Cross Reference: /gem5/src/sim/syscall

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syscall_emul.cc (13569:47a2291177a7)	syscall_emul.cc (13570:b6484720c6a9)
1/* 2 * Copyright (c) 2003-2005 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 Reinhardt 29 * Ali Saidi 30 / 31 32#include "sim/syscall_emul.hh" 33 34#include <fcntl.h> 35#include <sys/syscall.h> 36#include <unistd.h> 37 38#include <csignal> 39#include <iostream> 40#include <mutex> 41#include <string> 42 43#include "arch/utility.hh" 44#include "base/chunk_generator.hh" 45#include "base/trace.hh" 46#include "config/the_isa.hh" 47#include "cpu/thread_context.hh" 48#include "dev/net/dist_iface.hh" 49#include "mem/page_table.hh" 50#include "sim/byteswap.hh" 51#include "sim/process.hh" 52#include "sim/sim_exit.hh" 53#include "sim/syscall_debug_macros.hh" 54#include "sim/syscall_desc.hh" 55#include "sim/system.hh" 56 57using namespace std; 58using namespace TheISA; 59 60SyscallReturn 61unimplementedFunc(SyscallDesc desc, int callnum, Process process, 62 ThreadContext tc) 63{ 64 fatal("syscall %s (#%d) unimplemented.", desc->name(), callnum); 65 66 return 1; 67} 68 69 70SyscallReturn 71ignoreFunc(SyscallDesc desc, int callnum, Process process, 72 ThreadContext tc) 73{ 74 if (desc->needWarning()) { 75 warn("ignoring syscall %s(...)%s", desc->name(), desc->warnOnce() ? 76 "\n (further warnings will be suppressed)" : ""); 77 } 78 79 return 0; 80} 81 82static void 83exitFutexWake(ThreadContext tc, Addr addr, uint64_t tgid) 84{ 85 // Clear value at address pointed to by thread's childClearTID field. 86 BufferArg ctidBuf(addr, sizeof(long)); 87 long ctid = (long )ctidBuf.bufferPtr(); 88 ctid = 0; 89 ctidBuf.copyOut(tc->getMemProxy()); 90 91 FutexMap &futex_map = tc->getSystemPtr()->futexMap; 92 // Wake one of the waiting threads. 93 futex_map.wakeup(addr, tgid, 1); 94} 95 96static SyscallReturn 97exitImpl(SyscallDesc desc, int callnum, Process p, ThreadContext tc, 98 bool group) 99{ 100 int index = 0; 101 int status = p->getSyscallArg(tc, index); 102 103 System sys = tc->getSystemPtr(); 104* 105 int activeContexts = 0; 106 for (auto &system: sys->systemList) 107 activeContexts += system->numRunningContexts(); 108 if (activeContexts == 1) { 109 /** 110 * Even though we are terminating the final thread context, dist-gem5 111 * requires the simulation to remain active and provide 112 * synchronization messages to the switch process. So we just halt 113 * the last thread context and return. The simulation will be 114 * terminated by dist-gem5 in a coordinated manner once all nodes 115 * have signaled their readiness to exit. For non dist-gem5 116 * simulations, readyToExit() always returns true. 117 / 118* if (!DistIface::readyToExit(0)) { 119 tc->halt(); 120 return status; 121 } 122 123 exitSimLoop("exiting with last active thread context", status & 0xff); 124 return status; 125 } 126 127 if (group) 128 p->exitGroup = true; 129* 130 if (p->childClearTID) 131 exitFutexWake(tc, p->childClearTID, p->tgid()); 132 133 bool last_thread = true; 134 Process parent = nullptr, tg_lead = nullptr; 135 for (int i = 0; last_thread && i < sys->numContexts(); i++) { 136 Process walk; 137* if (!(walk = sys->threadContexts[i]->getProcessPtr())) 138 continue; 139 140 /** 141 * Threads in a thread group require special handing. For instance, 142 * we send the SIGCHLD signal so that it appears that it came from 143 * the head of the group. We also only delete file descriptors if 144 * we are the last thread in the thread group. 