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/*
* Copyright (c) 2009-2013 Mark D. Hill and David A. Wood
* Copyright (c) 2010-2011 Advanced Micro Devices, Inc.
* 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(MachineType:DMA, "DMA Controller")
: DMASequencer * dma_sequencer;
Cycles request_latency := 14;
Cycles response_latency := 14;
MessageBuffer * responseFromDir, network="From", virtual_network="2",
vnet_type="response";
MessageBuffer * reqToDir, network="To", virtual_network="1",
vnet_type="request";
MessageBuffer * respToDir, network="To", virtual_network="2",
vnet_type="dmaresponse";
MessageBuffer * mandatoryQueue;
MessageBuffer * triggerQueue;
{
state_declaration(State, desc="DMA states", default="DMA_State_READY") {
READY, AccessPermission:Invalid, desc="Ready to accept a new request";
BUSY_RD, AccessPermission:Busy, desc="Busy: currently processing a request";
BUSY_WR, AccessPermission:Busy, desc="Busy: currently processing a request";
}
enumeration(Event, desc="DMA events") {
ReadRequest, desc="A new read request";
WriteRequest, desc="A new write request";
Data, desc="Data from a DMA memory read";
DMA_Ack, desc="DMA write to memory completed";
Inv_Ack, desc="Invalidation Ack from a sharer";
All_Acks, desc="All acks received";
}
structure(TBE, desc="...") {
Addr address, desc="Physical address";
int NumAcks, default="0", desc="Number of Acks pending";
DataBlock DataBlk, desc="Data";
}
structure(TBETable, external = "yes") {
TBE lookup(Addr);
void allocate(Addr);
void deallocate(Addr);
bool isPresent(Addr);
}
TBETable TBEs, template="<DMA_TBE>", constructor="m_number_of_TBEs";
State cur_state;
Tick clockEdge();
void set_tbe(TBE b);
void unset_tbe();
State getState(TBE tbe, Addr addr) {
return cur_state;
}
void setState(TBE tbe, Addr addr, State state) {
cur_state := state;
}
AccessPermission getAccessPermission(Addr addr) {
return AccessPermission:NotPresent;
}
void setAccessPermission(Addr addr, State state) {
}
void functionalRead(Addr addr, Packet *pkt) {
error("DMA does not support functional read.");
}
int functionalWrite(Addr addr, Packet *pkt) {
error("DMA does not support functional write.");
}
out_port(reqToDirectory_out, RequestMsg, reqToDir, desc="...");
out_port(respToDirectory_out, ResponseMsg, respToDir, desc="...");
out_port(triggerQueue_out, TriggerMsg, triggerQueue, desc="...");
in_port(dmaRequestQueue_in, SequencerMsg, mandatoryQueue, desc="...") {
if (dmaRequestQueue_in.isReady(clockEdge())) {
peek(dmaRequestQueue_in, SequencerMsg) {
if (in_msg.Type == SequencerRequestType:LD ) {
trigger(Event:ReadRequest, in_msg.LineAddress,
TBEs[in_msg.LineAddress]);
} else if (in_msg.Type == SequencerRequestType:ST) {
trigger(Event:WriteRequest, in_msg.LineAddress,
TBEs[in_msg.LineAddress]);
} else {
error("Invalid request type");
}
}
}
}
in_port(dmaResponseQueue_in, ResponseMsg, responseFromDir, desc="...") {
if (dmaResponseQueue_in.isReady(clockEdge())) {
peek( dmaResponseQueue_in, ResponseMsg) {
if (in_msg.Type == CoherenceResponseType:DMA_ACK) {
trigger(Event:DMA_Ack, makeLineAddress(in_msg.addr),
TBEs[makeLineAddress(in_msg.addr)]);
} else if (in_msg.Type == CoherenceResponseType:DATA_EXCLUSIVE ||
in_msg.Type == CoherenceResponseType:DATA) {
trigger(Event:Data, makeLineAddress(in_msg.addr),
TBEs[makeLineAddress(in_msg.addr)]);
} else if (in_msg.Type == CoherenceResponseType:ACK) {
trigger(Event:Inv_Ack, makeLineAddress(in_msg.addr),
TBEs[makeLineAddress(in_msg.addr)]);
} else {
error("Invalid response type");
}
}
}
}
// Trigger Queue
in_port(triggerQueue_in, TriggerMsg, triggerQueue) {
if (triggerQueue_in.isReady(clockEdge())) {
peek(triggerQueue_in, TriggerMsg) {
if (in_msg.Type == TriggerType:ALL_ACKS) {
trigger(Event:All_Acks, in_msg.addr, TBEs[in_msg.addr]);
} else {
error("Unexpected message");
}
}
}
}
