From: Radhika Jagtap Date: Mon, 7 Dec 2015 22:42:16 +0000 (-0600) Subject: cpu: Create record type enum for elastic traces X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=3080bbcc365e6ed663787a4c06cd2b7c4a118d47;p=gem5.git cpu: Create record type enum for elastic traces This patch replaces the booleans that specified the elastic trace record type with an enum type. The source of change is the proto message for elastic trace where the enum is introduced. The struct definitions in the elastic trace probe listener as well as the Trace CPU replace the boleans with the proto message enum. The patch does not impact functionality, but traces are not compatible with previous version. This is preparation for adding new types of records in subsequent patches. --- diff --git a/src/cpu/o3/probe/elastic_trace.cc b/src/cpu/o3/probe/elastic_trace.cc index a7a0403f9..e1a41b696 100644 --- a/src/cpu/o3/probe/elastic_trace.cc +++ b/src/cpu/o3/probe/elastic_trace.cc @@ -384,9 +384,10 @@ ElasticTrace::addDepTraceRecord(const DynInstPtr &head_inst, // Assign fields from the instruction new_record->instNum = head_inst->seqNum; - new_record->load = head_inst->isLoad(); - new_record->store = head_inst->isStore(); new_record->commit = commit; + new_record->type = head_inst->isLoad() ? Record::LOAD : + (head_inst->isStore() ? Record::STORE : + Record::COMP); // Assign fields for creating a request in case of a load/store new_record->reqFlags = head_inst->memReqFlags; @@ -503,7 +504,7 @@ void ElasticTrace::updateCommitOrderDep(TraceInfo* new_record, bool find_load_not_store) { - assert(new_record->store); + assert(new_record->isStore()); // Iterate in reverse direction to search for the last committed // load/store that completed earlier than the new record depTraceRevItr from_itr(depTrace.end()); @@ -552,11 +553,11 @@ ElasticTrace::updateIssueOrderDep(TraceInfo* new_record) uint32_t num_go_back = 0; Tick execute_tick = 0; - if (new_record->load) { + if (new_record->isLoad()) { // The execution time of a load is when a request is sent execute_tick = new_record->executeTick; ++numIssueOrderDepLoads; - } else if (new_record->store) { + } else if (new_record->isStore()) { // The execution time of a store is when it is sent, i.e. committed execute_tick = curTick(); ++numIssueOrderDepStores; @@ -589,10 +590,8 @@ ElasticTrace::updateIssueOrderDep(TraceInfo* new_record) void ElasticTrace::assignRobDep(TraceInfo* past_record, TraceInfo* new_record) { DPRINTF(ElasticTrace, "%s %lli has ROB dependency on %lli\n", - new_record->load ? "Load" : (new_record->store ? "Store" : - "Non load/store"), - new_record->instNum, past_record->instNum); - + new_record->typeToStr(), new_record->instNum, + past_record->instNum); // Add dependency on past record new_record->robDepList.push_back(past_record->instNum); // Update new_record's compute delay with respect to the past record @@ -608,14 +607,14 @@ bool ElasticTrace::hasStoreCommitted(TraceInfo* past_record, Tick execute_tick) const { - return (past_record->store && past_record->commitTick <= execute_tick); + return (past_record->isStore() && past_record->commitTick <= execute_tick); } bool ElasticTrace::hasLoadCompleted(TraceInfo* past_record, Tick execute_tick) const { - return(past_record->load && past_record->commit && + return(past_record->isLoad() && past_record->commit && past_record->toCommitTick <= execute_tick); } @@ -624,7 +623,7 @@ ElasticTrace::hasLoadBeenSent(TraceInfo* past_record, Tick execute_tick) const { // Check if previous inst is a load sent earlier than this - return (past_record->load && past_record->commit && + return (past_record->isLoad() && past_record->commit && past_record->executeTick <= execute_tick); } @@ -632,8 +631,7 @@ bool ElasticTrace::hasCompCompleted(TraceInfo* past_record, Tick execute_tick) const { - return(!past_record->store && !past_record->load && - past_record->toCommitTick <= execute_tick); + return(past_record->isComp() && past_record->toCommitTick <= execute_tick); } void @@ -674,15 +672,15 @@ ElasticTrace::compDelayRob(TraceInfo* past_record, TraceInfo* new_record) // computation delay execution_tick = new_record->getExecuteTick(); - if (past_record->load) { - if (new_record->store) { + if (past_record->isLoad()) { + if (new_record->isStore()) { completion_tick = past_record->toCommitTick; } else { completion_tick = past_record->executeTick; } - } else if (past_record->store) { + } else if (past_record->isStore()) { completion_tick = past_record->commitTick; - } else { + } else if (past_record->isComp()){ completion_tick = past_record->toCommitTick; } assert(execution_tick >= completion_tick); @@ -722,7 +720,7 @@ ElasticTrace::compDelayPhysRegDep(TraceInfo* past_record, // completion tick of that instruction is when it wrote to the register, // that is toCommitTick. In case, of a store updating a destination // register, this is approximated to commitTick instead - if (past_record->store) { + if (past_record->isStore()) { completion_tick = past_record->commitTick; } else { completion_tick = past_record->toCommitTick; @@ -745,11 +743,11 @@ ElasticTrace::compDelayPhysRegDep(TraceInfo* past_record, Tick ElasticTrace::TraceInfo::getExecuteTick() const { - if (load) { + if (isLoad()) { // Execution tick for a load instruction is when the request was sent, // that is executeTick. return executeTick; - } else if (store) { + } else if (isStore()) { // Execution tick for a store instruction is when the request was sent, // that is commitTick. return commitTick; @@ -779,27 +777,26 @@ ElasticTrace::writeDepTrace(uint32_t num_to_write) depTraceItr dep_trace_itr_start = dep_trace_itr; while (num_to_write > 0) { TraceInfo* temp_ptr = *dep_trace_itr; - // If no node dependends on a non load/store node then there is - // no reason to track it in the dependency graph. We filter out such + assert(temp_ptr->type != Record::INVALID); + // If no node dependends on a comp node then there is no reason to + // track the comp node in the dependency graph. We filter out such // nodes but count them and add a weight field to the subsequent node // that we do include in the trace. - if (temp_ptr->numDepts != 0 || temp_ptr->load || temp_ptr->store) { - + if (!temp_ptr->isComp() || temp_ptr->numDepts != 0) { DPRINTFR(ElasticTrace, "Instruction with seq. num %lli " "is as follows:\n", temp_ptr->instNum); - if (temp_ptr->load || temp_ptr->store) { - DPRINTFR(ElasticTrace, "\tis a %s\n", - (temp_ptr->load ? "Load" : "Store")); + if (temp_ptr->isLoad() || temp_ptr->isStore()) { + DPRINTFR(ElasticTrace, "\tis a %s\n", temp_ptr->typeToStr()); DPRINTFR(ElasticTrace, "\thas a request with addr %i, size %i," " flags %i\n", temp_ptr->addr, temp_ptr->size, temp_ptr->reqFlags); } else { - DPRINTFR(ElasticTrace, "\tis not a load or store\n"); + DPRINTFR(ElasticTrace, "\tis a %s\n", temp_ptr->typeToStr()); } if (firstWin && temp_ptr->compDelay == -1) { - if (temp_ptr->load) { + if (temp_ptr->isLoad()) { temp_ptr->compDelay = temp_ptr->executeTick; - } else if (temp_ptr->store) { + } else if (temp_ptr->isStore()) { temp_ptr->compDelay = temp_ptr->commitTick; } else { temp_ptr->compDelay = temp_ptr->toCommitTick; @@ -812,10 +809,9 @@ ElasticTrace::writeDepTrace(uint32_t num_to_write) // Create a protobuf message for the dependency record ProtoMessage::InstDepRecord dep_pkt; dep_pkt.set_seq_num(temp_ptr->instNum); - dep_pkt.set_load(temp_ptr->load); - dep_pkt.set_store(temp_ptr->store); + dep_pkt.set_type(temp_ptr->type); dep_pkt.set_pc(temp_ptr->pc); - if (temp_ptr->load || temp_ptr->store) { + if (temp_ptr->isLoad() || temp_ptr->isStore()) { dep_pkt.set_flags(temp_ptr->reqFlags); dep_pkt.set_addr(temp_ptr->addr); dep_pkt.set_size(temp_ptr->size); @@ -916,6 +912,12 @@ ElasticTrace::regStats() { ; } +const std::string& +ElasticTrace::TraceInfo::typeToStr() const +{ + return Record::RecordType_Name(type); +} + const std::string ElasticTrace::name() const { diff --git a/src/cpu/o3/probe/elastic_trace.hh b/src/cpu/o3/probe/elastic_trace.hh index 5dd2949e8..001dc0e13 100644 --- a/src/cpu/o3/probe/elastic_trace.hh +++ b/src/cpu/o3/probe/elastic_trace.hh @@ -92,6 +92,10 @@ class ElasticTrace : public ProbeListenerObject typedef typename O3CPUImpl::DynInstPtr DynInstPtr; typedef typename std::pair SeqNumRegPair; + /** Trace record types corresponding to instruction node types */ + typedef ProtoMessage::InstDepRecord::RecordType RecordType; + typedef ProtoMessage::InstDepRecord Record; + /** Constructor */ ElasticTrace(const ElasticTraceParams *params); @@ -260,14 +264,16 @@ class ElasticTrace : public ProbeListenerObject */ /* Instruction sequence number. */ InstSeqNum instNum; + /** The type of trace record for the instruction node */ + RecordType type; /* Tick when instruction was in execute stage. */ Tick executeTick; /* Tick when instruction was marked ready and sent to commit stage. */ Tick toCommitTick; /* Tick when instruction was committed. */ Tick commitTick; - /* If instruction was a load, a store, committed. */ - bool load, store, commit; + /* If instruction was committed, as against squashed. */ + bool commit; /* List of order dependencies. */ std::list robDepList; /* List of physical register RAW dependencies. */ @@ -287,6 +293,18 @@ class ElasticTrace : public ProbeListenerObject Addr addr; /* Request size in case of a load/store instruction */ unsigned size; + /** Default Constructor */ + TraceInfo() + : type(Record::INVALID) + { } + /** Is the record a load */ + bool isLoad() const { return (type == Record::LOAD); } + /** Is the record a store */ + bool isStore() const { return (type == Record::STORE); } + /** Is the record a fetch triggering an Icache request */ + bool isComp() const { return (type == Record::COMP); } + /** Return string specifying the type of the node */ + const std::string& typeToStr() const; /** @} */ /** diff --git a/src/cpu/trace/trace_cpu.cc b/src/cpu/trace/trace_cpu.cc index 2e989f6ff..ffa64014a 100644 --- a/src/cpu/trace/trace_cpu.cc +++ b/src/cpu/trace/trace_cpu.cc @@ -453,7 +453,7 @@ TraceCPU::ElasticDataGen::execute() ++numRetrySucceeded; retryPkt = nullptr; } - } else if (node_ptr->isLoad || node_ptr->isStore) { + } else if (node_ptr->isLoad() || node_ptr->isStore()) { // If there is no retryPkt, attempt to send a memory request in // case of a load or store node. If the send fails, executeMemReq() // returns a packet pointer, which we save in retryPkt. In case of @@ -474,7 +474,7 @@ TraceCPU::ElasticDataGen::execute() // dependencies complete. But as per dependency modelling we need // to mark ROB dependencies of load and non load/store nodes which // are based on successful sending of the load as complete. - if (node_ptr->isLoad && !node_ptr->isStrictlyOrdered()) { + if (node_ptr->isLoad() && !node_ptr->isStrictlyOrdered()) { // If execute succeeded mark its dependents as complete DPRINTF(TraceCPUData, "Node seq. num %lli sent. Waking up " "dependents..\n", node_ptr->seqNum); @@ -483,7 +483,7 @@ TraceCPU::ElasticDataGen::execute() while (child_itr != (node_ptr->dependents).end()) { // ROB dependency of a store on a load must not be removed // after load is sent but after response is received - if (!