GETX, L2_IMZ) { // don't go there, just go to stall state - z_stall; - } - - transition(L2_IM, {Data_ext_ack_0, Data_ext_ack_not_0_last}, L2_MT) { - u_writeDataFromResponseQueueToL2Cache; - hh_issueStoreHit; - c_finalAckToDirIfNeeded; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(L2_IM, Data_ext_ack_not_0) { - u_writeDataFromResponseQueueToL2Cache; - p_addNumberOfPendingExtAcks; - mm_rememberIfFinalAckNeeded; - o_popIncomingResponseQueue; - } - - transition(L2_IM, Proc_ext_ack) { - q_decrementNumberOfPendingExtAcks; - o_popIncomingResponseQueue; - } - - transition(L2_IM, Proc_last_ext_ack, L2_MT) { - hh_issueStoreHit; - n_sendFinalAckIfThreeHop; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // transitions from L2_IMO - transition(L2_IMO, L2_INV) { // could see an invalidate from the directory (earlier epoch) - t_sendAckToInvalidator; - l_popForwardedRequestQueue; - } - - transition(L2_IMO, {Forwarded_GETS,Forwarded_GET_INSTR}) { // could see Forwards - dd_recordGetSForwardID; - l_popForwardedRequestQueue; - } - - transition(L2_IMO, Forwarded_GETX, L2_IMOI) { // could see Forwards - ii_recordGetXForwardID; - l_popForwardedRequestQueue; - } - - transition(L2_IMO, {L1_GETS,L1_GET_INSTR}) { - set_setMRU; - ww_profileMissNoDir; - nn_addSharer; - ss_recordGetSL1ID; - jj_popL1RequestQueue; - } - - transition(L2_IMO, L1_GETX, L2_IMOZ) { - z_stall; - } - - transition(L2_IMO, {Data_ext_ack_0, Data_ext_ack_not_0_last}, L2_MO) { - u_writeDataFromResponseQueueToL2Cache; - cc_issueStoreHitDG; - ddd_setPendingIntAcksToOne; - c_finalAckToDirIfNeeded; - o_popIncomingResponseQueue; - } - - transition(L2_IMO, Data_ext_ack_not_0) { - u_writeDataFromResponseQueueToL2Cache; - p_addNumberOfPendingExtAcks; - mm_rememberIfFinalAckNeeded; - o_popIncomingResponseQueue; - } - - transition(L2_IMO, Proc_ext_ack) { - q_decrementNumberOfPendingExtAcks; - o_popIncomingResponseQueue; - } - - transition(L2_IMO, Proc_last_ext_ack, L2_MO) { - n_sendFinalAckIfThreeHop; - cc_issueStoreHitDG; - ddd_setPendingIntAcksToOne; - o_popIncomingResponseQueue; - } - - // transitions from L2_IMI - // the directory put us in this state so it should tell us nothing (i.e. don't worry about INV or Forwards) - // stall all L1 request - transition(L2_IMI, {Data_ext_ack_0, Data_ext_ack_not_0_last}, L2_MIC) { - u_writeDataFromResponseQueueToL2Cache; - pp_issueStoreHitInv; - ddd_setPendingIntAcksToOne; - c_finalAckToDirIfNeeded; - o_popIncomingResponseQueue; - } - - transition(L2_IMI, Data_ext_ack_not_0) { - u_writeDataFromResponseQueueToL2Cache; - p_addNumberOfPendingExtAcks; - mm_rememberIfFinalAckNeeded; - o_popIncomingResponseQueue; - } - - transition(L2_IMI, Proc_ext_ack) { - q_decrementNumberOfPendingExtAcks; - o_popIncomingResponseQueue; - } - - transition(L2_IMI, Proc_last_ext_ack, L2_MIC) { - n_sendFinalAckIfThreeHop; - pp_issueStoreHitInv; - ddd_setPendingIntAcksToOne; - o_popIncomingResponseQueue; - } - - transition(L2_IMI, {L1_GETS, L1_GET_INSTR, L1_GETX}) { // stall all L1 requests - z_stall; - } - - // transistions from L2_IMZ - // just wait for all acks and data - // stall on all requests - // NOTE: A performance option might be possible to go into M state instead of MT - transition(L2_IMZ, {Data_ext_ack_0, Data_ext_ack_not_0_last}, L2_MT) { - u_writeDataFromResponseQueueToL2Cache; - hh_issueStoreHit; - c_finalAckToDirIfNeeded; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(L2_IMZ, Data_ext_ack_not_0) { - u_writeDataFromResponseQueueToL2Cache; - p_addNumberOfPendingExtAcks; - mm_rememberIfFinalAckNeeded; - o_popIncomingResponseQueue; - } - - transition(L2_IMZ, Proc_ext_ack) { - q_decrementNumberOfPendingExtAcks; - o_popIncomingResponseQueue; - } - - transition(L2_IMZ, Proc_last_ext_ack, L2_MT) { - hh_issueStoreHit; - n_sendFinalAckIfThreeHop; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(L2_IMZ, L2_INV) { // could see an invalidate from the directory (earlier epoch) - t_sendAckToInvalidator; - l_popForwardedRequestQueue; - } - - transition(L2_IMZ, {Forwarded_GETS, Forwarded_GET_INSTR, Forwarded_GETX, L1_GETS, L1_GET_INSTR, L1_GETX}) { - z_stall; - } - - // transitions from L2_IMOI - // the directory put us in this state so it should tell us nothing (i.e. don't worry about INV or Forwards) - // stall all L1 requests - transition(L2_IMOI, {Data_ext_ack_0, Data_ext_ack_not_0_last}, L2_MOICR) { - u_writeDataFromResponseQueueToL2Cache; - pp_issueStoreHitInv; - ddd_setPendingIntAcksToOne; - c_finalAckToDirIfNeeded; - o_popIncomingResponseQueue; - } - - transition(L2_IMOI, Data_ext_ack_not_0) { - u_writeDataFromResponseQueueToL2Cache; - p_addNumberOfPendingExtAcks; - mm_rememberIfFinalAckNeeded; - o_popIncomingResponseQueue; - } - - transition(L2_IMOI, Proc_ext_ack) { - q_decrementNumberOfPendingExtAcks; - o_popIncomingResponseQueue; - } - - transition(L2_IMOI, Proc_last_ext_ack, L2_MOICR) { - n_sendFinalAckIfThreeHop; - pp_issueStoreHitInv; - ddd_setPendingIntAcksToOne; - o_popIncomingResponseQueue; - } - - transition(L2_IMOI, {L1_GETS, L1_GET_INSTR, L1_GETX}) { // stall all L1 requests - z_stall; - } - - // transitions from L2_IMOZ - // just wait for all acks and data - // stall on all requests - transition(L2_IMOZ, L2_INV) { // could see an invalidate from the directory (earlier epoch) - t_sendAckToInvalidator; - l_popForwardedRequestQueue; - } - - transition(L2_IMOZ, {Data_ext_ack_0, Data_ext_ack_not_0_last}, L2_MOZ) { - u_writeDataFromResponseQueueToL2Cache; - cc_issueStoreHitDG; - ddd_setPendingIntAcksToOne; - c_finalAckToDirIfNeeded; - o_popIncomingResponseQueue; - } - - transition(L2_IMOZ, Data_ext_ack_not_0) { - u_writeDataFromResponseQueueToL2Cache; - p_addNumberOfPendingExtAcks; - mm_rememberIfFinalAckNeeded; - o_popIncomingResponseQueue; - } - - transition(L2_IMOZ, Proc_ext_ack) { - q_decrementNumberOfPendingExtAcks; - o_popIncomingResponseQueue; - } - - transition(L2_IMOZ, Proc_last_ext_ack, L2_MOZ) { - cc_issueStoreHitDG; - ddd_setPendingIntAcksToOne; - n_sendFinalAckIfThreeHop; - o_popIncomingResponseQueue; - } - - // stall