diff options
Diffstat (limited to 'src')
-rw-r--r-- | src/mem/protocol/MOESI_hammer-cache.sm | 1104 | ||||
-rw-r--r-- | src/mem/protocol/MOESI_hammer-dir.sm | 317 | ||||
-rw-r--r-- | src/mem/protocol/MOESI_hammer-msg.sm | 83 | ||||
-rw-r--r-- | src/mem/protocol/MOESI_hammer.slicc | 5 |
4 files changed, 1509 insertions, 0 deletions
diff --git a/src/mem/protocol/MOESI_hammer-cache.sm b/src/mem/protocol/MOESI_hammer-cache.sm new file mode 100644 index 000000000..d244a9b93 --- /dev/null +++ b/src/mem/protocol/MOESI_hammer-cache.sm @@ -0,0 +1,1104 @@ +/* + * Copyright (c) 1999-2008 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. + */ + +machine(L1Cache, "AMD Hammer-like protocol") { + + // STATES + enumeration(State, desc="Cache states", default="L1Cache_State_I") { + // Base states + I, desc="Idle"; + S, desc="Shared"; + O, desc="Owned"; + 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"; + ISM, "ISM", desc="Issued GetX, received data, waiting for all acks"; + M_W, "M^W", desc="Issued GetS, received exclusive data"; + MM_W, "MM^W", desc="Issued GetX, received exclusive data"; + IS, "IS", desc="Issued GetS"; + SS, "SS", desc="Issued GetS, received data, waiting for all acks"; + OI, "OI", desc="Issued PutO, waiting for ack"; + MI, "MI", desc="Issued PutX, waiting for ack"; + II, "II", desc="Issued PutX/O, saw Other_GETS or Other_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="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"; + + // Requests + Other_GETX, desc="A GetX from another processor"; + Other_GETS, desc="A GetS from another processor"; + + // Responses + Ack, desc="Received an ack message"; + Shared_Ack, desc="Received an ack message, responder has a shared copy"; + Data, desc="Received a data message"; + Shared_Data, desc="Received a data message, responder has a shared copy"; + Exclusive_Data, desc="Received a data message, responder had an exclusive copy, they gave it to us"; + + 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"; + All_acks_no_sharers, desc="Received all acks and no other processor has a shared copy"; + } + + // TYPES + + // CacheEntry + structure(Entry, desc="...") { + Address Address, desc="Address of this block, required by CacheMemory"; + Time LastRef, desc="Last time this block was referenced, required by CacheMemory"; + AccessPermission Permission, desc="Access permission for this block, required by CacheMemory"; + 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)?"; + } + + // 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, desc="Number of acks/data messages that this processor is waiting for"; + bool Sharers, desc="On a GetS, did we find any other sharers in the system"; + } + + external_type(NewCacheMemory) { + bool cacheAvail(Address); + Address cacheProbe(Address); + void allocate(Address); + void deallocate(Address); + Entry lookup(Address); + void changePermission(Address, AccessPermission); + bool isTagPresent(Address); + } + + external_type(NewTBETable) { + TBE lookup(Address); + void allocate(Address); + void deallocate(Address); + bool isPresent(Address); + } + + NewTBETable TBEs, template_hack="<L1Cache_TBE>"; + NewCacheMemory L1IcacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L1_CACHE_NUM_SETS_BITS,L1_CACHE_ASSOC,"L1I"'; + NewCacheMemory L1DcacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L1_CACHE_NUM_SETS_BITS,L1_CACHE_ASSOC,"L1D"'; + NewCacheMemory L2cacheMemory, template_hack="<L1Cache_Entry>", constructor_hack='L2_CACHE_NUM_SETS_BITS,L2_CACHE_ASSOC,"L2"'; + + 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:I; + } + + 