ruby: Allow multiple outstanding DMA requests
DMA sequencers and protocols can currently only issue one DMA access at a time. This patch implements the necessary functionality to support multiple outstanding DMA requests in Ruby.
This commit is contained in:
parent
96905971f2
commit
48e43c9ad1
9 changed files with 362 additions and 98 deletions
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@ -50,15 +50,38 @@ machine(MachineType:DMA, "DMA Controller")
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Ack, desc="DMA write to memory completed";
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}
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State cur_state;
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Tick clockEdge();
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State getState(Addr addr) {
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return cur_state;
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structure(TBE, desc="...") {
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State TBEState, desc="Transient state";
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DataBlock DataBlk, desc="Data";
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}
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void setState(Addr addr, State state) {
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cur_state := state;
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structure(TBETable, external = "yes") {
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TBE lookup(Addr);
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void allocate(Addr);
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void deallocate(Addr);
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bool isPresent(Addr);
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}
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void set_tbe(TBE b);
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void unset_tbe();
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void wakeUpAllBuffers();
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TBETable TBEs, template="<DMA_TBE>", constructor="m_number_of_TBEs";
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Tick clockEdge();
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State getState(TBE tbe, Addr addr) {
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if (is_valid(tbe)) {
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return tbe.TBEState;
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} else {
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return State:READY;
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}
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}
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void setState(TBE tbe, Addr addr, State state) {
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if (is_valid(tbe)) {
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tbe.TBEState := state;
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}
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}
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AccessPermission getAccessPermission(Addr addr) {
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@ -82,9 +105,9 @@ machine(MachineType:DMA, "DMA Controller")
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if (dmaRequestQueue_in.isReady(clockEdge())) {
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peek(dmaRequestQueue_in, SequencerMsg) {
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if (in_msg.Type == SequencerRequestType:LD ) {
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trigger(Event:ReadRequest, in_msg.LineAddress);
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trigger(Event:ReadRequest, in_msg.LineAddress, TBEs[in_msg.LineAddress]);
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} else if (in_msg.Type == SequencerRequestType:ST) {
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trigger(Event:WriteRequest, in_msg.LineAddress);
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trigger(Event:WriteRequest, in_msg.LineAddress, TBEs[in_msg.LineAddress]);
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} else {
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error("Invalid request type");
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}
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@ -96,9 +119,11 @@ machine(MachineType:DMA, "DMA Controller")
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if (dmaResponseQueue_in.isReady(clockEdge())) {
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peek( dmaResponseQueue_in, ResponseMsg) {
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if (in_msg.Type == CoherenceResponseType:ACK) {
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trigger(Event:Ack, makeLineAddress(in_msg.addr));
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trigger(Event:Ack, makeLineAddress(in_msg.addr),
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TBEs[makeLineAddress(in_msg.addr)]);
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} else if (in_msg.Type == CoherenceResponseType:DATA) {
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trigger(Event:Data, makeLineAddress(in_msg.addr));
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trigger(Event:Data, makeLineAddress(in_msg.addr),
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TBEs[makeLineAddress(in_msg.addr)]);
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} else {
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error("Invalid response type");
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}
