main.cc revision 2889
1/* 2 * Copyright (c) 2000-2005 The Regents of The University of Michigan 3 * All rights reserved. 4 * 5 * Redistribution and use in source and binary forms, with or without 6 * modification, are permitted provided that the following conditions are 7 * met: redistributions of source code must retain the above copyright 8 * notice, this list of conditions and the following disclaimer; 9 * redistributions in binary form must reproduce the above copyright 10 * notice, this list of conditions and the following disclaimer in the 11 * documentation and/or other materials provided with the distribution; 12 * neither the name of the copyright holders nor the names of its 13 * contributors may be used to endorse or promote products derived from 14 * this software without specific prior written permission. 15 * 16 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 17 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 18 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 19 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 20 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 21 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 22 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 23 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 24 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 25 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 26 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 27 * 28 * Authors: Steve Raasch 29 * Nathan Binkert 30 * Steve Reinhardt 31 */ 32 33/// 34/// @file sim/main.cc 35/// 36#include <Python.h> // must be before system headers... see Python docs 37 38#include <sys/types.h> 39#include <sys/stat.h> 40#include <errno.h> 41#include <libgen.h> 42#include <stdlib.h> 43#include <signal.h> 44#include <getopt.h> 45 46#include <list> 47#include <string> 48#include <vector> 49 50#include "base/callback.hh" 51#include "base/inifile.hh" 52#include "base/misc.hh" 53#include "base/output.hh" 54#include "base/pollevent.hh" 55#include "base/statistics.hh" 56#include "base/str.hh" 57#include "base/time.hh" 58#include "cpu/base.hh" 59#include "cpu/smt.hh" 60#include "mem/mem_object.hh" 61#include "mem/port.hh" 62#include "sim/async.hh" 63#include "sim/builder.hh" 64#include "sim/host.hh" 65#include "sim/serialize.hh" 66#include "sim/sim_events.hh" 67#include "sim/sim_exit.hh" 68#include "sim/sim_object.hh" 69#include "sim/stat_control.hh" 70#include "sim/stats.hh" 71#include "sim/root.hh" 72 73using namespace std; 74 75// See async.h. 76volatile bool async_event = false; 77volatile bool async_dump = false; 78volatile bool async_dumpreset = false; 79volatile bool async_exit = false; 80volatile bool async_io = false; 81volatile bool async_alarm = false; 82 83/// Stats signal handler. 84void 85dumpStatsHandler(int sigtype) 86{ 87 async_event = true; 88 async_dump = true; 89} 90 91void 92dumprstStatsHandler(int sigtype) 93{ 94 async_event = true; 95 async_dumpreset = true; 96} 97 98/// Exit signal handler. 99void 100exitNowHandler(int sigtype) 101{ 102 async_event = true; 103 async_exit = true; 104} 105 106/// Abort signal handler. 107void 108abortHandler(int sigtype) 109{ 110 cerr << "Program aborted at cycle " << curTick << endl; 111 112#if TRACING_ON 113 // dump trace buffer, if there is one 114 Trace::theLog.dump(cerr); 115#endif 116} 117 118extern "C" { void init_cc_main(); } 119 120int 121main(int argc, char **argv) 122{ 123 signal(SIGFPE, SIG_IGN); // may occur on misspeculated paths 124 signal(SIGTRAP, SIG_IGN); 125 signal(SIGUSR1, dumpStatsHandler); // dump intermediate stats 126 signal(SIGUSR2, dumprstStatsHandler); // dump and reset stats 127 signal(SIGINT, exitNowHandler); // dump final stats and exit 128 signal(SIGABRT, abortHandler); 129 130 Py_SetProgramName(argv[0]); 131 132 // default path to m5 python code is the currently executing 133 // file... Python ZipImporter will find embedded zip archive. 