on all requests - transition(L2_IMOZ, {Forwarded_GETS, Forwarded_GET_INSTR, Forwarded_GETX, L1_GETS, L1_GET_INSTR, L1_GETX}) { - z_stall; - } - - // =============================================== - // BASE STATE - S - // Transitions from S, no L1 copies - transition(L2_S, L2_Replacement, L2_I) { - rr_deallocateL2CacheBlock; - } - - transition(L2_S, L2_INV, L2_I) { // could see an invalidate from the directory, but not Forwards - t_sendAckToInvalidator; - l_popForwardedRequestQueue; - } - - transition(L2_S, {L1_GETS, L1_GET_INSTR}, L2_SS) { - set_setMRU; - ww_profileMissNoDir; - nn_addSharer; - k_dataFromL2CacheToL1Requestor; - jj_popL1RequestQueue; - } - - transition(L2_S, L1_GETX, L2_IM) { - set_setMRU; - nn_addSharer; - i_allocateTBE; - xx_recordGetXL1ID; - b_issueGETX; - uu_profileMiss; - jj_popL1RequestQueue; - } - - // BASE STATE - SS - // Transitions from SS, L1 copies - transition(L2_SS, L2_Replacement, L2_SIV) { - i_allocateTBE; // for internal request - bbb_setPendingIntAcksToSharers; - tt_issueSharedInvalidateIntL1copiesRequest; - } - - transition(L2_SS, L2_INV, L2_SIC) { - i_allocateTBE; // for internal request - yy_recordInvalidatorID; - bbb_setPendingIntAcksToSharers; - tt_issueSharedInvalidateIntL1copiesRequest; - l_popForwardedRequestQueue; - } - - transition(L2_SS, {L1_GETS, L1_GET_INSTR}) { - set_setMRU; - ww_profileMissNoDir; - nn_addSharer; - k_dataFromL2CacheToL1Requestor; - jj_popL1RequestQueue; - } - - transition(L2_SS, L1_UPGRADE_no_others, L2_IM) { - set_setMRU; - i_allocateTBE; // for both ext. and int. - xx_recordGetXL1ID; - b_issueGETX; // for external - uu_profileMiss; - jj_popL1RequestQueue; - } - - transition(L2_SS, L1_UPGRADE, L2_IMV) { - set_setMRU; - i_allocateTBE; // for both ext. and int. - xx_recordGetXL1ID; - ccc_setPendingIntAcksMinusOne; - vv_issueInvalidateOtherIntL1copiesRequest; // for internal - b_issueGETX; // for external - uu_profileMiss; - jj_popL1RequestQueue; - } - - transition(L2_SS, L1_GETX, L2_IMV) { - set_setMRU; - i_allocateTBE; // for both ext. and int. - xx_recordGetXL1ID; - bbb_setPendingIntAcksToSharers; - vv_issueInvalidateOtherIntL1copiesRequest; // for internal - nn_addSharer; - b_issueGETX; // for external - uu_profileMiss; - jj_popL1RequestQueue; - } - - transition(L2_SS, L1_PUTS) { - ww_profileMissNoDir; - w_sendPutAckToL1Cache; - kk_removeRequestSharer; - jj_popL1RequestQueue; - } - - transition(L2_SS, L1_PUTS_last, L2_S) { - ww_profileMissNoDir; - w_sendPutAckToL1Cache; - kk_removeRequestSharer; - jj_popL1RequestQueue; - } - - // Transitions from SIC - Initiated by an invalidate - transition(L2_SIC, Proc_int_ack) { - aa_removeResponseSharer; - r_decrementNumberOfPendingIntAcks; - o_popIncomingResponseQueue; - } - - transition(L2_SIC, Proc_last_int_ack, L2_I) { - aa_removeResponseSharer; - r_decrementNumberOfPendingIntAcks; - o_popIncomingResponseQueue; - zz_sendAckToQueuedInvalidator; - s_deallocateTBE; - } - - transition(L2_SIC, L2_INV) { // could see an invalidate from the directory, but not Forwards - l_popForwardedRequestQueue; // ignore: already know an ack must be sent to the directory - } - - transition(L2_SIC, {L1_GETS, L1_GET_INSTR, L1_UPGRADE, L1_UPGRADE_no_others, L1_GETX}) { // stall on all L1 requests - z_stall; - } - - // Transitions from SIV - initiated by a L2_Replacement - transition(L2_SIV, Proc_int_ack) { - aa_removeResponseSharer; - r_decrementNumberOfPendingIntAcks; - o_popIncomingResponseQueue; - } - - transition(L2_SIV, Proc_last_int_ack, L2_I) { - aa_removeResponseSharer; - r_decrementNumberOfPendingIntAcks; - o_popIncomingResponseQueue; - s_deallocateTBE; - rr_deallocateL2CacheBlock; - } - - transition(L2_SIV, L2_INV) { // could see an invalidate from the directory, but not Forwards - z_stall; // guarenteed to receive all acks thus moving the state to I where the L2_INV can be handled - } - - transition(L2_SIV, {L1_GETS, L1_GET_INSTR, L1_UPGRADE, L1_UPGRADE_no_others, L1_GETX}) { // stall on all L1 requests - z_stall; - } - - // =============================================== - // BASE STATE - M - // Transitions from M, no L1 copies - transition(L2_M, L2_Replacement, L2_MIN) { - i_allocateTBE; - d_issuePUTX; - x_copyDataFromL2CacheToTBE; - rr_deallocateL2CacheBlock; - } - - transition(L2_M, {Forwarded_GETS,Forwarded_GET_INSTR}, L2_O) { // can see forwards, not inv - e_dataFromL2CacheToL2Requestor; - l_popForwardedRequestQueue; - } - - transition(L2_M, Forwarded_GETX, L2_I) { // can see forwards, not inv - e_dataFromL2CacheToL2Requestor; - l_popForwardedRequestQueue; - } - - transition(L2_M, {L1_GETS, L1_GET_INSTR}, L2_SO) { // FIXME FOR BETTER PERFORMANCE - an E state would be nice here - set_setMRU; - ww_profileMissNoDir; - nn_addSharer; - k_dataFromL2CacheToL1Requestor; - jj_popL1RequestQueue; - } - - transition(L2_M, L1_GETX, L2_MT) { - set_setMRU; - ww_profileMissNoDir; - nn_addSharer; - k_dataFromL2CacheToL1Requestor; - jj_popL1RequestQueue; - } - - // BASE STATE - MT - // Transitions from MT, M L1 copy - transition(L2_MT, L2_Replacement, L2_MIV) { - i_allocateTBE; - bbb_setPendingIntAcksToSharers; - v_issueInvalidateIntL1copyRequest; - } - - transition(L2_MT, {Forwarded_GETS, Forwarded_GET_INSTR}, L2_MO) { // can see forwards, not inv - i_allocateTBE; - bbb_setPendingIntAcksToSharers; - g_issueDownGradeIntL1copiesRequest; - dd_recordGetSForwardID; - l_popForwardedRequestQueue; - } - - transition(L2_MT, {L1_GETS, L1_GET_INSTR}, L2_MO) { - set_setMRU; - ww_profileMissNoDir; - i_allocateTBE; - bbb_setPendingIntAcksToSharers; - g_issueDownGradeIntL1copiesRequest; - ss_recordGetSL1ID; - nn_addSharer; - jj_popL1RequestQueue; - } - - transition(L2_MT, Forwarded_GETX, L2_MIC) { // can see forwards, not inv - i_allocateTBE; - bbb_setPendingIntAcksToSharers; - v_issueInvalidateIntL1copyRequest; - ii_recordGetXForwardID; - l_popForwardedRequestQueue; - } - - transition(L2_MT, L1_GETX, L2_MIT) { - set_setMRU; - ww_profileMissNoDir; - i_allocateTBE; - bbb_setPendingIntAcksToSharers; - v_issueInvalidateIntL1copyRequest; - nn_addSharer; - xx_recordGetXL1ID; - jj_popL1RequestQueue; - } - - transition(L2_MT, L1_PUTX_last, L2_M) { - ww_profileMissNoDir; - w_sendPutAckToL1Cache; - kk_removeRequestSharer; - m_writeDataFromRequestQueueToL2Cache; - jj_popL1RequestQueue; - } - - // Transitions from L2_MIV, waiting for local L1 response - transition(L2_MIV, Data_int_ack, L2_MIN) { - aa_removeResponseSharer; - u_writeDataFromResponseQueueToL2Cache; - bb_dataFromL2CacheToGetSForwardIDs; // likely won't send any messages - gg_dataFromL2CacheToGetXForwardID; // likely won't send any messages - d_issuePUTX; - x_copyDataFromL2CacheToTBE; - rr_deallocateL2CacheBlock; - o_popIncomingResponseQueue; - } - - transition(L2_MIV, {Forwarded_GETS,Forwarded_GET_INSTR}) { // could see Forwards - dd_recordGetSForwardID; - l_popForwardedRequestQueue; - } - - transition(L2_MIV, Forwarded_GETX) { // could see Forwards - ii_recordGetXForwardID; - l_popForwardedRequestQueue; - } - - transition(L2_MIV, {L1_GETS, L1_GET_INSTR, L1_GETX}) { // stall on all L1 requests - z_stall; - } - - // Transitions from L2_MIN, waiting for directory ack - transition(L2_MIN, {Forwarded_GETS,Forwarded_GET_INSTR}) { // could see Forwards - y_dataFromTBEToRequestor; - l_popForwardedRequestQueue; - } - - transition(L2_MIN, Forwarded_GETX) { // could see Forwards - y_dataFromTBEToRequestor; - l_popForwardedRequestQueue; - } - - transition(L2_MIN, Dir_WB_ack, L2_I) { - s_deallocateTBE; - l_popForwardedRequestQueue; - } - - transition(L2_MIN, {L1_GETS, L1_GET_INSTR, L1_GETX}) { // stall all L1 requests - z_stall; - } - - // Transitions from L2_MIC, waiting for local L1 response - // Directory put us in this state with a forwarded GetX - // therefore we shouldn't see anymore forwards - // we stall on all L1 requests - transition(L2_MIC, Data_int_ack, L2_I) { - aa_removeResponseSharer; - u_writeDataFromResponseQueueToL2Cache; - gg_dataFromL2CacheToGetXForwardID; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(L2_MIC, {L1_GETS, L1_GET_INSTR, L1_GETX}) { // stall all L1 requests - z_stall; - } - - // Transitions from L2_MIT, waiting for local L1 response - // A local L1 request put us in this state, so any request are possible - // we currently stall all requests because of the ugly recursive path it could lead us on - // removing some of the blocking here could have major performance benefits - // however one must be careful not to violate cache coherence - transition(L2_MIT, Data_int_ack, L2_MT) { - aa_removeResponseSharer; - u_writeDataFromResponseQueueToL2Cache; - hh_issueStoreHit; // internal requestor - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // stall all requests - transition(L2_MIT, {Forwarded_GETS, Forwarded_GET_INSTR, Forwarded_GETX, L1_GETS, L1_GET_INSTR, L1_GETX}) { - z_stall; - } - - // Transistion from L2_MO, waiting for local L1 data response - // a GetS request put us in this state - // stall must stall if we get a GETX request - transition(L2_MO, Data_int_ack, L2_SO) { - u_writeDataFromResponseQueueToL2Cache; - ee_dataFromL2CacheToGetSIDs; // could be an internal or external requestor - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(L2_MO, {Forwarded_GETS, Forwarded_GET_INSTR}) { // can see forwards, not inv - dd_recordGetSForwardID; - l_popForwardedRequestQueue; - } - - transition(L2_MO, {L1_GETS, L1_GET_INSTR}) { - set_setMRU; - ww_profileMissNoDir; - nn_addSharer; - ss_recordGetSL1ID; - jj_popL1RequestQueue; - } - - transition(L2_MO, Forwarded_GETX, L2_MOIC) { // can see forwards, not inv - ii_recordGetXForwardID; - l_popForwardedRequestQueue; - } - - transition(L2_MO, {L1_GETX, L1_UPGRADE, L1_UPGRADE_no_others}, L2_MOZ) { // don't go there, just go to a stall state - z_stall; - } - - // Transistion from L2_MOIC - // a Forwarded_GETX put us here so we should not see any more forwards - // stall on all L1 requests, once data is received send new data to all queued up L1 shares - // then immediately send invalidate request to those new L1 shared copies - // - // KEY DIFFERENCE: L2_MOICR assumes the L1 data responder moved to I state and removes the sharer, - // while L2_MOIC assumes the L1 data responder moved to S state and doesn't remove the sharer - transition(L2_MOIC, Data_int_ack, L2_OIC) { // need only one ack - u_writeDataFromResponseQueueToL2Cache; - ee_dataFromL2CacheToGetSIDs; - bbb_setPendingIntAcksToSharers; - tt_issueSharedInvalidateIntL1copiesRequest; - o_popIncomingResponseQueue; - } - - transition(L2_MOIC, {L1_GETS, L1_GET_INSTR, L1_GETX, L1_UPGRADE, L1_UPGRADE_no_others}) { - z_stall; - } - - // Transistion from L2_MOICR - // a Forwarded_GETX put us here so we should not see any more forwards - // stall on all L1 requests, once data is received send new data to all queued up L1 shares - // then immediately send invalidate request to those new L1 shared copies - // - // KEY DIFFERENCE: L2_MOICR assumes the L1 data responder moved to I state and removes the sharer, - // while L2_MOIC assumes the L1 data responder moved to S state and doesn't remove the sharer - transition(L2_MOICR, Data_int_ack, L2_OIC) { // need only one ack - aa_removeResponseSharer; - u_writeDataFromResponseQueueToL2Cache; - ee_dataFromL2CacheToGetSIDs; - bbb_setPendingIntAcksToSharers; - tt_issueSharedInvalidateIntL1copiesRequest; - o_popIncomingResponseQueue; - } - - transition(L2_MOICR, {L1_GETS, L1_GET_INSTR, L1_GETX}) { - z_stall; - } - - // L2_MOZ - // simply wait on data - // stall on everything - transition(L2_MOZ, Data_int_ack, L2_SO) { - u_writeDataFromResponseQueueToL2Cache; - ee_dataFromL2CacheToGetSIDs; // could be an internal or external requestor - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - // stall everything - transition(L2_MOZ, {Forwarded_GETS, Forwarded_GET_INSTR, Forwarded_GETX, L1_GETS, L1_GET_INSTR, L1_GETX, L1_UPGRADE, L1_UPGRADE_no_others}) { - z_stall; - } - - // =============================================== - // BASE STATE - O - // Transitions from L2_O, only block cached on the chip - transition(L2_O, L2_Replacement, L2_OIN){ - i_allocateTBE; - x_copyDataFromL2CacheToTBE; - d_issuePUTX; - rr_deallocateL2CacheBlock; - } - - transition(L2_O, {Forwarded_GETS,Forwarded_GET_INSTR}) { - e_dataFromL2CacheToL2Requestor; - l_popForwardedRequestQueue; - } - - transition(L2_O, Forwarded_GETX, L2_I) { - e_dataFromL2CacheToL2Requestor; - l_popForwardedRequestQueue; - } - - transition(L2_O, {L1_GETS, L1_GET_INSTR}, L2_SO) { - set_setMRU; - ww_profileMissNoDir; - nn_addSharer; - k_dataFromL2CacheToL1Requestor; - jj_popL1RequestQueue; - } - - transition(L2_O, L1_GETX, L2_OM) { - set_setMRU; - nn_addSharer; - i_allocateTBE; - xx_recordGetXL1ID; - b_issueGETX; - uu_profileMiss; - jj_popL1RequestQueue; - } - - // BASE STATE - SO - // Transitions from L2_SO, other valid L1 cached copies - transition(L2_SO, L2_Replacement, L2_OIV){ - i_allocateTBE; - x_copyDataFromL2CacheToTBE; - bbb_setPendingIntAcksToSharers; - tt_issueSharedInvalidateIntL1copiesRequest; - } - - transition(L2_SO, {Forwarded_GETS,Forwarded_GET_INSTR}) { - e_dataFromL2CacheToL2Requestor; - l_popForwardedRequestQueue; - } - - transition(L2_SO, Forwarded_GETX, L2_OIC) { - i_allocateTBE; - bbb_setPendingIntAcksToSharers; - ii_recordGetXForwardID; - tt_issueSharedInvalidateIntL1copiesRequest; - l_popForwardedRequestQueue; - } - - transition(L2_SO, {L1_GETS, L1_GET_INSTR}) { - set_setMRU; - ww_profileMissNoDir; - nn_addSharer; - k_dataFromL2CacheToL1Requestor; - jj_popL1RequestQueue; - } - - transition(L2_SO, L1_UPGRADE, L2_OMV) { - set_setMRU; - nn_addSharer; - i_allocateTBE; - xx_recordGetXL1ID; - ccc_setPendingIntAcksMinusOne; - vv_issueInvalidateOtherIntL1copiesRequest; // for internal - b_issueGETX; // for external - uu_profileMiss; - jj_popL1RequestQueue; - } - - transition(L2_SO, L1_UPGRADE_no_others, L2_OM) { - set_setMRU; - i_allocateTBE; - xx_recordGetXL1ID; - b_issueGETX; // for external - uu_profileMiss; - jj_popL1RequestQueue; - } - - transition(L2_SO, L1_GETX, L2_OMV) { - set_setMRU; - i_allocateTBE; - xx_recordGetXL1ID; - bbb_setPendingIntAcksToSharers; - vv_issueInvalidateOtherIntL1copiesRequest; - nn_addSharer; - b_issueGETX; // for external - uu_profileMiss; - jj_popL1RequestQueue; - } - - transition(L2_SO, {L1_PUTS, L1_PUTX}) { // PUTX possible because L2 downgraded before seeing PUTX - ww_profileMissNoDir; - w_sendPutAckToL1Cache; - kk_removeRequestSharer; - jj_popL1RequestQueue; - } - - transition(L2_SO, {L1_PUTS_last, L1_PUTX_last}, L2_O) { // PUTX possible because L2 downgraded before seeing PUTX - ww_profileMissNoDir; - w_sendPutAckToL1Cache; - kk_removeRequestSharer; - jj_popL1RequestQueue; - } - - // Transitions from L2_OIV - // L2 replacement put us here, we must stall all L1 requests - transition(L2_OIV, {Forwarded_GETS, Forwarded_GET_INSTR}) { - y_dataFromTBEToRequestor; - l_popForwardedRequestQueue; - } - - transition(L2_OIV, Forwarded_GETX) { - z_stall; - } - - transition(L2_OIV, Proc_int_ack) { - aa_removeResponseSharer; - r_decrementNumberOfPendingIntAcks - o_popIncomingResponseQueue; - } - - transition(L2_OIV, Proc_last_int_ack, L2_OIN) { - aa_removeResponseSharer; - r_decrementNumberOfPendingIntAcks - o_popIncomingResponseQueue; - d_issuePUTX; - rr_deallocateL2CacheBlock; - } - - transition(L2_OIV, {L1_UPGRADE, L1_UPGRADE_no_others, L1_GETX, L1_GETS, L1_GET_INSTR}) { // stall L1 requests - z_stall; - } - - // transitions from L2_OIN - // L2 replacement put us here, we must stall all L1 requests - transition(L2_OIN, {Forwarded_GETS, Forwarded_GET_INSTR, Forwarded_GETX}) { - y_dataFromTBEToRequestor; - l_popForwardedRequestQueue; - } - - transition(L2_OIN, Dir_WB_ack, L2_I) { - s_deallocateTBE; - l_popForwardedRequestQueue; - } - - transition(L2_OIN, {L1_UPGRADE, L1_UPGRADE_no_others, L1_GETX, L1_GETS, L1_GET_INSTR}) { // stall L1 requests - z_stall; - } - - // transitions from L2_OIC - // directory put us in this state, should not see any forwards - // we must stall all L1 requests - transition(L2_OIC, Proc_int_ack) { - aa_removeResponseSharer; - r_decrementNumberOfPendingIntAcks - o_popIncomingResponseQueue; - } - - transition(L2_OIC, Proc_last_int_ack, L2_I) { - aa_removeResponseSharer; - r_decrementNumberOfPendingIntAcks - gg_dataFromL2CacheToGetXForwardID; - s_deallocateTBE; - o_popIncomingResponseQueue; - } - - transition(L2_OIC, {L1_UPGRADE, L1_UPGRADE_no_others, L1_GETX, L1_GETS, L1_GET_INSTR}) { // stall L1 requests - z_stall; - } - - // Transitions from L2_OMV, - // int_acks needed - // waiting to see our Forwarded GETX from the directory - // if we see the Forwarded GETX before all invalidates received, stall - // stall all L1 requests - transition(L2_OMV, Proc_int_ack) { - aa_removeResponseSharer; - r_decrementNumberOfPendingIntAcks; - o_popIncomingResponseQueue; - } - - transition(L2_OMV, Proc_last_int_ack, L2_OM) { - aa_removeResponseSharer; - r_decrementNumberOfPendingIntAcks; - o_popIncomingResponseQueue; - } - - transition(L2_OMV, Proc_ext_ack) { - q_decrementNumberOfPendingExtAcks; - o_popIncomingResponseQueue; - } - - transition(L2_OMV, {Forwarded_GETS, Forwarded_GET_INSTR}) { // these