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@ -133,13 +158,28 @@ machine(MachineType:DMA, "DMA Controller")
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}
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action(a_ackCallback, "a", desc="Notify dma controller that write request completed") {
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dma_sequencer.ackCallback();
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dma_sequencer.ackCallback(address);
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}
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action(d_dataCallback, "d", desc="Write data to dma sequencer") {
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peek (dmaResponseQueue_in, ResponseMsg) {
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dma_sequencer.dataCallback(in_msg.DataBlk);
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dma_sequencer.dataCallback(tbe.DataBlk, address);
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}
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action(t_updateTBEData, "t", desc="Update TBE Data") {
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assert(is_valid(tbe));
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peek( dmaResponseQueue_in, ResponseMsg) {
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tbe.DataBlk := in_msg.DataBlk;
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}
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}
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action(v_allocateTBE, "v", desc="Allocate TBE entry") {
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TBEs.allocate(address);
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set_tbe(TBEs[address]);
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}
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action(w_deallocateTBE, "w", desc="Deallocate TBE entry") {
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TBEs.deallocate(address);
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unset_tbe();
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}
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action(p_popRequestQueue, "p", desc="Pop request queue") {
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@ -150,23 +190,43 @@ machine(MachineType:DMA, "DMA Controller")
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dmaResponseQueue_in.dequeue(clockEdge());
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}
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action(zz_stallAndWaitRequestQueue, "zz", desc="...") {
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stall_and_wait(dmaRequestQueue_in, address);
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}
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action(wkad_wakeUpAllDependents, "wkad", desc="wake-up all dependents") {
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wakeUpAllBuffers();
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}
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transition(READY, ReadRequest, BUSY_RD) {
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v_allocateTBE;
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s_sendReadRequest;
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p_popRequestQueue;
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}
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transition(READY, WriteRequest, BUSY_WR) {
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v_allocateTBE;
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s_sendWriteRequest;
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p_popRequestQueue;
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}
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transition(BUSY_RD, Data, READY) {
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t_updateTBEData;
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d_dataCallback;
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w_deallocateTBE;
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p_popResponseQueue;
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wkad_wakeUpAllDependents;
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}
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transition(BUSY_WR, Ack, READY) {
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a_ackCallback;
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w_deallocateTBE;
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p_popResponseQueue;
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wkad_wakeUpAllDependents;
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}
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transition({BUSY_RD,BUSY_WR}, {ReadRequest,WriteRequest}) {
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zz_stallAndWaitRequestQueue;
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}
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}
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@ -50,17 +50,38 @@ machine(MachineType:DMA, "DMA Controller")
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Ack, desc="DMA write to memory completed";
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}
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State cur_state;
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Tick clockEdge();
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Cycles ticksToCycles(Tick t);
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State getState(Addr addr) {
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return cur_state;
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structure(TBE, desc="...") {