145 / 146* if (walk->pid() == p->tgid()) 147 tg_lead = walk; 148 149 if ((sys->threadContexts[i]->status() != ThreadContext::Halted) 150 && (walk != p)) { 151 /** 152 * Check if we share thread group with the pointer; this denotes 153 * that we are not the last thread active in the thread group. 154 * Note that setting this to false also prevents further 155 * iterations of the loop. 156 / 157* if (walk->tgid() == p->tgid()) 158 last_thread = false; 159 160 /** 161 * A corner case exists which involves execve(). After execve(), 162 * the execve will enable SIGCHLD in the process. The problem 163 * occurs when the exiting process is the root process in the 164 * system; there is no parent to receive the signal. We obviate 165 * this problem by setting the root process' ppid to zero in the 166 * Python configuration files. We really should handle the 167 * root/execve specific case more gracefully. 168 / 169* if (p->sigchld && (p->ppid() != 0) && (walk->pid() == p->ppid())) 170* parent = walk; 171 } 172 } 173 174 if (last_thread) { 175 if (parent) { 176 assert(tg_lead); 177 sys->signalList.push_back(BasicSignal(tg_lead, parent, SIGCHLD)); 178 } 179 180 /** 181 * Run though FD array of the exiting process and close all file 182 * descriptors except for the standard file descriptors. 183 * (The standard file descriptors are shared with gem5.) 184 / 185* for (int i = 0; i < p->fds->getSize(); i++) { 186 if ((p->fds)[i]) 187* p->fds->closeFDEntry(i); 188 } 189 } 190 191 tc->halt(); 192 return status; 193} 194 195SyscallReturn 196exitFunc(SyscallDesc desc, int callnum, Process p, ThreadContext tc) 197{ 198* return exitImpl(desc, callnum, p, tc, false); 199} 200 201SyscallReturn 202exitGroupFunc(SyscallDesc desc, int callnum, Process p, ThreadContext tc) 203{ 204* return exitImpl(desc, callnum, p, tc, true); 205} 206 207SyscallReturn 208getpagesizeFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 209{ 210* return (int)PageBytes; 211} 212 213 214SyscallReturn 215brkFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 216{ 217* // change brk addr to first arg 218 int index = 0; 219 Addr new_brk = p->getSyscallArg(tc, index); 220 221 std::shared_ptr<MemState> mem_state = p->memState; 222 Addr brk_point = mem_state->getBrkPoint(); 223 224 // in Linux at least, brk(0) returns the current break value 225 // (note that the syscall and the glibc function have different behavior) 226 if (new_brk == 0) 227 return brk_point; 228 229 if (new_brk > brk_point) { 230 // might need to allocate some new pages 231 for (ChunkGenerator gen(brk_point, 232 new_brk - brk_point, 233 PageBytes); !gen.done(); gen.next()) { 234 if (!p->pTable->translate(gen.addr())) 235 p->allocateMem(roundDown(gen.addr(), PageBytes), PageBytes); 236 237 // if the address is already there, zero it out 238 else { 239 uint8_t zero = 0; 240 SETranslatingPortProxy &tp = tc->getMemProxy(); 241 242 // split non-page aligned accesses 243 Addr next_page = roundUp(gen.addr(), PageBytes); 244 uint32_t size_needed = next_page - gen.addr(); 245 tp.memsetBlob(gen.addr(), zero, size_needed); 246 if (gen.addr() + PageBytes > next_page && 247 next_page < new_brk && 248 p->pTable->translate(next_page)) { 249 size_needed = PageBytes - size_needed; 250 tp.memsetBlob(next_page, zero, size_needed); 251 } 252 } 253 } 254 } 255 256 mem_state->setBrkPoint(new_brk); 257 