134 // The M5_ARCHIVE environment variable can be used to override this. 135 char *m5_archive = getenv("M5_ARCHIVE"); 136 string pythonpath = m5_archive ? m5_archive : argv[0]; 137 138 char *oldpath = getenv("PYTHONPATH"); 139 if (oldpath != NULL) { 140 pythonpath += ":"; 141 pythonpath += oldpath; 142 } 143 144 if (setenv("PYTHONPATH", pythonpath.c_str(), true) == -1) 145 fatal("setenv: %s\n", strerror(errno)); 146 147 // initialize embedded Python interpreter 148 Py_Initialize(); 149 PySys_SetArgv(argc, argv); 150 151 // initialize SWIG 'cc_main' module 152 init_cc_main(); 153 154 PyRun_SimpleString("import m5"); 155 PyRun_SimpleString("m5.main()"); 156 157 // clean up Python intepreter. 158 Py_Finalize(); 159} 160 161 162void 163setOutputDir(const string &dir) 164{ 165 simout.setDirectory(dir); 166} 167 168 169IniFile inifile; 170 171SimObject * 172createSimObject(const string &name) 173{ 174 return SimObjectClass::createObject(inifile, name); 175} 176 177 178/** 179 * Pointer to the Python function that maps names to SimObjects. 180 */ 181PyObject *resolveFunc = NULL; 182 183/** 184 * Convert a pointer to the Python object that SWIG wraps around a C++ 185 * SimObject pointer back to the actual C++ pointer. See main.i. 186 */ 187extern "C" SimObject *convertSwigSimObjectPtr(PyObject *); 188 189 190SimObject * 191resolveSimObject(const string &name) 192{ 193 PyObject *pyPtr = PyEval_CallFunction(resolveFunc, "(s)", name.c_str()); 194 if (pyPtr == NULL) { 195 PyErr_Print(); 196 panic("resolveSimObject: failure on call to Python for %s", name); 197 } 198 199 SimObject *simObj = convertSwigSimObjectPtr(pyPtr); 200 if (simObj == NULL) 201 panic("resolveSimObject: failure on pointer conversion for %s", name); 202 203 return simObj; 204} 205 206 207/** 208 * Load config.ini into C++ database. Exported to Python via SWIG; 209 * invoked from m5.instantiate(). 210 */ 211void 212loadIniFile(PyObject *_resolveFunc) 213{ 214 resolveFunc = _resolveFunc; 215 configStream = simout.find("config.out"); 216 217 // The configuration database is now complete; start processing it. 218 inifile.load("config.ini"); 219 220 // Initialize statistics database 221 Stats::InitSimStats(); 222} 223 224 225/** 226 * Look up a MemObject port. Helper function for connectPorts(). 227 */ 228Port * 229lookupPort(SimObject *so, const std::string &name, int i) 230{ 231 MemObject *mo = dynamic_cast<MemObject *>(so); 232 if (mo == NULL) { 233 warn("error casting SimObject %s to MemObject", so->name()); 234 return NULL; 235 } 236 237 Port *p = mo->getPort(name, i); 238 if (p == NULL) 239 warn("error looking up port %s on object %s", name, so->name()); 240 return p; 241} 242 243 244/** 245 * Connect the described MemObject ports. Called from Python via SWIG. 246 */ 247int 248connectPorts(SimObject *o1, const std::string &name1, int i1, 249 SimObject *o2, const std::string &name2, int i2) 250{ 251 Port *p1 = lookupPort(o1, name1, i1); 252 Port *p2 = lookupPort(o2, name2, i2); 253 254 if (p1 == NULL || p2 == NULL) { 255 warn("connectPorts: port lookup error"); 256 return 0; 257 } 258 259 p1->setPeer(p2); 260 p2->setPeer(p1); 261 262 return 1; 263} 264 265/** 266 * Do final initialization steps after object construction but before 267 * start of simulation. 268 */ 269void 270finalInit() 271{ 272 // Parse and check all non-config-hierarchy parameters. 273 ParamContext::parseAllContexts(inifile); 274 ParamContext::checkAllContexts(); 275 276 // Echo all parameter settings to stats file as well. 277 ParamContext::showAllContexts(*configStream); 278 279 // Do a second pass to finish initializing the sim objects 280 SimObject::initAll(); 281 282 // Restore checkpointed state, if any. 283#if 0 284 configHierarchy.unserializeSimObjects(); 285#endif 286 287 SimObject::regAllStats(); 288 289 // Check to make sure that the stats package is properly initialized 290 Stats::check(); 291 292 // Reset to put the stats in a consistent state. 