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State TBEState, desc="Transient state";
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DataBlock DataBlk, desc="Data";
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}
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void setState(Addr addr, State state) {
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cur_state := state;
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structure(TBETable, external = "yes") {
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TBE lookup(Addr);
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void allocate(Addr);
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void deallocate(Addr);
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bool isPresent(Addr);
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}
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void set_tbe(TBE b);
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void unset_tbe();
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void wakeUpAllBuffers();
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TBETable TBEs, template="<DMA_TBE>", constructor="m_number_of_TBEs";
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Tick clockEdge();
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State getState(TBE tbe, Addr addr) {
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if (is_valid(tbe)) {
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return tbe.TBEState;
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} else {
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return State:READY;
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}
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}
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void setState(TBE tbe, Addr addr, State state) {
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if (is_valid(tbe)) {
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tbe.TBEState := state;
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}
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}
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AccessPermission getAccessPermission(Addr addr) {
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@ -84,9 +105,9 @@ machine(MachineType:DMA, "DMA Controller")
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if (dmaRequestQueue_in.isReady(clockEdge())) {
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peek(dmaRequestQueue_in, SequencerMsg) {
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if (in_msg.Type == SequencerRequestType:LD ) {
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trigger(Event:ReadRequest, in_msg.LineAddress);
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trigger(Event:ReadRequest, in_msg.LineAddress, TBEs[in_msg.LineAddress]);
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} else if (in_msg.Type == SequencerRequestType:ST) {
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trigger(Event:WriteRequest, in_msg.LineAddress);
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trigger(Event:WriteRequest, in_msg.LineAddress, TBEs[in_msg.LineAddress]);
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} else {
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error("Invalid request type");
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}
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@ -98,9 +119,9 @@ machine(MachineType:DMA, "DMA Controller")
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if (dmaResponseQueue_in.isReady(clockEdge())) {
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peek( dmaResponseQueue_in, DMAResponseMsg) {
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if (in_msg.Type == DMAResponseType:ACK) {
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trigger(Event:Ack, in_msg.LineAddress);
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trigger(Event:Ack, in_msg.LineAddress, TBEs[in_msg.LineAddress]);
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} else if (in_msg.Type == DMAResponseType:DATA) {
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trigger(Event:Data, in_msg.LineAddress);
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trigger(Event:Data, in_msg.LineAddress, TBEs[in_msg.LineAddress]);
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} else {
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error("Invalid response type");
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}
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@ -139,15 +160,28 @@ machine(MachineType:DMA, "DMA Controller")
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}
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action(a_ackCallback, "a", desc="Notify dma controller that write request completed") {
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peek (dmaResponseQueue_in, DMAResponseMsg) {
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dma_sequencer.ackCallback();
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}
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dma_sequencer.ackCallback(address);
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}
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action(d_dataCallback, "d", desc="Write data to dma sequencer") {
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peek (dmaResponseQueue_in, DMAResponseMsg) {
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dma_sequencer.dataCallback(in_msg.DataBlk);
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dma_sequencer.dataCallback(tbe.DataBlk, address);
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}