DPRINTF_SYSCALL(Verbose, "brk: break point changed to: %#X\n", 258 mem_state->getBrkPoint()); 259 return mem_state->getBrkPoint(); 260} 261 262SyscallReturn 263setTidAddressFunc(SyscallDesc desc, int callnum, Process process, 264 ThreadContext tc) 265{ 266* int index = 0; 267 uint64_t tidPtr = process->getSyscallArg(tc, index); 268 269 process->childClearTID = tidPtr; 270 return process->pid(); 271} 272 273SyscallReturn 274closeFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 275{ 276* int index = 0; 277 int tgt_fd = p->getSyscallArg(tc, index); 278 279 return p->fds->closeFDEntry(tgt_fd); 280} 281	1/* 2 * Copyright (c) 2003-2005 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 Reinhardt 29 * Ali Saidi 30 / 31 32#include "sim/syscall_emul.hh" 33 34#include <fcntl.h> 35#include <sys/syscall.h> 36#include <unistd.h> 37 38#include <csignal> 39#include <iostream> 40#include <mutex> 41#include <string> 42 43#include "arch/utility.hh" 44#include "base/chunk_generator.hh" 45#include "base/trace.hh" 46#include "config/the_isa.hh" 47#include "cpu/thread_context.hh" 48#include "dev/net/dist_iface.hh" 49#include "mem/page_table.hh" 50#include "sim/byteswap.hh" 51#include "sim/process.hh" 52#include "sim/sim_exit.hh" 53#include "sim/syscall_debug_macros.hh" 54#include "sim/syscall_desc.hh" 55#include "sim/system.hh" 56 57using namespace std; 58using namespace TheISA; 59 60SyscallReturn 61unimplementedFunc(SyscallDesc desc, int callnum, Process process, 62 ThreadContext tc) 63{ 64 fatal("syscall %s (#%d) unimplemented.", desc->name(), callnum); 65 66 return 1; 67} 68 69 70SyscallReturn 71ignoreFunc(SyscallDesc desc, int callnum, Process process, 72 ThreadContext tc) 73{ 74 if (desc->needWarning()) { 75 warn("ignoring syscall %s(...)%s", desc->name(), desc->warnOnce() ? 76 "\n (further warnings will be suppressed)" : ""); 77 } 78 79 return 0; 80} 81 82static void 83exitFutexWake(ThreadContext tc, Addr addr, uint64_t tgid) 84{ 85 // Clear value at address pointed to by thread's childClearTID field. 86 BufferArg ctidBuf(addr, sizeof(long)); 87 long ctid = (long )ctidBuf.bufferPtr(); 88 ctid = 0; 89 ctidBuf.copyOut(tc->getMemProxy()); 90 91 FutexMap &futex_map = tc->getSystemPtr()->futexMap; 92 // Wake one of the waiting threads. 93 futex_map.wakeup(addr, tgid, 1); 94} 95 96static SyscallReturn 97exitImpl(SyscallDesc desc, int callnum, Process p, ThreadContext tc, 98 bool group) 99{ 100 int index = 0; 101 int status = p->getSyscallArg(tc, index); 102 103 System sys = tc->getSystemPtr(); 104* 105 int activeContexts = 0; 106 for (auto &system: sys->systemList) 107 activeContexts += system->numRunningContexts(); 108 if (activeContexts == 1) { 109 /** 110 * Even though we are terminating the final thread context, dist-gem5 111 * requires the simulation to remain active and provide 112 * synchronization messages to the switch process. So we just halt 113 * the last thread context and return. The simulation will be 114 * terminated by dist-gem5 in a coordinated manner once all nodes 115 * have signaled their readiness to exit. For non dist-gem5 116 * simulations, readyToExit() always returns true. 117 / 118* if (!DistIface::readyToExit(0)) { 119 tc->halt(); 120 return status; 121 } 122 123 exitSimLoop("exiting with last active thread context", status & 0xff); 124 return status; 125 } 126 127 if (group) 128 p->exitGroup = true; 129* 130 if (p->childClearTID) 131 exitFutexWake(tc, p->childClearTID, p->tgid()); 132 133 bool last_thread = true; 134 Process parent = nullptr, tg_lead = nullptr; 135 for (int i = 0; last_thread && i < sys->numContexts(); i++) { 136 Process walk; 137* if (!