gem5/src/mem/ruby/system/System.cc

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/*
* 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.
*/
/*
* RubySystem.cc
*
* Description: See System.hh
*
* $Id$
*
*/
#include "mem/ruby/system/System.hh"
#include "mem/ruby/common/Address.hh"
#include "mem/ruby/profiler/Profiler.hh"
#include "mem/ruby/network/Network.hh"
#include "mem/ruby/recorder/Tracer.hh"
#include "mem/protocol/Protocol.hh"
#include "mem/ruby/buffers/MessageBuffer.hh"
#include "mem/ruby/system/Sequencer.hh"
#include "mem/ruby/system/DMASequencer.hh"
#include "mem/ruby/system/MemoryVector.hh"
#include "mem/protocol/ControllerFactory.hh"
#include "mem/ruby/slicc_interface/AbstractController.hh"
#include "mem/ruby/system/CacheMemory.hh"
#include "mem/ruby/system/DirectoryMemory.hh"
#include "mem/ruby/network/simple/Topology.hh"
#include "mem/ruby/network/simple/SimpleNetwork.hh"
#include "mem/ruby/system/RubyPort.hh"
#include "mem/ruby/network/garnet-flexible-pipeline/GarnetNetwork.hh"
#include "mem/ruby/network/garnet-fixed-pipeline/GarnetNetwork_d.hh"
#include "mem/ruby/system/MemoryControl.hh"
int RubySystem::m_random_seed;
bool RubySystem::m_randomization;
int RubySystem::m_tech_nm;
int RubySystem::m_freq_mhz;
int RubySystem::m_block_size_bytes;
int RubySystem::m_block_size_bits;
uint64 RubySystem::m_memory_size_bytes;
int RubySystem::m_memory_size_bits;
map< string, RubyPort* > RubySystem::m_ports;
map< string, CacheMemory* > RubySystem::m_caches;
map< string, DirectoryMemory* > RubySystem::m_directories;
map< string, Sequencer* > RubySystem::m_sequencers;
map< string, DMASequencer* > RubySystem::m_dma_sequencers;
map< string, AbstractController* > RubySystem::m_controllers;
map< string, MemoryControl* > RubySystem::m_memorycontrols;
Network* RubySystem::m_network_ptr;
map< string, Topology*> RubySystem::m_topologies;
Profiler* RubySystem::m_profiler_ptr;
Tracer* RubySystem::m_tracer_ptr;
MemoryVector* RubySystem::m_mem_vec_ptr;
RubySystem* RubySystem::create(const vector <RubyObjConf> & sys_conf)
{
if (g_system_ptr == NULL)
return new RubySystem(sys_conf);
return g_system_ptr;
}
void RubySystem::init(const vector<string> & argv)
{
for (size_t i=0; i < argv.size(); i+=2) {
if (argv[i] == "random_seed") {
m_random_seed = atoi(argv[i+1].c_str());
srandom(m_random_seed);
} else if (argv[i] == "randomization") {
m_randomization = string_to_bool(argv[i+1]);
} else if (argv[i] == "tech_nm") {
m_tech_nm = atoi(argv[i+1].c_str());
} else if (argv[i] == "freq_mhz") {
m_freq_mhz = atoi(argv[i+1].c_str());
} else if (argv[i] == "block_size_bytes") {
m_block_size_bytes = atoi(argv[i+1].c_str());
assert(is_power_of_2(m_block_size_bytes));
m_block_size_bits = log_int(m_block_size_bytes);
} else if (argv[i] == "debug") {
} else if (argv[i] == "tracer") {
} else if (argv[i] == "profiler") {
// } else if (argv[i] == "MI_example") {
} else {
cerr << "Error: Unknown RubySystem config parameter -- " << argv[i] << endl;
assert(0);
}
}
}
RubySystem::RubySystem(const vector <RubyObjConf> & sys_conf)
{
// DEBUG_MSG(SYSTEM_COMP, MedPrio,"initializing");
for (size_t i=0;i<sys_conf.size(); i++) {
const string & type = sys_conf[i].type;
const string & name = sys_conf[i].name;
const vector<string> & argv = sys_conf[i].argv;
if (type == "System") {
init(argv); // initialize system-wide variables before doing anything else!