are GetS that beat us to the directory - e_dataFromL2CacheToL2Requestor; - l_popForwardedRequestQueue; - } - - transition(L2_OMV, Dir_exe_ack, L2_MV) { - l_popForwardedRequestQueue; - } - - transition(L2_OMV, Forwarded_GETX) { // the Forwarded GetX may or may not be ours, we can't respond until int_acks received - z_stall; - } - - transition(L2_OMV, {L1_UPGRADE, L1_UPGRADE_no_others, L1_GETS, L1_GET_INSTR, L1_GETX}) { // must stall all L1 requests - z_stall; - } - - // Transitions from L2_OM, - // all L1 copies invalid, no int_acks needed - // waiting to see our Forwarded GETX from the directory - // once we see the Forwarded GETX, we can move to IM and wait for the data_ack - // stall all L1 requests - transition(L2_OM, Proc_ext_ack) { - q_decrementNumberOfPendingExtAcks; - o_popIncomingResponseQueue; - } - - transition(L2_OM, {Forwarded_GETS, Forwarded_GET_INSTR}) { // these are GetS that beat us to the directory - e_dataFromL2CacheToL2Requestor; - l_popForwardedRequestQueue; - } - - transition(L2_OM, Forwarded_GETX, L2_IM) { // the Forwarded GetX may or may not be ours - e_dataFromL2CacheToL2Requestor; // we're probably sending a message to ourselves here, but not guarenteed - l_popForwardedRequestQueue; - } - - transition(L2_OM, Dir_exe_ack, L2_MT) { // Directory tells us we already have an exclusive copy - hh_issueStoreHit; - s_deallocateTBE; - l_popForwardedRequestQueue; - } - - transition(L2_OM, {L1_UPGRADE, L1_UPGRADE_no_others, L1_GETS, L1_GET_INSTR, L1_GETX}) { // must stall all L1 requests - z_stall; - } - -} diff --git a/src/mem/protocol/MSI_MOSI_CMP_directory-dir.sm b/src/mem/protocol/MSI_MOSI_CMP_directory-dir.sm deleted file mode 100644 index e806b333c..000000000 --- a/src/mem/protocol/MSI_MOSI_CMP_directory-dir.sm +++ /dev/null @@ -1,497 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id$ - */ - -machine(Directory, "MOSI Directory Optimized") { - - // ** OUT QUEUES ** - MessageBuffer dummyFrom0, network="To", virtual_network="0", ordered="false"; // dummy buffer that shouldn't be used - MessageBuffer dummyFrom1, network="To", virtual_network="1", ordered="false"; // dummy buffer that shouldn't be used - // Dir -> mod-L2 bank - Must be true for the 'opt' and 'GS' protocols BE CAREFUL HERE!!! - MessageBuffer forwardedRequestFromDir, network="To", virtual_network="2", ordered="true"; - MessageBuffer responseFromDir, network="To", virtual_network="3", ordered="false"; // Dir -> mod-L2 bank - MessageBuffer dummyFrom4, network="To", virtual_network="4", ordered="false"; // dummy buffer that shouldn't be used - - // ** IN QUEUES ** - MessageBuffer dummyTo0, network="From", virtual_network="0", ordered="false"; // dummy buffer that shouldn't be used - MessageBuffer requestToDir, network="From", virtual_network="1", ordered="false"; // a mod-L2 bank -> this Dir - MessageBuffer dummyTo2, network="From", virtual_network="2", ordered="false"; // dummy buffer that shouldn't be used - MessageBuffer dummyTo3, network="From", virtual_network="3", ordered="false"; // dummy buffer that shouldn't be used - MessageBuffer finalAckToDir, network="From", virtual_network="4", ordered="false"; // a mod-L2 bank -> this Dir - - // STATES - enumeration(State, desc="Directory states", default="Directory_State_NP") { - // Base states - NP, desc="Not present"; - I, desc="Idle"; - S, desc="Shared"; - O, desc="Owned"; - M, desc="Modified", format="!b"; - OO, desc="transient state of O->GetS/GetInstr->O"; - OM, desc="transient state of O->GetX->M"; - MO, desc="transient state of M->GetS/GetInstr->O"; - MM, desc="transient state of M->GetX->M"; - } - - // Events - enumeration(Event, desc="Directory events") { - GETS, desc="A GETS arrives"; - GET_INSTR, desc=""; - GETX_Owner, desc="A GETX arrives, requestor is owner"; - GETX_NotOwner, desc="A GETX arrives, requestor is not owner"; - PUTX_Owner, "PUTX (requestor is owner)", desc="A PUTX arrives, requestor is owner"; - PUTX_NotOwner, "PUTX (requestor not owner)",desc="A PUTX arrives, requestor is not owner"; - FinalAck, desc=""; - } - - // TYPES - - // DirectoryEntry - structure(Entry, desc="...") { - State DirectoryState, desc="Directory state"; - Set Sharers, desc="Set of sharers - must be L2 caches"; // Note this is a Set and not a NetDest for space concerns - bool DirOwner, default="true", desc="Is dir owner?"; - NodeID ProcOwner, default="0", desc="Processor owner"; // Note this is an int for space concerns - DataBlock DataBlk, desc="data for the block"; - } - - external_type(DirectoryMemory) { - Entry lookup(Address); - bool isPresent(Address); - } - - // ** OBJECTS ** - - DirectoryMemory directory, constructor_hack="i"; - - State getState(Address addr) { - if (directory.isPresent(addr)) { - return directory[addr].DirectoryState; - } - return State:NP; - } - - std::string getDirStateStr(Address addr) { - return Directory_State_to_string(getState(addr)); - } - - std::string getRequestTypeStr(CoherenceRequestType type) { - return CoherenceRequestType_to_string(type); - } - - void setState(Address addr, State state) { - if (directory.isPresent(addr)) { - DEBUG_EXPR(addr); - DEBUG_EXPR(directory[addr].DirectoryState); - directory[addr].DirectoryState := state; - DEBUG_EXPR(directory[addr].DirectoryState); - DEBUG_EXPR(state); - } - } - - // ** OUT_PORTS ** - out_port(forwardedRequestNetwork_out, RequestMsg, forwardedRequestFromDir); - out_port(responseNetwork_out, ResponseMsg, responseFromDir); - out_port(ownRequestQueue_out, RequestMsg, requestToDir); - - // ** IN_PORTS ** - in_port(dummyTo0_in, RequestMsg, dummyTo0) { - if (dummyTo0_in.isReady()) { - peek(dummyTo0_in, RequestMsg) { - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(id); - DEBUG_EXPR(in_msg.Type); - DEBUG_EXPR(getState(in_msg.Address)); - DEBUG_EXPR(in_msg.RequestorMachId); - } - error("dummyTo0 port should not be used"); - } - } - in_port(dummyTo2_in, RequestMsg, dummyTo2) { - if (dummyTo2_in.isReady()) { - peek(dummyTo2_in, RequestMsg) { - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(id); - DEBUG_EXPR(in_msg.Type); - DEBUG_EXPR(getState(in_msg.Address)); - DEBUG_EXPR(in_msg.RequestorMachId); - } - error("dummyTo2 port should not be used"); - } - } - - in_port(dummyTo3_in, RequestMsg, dummyTo3) { - if (dummyTo3_in.isReady()) { - peek(dummyTo3_in, RequestMsg) { - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(id); - DEBUG_EXPR(in_msg.Type); - DEBUG_EXPR(getState(in_msg.Address)); - DEBUG_EXPR(in_msg.RequestorMachId); - } - error("dummyTo3 port should not be used"); - } - } - - in_port(finalAckNetwork_in, ResponseMsg, finalAckToDir){ - if(finalAckNetwork_in.isReady()){ - peek(finalAckNetwork_in, ResponseMsg){ - assert(in_msg.Destination.isElement(machineID)); - if(in_msg.Type == CoherenceResponseType:FINALACK){ - trigger(Event:FinalAck, in_msg.Address); - } else { - error("Invalid message"); - } - } - } - } - - in_port(requestNetwork_in, RequestMsg, requestToDir) { - if (requestNetwork_in.isReady()) { - peek(requestNetwork_in, RequestMsg) { - assert(in_msg.Destination.isElement(machineID)); - if (in_msg.Type == CoherenceRequestType:GETS) { - trigger(Event:GETS, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GET_INSTR) { - trigger(Event:GET_INSTR, in_msg.Address); - } else if (in_msg.Type == CoherenceRequestType:GETX) { - if(directory[in_msg.Address].DirOwner == false && - L2CacheMachIDToChipID(in_msg.RequestorMachId) == directory[in_msg.Address].ProcOwner) { - trigger(Event:GETX_Owner, in_msg.Address); - } else { - trigger(Event:GETX_NotOwner, in_msg.Address); - } - } else if (in_msg.Type == CoherenceRequestType:PUTX) { - if (directory[in_msg.Address].DirOwner == false && - L2CacheMachIDToChipID(in_msg.RequestorMachId) == directory[in_msg.Address].ProcOwner) { - trigger(Event:PUTX_Owner, in_msg.Address); - } else { - trigger(Event:PUTX_NotOwner, in_msg.Address); - } - } else { - error("Invalid message"); - } - } - } - } - - - // Actions - - // a_addRequestorToSharers - - action(a_addRequestorToSharers, "a", desc="Add requestor to list of sharers") { - peek(requestNetwork_in, RequestMsg) { - directory[address].Sharers.add(L2CacheMachIDToChipID(in_msg.RequestorMachId)); - DEBUG_EXPR(directory[address].Sharers); - } - } - - // b_dataToRequestor - - action(b_dataToRequestor, "b", desc="Send data to requestor") { - peek(requestNetwork_in, RequestMsg) { - enqueue(responseNetwork_out, ResponseMsg, latency="MEMORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceResponseType:DATA; - out_msg.SenderMachId := machineID; - if(in_msg.Type == CoherenceRequestType:GETX) { - DEBUG_EXPR(directory[address].Sharers); - DEBUG_EXPR(directory[address].Sharers.count()); - out_msg.NumPendingExtAcks := directory[address].Sharers.count(); - } else { - out_msg.NumPendingExtAcks := 0; // don't need to send pending ack count to GETS requestor - } - out_msg.Destination.add(in_msg.RequestorMachId); - out_msg.DataBlk := directory[address].DataBlk; - DEBUG_EXPR(out_msg.Address); - DEBUG_EXPR(out_msg.DataBlk); - DEBUG_EXPR(out_msg.NumPendingExtAcks); - DEBUG_EXPR(out_msg.Destination); - out_msg.MessageSize := MessageSizeType:Data; - } - } - } - - // d_forwardRequestToOwner - - action(d_forwardRequestToOwner, "d", desc="Forward request to owner") { - peek(requestNetwork_in, RequestMsg) { - enqueue(forwardedRequestNetwork_out, RequestMsg, latency="DIRECTORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := in_msg.Type; - out_msg.RequestorMachId := in_msg.RequestorMachId; - out_msg.Destination.add(map_L2ChipId_to_L2Cache(out_msg.Address, directory[address].ProcOwner)); - DEBUG_EXPR(out_msg.Destination); - - if(in_msg.Type == CoherenceRequestType:GETX) { - out_msg.NumPendingExtAcks := directory[address].Sharers.count(); - } else { - out_msg.NumPendingExtAcks := 0; // don't need to send pending ack count to GETS requestor - } - out_msg.MessageSize := MessageSizeType:Control; - DEBUG_EXPR(out_msg.Address); - DEBUG_EXPR(out_msg.NumPendingExtAcks); - DEBUG_EXPR(out_msg.Destination); - } - } - } - - action(f_setOwnerToRequestor, "f", desc="Set owner equal to requestor") { - peek(requestNetwork_in, RequestMsg) { - directory[address].ProcOwner := L2CacheMachIDToChipID(in_msg.RequestorMachId); - directory[address].DirOwner := false; - } - DEBUG_EXPR(directory[address].ProcOwner); - } - - action(g_clearSharers, "g", desc="Clear list of sharers") { - directory[address].Sharers.clear(); - } - - // currently done via multicast message - - action(h_invToSharers, "h", desc="Send INVs to all sharers") { - peek(requestNetwork_in, RequestMsg) { - DEBUG_EXPR(directory[address].Sharers.count()); - if(directory[address].Sharers.count() != 0){ - enqueue(forwardedRequestNetwork_out, RequestMsg, latency="DIRECTORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:INV; - out_msg.RequestorMachId := in_msg.RequestorMachId; - DEBUG_EXPR(directory[address].Sharers); - out_msg.Destination := getMultiStaticL2BankNetDest(address, directory[address].Sharers); - out_msg.MessageSize := MessageSizeType:Control; - } - } - } - DEBUG_EXPR(directory[address].Sharers); - } - - action(j_popIncomingRequestQueue, "j", desc="Pop incoming request queue") { - profileMsgDelay(1, requestNetwork_in.dequeue_getDelayCycles()); - } - - action(l_writeRequestDataToMemory, "l", desc="Write PUTX/DWN data to