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: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:ISM || + state == State:OM || + state == State:SS) { + 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 if (in_msg.Type == TriggerType:ALL_ACKS_NO_SHARERS) { + trigger(Event:All_acks_no_sharers, 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) { + trigger(Event:Other_GETX, in_msg.Address); + } else if (in_msg.Type == CoherenceRequestType:GETS) { + trigger(Event:Other_GETS, 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:ACK_SHARED) { + trigger(Event:Shared_Ack, in_msg.Address); + } else if (in_msg.Type == CoherenceResponseType:DATA) { + trigger(Event:Data, in_msg.Address); + } else if (in_msg.Type == CoherenceResponseType:DATA_SHARED) { + trigger(Event:Shared_Data, in_msg.Address); + } else if (in_msg.Type == CoherenceResponseType:DATA_EXCLUSIVE) { + trigger(Event:Exclusive_Data, 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 := id; + out_msg.Destination.add(map_address_to_node(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") { + out_msg.Address := address; + out_msg.Type := CoherenceRequestType:GETX; + out_msg.Requestor := id; + out_msg.Destination.add(map_address_to_node(address)); + out_msg.MessageSize := MessageSizeType:Request_Control; + TBEs[address].NumPendingMsgs := numberOfNodes(); // One from each other processor (n-1) plus the memory (+1) + } + } + + action(c_sendExclusiveData, "c", desc="Send exclusive data from cache to requestor") { + peek(forwardToCache_in, RequestMsg) { + enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_LATENCY") { + out_msg.Address := address; + out_msg.Type := CoherenceResponseType:DATA_EXCLUSIVE; + out_msg.Sender := id; + out_msg.Destination.add(in_msg.Requestor); + out_msg.DataBlk := getCacheEntry(address).DataBlk; + out_msg.Dirty := getCacheEntry(address).Dirty; + out_msg.Acks := 2; + out_msg.MessageSize := MessageSizeType:Response_Data; + } + } + } + + action(d_issuePUT, "d", desc="Issue PUT") { + enqueue(requestNetwork_out, RequestMsg, latency="CACHE_LATENCY") { + out_msg.Address := address; + out_msg.Type := CoherenceRequestType:PUT; + out_msg.Requestor := id; + out_msg.Destination.add(map_address_to_node(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_LATENCY") { + out_msg.Address := address; + out_msg.Type := CoherenceResponseType:DATA; + out_msg.Sender := id; + out_msg.Destination.add(in_msg.Requestor); + out_msg.DataBlk := getCacheEntry(address).DataBlk; + out_msg.Dirty := getCacheEntry(address).Dirty; + out_msg.Acks := 2; + out_msg.MessageSize := MessageSizeType:Response_Data; + } + } + } + + action(ee_sendDataShared, "\e", desc="Send data from cache to requestor, keep a shared copy") { + peek(forwardToCache_in, RequestMsg) { + enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_LATENCY") { + out_msg.Address := address; + out_msg.Type := CoherenceResponseType:DATA_SHARED; + out_msg.Sender := id; + out_msg.Destination.add(in_msg.Requestor); + out_msg.DataBlk := getCacheEntry(address).DataBlk; + out_msg.Dirty := getCacheEntry(address).Dirty; + out_msg.Acks := 2; + 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_LATENCY") { + out_msg.Address := address; + out_msg.Type := CoherenceResponseType:ACK; + out_msg.Sender := id; + out_msg.Destination.add(in_msg.Requestor); + out_msg.Acks := 1; + out_msg.MessageSize := MessageSizeType:Response_Control; + } + } + } + + action(ff_sendAckShared, "\f", desc="Send shared ack from cache to requestor") { + peek(forwardToCache_in, RequestMsg) { + enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_LATENCY") { + out_msg.Address := address; + out_msg.Type := CoherenceResponseType:ACK_SHARED; + out_msg.Sender := id; + out_msg.Destination.add(in_msg.Requestor); + out_msg.Acks := 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 := id; + out_msg.Destination.add(map_address_to_node(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; + TBEs[address].Sharers := false; + } + + 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) { + assert(in_msg.Acks > 0); + DEBUG_EXPR(TBEs[address].NumPendingMsgs); + TBEs[address].NumPendingMsgs := TBEs[address].NumPendingMsgs - in_msg.Acks; + DEBUG_EXPR(TBEs[address].NumPendingMsgs); + } + } + + 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; + if (TBEs[address].Sharers) { + out_msg.Type := TriggerType:ALL_ACKS; + } else { + out_msg.Type := TriggerType:ALL_ACKS_NO_SHARERS; + } + } + } + } + + action(p_decrementNumberOfMessagesByOne, "p", desc="Decrement the number of messages for which we're waiting by one") { + TBEs[address].NumPendingMsgs := TBEs[address].NumPendingMsgs - 1; + } + + action(pp_incrementNumberOfMessagesByOne, "\p", desc="Increment the number of messages for which we're waiting by one") { + TBEs[address].NumPendingMsgs := TBEs[address].NumPendingMsgs + 1; + } + + action(q_sendDataFromTBEToCache, "q", desc="Send data from TBE to cache") { + peek(forwardToCache_in, RequestMsg) { + enqueue(responseNetwork_out, ResponseMsg, latency="CACHE_LATENCY") { + out_msg.Address := address; + out_msg.Type := CoherenceResponseType:DATA; + out_msg.Sender := id; + out_msg.Destination.add(in_msg.Requestor); + out_msg.DataBlk := TBEs[address].DataBlk; + out_msg.Dirty := TBEs[address].Dirty; + out_msg.Acks := 2; + out_msg.MessageSize := MessageSizeType:Response_Data; + } + } + } + + action(qq_sendDataFromTBEToMemory, "\q", desc="Send data from TBE to memory") { + enqueue(unblockNetwork_out, ResponseMsg, latency="CACHE_LATENCY") { + out_msg.Address := address; + out_msg.Sender := id; + out_msg.Destination.add(map_address_to_node(address)); + out_msg.Dirty := TBEs[address].Dirty; + if (TBEs[address].Dirty) { + out_msg.Type := CoherenceResponseType:WB_DIRTY; + out_msg.DataBlk := TBEs[address].DataBlk; + out_msg.MessageSize := MessageSizeType:Writeback_Data; + } else { + out_msg.Type := CoherenceResponseType:WB_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(r_setSharerBit, "r", desc="We saw other sharers") { + TBEs[address].Sharers := true; + } + + action(s_deallocateTBE, "s", desc="Deallocate TBE") { + TBEs.deallocate(address); + } + + action(t_sendExclusiveDataFromTBEToMemory, "t", desc="Send exclusive data from TBE to memory") { + enqueue(unblockNetwork_out, ResponseMsg, latency="CACHE_LATENCY") { + out_msg.Address := address; + out_msg.Sender := id; + out_msg.Destination.add(map_address_to_node(address)); + out_msg.DataBlk := TBEs[address].DataBlk; + out_msg.Dirty := TBEs[address].Dirty; + if (TBEs[address].Dirty) { + out_msg.Type := CoherenceResponseType:WB_EXCLUSIVE_DIRTY; + out_msg.DataBlk := TBEs[address].DataBlk; + out_msg.MessageSize := MessageSizeType:Writeback_Data; + } else { + out_msg.Type := CoherenceResponseType:WB_EXCLUSIVE_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(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(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(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, ISM, OM, IS, SS, OI, MI, II}, {Store, L2_Replacement}) { + zz_recycleMandatoryQueue; + } + + transition({M_W, MM_W}, {L2_Replacement}) { + zz_recycleMandatoryQueue; + } + + transition({IM, IS, OI, MI, II}, {Load, Ifetch}) { + zz_recycleMandatoryQueue; + } + + transition({IM, SM, ISM, OM, IS, SS, MM_W, M_W, OI, MI, II}, L1_to_L2) { + zz_recycleMandatoryQueue; + } + + // Transitions