(*child_itr)->isStore && + if (!(*child_itr)->isStore() && (*child_itr)->removeRobDep(node_ptr->seqNum)) { // Check if the child node has become dependency free @@ -530,7 +530,7 @@ TraceCPU::ElasticDataGen::execute() // marked complete. Thus it is safe to delete it. For // stores and non load/store nodes all dependencies were // marked complete so it is safe to delete it. - if (!node_ptr->isLoad || node_ptr->isStrictlyOrdered()) { + if (!node_ptr->isLoad() || node_ptr->isStrictlyOrdered()) { // Release all resources occupied by the completed node hwResource.release(node_ptr); // clear the dynamically allocated set of dependents @@ -604,7 +604,7 @@ TraceCPU::ElasticDataGen::executeMemReq(GraphNode* node_ptr) // If the request is strictly ordered, do not send it. Just return nullptr // as if it was succesfully sent. if (node_ptr->isStrictlyOrdered()) { - node_ptr->isLoad ? ++numSOLoads : ++numSOStores; + node_ptr->isLoad() ? ++numSOLoads : ++numSOStores; DPRINTF(TraceCPUData, "Skipping strictly ordered request %lli.\n", node_ptr->seqNum); return nullptr; @@ -630,7 +630,7 @@ TraceCPU::ElasticDataGen::executeMemReq(GraphNode* node_ptr) req->setPC(node_ptr->pc); PacketPtr pkt; uint8_t* pkt_data = new uint8_t[req->getSize()]; - if (node_ptr->isLoad) { + if (node_ptr->isLoad()) { pkt = Packet::createRead(req); } else { pkt = Packet::createWrite(req); @@ -664,8 +664,7 @@ TraceCPU::ElasticDataGen::checkAndIssue(const GraphNode* node_ptr, bool first) // If this is the first attempt, print a debug message to indicate this. if (first) { DPRINTFR(TraceCPUData, "\t\tseq. num %lli(%s) with rob num %lli is now" - " dependency free.\n", node_ptr->seqNum, - node_ptr->isLoad ? "L" : (node_ptr->isStore ? "S" : "C"), + " dependency free.\n", node_ptr->seqNum, node_ptr->typeToStr(), node_ptr->robNum); } @@ -831,8 +830,7 @@ TraceCPU::ElasticDataGen::printReadyList() { auto graph_itr = depGraph.find(itr->seqNum); GraphNode* node_ptr M5_VAR_USED = graph_itr->second; DPRINTFR(TraceCPUData, "\t%lld(%s), %lld\n", itr->seqNum, - node_ptr->isLoad ? "L" : (node_ptr->isStore ? "S" : "C"), - itr->execTick); + node_ptr->typeToStr(), itr->execTick); itr++; } } @@ -857,9 +855,9 @@ TraceCPU::ElasticDataGen::HardwareResource::occupy(const GraphNode* new_node) oldestInFlightRobNum = inFlightNodes.begin()->second; // Occupy Load/Store Buffer entry for the issued node if applicable - if (new_node->isLoad) { + if (new_node->isLoad()) { ++numInFlightLoads; - } else if (new_node->isStore) { + } else if (new_node->isStore()) { ++numInFlightStores; } // else if it is a non load/store node, no buffer entry is occupied @@ -894,7 +892,7 @@ TraceCPU::ElasticDataGen::HardwareResource::release(const GraphNode* done_node) // freed. But it occupies an entry in the Store Buffer until its response // is received. A load is considered complete when a response is received, // thus both ROB and Load Buffer entries can be released. - if (done_node->isLoad) { + if (done_node->isLoad()) { assert(numInFlightLoads != 0); --numInFlightLoads; } @@ -902,7 +900,7 @@ TraceCPU::ElasticDataGen::HardwareResource::release(const GraphNode* done_node) // entry on response. For writes which are strictly ordered, for e.g. // writes to device registers, we do that within release() which is called // when node is executed and taken off from readyList. - if (done_node->isStore && done_node->isStrictlyOrdered()) { + if (done_node->isStore() && done_node->isStrictlyOrdered()) { releaseStoreBuffer(); } } @@ -949,10 +947,10 @@ TraceCPU::ElasticDataGen::HardwareResource::isAvailable( if (num_in_flight_nodes >= sizeROB) { return false; } - if (new_node->isLoad && numInFlightLoads >= sizeLoadBuffer) { + if (new_node->isLoad() && numInFlightLoads >= sizeLoadBuffer) { return false; } - if (new_node->isStore && numInFlightStores >= sizeStoreBuffer) { + if (new_node->isStore() && numInFlightStores >= sizeStoreBuffer) { return false; } return true; @@ -1250,8 +1248,7 @@ TraceCPU::ElasticDataGen::InputStream::read(GraphNode* element) if (trace.read(pkt_msg)) { // Required fields element->seqNum = pkt_msg.seq_num(); - element->isLoad = pkt_msg.load(); - element->isStore = pkt_msg.store(); + element->type = pkt_msg.type(); element->compDelay = pkt_msg.comp_delay(); // Repeated field robDepList @@ -1384,9 +1381,8 @@ void TraceCPU::ElasticDataGen::GraphNode::writeElementAsTrace() const { DPRINTFR(TraceCPUData, "%lli", seqNum); - DPRINTFR(TraceCPUData, ",%s", (isLoad ? "True" : "False")); - DPRINTFR(TraceCPUData, ",%s", (isStore ? "True" : "False")); - if (isLoad || isStore) { + DPRINTFR(TraceCPUData, ",%s", typeToStr()); + if (isLoad() || isStore()) { DPRINTFR(TraceCPUData, ",%i", addr); DPRINTFR(TraceCPUData, ",%i", size); DPRINTFR(TraceCPUData, ",%i", flags); @@ -1414,6 +1410,12 @@ TraceCPU::ElasticDataGen::GraphNode::writeElementAsTrace() const DPRINTFR(TraceCPUData, "\n"); } +std::string +TraceCPU::ElasticDataGen::GraphNode::typeToStr() const +{ + return Record::RecordType_Name(type); +} + TraceCPU::FixedRetryGen::InputStream::InputStream(const std::string& filename) : trace(filename) { diff --git a/src/cpu/trace/trace_cpu.hh b/src/cpu/trace/trace_cpu.hh index 3a869ebe0..751321491 100644 --- a/src/cpu/trace/trace_cpu.hh +++ b/src/cpu/trace/trace_cpu.hh @@ -561,6 +561,9 @@ class TraceCPU : public BaseCPU /** Node ROB number type. */ typedef uint64_t NodeRobNum; + typedef ProtoMessage::InstDepRecord::RecordType RecordType; + typedef ProtoMessage::InstDepRecord Record; + /** * The struct GraphNode stores an instruction in the trace file. The * format of the trace file favours constructing a dependency graph of @@ -589,11 +592,8 @@ class TraceCPU : public BaseCPU /** ROB occupancy number */ NodeRobNum robNum; - /** If instruction is a load */ - bool isLoad; - - /** If instruction is a store */ - bool isStore; + /** Type of the node corresponding to the instruction modelled by it */ + RecordType type; /** The address for the request if any */ Addr addr; @@ -632,6 +632,15 @@ class TraceCPU : public BaseCPU */ std::vector dependents; + /** Is the node a load */ + bool isLoad() const { return (type == Record::LOAD); } + + /** Is the node a store */ + bool isStore() const { return (type == Record::STORE); } + + /** Is the node a compute (non load/store) node */ + bool isComp() const { return (type == Record::COMP); } + /** Initialize register dependency array to all zeroes */ void clearRegDep(); @@ -656,6 +665,9 @@ class TraceCPU : public BaseCPU * TraceCPUData. */ void writeElementAsTrace() const; + + /** Return string specifying the type of the node */ + std::string typeToStr() const; }; /** Struct to store a ready-to-execute node and its execution tick. */ diff --git a/src/proto/inst_dep_record.proto b/src/proto/inst_dep_record.proto index 7035bfc74..98c070efc 100644 --- a/src/proto/inst_dep_record.proto +++ b/src/proto/inst_dep_record.proto @@ -50,26 +50,31 @@ message InstDepRecordHeader { } // Packet to encapsulate an instruction in the o3cpu data dependency trace. -// The required fields include the instruction sequence number, whether it -// is a load, and whether it is a store. The request related fields are -// optional, namely address, size and flags. These exist only if the -// instruction is a load or store. The dependency related information includes -// a repeated field for order dependencies, a repeated field for register -// dependencies and the computational