memory") { - peek(requestNetwork_in, RequestMsg) { - directory[in_msg.Address].DataBlk := in_msg.DataBlk; - DEBUG_EXPR(in_msg.Address); - DEBUG_EXPR(in_msg.DataBlk); - } - } - - action(n_writebackAckToRequestor, "n", desc="Send WB_ack to requestor") { - peek(requestNetwork_in, RequestMsg) { - // This needs to be DIRECTORY_LATENCY to keep the queue fifo - enqueue(forwardedRequestNetwork_out, RequestMsg, latency="DIRECTORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:WB_ACK; - out_msg.RequestorMachId := machineID; - out_msg.Destination.add(in_msg.RequestorMachId); - out_msg.MessageSize := MessageSizeType:Control; - } - } - } - - action(m_forwardExclusiveRequestToOwner, "m", desc="Send EXE_ack to requestor") { - peek(requestNetwork_in, RequestMsg) { - // This needs to be DIRECTORY_LATENCY to keep the queue fifo - enqueue(forwardedRequestNetwork_out, RequestMsg, latency="DIRECTORY_LATENCY") { - out_msg.Address := address; - out_msg.Type := CoherenceRequestType:EXE_ACK; - out_msg.RequestorMachId := machineID; - out_msg.Destination.add(in_msg.RequestorMachId); - out_msg.MessageSize := MessageSizeType:Control; - } - } - } - - action(uu_profile, "u/", desc="Profile this transition.") { - peek(requestNetwork_in, RequestMsg) { - profile_request(in_msg.L1CacheStateStr, in_msg.L2CacheStateStr, getDirStateStr(address), getRequestTypeStr(in_msg.Type)); - } - } - - action(p_clearOwner, "p", desc="Clear owner") { - directory[address].DirOwner := true; // set owner equal to dir - } - - action(r_addOwnerToSharers, "r", desc="Add owner to list of sharers") { - DEBUG_EXPR(directory[address].ProcOwner); - directory[address].Sharers.add(directory[address].ProcOwner); - DEBUG_EXPR(directory[address].Sharers); - } - - action(t_removeOwnerFromSharers, "t", desc="Remove owner from list of sharers") { - DEBUG_EXPR(directory[address].ProcOwner); - directory[address].Sharers.remove(directory[address].ProcOwner); - DEBUG_EXPR(directory[address].Sharers); - } - - action(u_removeRequestorFromSharers, "u", desc="Remove requestor from list of sharers") { - peek(requestNetwork_in, RequestMsg) { - DEBUG_EXPR(in_msg.RequestorMachId); - directory[address].Sharers.remove(L2CacheMachIDToChipID(in_msg.RequestorMachId)); - DEBUG_EXPR(directory[address].Sharers); - } - } - - action(x_recycleRequest, "x", desc=""){ - peek(requestNetwork_in, RequestMsg) { - enqueue(ownRequestQueue_out, RequestMsg, latency="RECYCLE_LATENCY"){ - out_msg := in_msg; - } - } - } - - action(hh_popFinalAckQueue, "\h", desc=""){ - profileMsgDelay(4, finalAckNetwork_in.dequeue_getDelayCycles()); - } - - //action(z_stall, "z", desc=""){ - //} - - // TRANSITIONS - - transition({OM,MM}, FinalAck, M){ - hh_popFinalAckQueue; - } - transition({OO,MO}, FinalAck, O){ - hh_popFinalAckQueue; - } - - transition({OO, OM, MO, MM}, {GETS, GET_INSTR, GETX_Owner, GETX_NotOwner, PUTX_Owner}){ - x_recycleRequest; - j_popIncomingRequestQueue; - // z_stall; - } - - // --------------------------- - - transition({NP, I, S, M, O, OO, OM, MO, MM}, PUTX_NotOwner) { - uu_profile; - n_writebackAckToRequestor; - j_popIncomingRequestQueue; - } - - // Transitions from Idle - transition({NP,I}, {GETS,GET_INSTR}, S) { - uu_profile; - a_addRequestorToSharers; - b_dataToRequestor; - j_popIncomingRequestQueue; - } - - transition({NP,I}, GETX_NotOwner, M) { - uu_profile; - f_setOwnerToRequestor; - b_dataToRequestor; - j_popIncomingRequestQueue; - } - - // Transitions from Shared - transition(S, {GETS,GET_INSTR}) { - uu_profile; - a_addRequestorToSharers; - b_dataToRequestor; - j_popIncomingRequestQueue; - } - - transition(S, GETX_NotOwner, M) { - uu_profile; - u_removeRequestorFromSharers; - b_dataToRequestor; - f_setOwnerToRequestor; - h_invToSharers; - g_clearSharers; - j_popIncomingRequestQueue; - } - - // Transitions from Owned - transition(O, {GETS,GET_INSTR}, OO) { - uu_profile; - a_addRequestorToSharers; - d_forwardRequestToOwner; - j_popIncomingRequestQueue; - } - - transition(O, {GETX_NotOwner, GETX_Owner}, OM) { - uu_profile; - u_removeRequestorFromSharers; - t_removeOwnerFromSharers; - d_forwardRequestToOwner; - f_setOwnerToRequestor; - h_invToSharers; - g_clearSharers; - j_popIncomingRequestQueue; - } - - transition(O, PUTX_Owner, S) { - uu_profile; - u_removeRequestorFromSharers; - l_writeRequestDataToMemory; - n_writebackAckToRequestor; - p_clearOwner; - j_popIncomingRequestQueue; - } - - - // Transitions from Modified - transition(M, {GETS,GET_INSTR}, MO) { - uu_profile; - a_addRequestorToSharers; - r_addOwnerToSharers; - d_forwardRequestToOwner; - j_popIncomingRequestQueue; - } - - transition(M, GETX_NotOwner, MM) { - uu_profile; - d_forwardRequestToOwner; - f_setOwnerToRequestor; - j_popIncomingRequestQueue; - } - - transition(M, GETX_Owner) { - uu_profile; - m_forwardExclusiveRequestToOwner; - j_popIncomingRequestQueue; - } - - transition(M, PUTX_Owner, I) { - uu_profile; - l_writeRequestDataToMemory; - n_writebackAckToRequestor; - p_clearOwner; - j_popIncomingRequestQueue; - } -} diff --git a/src/mem/protocol/MSI_MOSI_CMP_directory-msg.sm b/src/mem/protocol/MSI_MOSI_CMP_directory-msg.sm deleted file mode 100644 index fc653983a..000000000 --- a/src/mem/protocol/MSI_MOSI_CMP_directory-msg.sm +++ /dev/null @@ -1,115 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id$ - * - */ - -// CoherenceRequestType -enumeration(CoherenceRequestType, desc="...") { - GETX, desc="Get eXclusive"; - UPGRADE, desc="UPGRADE to exclusive"; - GETS, desc="Get Shared"; - GET_INSTR, desc="Get Instruction"; - PUTX, desc="Put eXclusive"; - PUTS, desc="Put Shared"; - INV, desc="INValidate"; - INV_S, desc="INValidate the shared version"; - L1_DG, desc="L1 cache DownGrade"; - WB_ACK, desc="Write Back ACKnowledgment"; - EXE_ACK, desc="EXclusivE