} else if (type == "Debug") {
g_debug_ptr = new Debug(name, argv);
}
}
assert( g_debug_ptr != NULL);
g_eventQueue_ptr = new RubyEventQueue;
g_system_ptr = this;
m_mem_vec_ptr = new MemoryVector;
/* object contruction is broken into two steps (Constructor and init) to avoid cyclic dependencies
* e.g. a sequencer needs a pointer to a controller and a controller needs a pointer to a sequencer
*/
vector<string> memory_control_names;
for (size_t i=0;i<sys_conf.size(); i++) {
const string & type = sys_conf[i].type;
const string & name = sys_conf[i].name;
if (type == "System" || type == "Debug")
continue;
else if (type == "SetAssociativeCache")
m_caches[name] = new CacheMemory(name);
else if (type == "DirectoryMemory")
m_directories[name] = new DirectoryMemory(name);
else if (type == "Sequencer") {
m_sequencers[name] = new Sequencer(name);
m_ports[name] = m_sequencers[name];
} else if (type == "DMASequencer") {
m_dma_sequencers[name] = new DMASequencer(name);
m_ports[name] = m_dma_sequencers[name];
} else if (type == "Topology") {
assert(m_topologies.size() == 0); // only one toplogy at a time is supported right now
m_topologies[name] = new Topology(name);
} else if (type == "SimpleNetwork") {
assert(m_network_ptr == NULL); // only one network at a time is supported right now
m_network_ptr = new SimpleNetwork(name);
} else if (type.find("generated") == 0) {
string controller_type = type.substr(10);
m_controllers[name] = ControllerFactory::createController(controller_type, name);
// printf ("ss: generated %s \n", controller_type);
//added by SS
} else if (type == "Tracer") {
//m_tracers[name] = new Tracer(name);
m_tracer_ptr = new Tracer(name);
} else if (type == "Profiler") {
m_profiler_ptr = new Profiler(name);
} else if (type == "GarnetNetwork") {
assert(m_network_ptr == NULL); // only one network at a time is supported right now
m_network_ptr = new GarnetNetwork(name);
} else if (type == "GarnetNetwork_d") {
assert(m_network_ptr == NULL); // only one network at a time is supported right now
m_network_ptr = new GarnetNetwork_d(name);
} else if (type == "MemoryControl") {
m_memorycontrols[name] = new MemoryControl(name);
memory_control_names.push_back (name);
} else {
cerr << "Error: Unknown object type -- " << type << endl;
assert(0);
}
}
for (size_t i=0;i<sys_conf.size(); i++) {
string type = sys_conf[i].type;
string name = sys_conf[i].name;
const vector<string> & argv = sys_conf[i].argv;
if (type == "Topology")
m_topologies[name]->init(argv);
}
for (size_t i=0;i<sys_conf.size(); i++) {
string type = sys_conf[i].type;
string name = sys_conf[i].name;
const vector<string> & argv = sys_conf[i].argv;
if (type == "SimpleNetwork" || type == "GarnetNetwork" || type == "GarnetNetwork_d"){
m_network_ptr->init(argv);
}
}
for (size_t i=0;i<sys_conf.size(); i++) {
string type = sys_conf[i].type;
string name = sys_conf[i].name;
const vector<string> & argv = sys_conf[i].argv;
if (type == "MemoryControl" ){
m_memorycontrols[name]->init(argv);
}
}
for (size_t i=0;i<sys_conf.size(); i++) {
string type = sys_conf[i].type;
string name = sys_conf[i].name;
const vector<string> & argv = sys_conf[i].argv;
if (type == "System" || type == "Debug")
continue;
else if (type == "SetAssociativeCache")
m_caches[name]->init(argv);
else if (type == "DirectoryMemory")
m_directories[name]->init(argv);
else if (type == "MemoryControl")
continue;
else if (type == "Sequencer")
m_sequencers[name]->init(argv);
else if (type == "DMASequencer")
m_dma_sequencers[name]->init(argv);
else if (type == "Topology")
continue;
else if (type == "SimpleNetwork" || type == "GarnetNetwork" || type == "GarnetNetwork_d")
continue;
else if (type.find("generated") == 0) {
string controller_type = type.substr(11);
m_controllers[name]->init(m_network_ptr, argv);
}
//added by SS
else if (type == "Tracer")
//m_tracers[name]->init(argv);
m_tracer_ptr->init(argv);
else if (type == "Profiler")
m_profiler_ptr->init(argv, memory_control_names);
// else if (type == "MI_example"){
// }
else
assert(0);
}
// m_profiler_ptr = new Profiler;
// calculate system-wide parameters
m_memory_size_bytes = 0;
DirectoryMemory* prev = NULL;
for (map< string, DirectoryMemory*>::const_iterator it = m_directories.begin();
it != m_directories.end(); it++) {