delay with respect to the dependency -// that completed last. A weight field is used to account for committed -// instructions that were filtered out before writing the trace and is used -// to estimate ROB occupancy during replay. An optional field is provided for -// the instruction PC. +// The required fields include the instruction sequence number and the type +// of the record associated with the instruction e.g. load. The request related +// fields are optional, namely address, size and flags. The dependency related +// information includes a repeated field for order dependencies and register +// dependencies for loads, stores and comp records. There is a field for the +// computational delay with respect to the dependency that completed last. A +// weight field is used to account for committed instruction that were +// filtered out before writing the trace and is used to estimate ROB +// occupancy during replay. An optional field is provided for the instruction +// PC. message InstDepRecord { + enum RecordType { + INVALID = 0; + LOAD = 1; + STORE = 2; + COMP = 3; + } required uint64 seq_num = 1; - required bool load = 2; - required bool store = 3; - optional uint64 addr = 4; - optional uint32 size = 5; - optional uint32 flags = 6; - repeated uint64 rob_dep = 7; - required uint64 comp_delay = 8; - repeated uint64 reg_dep = 9; - optional uint32 weight = 10; - optional uint64 pc = 11; -} + required RecordType type = 2 [default = INVALID]; + optional uint64 addr = 3; + optional uint32 size = 4; + optional uint32 flags = 5; + repeated uint64 rob_dep = 6; + required uint64 comp_delay = 7; + repeated uint64 reg_dep = 8; + optional uint32 weight = 9; + optional uint64 pc = 10; +} \ No newline at end of file diff --git a/util/decode_inst_dep_trace.py b/util/decode_inst_dep_trace.py index 63c958d6d..2e7e6381c 100755 --- a/util/decode_inst_dep_trace.py +++ b/util/decode_inst_dep_trace.py @@ -71,20 +71,23 @@ # graph to ASCII format. # # The ASCII trace format uses one line per instruction with the format -# instruction sequence number, (optional) pc, (optional) weight, load, store, +# instruction sequence number, (optional) pc, (optional) weight, type # (optional) flags, (optional) addr, (optional) size, comp delay, # (repeated) order dependencies comma-separated, and (repeated) register # dependencies comma-separated. # # examples: -# seq_num,[pc],[weight,]load,store,[address,size,flags,]comp_delay:[rob_dep]: +# seq_num,[pc],[weight,]type,[address,size,flags,]comp_delay:[rob_dep]: # [reg_dep] -# 1,1,False,False,8500:: -# 2,1,False,False,1000:,1: -# 3,1,True,False,831248,4,74,500:,2: -# 4,1,False,False,0:,2: -# 5,1,False,False,500::,4 -# 6,1,False,True,831248,4,74,1000:,3:,4,5 +# 1,35652,1,COMP,8500:: +# 2,35656,1,COMP,0:,1: +# 3,35660,1,LOAD,1748752,4,74,500:,2: +# 4,35660,1,COMP,0:,3: +# 5,35664,1,COMP,3000::,4 +# 6,35666,1,STORE,1748752,4,74,1000:,3:,4,5 +# 7,35666,1,COMP,3000::,4 +# 8,35670,1,STORE,1748748,4,74,0:,6,3:,7 +# 9,35670,1,COMP,500::,7 import protolib import sys @@ -138,6 +141,13 @@ def main(): print "Parsing packets" + print "Creating enum value,name lookup from proto" + enumNames = {} + desc = inst_dep_record_pb2.InstDepRecord.DESCRIPTOR + for namestr, valdesc in desc.enum_values_by_name.items(): + print '\t', valdesc.number, namestr + enumNames[valdesc.number] = namestr + num_packets = 0 num_regdeps = 0 num_robdeps = 0 @@ -159,8 +169,14 @@ def main(): ascii_out.write(',%s' % (packet.weight)) else: ascii_out.write(',1') - # Write to file if it is a load and if it is a store - ascii_out.write(',%s,%s' % (packet.load, packet.store)) + # Write to file the type of the record + try: + ascii_out.write(',%s' % enumNames[packet.type]) + except