(walk = sys->threadContexts[i]->getProcessPtr())) 138 continue; 139 140 /** 141 * Threads in a thread group require special handing. For instance, 142 * we send the SIGCHLD signal so that it appears that it came from 143 * the head of the group. We also only delete file descriptors if 144 * we are the last thread in the thread group. 145 / 146* if (walk->pid() == p->tgid()) 147 tg_lead = walk; 148 149 if ((sys->threadContexts[i]->status() != ThreadContext::Halted) 150 && (walk != p)) { 151 /** 152 * Check if we share thread group with the pointer; this denotes 153 * that we are not the last thread active in the thread group. 154 * Note that setting this to false also prevents further 155 * iterations of the loop. 156 / 157* if (walk->tgid() == p->tgid()) 158 last_thread = false; 159 160 /** 161 * A corner case exists which involves execve(). After execve(), 162 * the execve will enable SIGCHLD in the process. The problem 163 * occurs when the exiting process is the root process in the 164 * system; there is no parent to receive the signal. We obviate 165 * this problem by setting the root process' ppid to zero in the 166 * Python configuration files. We really should handle the 167 * root/execve specific case more gracefully. 168 / 169* if (p->sigchld && (p->ppid() != 0) && (walk->pid() == p->ppid())) 170* parent = walk; 171 } 172 } 173 174 if (last_thread) { 175 if (parent) { 176 assert(tg_lead); 177 sys->signalList.push_back(BasicSignal(tg_lead, parent, SIGCHLD)); 178 } 179 180 /** 181 * Run though FD array of the exiting process and close all file 182 * descriptors except for the standard file descriptors. 183 * (The standard file descriptors are shared with gem5.) 184 / 185* for (int i = 0; i < p->fds->getSize(); i++) { 186 if ((p->fds)[i]) 187* p->fds->closeFDEntry(i); 188 } 189 } 190 191 tc->halt(); 192 return status; 193} 194 195SyscallReturn 196exitFunc(SyscallDesc desc, int callnum, Process p, ThreadContext tc) 197{ 198* return exitImpl(desc, callnum, p, tc, false); 199} 200 201SyscallReturn 202exitGroupFunc(SyscallDesc desc, int callnum, Process p, ThreadContext tc) 203{ 204* return exitImpl(desc, callnum, p, tc, true); 205} 206 207SyscallReturn 208getpagesizeFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 209{ 210* return (int)PageBytes; 211} 212 213 214SyscallReturn 215brkFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 216{ 217* // change brk addr to first arg 218 int index = 0; 219 Addr new_brk = p->getSyscallArg(tc, index); 220 221 std::shared_ptr<MemState> mem_state = p->memState; 222 Addr brk_point = mem_state->getBrkPoint(); 223 224 // in Linux at least, brk(0) returns the current break value 225 // (note that the syscall and the glibc function have different behavior) 226 if (new_brk == 0) 227 return brk_point; 228 229 if (new_brk > brk_point) { 230 // might need to allocate some new pages 231 for (ChunkGenerator gen(brk_point, 232 new_brk - brk_point, 233 PageBytes); !gen.done(); gen.next()) { 234 if (!p->pTable->translate(gen.addr())) 235 p->allocateMem(roundDown(gen.addr(), PageBytes), PageBytes); 236 237 // if the address is already there, zero it out 238 else { 239 uint8_t zero = 0; 240 SETranslatingPortProxy &tp = tc->getMemProxy(); 241 242 // split non-page