moving data between the L1 and L2 caches + transition({I, S, O, M, MM}, L1_to_L2) { + vv_allocateL2CacheBlock; + ss_copyFromL1toL2; // Not really needed for state I + gg_deallocateL1CacheBlock; + } + + transition({I, S, O, M, MM}, L2_to_L1D) { + ii_allocateL1DCacheBlock; + tt_copyFromL2toL1; // Not really needed for state I + rr_deallocateL2CacheBlock; + } + + transition({I, S, O, M, MM}, L2_to_L1I) { + jj_allocateL1ICacheBlock; + tt_copyFromL2toL1; // Not really needed for state I + rr_deallocateL2CacheBlock; + } + + // Transitions from Idle + transition(I, Load, IS) { + ii_allocateL1DCacheBlock; + i_allocateTBE; + a_issueGETS; + uu_profileMiss; + k_popMandatoryQueue; + } + + transition(I, Ifetch, IS) { + jj_allocateL1ICacheBlock; + i_allocateTBE; + a_issueGETS; + uu_profileMiss; + k_popMandatoryQueue; + } + + transition(I, Store, IM) { + ii_allocateL1DCacheBlock; + i_allocateTBE; + b_issueGETX; + uu_profileMiss; + k_popMandatoryQueue; + } + + transition(I, L2_Replacement) { + rr_deallocateL2CacheBlock; + } + + transition(I, {Other_GETX, Other_GETS}) { + f_sendAck; + l_popForwardQueue; + } + + // Transitions from Shared + transition({S, SM, ISM}, {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, Other_GETX, I) { + f_sendAck; + l_popForwardQueue; + } + + transition(S, Other_GETS) { + ff_sendAckShared; + l_popForwardQueue; + } + + // Transitions from Owned + transition({O, OM, SS, MM_W, M_W}, {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; + d_issuePUT; + rr_deallocateL2CacheBlock; + } + + transition(O, Other_GETX, I) { + e_sendData; + l_popForwardQueue; + } + + transition(O, Other_GETS) { + ee_sendDataShared; + l_popForwardQueue; + } + + // Transitions from Modified + 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_issuePUT; + rr_deallocateL2CacheBlock; + } + + transition(MM, Other_GETX, I) { + c_sendExclusiveData; + l_popForwardQueue; + } + + transition(MM, Other_GETS, I) { + c_sendExclusiveData; + l_popForwardQueue; + } + + // Transitions from Dirty Exclusive + transition(M, {Load, Ifetch}) { + h_load_hit; + k_popMandatoryQueue; + } + + transition(M, Store, MM) { + hh_store_hit; + k_popMandatoryQueue; + } + + transition(M, L2_Replacement, MI) { + i_allocateTBE; + d_issuePUT; + rr_deallocateL2CacheBlock; + } + + transition(M, Other_GETX, I) { + c_sendExclusiveData; + l_popForwardQueue; + } + + transition(M, Other_GETS, O) { + ee_sendDataShared; + l_popForwardQueue; + } + + // Transitions from IM + + transition(IM, {Other_GETX, Other_GETS}) { + f_sendAck; + l_popForwardQueue; + } + + transition(IM, Ack) { + m_decrementNumberOfMessages; + o_checkForCompletion; + n_popResponseQueue; + } + + transition(IM, Data, ISM) { + u_writeDataToCache; + m_decrementNumberOfMessages; + o_checkForCompletion; + n_popResponseQueue; + } + + transition(IM, Exclusive_Data, MM_W) { + u_writeDataToCache; + m_decrementNumberOfMessages; + o_checkForCompletion; + hh_store_hit; + n_popResponseQueue; + } + + // Transitions from SM + transition(SM, Other_GETS) { + ff_sendAckShared; + l_popForwardQueue; + } + + transition(SM, Other_GETX, IM) { + f_sendAck; + l_popForwardQueue; + } + + transition(SM, Ack) { + m_decrementNumberOfMessages; + o_checkForCompletion; + n_popResponseQueue; + } + + transition(SM, Data, ISM) { + v_writeDataToCacheVerify; + m_decrementNumberOfMessages; + o_checkForCompletion; + n_popResponseQueue; + } + + // Transitions from ISM + transition(ISM, Ack) { + m_decrementNumberOfMessages; + o_checkForCompletion; + n_popResponseQueue; + } + + transition(ISM, All_acks_no_sharers, MM) { + hh_store_hit; + g_sendUnblock; + s_deallocateTBE; + j_popTriggerQueue; + } + + // Transitions from OM + + transition(OM, Other_GETX, IM) { + e_sendData; + pp_incrementNumberOfMessagesByOne; + l_popForwardQueue; + } + + transition(OM, Other_GETS) { + ee_sendDataShared; + l_popForwardQueue; + } + + transition(OM, Ack) { + m_decrementNumberOfMessages; + o_checkForCompletion; + n_popResponseQueue; + } + + transition(OM, {All_acks, All_acks_no_sharers}, MM) { + hh_store_hit; + g_sendUnblock; + s_deallocateTBE; + j_popTriggerQueue; + } + + // Transitions from IS + + transition(IS, {Other_GETX, Other_GETS}) { + f_sendAck; + l_popForwardQueue; + } + + transition(IS, Ack) { + m_decrementNumberOfMessages; + o_checkForCompletion; + n_popResponseQueue; + } + + transition(IS, Shared_Ack) { + m_decrementNumberOfMessages; + r_setSharerBit; + o_checkForCompletion; + n_popResponseQueue; + } + + transition(IS, Data, SS) { + u_writeDataToCache; + m_decrementNumberOfMessages; + o_checkForCompletion; + h_load_hit; + n_popResponseQueue; + } + + transition(IS, Exclusive_Data, M_W) { + u_writeDataToCache; + m_decrementNumberOfMessages; + o_checkForCompletion; + h_load_hit; + n_popResponseQueue; + } + + transition(IS, Shared_Data, SS) { + u_writeDataToCache; + r_setSharerBit; + m_decrementNumberOfMessages; + o_checkForCompletion; + h_load_hit; + n_popResponseQueue; + } + + // Transitions from SS + + transition(SS, Ack) { + m_decrementNumberOfMessages; + o_checkForCompletion; + n_popResponseQueue; + } + + transition(SS, Shared_Ack) { + m_decrementNumberOfMessages; + r_setSharerBit; + o_checkForCompletion; + n_popResponseQueue; + } + + transition(SS, All_acks, S) { + g_sendUnblock; + s_deallocateTBE; + j_popTriggerQueue; + } + + transition(SS, All_acks_no_sharers, S) { + // Note: The directory might still be the owner, so that is why we go to S + g_sendUnblock; + s_deallocateTBE; + j_popTriggerQueue; + } + + // Transitions from MM_W + + transition(MM_W, Store) { + hh_store_hit; + k_popMandatoryQueue; + } + + transition(MM_W, Ack) { + m_decrementNumberOfMessages; + o_checkForCompletion; + n_popResponseQueue; + } + + transition(MM_W, All_acks_no_sharers, MM) { + g_sendUnblock; + s_deallocateTBE; + j_popTriggerQueue; + } + + // Transitions from M_W + + transition(M_W, Store, MM_W) { + hh_store_hit; + k_popMandatoryQueue; + } + + transition(M_W, Ack) { + m_decrementNumberOfMessages; + o_checkForCompletion; + n_popResponseQueue; + } + + transition(M_W, All_acks_no_sharers, M) { + g_sendUnblock; + s_deallocateTBE; + j_popTriggerQueue; + } + + // Transitions from OI/MI + + transition({OI, MI}, Other_GETX, II) { + q_sendDataFromTBEToCache; + l_popForwardQueue; + } + + transition({OI, MI}, Other_GETS, OI) { + q_sendDataFromTBEToCache; + l_popForwardQueue; + } + + transition(MI, Writeback_Ack, I) { + t_sendExclusiveDataFromTBEToMemory; + s_deallocateTBE; + l_popForwardQueue; + } + + transition(OI, Writeback_Ack, I) { + qq_sendDataFromTBEToMemory; + s_deallocateTBE; + l_popForwardQueue; + } + + // Transitions from II + transition(II, {Other_GETS, Other_GETX}, II) { + f_sendAck; + l_popForwardQueue; + } + + transition(II, Writeback_Ack, I) { + g_sendUnblock; + s_deallocateTBE; + l_popForwardQueue; + } + + transition(II, Writeback_Nack, I) { + s_deallocateTBE; + l_popForwardQueue; + } +} + diff --git a/src/mem/protocol/MOESI_hammer-dir.sm b/src/mem/protocol/MOESI_hammer-dir.sm new file mode 100644 index 000000000..836fa9787 --- /dev/null +++ b/src/mem/protocol/MOESI_hammer-dir.sm @@ -0,0 +1,317 @@ +/* + * Copyright (c) 1999-2008 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. + */ + +machine(Directory, "AMD Hammer-like protocol") { + + // STATES + enumeration(State, desc="Directory states", default="Directory_State_E") { + // Base states + NO, desc="Not Owner"; + O, desc="Owner"; + E, desc="Exclusive Owner (we can provide the data in exclusive)"; + NO_B, "NO^B", desc="Not Owner, Blocked"; + O_B, "O^B", desc="Owner, Blocked"; + WB, desc="Blocked on a writeback"; + } + + // Events + enumeration(Event, desc="Directory events") { + GETX, desc="A GETX arrives"; + GETS, desc="A GETS arrives"; + PUT, desc="A PUT arrives"; + Unblock, desc="An unblock message arrives"; + Writeback_Clean, desc="The final part of a PutX (no data)"; + Writeback_Dirty, desc="The final part of a PutX (data)"; + Writeback_Exclusive_Clean, desc="The final part of a PutX (no data, exclusive)"; + Writeback_Exclusive_Dirty, desc="The final part of a PutX (data, exclusive)"; + } + + // TYPES + + // DirectoryEntry + structure(Entry, desc="...") { + State DirectoryState, desc="Directory state"; + DataBlock DataBlk, desc="data for the block"; + } + + external_type(DirectoryMemory) { + Entry lookup(Address); + bool isPresent(Address); + } + + // ** OBJECTS ** + + DirectoryMemory directory; + + State getState(Address addr) { + return directory[addr].DirectoryState; + } + + void setState(Address addr, State state) { + 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) { + trigger(Event:Unblock, in_msg.Address); + } else if (in_msg.Type == CoherenceResponseType:WB_CLEAN) { + trigger(Event:Writeback_Clean, in_msg.Address); + } else if (in_msg.Type == CoherenceResponseType:WB_DIRTY) { + trigger(Event:Writeback_Dirty, in_msg.Address); + } else if (in_msg.Type == CoherenceResponseType:WB_EXCLUSIVE_CLEAN) { + trigger(Event:Writeback_Exclusive_Clean, in_msg.Address); + } else if (in_msg.Type == CoherenceResponseType:WB_EXCLUSIVE_DIRTY) { + trigger(Event:Writeback_Exclusive_Dirty, 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:PUT) { + trigger(Event:PUT, 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(d_sendData, "d", desc="Send data to requestor") { + peek(requestQueue_in, RequestMsg) { + enqueue(responseNetwork_out, ResponseMsg, latency="MEMORY_LATENCY") { + out_msg.Address := address; + out_msg.Type := CoherenceResponseType:DATA; + out_msg.Sender := id; + 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 := 1; + out_msg.MessageSize := MessageSizeType:Response_Data; + } + } + } + + action(dd_sendExclusiveData, "\d", desc="Send exclusive data to requestor") { + peek(requestQueue_in, RequestMsg) { + enqueue(responseNetwork_out, ResponseMsg, latency="MEMORY_LATENCY") { + out_msg.Address := address; + out_msg.Type := CoherenceResponseType:DATA_EXCLUSIVE; + out_msg.Sender := id; + 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 := 1; + out_msg.MessageSize := MessageSizeType:Response_Data; + } + } + } + + action(f_forwardRequest, "f", desc="Forward requests") { + if (numberOfNodes() > 1) { + 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.broadcast(); // Send to everyone, but... + out_msg.Destination.remove(in_msg.Requestor); // Don't include the original requestor + out_msg.MessageSize := MessageSizeType:Forwarded_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; + DEBUG_EXPR(in_msg.Address); + DEBUG_EXPR(in_msg.DataBlk); + } + } + + action(ll_checkIncomingWriteback, "\l", desc="Check PUTX/PUTO response message") { + 