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action(t_updateTBEData, "t", desc="Update TBE Data") {
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assert(is_valid(tbe));
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peek( dmaResponseQueue_in, DMAResponseMsg) {
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tbe.DataBlk := in_msg.DataBlk;
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}
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}
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action(v_allocateTBE, "v", desc="Allocate TBE entry") {
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TBEs.allocate(address);
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set_tbe(TBEs[address]);
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}
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action(w_deallocateTBE, "w", desc="Deallocate TBE entry") {
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TBEs.deallocate(address);
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unset_tbe();
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}
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action(p_popRequestQueue, "p", desc="Pop request queue") {
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@ -158,23 +192,43 @@ machine(MachineType:DMA, "DMA Controller")
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dmaResponseQueue_in.dequeue(clockEdge());
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}
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action(zz_stallAndWaitRequestQueue, "zz", desc="...") {
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stall_and_wait(dmaRequestQueue_in, address);
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}
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action(wkad_wakeUpAllDependents, "wkad", desc="wake-up all dependents") {
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wakeUpAllBuffers();
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}
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transition(READY, ReadRequest, BUSY_RD) {
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v_allocateTBE;
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s_sendReadRequest;
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p_popRequestQueue;
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}
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transition(READY, WriteRequest, BUSY_WR) {
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v_allocateTBE;
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s_sendWriteRequest;
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p_popRequestQueue;
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}
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transition(BUSY_RD, Data, READY) {
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t_updateTBEData;
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d_dataCallback;
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w_deallocateTBE;
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p_popResponseQueue;
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wkad_wakeUpAllDependents;
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}
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transition(BUSY_WR, Ack, READY) {
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a_ackCallback;
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w_deallocateTBE;
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p_popResponseQueue;
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wkad_wakeUpAllDependents;
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}
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transition({BUSY_RD,BUSY_WR}, {ReadRequest,WriteRequest}) {
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zz_stallAndWaitRequestQueue;
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}
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}
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@ -184,7 +184,7 @@ machine(MachineType:DMA, "DMA Controller")
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}
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action(a_ackCallback, "a", desc="Notify dma controller that write request completed") {
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dma_sequencer.ackCallback();
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dma_sequencer.ackCallback(address);
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}
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action(o_checkForCompletion, "o", desc="Check if we have received all the messages required for completion") {
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@ -236,7 +236,7 @@ machine(MachineType:DMA, "DMA Controller")
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action(d_dataCallbackFromTBE, "/d", desc="data callback with data from TBE") {
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assert(is_valid(tbe));
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dma_sequencer.dataCallback(tbe.DataBlk);
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dma_sequencer.dataCallback(tbe.DataBlk, address);
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}
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action(v_allocateTBE, "v", desc="Allocate TBE entry") {
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@ -52,16 +52,38 @@ machine(MachineType:DMA, "DMA Controller")
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Ack, desc="DMA write to memory completed";
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}
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State cur_state;