293 Stats::reset(); 294 295 SimStartup(); 296} 297 298 299/** Simulate for num_cycles additional cycles. If num_cycles is -1 300 * (the default), do not limit simulation; some other event must 301 * terminate the loop. Exported to Python via SWIG. 302 * @return The SimLoopExitEvent that caused the loop to exit. 303 */ 304SimLoopExitEvent * 305simulate(Tick num_cycles = -1) 306{ 307 warn("Entering event queue @ %d. Starting simulation...\n", curTick); 308 309 // Fix up num_cycles. Special default value -1 means simulate 310 // "forever"... schedule event at MaxTick just to be safe. 311 // Otherwise it's a delta for additional cycles to simulate past 312 // curTick, and thus must be non-negative. 313 if (num_cycles == -1) 314 num_cycles = MaxTick; 315 else if (num_cycles < 0) 316 fatal("simulate: num_cycles must be >= 0 (was %d)\n", num_cycles); 317 else 318 num_cycles = curTick + num_cycles; 319 320 Event *limit_event = new SimLoopExitEvent(num_cycles, 321 "simulate() limit reached"); 322 323 while (1) { 324 // there should always be at least one event (the SimLoopExitEvent 325 // we just scheduled) in the queue 326 assert(!mainEventQueue.empty()); 327 assert(curTick <= mainEventQueue.nextTick() && 328 "event scheduled in the past"); 329 330 // forward current cycle to the time of the first event on the 331 // queue 332 curTick = mainEventQueue.nextTick(); 333 Event *exit_event = mainEventQueue.serviceOne(); 334 if (exit_event != NULL) { 335 // hit some kind of exit event; return to Python 336 // event must be subclass of SimLoopExitEvent... 337 SimLoopExitEvent *se_event = dynamic_cast<SimLoopExitEvent *>(exit_event); 338 if (se_event == NULL) 339 panic("Bogus exit event class!"); 340 341 // if we didn't hit limit_event, delete it 342 if (se_event != limit_event) { 343 assert(limit_event->scheduled()); 344 limit_event->deschedule(); 345 delete limit_event; 346 } 347 348 return se_event; 349 } 350 351 if (async_event) { 352 async_event = false; 353 if (async_dump) { 354 async_dump = false; 355 356 using namespace Stats; 357 SetupEvent(Dump, curTick); 358 } 359 360 if (async_dumpreset) { 361 async_dumpreset = false; 362 363 using namespace Stats; 364 SetupEvent(Dump | Reset, curTick); 365 } 366 367 if (async_exit) { 368 async_exit = false; 369 exitSimLoop("user interrupt received"); 370 } 371 372 if (async_io || async_alarm) { 373 async_io = false; 374 async_alarm = false; 375 pollQueue.service(); 376 } 377 } 378 } 379 380 // not reached... only exit is return on SimLoopExitEvent 381} 382 383Event * 384createCountedDrain() 385{ 386 return new CountedDrainEvent(); 387} 388 389void 390cleanupCountedDrain(Event *counted_drain) 391{ 392 CountedDrainEvent *event = 393 dynamic_cast<CountedDrainEvent *>(counted_drain); 394 if (event == NULL) { 395 fatal("Called cleanupCountedDrain() on an event that was not " 396 "a CountedDrainEvent."); 397 } 398 assert(event->getCount() == 0); 399 delete event; 400} 401 402void 403serializeAll(const std::string &cpt_dir) 404{ 405 Serializable::serializeAll(cpt_dir); 406} 407 408void 409unserializeAll(const std::string &cpt_dir) 410{ 411 Serializable::unserializeAll(cpt_dir); 412} 413 414/** 415 * Queue of C++ callbacks to invoke on simulator exit. 416 */ 417CallbackQueue exitCallbacks; 418 419/** 420 * Register an exit callback. 421 */ 422void 423registerExitCallback(Callback *callback) 424{ 425 exitCallbacks.add(callback); 426} 427 428BaseCPU * 429convertToBaseCPUPtr(SimObject *obj) 430{ 431 BaseCPU *ptr = dynamic_cast<BaseCPU *>(obj); 432 433 if (ptr == NULL) 434 warn("Casting to BaseCPU pointer failed"); 435 return ptr; 436} 437 438/** 439 * Do C++ simulator exit processing. Exported to SWIG to be invoked 440 * when simulator terminates via Python's atexit mechanism. 441 */ 442void 443doExitCleanup() 444{ 445 exitCallbacks.process(); 446 exitCallbacks.clear(); 447 448 cout.flush(); 449 450 ParamContext::cleanupAllContexts(); 451 452 // print simulation stats 453 Stats::DumpNow(); 454} 455