ACKnowledgment"; -} - -// CoherenceResponseType -enumeration(CoherenceResponseType, desc="...") { - ACK, desc="ACKnowledgment"; - INV_ACK, desc="INValidation ACKnowledgment"; - DG_ACK, desc="DownGrade ACKnowledgment"; - NACK, desc="Negative ACKnowledgment"; - DATA, desc="Data"; - DATA_S, desc="Data to L1 cache, then imediately go to shared state"; - DATA_I, desc="Data to L1 cache, then imediately go to inv state"; - FINALACK, desc=""; -} - -// RequestMsg -structure(RequestMsg, desc="...", interface="NetworkMessage") { - Address Address, desc="Physical address for this request"; - CoherenceRequestType Type, desc="Type of request (GetS, GetX, PutX, etc)"; - AccessModeType AccessMode, desc="user/supervisor access type"; - MachineID RequestorMachId, desc="What component request"; - NetDest Destination, desc="What components receive the request, includes MachineType and num"; - DataBlock DataBlk, desc="Data for the cache line (if PUTX)"; - int NumPendingExtAcks, desc="Number of acks to wait for"; // Needed for forwarded responses only - MessageSizeType MessageSize, desc="size category of the message"; - std::string L1CacheStateStr, desc="describes L1 cache block state"; - std::string L2CacheStateStr, desc="describes L2 cache block state"; - PrefetchBit Prefetch, desc="Is this a prefetch request"; -} - -// ResponseMsg -structure(ResponseMsg, desc="...", interface="NetworkMessage") { - Address Address, desc="Physical address for this request"; - CoherenceResponseType Type, desc="Type of response (Ack, Data, etc)"; - MachineID SenderMachId, desc="What component sent the data"; - NetDest Destination, desc="Node to whom the data is sent"; - DataBlock DataBlk, desc="data for the cache line"; - int NumPendingExtAcks, desc="Number of acks to wait for"; - MessageSizeType MessageSize, desc="size category of the message"; -} - -GenericRequestType convertToGenericType(CoherenceRequestType type) { - if(type == CoherenceRequestType:PUTX) { - return GenericRequestType:PUTX; - } else if(type == CoherenceRequestType:GETS) { - return GenericRequestType:GETS; - } else if(type == CoherenceRequestType:GET_INSTR) { - return GenericRequestType:GET_INSTR; - } else if(type == CoherenceRequestType:GETX) { - return GenericRequestType:GETX; - } else if(type == CoherenceRequestType:UPGRADE) { - return GenericRequestType:UPGRADE; - } else if(type == CoherenceRequestType:PUTS) { - return GenericRequestType:PUTS; - } else if(type == CoherenceRequestType:INV) { - return GenericRequestType:INV; - } else if(type == CoherenceRequestType:INV_S) { - return GenericRequestType:INV_S; - } else if(type == CoherenceRequestType:L1_DG) { - return GenericRequestType:DOWNGRADE; - } else if(type == CoherenceRequestType:WB_ACK) { - return GenericRequestType:WB_ACK; - } else if(type == CoherenceRequestType:EXE_ACK) { - return GenericRequestType:EXE_ACK; - } else { - DEBUG_EXPR(type); - error("invalid CoherenceRequestType"); - } -} diff --git a/src/mem/protocol/MSI_MOSI_CMP_directory.slicc b/src/mem/protocol/MSI_MOSI_CMP_directory.slicc deleted file mode 100644 index 8960b6486..000000000 --- a/src/mem/protocol/MSI_MOSI_CMP_directory.slicc +++ /dev/null @@ -1,8 +0,0 @@ -# protocol briefly described in -# doc/MSI_MOSI_CMP_directory_2level-protocol-description.txt - -MSI_MOSI_CMP_directory-msg.sm -MSI_MOSI_CMP_directory-L1cache.sm -MSI_MOSI_CMP_directory-L2cache.sm -MSI_MOSI_CMP_directory-dir.sm -standard_CMP-protocol.sm diff --git a/src/mem/protocol/standard_1level_SMP-protocol.sm b/src/mem/protocol/standard_1level_SMP-protocol.sm deleted file mode 100644 index bfaca8466..000000000 --- a/src/mem/protocol/standard_1level_SMP-protocol.sm +++ /dev/null @@ -1,39 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id$ - */ - -// global protocol features -global(Protocol, desc="Global properties of this protocol", - interface = "AbstractProtocol") { - bool TwoLevelCache := false; -} - diff --git a/src/mem/protocol/standard_SMP-protocol.sm b/src/mem/protocol/standard_SMP-protocol.sm deleted file mode 100644 index 9a2c6ef39..000000000 --- a/src/mem/protocol/standard_SMP-protocol.sm +++ /dev/null @@ -1,39 +0,0 @@ - -/* - * Copyright (c) 1999-2005 Mark D. Hill and David A. Wood - * All rights reserved. - * - * Redistribution and use in source and binary forms, with or without - * modification, are permitted provided that the following conditions are - * met: redistributions of source code must retain the above copyright - * notice, this list of conditions and the following disclaimer; - * redistributions in binary form must reproduce the above copyright - * notice, this list of conditions and the following disclaimer in the - * documentation and/or other materials provided with the distribution; - * neither the name of the copyright holders nor the names of its - * contributors may be used to endorse or promote products derived from - * this software without specific prior written permission. - * - * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS - * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT - * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR - * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT - * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, - * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT - * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, - * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY - * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT - * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE - * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - */ - -/* - * $Id$ - */ - -// global protocol features -global(Protocol, desc="Global properties of this protocol", - interface = "AbstractProtocol") { - bool TwoLevelCache := true; -} - |