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(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(E, GETX, NO_B) { + dd_sendExclusiveData; + f_forwardRequest; + i_popIncomingRequestQueue; + } + + transition(E, GETS, NO_B) { + dd_sendExclusiveData; + f_forwardRequest; + i_popIncomingRequestQueue; + } + + // + transition(O, GETX, NO_B) { + d_sendData; + f_forwardRequest; + i_popIncomingRequestQueue; + } + + transition(O, GETS, O_B) { + d_sendData; + f_forwardRequest; + i_popIncomingRequestQueue; + } + + // + transition(NO, GETX, NO_B) { + f_forwardRequest; + i_popIncomingRequestQueue; + } + + transition(NO, GETS, NO_B) { + f_forwardRequest; + i_popIncomingRequestQueue; + } + + transition(NO, PUT, WB) { + a_sendWriteBackAck; + i_popIncomingRequestQueue; + } + + transition({O, E}, PUT) { + b_sendWriteBackNack; + i_popIncomingRequestQueue; + } + + // Blocked states + transition({NO_B, O_B, WB}, {GETS, GETX, PUT}) { + zz_recycleRequest; + } + + transition(NO_B, Unblock, NO) { + j_popIncomingUnblockQueue; + } + + transition(O_B, Unblock, O) { + j_popIncomingUnblockQueue; + } + + // WB + transition(WB, Writeback_Dirty, O) { + l_writeDataToMemory; + j_popIncomingUnblockQueue; + } + + transition(WB, Writeback_Exclusive_Dirty, E) { + l_writeDataToMemory; + j_popIncomingUnblockQueue; + } + + transition(WB, Writeback_Clean, O) { + ll_checkIncomingWriteback; + j_popIncomingUnblockQueue; + } + + transition(WB, Writeback_Exclusive_Clean, E) { + ll_checkIncomingWriteback; + j_popIncomingUnblockQueue; + } + + transition(WB, Unblock, NO) { + j_popIncomingUnblockQueue; + } +} diff --git a/src/mem/protocol/MOESI_hammer-msg.sm b/src/mem/protocol/MOESI_hammer-msg.sm new file mode 100644 index 000000000..43e00a2d1 --- /dev/null +++ b/src/mem/protocol/MOESI_hammer-msg.sm @@ -0,0 +1,83 @@ +/* + * Copyright (c) 1999-2008 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. + */ + +// CoherenceRequestType +enumeration(CoherenceRequestType, desc="...") { + GETX, desc="Get eXclusive"; + GETS, desc="Get Shared"; + PUT, desc="Put Ownership"; + WB_ACK, desc="Writeback ack"; + WB_NACK, desc="Writeback neg. ack"; +} + +// CoherenceResponseType +enumeration(CoherenceResponseType, desc="...") { + ACK, desc="ACKnowledgment, responder does not have a copy"; + ACK_SHARED, desc="ACKnowledgment, responder has a shared copy"; + DATA, desc="Data, responder does not have a copy"; + DATA_SHARED, desc="Data, responder has a shared copy"; + DATA_EXCLUSIVE, desc="Data, responder was exclusive, gave us a copy, and they went to invalid"; + WB_CLEAN, desc="Clean writeback"; + WB_DIRTY, desc="Dirty writeback"; + WB_EXCLUSIVE_CLEAN, desc="Clean writeback of exclusive data"; + WB_EXCLUSIVE_DIRTY, desc="Dirty writeback of exclusive data"; + UNBLOCK, desc="Unblock"; +} + +// TriggerType +enumeration(TriggerType, desc="...") { + ALL_ACKS, desc="See corresponding event"; + ALL_ACKS_NO_SHARERS, 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)"; + NodeID Requestor, desc="Node who initiated the request"; + NetDest Destination, desc="Multicast destination mask"; + 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)"; + NodeID 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 messages this counts as"; + MessageSizeType MessageSize, desc="size category of the message"; +} diff --git a/src/mem/protocol/MOESI_hammer.slicc b/src/mem/protocol/MOESI_hammer.slicc new file mode 100644 index 000000000..8ff931e04 --- /dev/null +++ b/src/mem/protocol/MOESI_hammer.slicc @@ -0,0 +1,5 @@ +../protocols/MOESI_hammer-msg.sm +../protocols/hammer-ni.sm +../protocols/MOESI_hammer-cache.sm +../protocols/MOESI_hammer-dir.sm +../protocols/standard_1level-node.sm |