KeyError: + print "Seq. num", packet.seq_num, "has unsupported type", \ + packet.type + exit(-1) + # Write to file if it has the optional fields addr, size, flags if packet.HasField('addr'): diff --git a/util/encode_inst_dep_trace.py b/util/encode_inst_dep_trace.py index 9e2b1613f..6293fb0ab 100755 --- a/util/encode_inst_dep_trace.py +++ b/util/encode_inst_dep_trace.py @@ -71,20 +71,23 @@ # graph to protobuf format. # # The ASCII trace format uses one line per instruction with the format -# instruction sequence number, (optional) pc, (optional) weight, load, store, +# instruction sequence number, (optional) pc, (optional) weight, type, # (optional) flags, (optional) addr, (optional) size, comp delay, # (repeated) order dependencies comma-separated, and (repeated) register # dependencies comma-separated. # # examples: -# seq_num,[pc],[weight,]load,store,[address,size,flags,]comp_delay:[rob_dep]: +# seq_num,[pc],[weight,]type,[address,size,flags,]comp_delay:[rob_dep]: # [reg_dep] -# 1,1,False,False,8500:: -# 2,1,False,False,1000:,1: -# 3,1,True,False,831248,4,74,500:,2: -# 4,1,False,False,0:,2: -# 5,1,False,False,500::,4 -# 6,1,False,True,831248,4,74,1000:,3:,4,5 +# 1,35652,1,COMP,8500:: +# 2,35656,1,COMP,0:,1: +# 3,35660,1,LOAD,1748752,4,74,500:,2: +# 4,35660,1,COMP,0:,3: +# 5,35664,1,COMP,3000::,4 +# 6,35666,1,STORE,1748752,4,74,1000:,3:,4,5 +# 7,35666,1,COMP,3000::,4 +# 8,35670,1,STORE,1748748,4,74,0:,6,3:,7 +# 9,35670,1,COMP,500::,7 import protolib import sys @@ -106,6 +109,8 @@ except: print "Failed to import proto definitions" exit(-1) +DepRecord = inst_dep_record_pb2.InstDepRecord + def main(): if len(sys.argv) != 3: print "Usage: ", sys.argv[0], " " @@ -133,34 +138,46 @@ def main(): header.window_size = 120 protolib.encodeMessage(proto_out, header) + print "Creating enum name,value lookup from proto" + enumValues = {} + for namestr, valdesc in DepRecord.DESCRIPTOR.enum_values_by_name.items(): + print '\t', namestr, valdesc.number + enumValues[namestr] = valdesc.number + num_records = 0 # For each line in the ASCII trace, create a packet message and # write it to the encoded output for line in ascii_in: inst_info_str, rob_dep_str, reg_dep_str = (line.strip()).split(':') inst_info_list = inst_info_str.split(',') - dep_record = inst_dep_record_pb2.InstDepRecord() + dep_record = DepRecord() dep_record.seq_num = long(inst_info_list[0]) dep_record.pc = long(inst_info_list[1]) dep_record.weight = long(inst_info_list[2]) - dep_record.load = True if inst_info_list[3] == 'True' else False - dep_record.store = True if inst_info_list[4] == 'True' else False + # If the type is not one of the enum values, it should be a key error + try: + dep_record.type = enumValues[inst_info_list[3]] + except KeyError: + print "Seq. num", dep_record.seq_num, "has unsupported type", \ + inst_info_list[3] + exit(-1) + + if dep_record.type == DepRecord.INVALID: + print "Seq. num", dep_record.seq_num, "is of INVALID type" + exit(-1) # If the instruction is a load or store record the addr, size flags # in addition to recording the computation delay - if dep_record.load or dep_record.store: - addr, size, flags, comp_delay = inst_info_list[5:9] + if dep_record.type in [DepRecord.LOAD, DepRecord.STORE]: + addr, size, flags, comp_delay = inst_info_list[4:8] dep_record.addr = long(addr) dep_record.size = int(size) dep_record.flags = int(flags) dep_record.comp_delay = long(comp_delay) - elif not dep_record.load and not dep_record.store: + else: comp_delay = inst_info_list[4] dep_record.comp_delay = long(comp_delay) - else: - print "Fatal:", seq_num, "is both load and store" - exit(1) # Parse the register and order dependencies both of which are # repeated fields. An empty list is valid.