if (prev != NULL)
assert((*it).second->getSize() == prev->getSize()); // must be equal for proper address mapping
m_memory_size_bytes += (*it).second->getSize();
prev = (*it).second;
}
m_mem_vec_ptr->setSize(m_memory_size_bytes);
m_memory_size_bits = log_int(m_memory_size_bytes);
// m_tracer_ptr = new Tracer;
DEBUG_MSG(SYSTEM_COMP, MedPrio,"finished initializing");
DEBUG_NEWLINE(SYSTEM_COMP, MedPrio);
}
RubySystem::~RubySystem()
{
}
void RubySystem::printSystemConfig(ostream & out)
{
out << "RubySystem config:" << endl;
out << " random_seed: " << m_random_seed << endl;
out << " randomization: " << m_randomization << endl;
out << " tech_nm: " << m_tech_nm << endl;
out << " freq_mhz: " << m_freq_mhz << endl;
out << " block_size_bytes: " << m_block_size_bytes << endl;
out << " block_size_bits: " << m_block_size_bits << endl;
out << " memory_size_bytes: " << m_memory_size_bytes << endl;
out << " memory_size_bits: " << m_memory_size_bits << endl;
}
void RubySystem::printConfig(ostream& out)
{
out << "\n================ Begin RubySystem Configuration Print ================\n\n";
printSystemConfig(out);
for (map<string, AbstractController*>::const_iterator it = m_controllers.begin();
it != m_controllers.end(); it++) {
(*it).second->printConfig(out);
}
for (map<string, CacheMemory*>::const_iterator it = m_caches.begin();
it != m_caches.end(); it++) {
(*it).second->printConfig(out);
}
DirectoryMemory::printGlobalConfig(out);
for (map<string, DirectoryMemory*>::const_iterator it = m_directories.begin();
it != m_directories.end(); it++) {
(*it).second->printConfig(out);
}
for (map<string, Sequencer*>::const_iterator it = m_sequencers.begin();
it != m_sequencers.end(); it++) {
(*it).second->printConfig(out);
}
m_network_ptr->printConfig(out);
m_profiler_ptr->printConfig(out);
out << "\n================ End RubySystem Configuration Print ================\n\n";
}
void RubySystem::printStats(ostream& out)
{
const time_t T = time(NULL);
tm *localTime = localtime(&T);
char buf[100];
strftime(buf, 100, "%b/%d/%Y %H:%M:%S", localTime);
out << "Real time: " << buf << endl;
m_profiler_ptr->printStats(out);
m_network_ptr->printStats(out);
for (map<string, AbstractController*>::const_iterator it = m_controllers.begin();
it != m_controllers.end(); it++) {
(*it).second->printStats(out);
}
}
void RubySystem::clearStats() const
{
/*
m_profiler_ptr->clearStats();
for (int i=0; i<m_rubyRequestQueues.size(); i++)
for (int j=0;j<m_rubyRequestQueues[i].size(); j++)
m_rubyRequestQueues[i][j]->clearStats();
m_network_ptr->clearStats();
for (int i=0; i < MachineType_base_level(MachineType_NUM); i++)
m_controllers[i][0]->clearStats();
*/
}
void RubySystem::recordCacheContents(CacheRecorder& tr) const
{
}
#ifdef CHECK_COHERENCE
// This code will check for cases if the given cache block is exclusive in
// one node and shared in another-- a coherence violation
//
// To use, the SLICC specification must call sequencer.checkCoherence(address)
// when the controller changes to a state with new permissions. Do this
// in setState. The SLICC spec must also define methods "isBlockShared"
// and "isBlockExclusive" that are specific to that protocol
//
void RubySystem::checkGlobalCoherenceInvariant(const Address& addr ) {
/*
NodeID exclusive = -1;
bool sharedDetected = false;
NodeID lastShared = -1;
for (int i = 0; i < m_chip_vector.size(); i++) {
if (m_chip_vector[i]->isBlockExclusive(addr)) {
if (exclusive != -1) {
// coherence violation
WARN_EXPR(exclusive);
WARN_EXPR(m_chip_vector[i]->getID());
WARN_EXPR(addr);
WARN_EXPR(g_eventQueue_ptr->getTime());
ERROR_MSG("Coherence Violation Detected -- 2 exclusive chips");
}
else if (sharedDetected) {
WARN_EXPR(lastShared);
WARN_EXPR(m_chip_vector[i]->getID());
WARN_EXPR(addr);
WARN_EXPR(g_eventQueue_ptr->getTime());
ERROR_MSG("Coherence Violation Detected -- exclusive chip with >=1 shared");
}
else {
exclusive = m_chip_vector[i]->getID();
}
}
else if (m_chip_vector[i]->isBlockShared(addr)) {
sharedDetected = true;
lastShared = m_chip_vector[i]->getID();
if (exclusive != -1) {
WARN_EXPR(lastShared);
WARN_EXPR(exclusive);
WARN_EXPR(addr);
WARN_EXPR(g_eventQueue_ptr->getTime());
ERROR_MSG("Coherence Violation Detected -- exclusive chip with >=1 shared");
}
}
}
*/
}
#endif