action(s_sendReadRequest, "s", desc="Send a DMA read request to memory") {
peek(dmaRequestQueue_in, SequencerMsg) {
enqueue(reqToDirectory_out, RequestMsg, request_latency) {
out_msg.addr := in_msg.PhysicalAddress;
out_msg.Type := CoherenceRequestType:DMA_READ;
out_msg.DataBlk := in_msg.DataBlk;
out_msg.Len := in_msg.Len;
out_msg.Destination.add(map_Address_to_Directory(address));
out_msg.Requestor := machineID;
out_msg.RequestorMachine := MachineType:DMA;
out_msg.MessageSize := MessageSizeType:Writeback_Control;
}
}
}
action(s_sendWriteRequest, "\s", desc="Send a DMA write request to memory") {
peek(dmaRequestQueue_in, SequencerMsg) {
enqueue(reqToDirectory_out, RequestMsg, request_latency) {
out_msg.addr := in_msg.PhysicalAddress;
out_msg.Type := CoherenceRequestType:DMA_WRITE;
out_msg.DataBlk := in_msg.DataBlk;
out_msg.Len := in_msg.Len;
out_msg.Destination.add(map_Address_to_Directory(address));
out_msg.Requestor := machineID;
out_msg.RequestorMachine := MachineType:DMA;
out_msg.MessageSize := MessageSizeType:Writeback_Control;
}
}
}
action(a_ackCallback, "a", desc="Notify dma controller that write request completed") {
dma_sequencer.ackCallback(address);
}
action(o_checkForCompletion, "o", desc="Check if we have received all the messages required for completion") {
assert(is_valid(tbe));
if (tbe.NumAcks == 0) {
enqueue(triggerQueue_out, TriggerMsg) {
out_msg.addr := address;
out_msg.Type := TriggerType:ALL_ACKS;
}
}
}
action(u_updateAckCount, "u", desc="Update ack count") {
peek(dmaResponseQueue_in, ResponseMsg) {
assert(is_valid(tbe));
tbe.NumAcks := tbe.NumAcks - in_msg.Acks;
}
}
action( u_sendExclusiveUnblockToDir, "\u", desc="send exclusive unblock to directory") {
enqueue(respToDirectory_out, ResponseMsg, response_latency) {
out_msg.addr := address;
out_msg.Type := CoherenceResponseType:UNBLOCK_EXCLUSIVE;
out_msg.Destination.add(map_Address_to_Directory(address));
out_msg.Sender := machineID;
out_msg.SenderMachine := MachineType:DMA;
out_msg.MessageSize := MessageSizeType:Writeback_Control;
}
}
action(p_popRequestQueue, "p", desc="Pop request queue") {
dmaRequestQueue_in.dequeue(clockEdge());
}
action(p_popResponseQueue, "\p", desc="Pop request queue") {
dmaResponseQueue_in.dequeue(clockEdge());
}
action(p_popTriggerQueue, "pp", desc="Pop trigger queue") {
triggerQueue_in.dequeue(clockEdge());
}
action(t_updateTBEData, "t", desc="Update TBE Data") {
peek(dmaResponseQueue_in, ResponseMsg) {
assert(is_valid(tbe));
tbe.DataBlk := in_msg.DataBlk;
}
}
action(d_dataCallbackFromTBE, "/d", desc="data callback with data from TBE") {
assert(is_valid(tbe));
dma_sequencer.dataCallback(tbe.DataBlk, address);
}
action(v_allocateTBE, "v", desc="Allocate TBE entry") {
TBEs.allocate(address);
set_tbe(TBEs[address]);
}
action(w_deallocateTBE, "w", desc="Deallocate TBE entry") {
TBEs.deallocate(address);
unset_tbe();
}
transition(READY, ReadRequest, BUSY_RD) {
s_sendReadRequest;
v_allocateTBE;
p_popRequestQueue;
}
transition(BUSY_RD, Inv_Ack) {
u_updateAckCount;
o_checkForCompletion;
p_popResponseQueue;
}
transition(BUSY_RD, Data, READY) {
t_updateTBEData;
d_dataCallbackFromTBE;
w_deallocateTBE;
//u_updateAckCount;
//o_checkForCompletion;
p_popResponseQueue;
}
transition(BUSY_RD, All_Acks, READY) {
d_dataCallbackFromTBE;
//u_sendExclusiveUnblockToDir;
w_deallocateTBE;
p_popTriggerQueue;
}
transition(READY, WriteRequest, BUSY_WR) {
s_sendWriteRequest;
v_allocateTBE;
p_popRequestQueue;
}
transition(BUSY_WR, Inv_Ack) {
u_updateAckCount;
o_checkForCompletion;
p_popResponseQueue;
}
transition(BUSY_WR, DMA_Ack) {
u_updateAckCount; // actually increases
o_checkForCompletion;
p_popResponseQueue;
}
transition(BUSY_WR, All_Acks, READY) {
a_ackCallback;
u_sendExclusiveUnblockToDir;
w_deallocateTBE;
p_popTriggerQueue;
}
}
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