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structure(TBE, desc="...") {
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State TBEState, desc="Transient state";
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DataBlock DataBlk, desc="Data";
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}
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structure(TBETable, external = "yes") {
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TBE lookup(Addr);
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void allocate(Addr);
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void deallocate(Addr);
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bool isPresent(Addr);
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}
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void set_tbe(TBE b);
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void unset_tbe();
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void wakeUpAllBuffers();
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TBETable TBEs, template="<DMA_TBE>", constructor="m_number_of_TBEs";
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Tick clockEdge();
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State getState(Addr addr) {
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return cur_state;
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State getState(TBE tbe, Addr addr) {
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if (is_valid(tbe)) {
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return tbe.TBEState;
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} else {
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return State:READY;
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}
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}
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void setState(Addr addr, State state) {
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cur_state := state;
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void setState(TBE tbe, Addr addr, State state) {
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if (is_valid(tbe)) {
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tbe.TBEState := state;
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}
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}
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AccessPermission getAccessPermission(Addr addr) {
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@ -85,9 +107,9 @@ machine(MachineType:DMA, "DMA Controller")
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if (dmaRequestQueue_in.isReady(clockEdge())) {
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peek(dmaRequestQueue_in, SequencerMsg) {
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if (in_msg.Type == SequencerRequestType:LD ) {
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trigger(Event:ReadRequest, in_msg.LineAddress);
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trigger(Event:ReadRequest, in_msg.LineAddress, TBEs[in_msg.LineAddress]);
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} else if (in_msg.Type == SequencerRequestType:ST) {
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trigger(Event:WriteRequest, in_msg.LineAddress);
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trigger(Event:WriteRequest, in_msg.LineAddress, TBEs[in_msg.LineAddress]);
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} else {
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error("Invalid request type");
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}
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@ -99,9 +121,9 @@ machine(MachineType:DMA, "DMA Controller")
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if (dmaResponseQueue_in.isReady(clockEdge())) {
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peek( dmaResponseQueue_in, DMAResponseMsg) {
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if (in_msg.Type == DMAResponseType:ACK) {
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trigger(Event:Ack, in_msg.LineAddress);
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trigger(Event:Ack, in_msg.LineAddress, TBEs[in_msg.LineAddress]);
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} else if (in_msg.Type == DMAResponseType:DATA) {
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trigger(Event:Data, in_msg.LineAddress);
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trigger(Event:Data, in_msg.LineAddress, TBEs[in_msg.LineAddress]);
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} else {
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error("Invalid response type");
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}
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@ -140,15 +162,28 @@ machine(MachineType:DMA, "DMA Controller")
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}
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action(a_ackCallback, "a", desc="Notify dma controller that write request completed") {
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peek (dmaResponseQueue_in, DMAResponseMsg) {
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dma_sequencer.ackCallback();
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}
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dma_sequencer.ackCallback(address);
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}
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action(d_dataCallback, "d", desc="Write data to dma sequencer") {
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peek (dmaResponseQueue_in, DMAResponseMsg) {
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dma_sequencer.dataCallback(in_msg.DataBlk);
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dma_sequencer.dataCallback(tbe.DataBlk, address);
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}
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action(t_updateTBEData, "t", desc="Update TBE Data") {
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assert(is_valid(tbe));
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peek(dmaResponseQueue_in, DMAResponseMsg) {
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tbe.DataBlk := in_msg.DataBlk;
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}
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}
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action(v_allocateTBE, "v", desc="Allocate TBE entry") {
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TBEs.allocate(address);
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set_tbe(TBEs[address]);
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}
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action(w_deallocateTBE, "w", desc="Deallocate TBE entry") {
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TBEs.deallocate(address);
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unset_tbe();
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}
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action(p_popRequestQueue, "p", desc="Pop request queue") {
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@ -159,23 +194,42 @@ machine(MachineType:DMA, "DMA Controller")
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dmaResponseQueue_in.dequeue(clockEdge());
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}
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action(zz_stallAndWaitRequestQueue, "zz", desc="...") {
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stall_and_wait(dmaRequestQueue_in, address);
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}
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action(wkad_wakeUpAllDependents, "wkad", desc="wake-up all dependents") {
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wakeUpAllBuffers();
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}
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transition(READY, ReadRequest, BUSY_RD) {
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v_allocateTBE;
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s_sendReadRequest;
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p_popRequestQueue;
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}
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transition(READY, WriteRequest, BUSY_WR) {
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v_allocateTBE;
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s_sendWriteRequest;
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p_popRequestQueue;
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}
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transition(BUSY_RD, Data, READY) {
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t_updateTBEData;
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d_dataCallback;
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w_deallocateTBE;
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p_popResponseQueue;
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wkad_wakeUpAllDependents;
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}
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transition(BUSY_WR, Ack, READY) {
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a_ackCallback;
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w_deallocateTBE;
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p_popResponseQueue;
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wkad_wakeUpAllDependents;
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}
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transition({BUSY_RD,BUSY_WR}, {ReadRequest,WriteRequest}) {
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zz_stallAndWaitRequestQueue;
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}
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}
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@ -50,15 +50,38 @@ machine(MachineType:DMA, "DMA Controller")
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Ack, desc="DMA write to memory completed";
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}
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State cur_state;
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structure(TBE, desc="...") {
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State TBEState, desc="Transient state";
|
||||
DataBlock DataBlk, desc="Data";
|
||||
}
|
||||
|
||||
structure(TBETable, external = "yes") {
|
||||
TBE lookup(Addr);
|
||||
void allocate(Addr);
|
||||
void deallocate(Addr);
|
||||
bool isPresent(Addr);
|
||||
}
|
||||
|
||||
void set_tbe(TBE b);
|
||||
void unset_tbe();
|
||||
void wakeUpAllBuffers();
|
||||
|
||||
TBETable TBEs, template="<DMA_TBE>", constructor="m_number_of_TBEs";
|
||||
|
||||
Tick clockEdge();
|
||||
|
||||
State getState(Addr addr) {
|
||||
return cur_state;
|
||||
State getState(TBE tbe, Addr addr) {
|
||||
if (is_valid(tbe)) {
|
||||
return tbe.TBEState;
|
||||
} else {
|
||||
return State:READY;
|
||||
}
|
||||
}
|
||||
|
||||
void setState(TBE tbe, Addr addr, State state) {
|
||||
if (is_valid(tbe)) {
|
||||
tbe.TBEState := state;
|
||||
}
|
||||
void setState(Addr addr, State state) {
|
||||
cur_state := state;
|
||||
}
|
||||
|
||||
AccessPermission getAccessPermission(Addr addr) {
|
||||
|
@ -82,9 +105,9 @@ machine(MachineType:DMA, "DMA Controller")
|
|||
if (dmaRequestQueue_in.isReady(clockEdge())) {
|
||||
peek(dmaRequestQueue_in, SequencerMsg) {
|
||||
if (in_msg.Type == SequencerRequestType:LD ) {
|
||||
trigger(Event:ReadRequest, in_msg.LineAddress);
|
||||
trigger(Event:ReadRequest, in_msg.LineAddress, TBEs[in_msg.LineAddress]);
|
||||
} else if (in_msg.Type == SequencerRequestType:ST) {
|
||||
trigger(Event:WriteRequest, in_msg.LineAddress);
|
||||
trigger(Event:WriteRequest, in_msg.LineAddress, TBEs[in_msg.LineAddress]);
|
||||
} else {
|
||||
error("Invalid request type");
|
||||
}
|
||||
|
@ -96,9 +119,9 @@ machine(MachineType:DMA, "DMA Controller")
|
|||
if (dmaResponseQueue_in.isReady(clockEdge())) {
|
||||
peek( dmaResponseQueue_in, DMAResponseMsg) {
|
||||
if (in_msg.Type == DMAResponseType:ACK) {
|
||||
trigger(Event:Ack, in_msg.LineAddress);
|
||||
trigger(Event:Ack, in_msg.LineAddress, TBEs[in_msg.LineAddress]);
|
||||
} else if (in_msg.Type == DMAResponseType:DATA) {
|
||||
trigger(Event:Data, in_msg.LineAddress);
|
||||
trigger(Event:Data, in_msg.LineAddress, TBEs[in_msg.LineAddress]);
|
||||
} else {
|
||||
error("Invalid response type");
|
||||
}
|
||||
|
@ -137,15 +160,28 @@ machine(MachineType:DMA, "DMA Controller")
|
|||
}
|
||||
|
||||
action(a_ackCallback, "a", desc="Notify dma controller that write request completed") {
|
||||
peek (dmaResponseQueue_in, DMAResponseMsg) {
|
||||
dma_sequencer.ackCallback();
|
||||
}
|
||||
dma_sequencer.ackCallback(address);
|
||||
}
|
||||
|
||||
action(d_dataCallback, "d", desc="Write data to dma sequencer") {
|
||||
peek (dmaResponseQueue_in, DMAResponseMsg) {
|
||||
dma_sequencer.dataCallback(in_msg.DataBlk);
|
||||
dma_sequencer.dataCallback(tbe.DataBlk, address);
|
||||
}
|
||||
|
||||
action(t_updateTBEData, "t", desc="Update TBE Data") {
|
||||
assert(is_valid(tbe));
|
||||
peek( dmaResponseQueue_in, DMAResponseMsg) {
|
||||
tbe.DataBlk := in_msg.DataBlk;
|
||||
}
|
||||
}
|
||||
|
||||
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();
|
||||
}
|
||||
|
||||
action(p_popRequestQueue, "p", desc="Pop request queue") {
|
||||
|
@ -156,23 +192,43 @@ machine(MachineType:DMA, "DMA Controller")
|
|||
dmaResponseQueue_in.dequeue(clockEdge());
|
||||
}
|
||||
|
||||
action(zz_stallAndWaitRequestQueue, "zz", desc="...") {
|
||||
stall_and_wait(dmaRequestQueue_in, address);
|
||||
}
|
||||
|
||||
action(wkad_wakeUpAllDependents, "wkad", desc="wake-up all dependents") {
|
||||
wakeUpAllBuffers();
|
||||
}
|
||||
|
||||
transition(READY, ReadRequest, BUSY_RD) {
|
||||
v_allocateTBE;
|
||||
s_sendReadRequest;
|
||||
p_popRequestQueue;
|
||||
}
|
||||
|
||||
transition(READY, WriteRequest, BUSY_WR) {
|
||||
v_allocateTBE;
|
||||
s_sendWriteRequest;
|
||||
p_popRequestQueue;
|
||||
}
|
||||
|
||||
transition(BUSY_RD, Data, READY) {
|
||||
t_updateTBEData;
|
||||
d_dataCallback;
|
||||
w_deallocateTBE;
|
||||
p_popResponseQueue;
|
||||
wkad_wakeUpAllDependents;
|
||||
}
|
||||
|
||||
transition(BUSY_WR, Ack, READY) {
|
||||
a_ackCallback;
|
||||
w_deallocateTBE;
|
||||
p_popResponseQueue;
|
||||
wkad_wakeUpAllDependents;
|
||||
}
|
||||
|
||||
transition({BUSY_RD,BUSY_WR}, {ReadRequest,WriteRequest}) {
|
||||
zz_stallAndWaitRequestQueue;
|
||||
}
|
||||
|
||||
}
|
||||
|
|
|
@ -220,8 +220,8 @@ structure (WireBuffer, inport="yes", outport="yes", external = "yes") {
|
|||
}
|
||||
|
||||
structure (DMASequencer, external = "yes") {
|
||||
void ackCallback();
|
||||
void dataCallback(DataBlock);
|
||||
void ackCallback(Addr);
|
||||
void dataCallback(DataBlock,Addr);
|
||||
void recordRequestType(CacheRequestType);
|
||||
}
|
||||
|
||||
|
|
|
@ -35,8 +35,18 @@
|
|||
#include "mem/ruby/system/DMASequencer.hh"
|
||||
#include "mem/ruby/system/RubySystem.hh"
|
||||
|
||||
DMARequest::DMARequest(uint64_t start_paddr, int len, bool write,
|
||||
int bytes_completed, int bytes_issued, uint8_t *data,
|
||||
PacketPtr pkt)
|
||||
: start_paddr(start_paddr), len(len), write(write),
|
||||
bytes_completed(bytes_completed), bytes_issued(bytes_issued), data(data),
|
||||
pkt(pkt)
|
||||
{
|
||||
}
|
||||
|
||||
DMASequencer::DMASequencer(const Params *p)
|
||||
: RubyPort(p)
|
||||
: RubyPort(p), m_outstanding_count(0),
|
||||
m_max_outstanding_requests(p->max_outstanding_requests)
|
||||
{
|
||||
}
|
||||
|
||||
|
@ -44,7 +54,6 @@ void
|
|||
DMASequencer::init()
|
||||
{
|
||||
RubyPort::init();
|
||||
m_is_busy = false;
|
||||
m_data_block_mask = mask(RubySystem::getBlockSizeBits());
|
||||
|
||||
for (const auto &s_port : slave_ports)
|
||||
|
@ -54,7 +63,7 @@ DMASequencer::init()
|
|||
RequestStatus
|
||||
DMASequencer::makeRequest(PacketPtr pkt)
|
||||
{
|
||||
if (m_is_busy) {
|
||||
if (m_outstanding_count == m_max_outstanding_requests) {
|
||||
return RequestStatus_BufferFull;
|
||||
}
|
||||
|
||||
|
@ -63,21 +72,29 @@ DMASequencer::makeRequest(PacketPtr pkt)
|
|||
int len = pkt->getSize();
|
||||
bool write = pkt->isWrite();
|
||||
|
||||
assert(!m_is_busy); // only support one outstanding DMA request
|
||||
m_is_busy = true;
|
||||
assert(m_outstanding_count < m_max_outstanding_requests);
|
||||
Addr line_addr = makeLineAddress(paddr);
|
||||
auto emplace_pair =
|
||||
m_RequestTable.emplace(std::piecewise_construct,
|
||||
std::forward_as_tuple(line_addr),
|
||||
std::forward_as_tuple(paddr, len, write, 0,
|
||||
0, data, pkt));
|
||||
DMARequest& active_request = emplace_pair.first->second;
|
||||
|
||||
active_request.start_paddr = paddr;
|
||||
active_request.write = write;
|
||||
active_request.data = data;
|
||||
active_request.len = len;
|
||||
active_request.bytes_completed = 0;
|
||||
active_request.bytes_issued = 0;
|
||||
active_request.pkt = pkt;
|
||||
// This is pretty conservative. A regular Sequencer with a more beefy
|
||||
// request table that can track multiple requests for a cache line should
|
||||
// be used if a more aggressive policy is needed.
|
||||
if (!emplace_pair.second) {
|
||||
DPRINTF(RubyDma, "DMA aliased: addr %p, len %d\n", line_addr, len);
|
||||
return RequestStatus_Aliased;
|
||||
}
|
||||
|
||||
DPRINTF(RubyDma, "DMA req created: addr %p, len %d\n", line_addr, len);
|
||||
|
||||
std::shared_ptr<SequencerMsg> msg =
|
||||
std::make_shared<SequencerMsg>(clockEdge());
|
||||
msg->getPhysicalAddress() = paddr;
|
||||
msg->getLineAddress() = makeLineAddress(msg->getPhysicalAddress());
|
||||
msg->getLineAddress() = line_addr;
|
||||
msg->getType() = write ? SequencerRequestType_ST : SequencerRequestType_LD;
|
||||
int offset = paddr & m_data_block_mask;
|
||||
|
||||
|
@ -90,6 +107,8 @@ DMASequencer::makeRequest(PacketPtr pkt)
|
|||
}
|
||||
}
|
||||
|
||||
m_outstanding_count++;
|
||||
|
||||
assert(m_mandatory_q_ptr != NULL);
|
||||
m_mandatory_q_ptr->enqueue(msg, clockEdge(), cyclesToTicks(Cycles(1)));
|
||||
active_request.bytes_issued += msg->getLen();
|
||||
|
@ -98,18 +117,22 @@ DMASequencer::makeRequest(PacketPtr pkt)
|
|||
}
|
||||
|
||||
void
|
||||
DMASequencer::issueNext()
|
||||
DMASequencer::issueNext(const Addr& address)
|
||||
{
|
||||
assert(m_is_busy);
|
||||
RequestTable::iterator i = m_RequestTable.find(address);
|
||||
assert(i != m_RequestTable.end());
|
||||
|
||||
DMARequest &active_request = i->second;
|
||||
|
||||
assert(m_outstanding_count <= m_max_outstanding_requests);
|
||||
active_request.bytes_completed = active_request.bytes_issued;
|
||||
if (active_request.len == active_request.bytes_completed) {
|
||||
//
|
||||
// Must unset the busy flag before calling back the dma port because
|
||||
// the callback may cause a previously nacked request to be reissued
|
||||
//
|
||||
DPRINTF(RubyDma, "DMA request completed\n");
|
||||
m_is_busy = false;
|
||||
ruby_hit_callback(active_request.pkt);
|
||||
DPRINTF(RubyDma, "DMA request completed: addr %p, size %d\n",
|
||||
address, active_request.len);
|
||||
m_outstanding_count--;
|
||||
PacketPtr pkt = active_request.pkt;
|
||||
m_RequestTable.erase(i);
|
||||
ruby_hit_callback(pkt);
|
||||
return;
|
||||
}
|
||||
|
||||
|
@ -146,9 +169,13 @@ DMASequencer::issueNext()
|
|||
}
|
||||
|
||||
void
|
||||
DMASequencer::dataCallback(const DataBlock & dblk)
|
||||
DMASequencer::dataCallback(const DataBlock & dblk, const Addr& address)
|
||||
{
|
||||
assert(m_is_busy);
|
||||
|
||||
RequestTable::iterator i = m_RequestTable.find(address);
|
||||
assert(i != m_RequestTable.end());
|
||||
|
||||
DMARequest &active_request = i->second;
|
||||
int len = active_request.bytes_issued - active_request.bytes_completed;
|
||||
int offset = 0;
|
||||
if (active_request.bytes_completed == 0)
|
||||
|
@ -158,13 +185,16 @@ DMASequencer::dataCallback(const DataBlock & dblk)
|
|||
memcpy(&active_request.data[active_request.bytes_completed],
|
||||
dblk.getData(offset, len), len);
|
||||
}
|
||||
issueNext();
|
||||
issueNext(address);
|
||||
}
|
||||
|
||||
void
|
||||
DMASequencer::ackCallback()
|
||||
DMASequencer::ackCallback(const Addr& address)
|
||||
{
|
||||
issueNext();
|
||||
RequestTable::iterator i = m_RequestTable.find(address);
|
||||
assert(i != m_RequestTable.end());
|
||||
|
||||
issueNext(address);
|
||||
}
|
||||
|
||||
void
|
||||
|
|
|
@ -31,14 +31,19 @@
|
|||
|
||||
#include <memory>
|
||||
#include <ostream>
|
||||
#include <unordered_map>
|
||||
|
||||
#include "mem/protocol/DMASequencerRequestType.hh"
|
||||
#include "mem/ruby/common/Address.hh"
|
||||
#include "mem/ruby/common/DataBlock.hh"
|
||||
#include "mem/ruby/system/RubyPort.hh"
|
||||
#include "params/DMASequencer.hh"
|
||||
|
||||
struct DMARequest
|
||||
{
|
||||
DMARequest(uint64_t start_paddr, int len, bool write, int bytes_completed,
|
||||
int bytes_issued, uint8_t *data, PacketPtr pkt);
|
||||
|
||||
uint64_t start_paddr;
|
||||
int len;
|
||||
bool write;
|
||||
|
@ -57,23 +62,27 @@ class DMASequencer : public RubyPort
|
|||
|
||||
/* external interface */
|
||||
RequestStatus makeRequest(PacketPtr pkt) override;
|
||||
bool busy() { return m_is_busy;}
|
||||
int outstandingCount() const override { return (m_is_busy ? 1 : 0); }
|
||||
bool busy() { return m_outstanding_count > 0; }
|
||||
int outstandingCount() const override { return m_outstanding_count; }
|
||||
bool isDeadlockEventScheduled() const override { return false; }
|
||||
void descheduleDeadlockEvent() override {}
|
||||
|
||||
/* SLICC callback */
|
||||
void dataCallback(const DataBlock & dblk);
|
||||
void ackCallback();
|
||||
void dataCallback(const DataBlock &dblk, const Addr &addr);
|
||||
void ackCallback(const Addr &addr);
|
||||
|
||||
void recordRequestType(DMASequencerRequestType requestType);
|
||||
|
||||
private:
|
||||
void issueNext();
|
||||
void issueNext(const Addr &addr);
|
||||
|
||||
bool m_is_busy;
|
||||
uint64_t m_data_block_mask;
|
||||
DMARequest active_request;
|
||||
|
||||
typedef std::unordered_map<Addr, DMARequest> RequestTable;
|
||||
RequestTable m_RequestTable;
|
||||
|
||||
int m_outstanding_count;
|
||||
int m_max_outstanding_requests;
|
||||
};
|
||||
|
||||
#endif // __MEM_RUBY_SYSTEM_DMASEQUENCER_HH__
|
||||
|
|
|
@ -81,3 +81,4 @@ class RubySequencer(RubyPort):
|
|||
class DMASequencer(RubyPort):
|
||||
type = 'DMASequencer'
|
||||
cxx_header = "mem/ruby/system/DMASequencer.hh"
|
||||
max_outstanding_requests = Param.Int(64, "max outstanding requests")
|
||||
|
|
Loading…
Reference in a new issue