aligned accesses 243 Addr next_page = roundUp(gen.addr(), PageBytes); 244 uint32_t size_needed = next_page - gen.addr(); 245 tp.memsetBlob(gen.addr(), zero, size_needed); 246 if (gen.addr() + PageBytes > next_page && 247 next_page < new_brk && 248 p->pTable->translate(next_page)) { 249 size_needed = PageBytes - size_needed; 250 tp.memsetBlob(next_page, zero, size_needed); 251 } 252 } 253 } 254 } 255 256 mem_state->setBrkPoint(new_brk); 257 DPRINTF_SYSCALL(Verbose, "brk: break point changed to: %#X\n", 258 mem_state->getBrkPoint()); 259 return mem_state->getBrkPoint(); 260} 261 262SyscallReturn 263setTidAddressFunc(SyscallDesc desc, int callnum, Process process, 264 ThreadContext tc) 265{ 266* int index = 0; 267 uint64_t tidPtr = process->getSyscallArg(tc, index); 268 269 process->childClearTID = tidPtr; 270 return process->pid(); 271} 272 273SyscallReturn 274closeFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 275{ 276* int index = 0; 277 int tgt_fd = p->getSyscallArg(tc, index); 278 279 return p->fds->closeFDEntry(tgt_fd); 280} 281
282
283SyscallReturn	282SyscallReturn
284readFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 285{ 286* int index = 0; 287 int tgt_fd = p->getSyscallArg(tc, index); 288 Addr buf_ptr = p->getSyscallArg(tc, index); 289 int nbytes = p->getSyscallArg(tc, index); 290 291 auto hbfdp = std::dynamic_pointer_cast<HBFDEntry>((p->fds)[tgt_fd]); 292* if (!hbfdp) 293 return -EBADF; 294 int sim_fd = hbfdp->getSimFD(); 295 296 BufferArg bufArg(buf_ptr, nbytes); 297 int bytes_read = read(sim_fd, bufArg.bufferPtr(), nbytes); 298 299 if (bytes_read > 0) 300 bufArg.copyOut(tc->getMemProxy()); 301 302 return bytes_read; 303} 304 305SyscallReturn 306writeFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 307{ 308* int index = 0; 309 int tgt_fd = p->getSyscallArg(tc, index); 310 Addr buf_ptr = p->getSyscallArg(tc, index); 311 int nbytes = p->getSyscallArg(tc, index); 312 313 auto hbfdp = std::dynamic_pointer_cast<HBFDEntry>((p->fds)[tgt_fd]); 314* if (!hbfdp) 315 return -EBADF; 316 int sim_fd = hbfdp->getSimFD(); 317 318 BufferArg bufArg(buf_ptr, nbytes); 319 bufArg.copyIn(tc->getMemProxy()); 320 321 int bytes_written = write(sim_fd, bufArg.bufferPtr(), nbytes); 322 323 fsync(sim_fd); 324 325 return bytes_written; 326} 327 328 329SyscallReturn
330lseekFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 331{ 332* int index = 0; 333 int tgt_fd = p->getSyscallArg(tc, index); 334 uint64_t offs = p->getSyscallArg(tc, index); 335 int whence = p->getSyscallArg(tc, index); 336 337 auto ffdp = std::dynamic_pointer_cast<FileFDEntry>((p->fds)[tgt_fd]); 338* if (!ffdp) 339 return -EBADF; 340 int sim_fd = ffdp->getSimFD(); 341 342 off_t result = lseek(sim_fd, offs, whence); 343 344 return (result == (off_t)-1) ? -errno : result; 345} 346 347 348SyscallReturn 349_llseekFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 350{ 351* int index = 0; 352 int tgt_fd = p->getSyscallArg(tc, index); 353 uint64_t offset_high = p->getSyscallArg(tc, index); 354 uint32_t offset_low = p->getSyscallArg(tc, index); 355 Addr result_ptr = p->getSyscallArg(tc, index); 356 int whence = p->getSyscallArg(tc, index); 357 358 auto ffdp = std::dynamic_pointer_cast<FileFDEntry>((p->fds)[tgt_fd]); 359* if (!ffdp) 360 return -EBADF; 361 int sim_fd = ffdp->getSimFD(); 362 363 uint64_t offset = (offset_high << 32) \| offset_low; 364 365 uint64_t result = lseek(sim_fd, offset, whence); 366 result = TheISA::htog(result); 367 368 if (result == (off_t)-1) 369 return -errno; 370 // Assuming that the size of loff_t is 64 bits on the target platform 371 BufferArg result_buf(result_ptr, sizeof(result)); 372 memcpy(result_buf.bufferPtr(), &result, sizeof(result)); 373 result_buf.copyOut(tc->getMemProxy()); 374 return 0; 375} 376 377 378SyscallReturn 379munmapFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 380{ 381* // With mmap more fully implemented, it might be worthwhile to bite 382 // the bullet and implement munmap. Should allow us to reuse simulated 383 // memory. 384 return 0; 385} 386 387 388const char hostname = "m5.eecs.umich.edu"; 389* 390SyscallReturn 391gethostnameFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 392{ 393* int index = 0; 394 Addr buf_ptr = p->getSyscallArg(tc, index); 395 int name_len = p->getSyscallArg(tc, index); 396 BufferArg name(buf_ptr, name_len); 397 398 strncpy((char )name.bufferPtr(), hostname, name_len); 399* 400 name.copyOut(tc->getMemProxy()); 401 402 return 0; 403} 404 405SyscallReturn 406getcwdFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 407{ 408* int result = 0; 409 int index = 0; 410 Addr buf_ptr = p->getSyscallArg(tc, index); 411 unsigned long size = p->getSyscallArg(tc, index); 412 BufferArg buf(buf_ptr, size); 413 414 // Is current working directory defined? 415 string cwd = p->getcwd(); 416 if (!cwd.empty()) { 417 if (cwd.length() >= size) { 418 // Buffer too small 419 return -ERANGE; 420 } 421 strncpy((char )buf.bufferPtr(), cwd.c_str(), size); 422* result = cwd.length(); 423 } else { 424 if (getcwd((char )buf.bufferPtr(), size)) { 425* result = strlen((char )buf.bufferPtr()); 426* } else { 427 result = -1; 428 } 429 } 430 431 buf.copyOut(tc->getMemProxy()); 432 433 return (result == -1) ? -errno : result; 434} 435 436SyscallReturn 437readlinkFunc(SyscallDesc desc, int callnum, Process process, 438 ThreadContext tc) 439{ 440* return readlinkFunc(desc, callnum, process, tc, 0); 441} 442 443SyscallReturn 444readlinkFunc(SyscallDesc desc, int num, Process p, ThreadContext tc, 445* int index) 446{ 447 string path; 448 449 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 450 return -EFAULT; 451 452 // Adjust path for current working directory 453 path = p->fullPath(path); 454 455 Addr buf_ptr = p->getSyscallArg(tc, index); 456 size_t bufsiz = p->getSyscallArg(tc, index); 457 458 BufferArg buf(buf_ptr, bufsiz); 459 460 int result = -1; 461 if (path != "/proc/self/exe") { 462 result = readlink(path.c_str(), (char )buf.bufferPtr(), bufsiz); 463* } else { 464 // Emulate readlink() called on '/proc/self/exe' should return the 465 // absolute path of the binary running in the simulated system (the 466 // Process' executable). It is possible that using this path in 467 // the simulated system will result in unexpected behavior if: 468 // 1) One binary runs another (e.g., -c time -o "my_binary"), and 469 // called binary calls readlink(). 470 // 2) The host's full path to the running benchmark changes from one 471 // simulation to another. This can result in different simulated 472 // performance since the simulated system will process the binary 473 // path differently, even if the binary itself does not change. 474 475 // Get the absolute canonical path to the running application 476 char real_path[PATH_MAX]; 477 char check_real_path = realpath(p->progName(), real_path); 478* if (!check_real_path) { 479 fatal("readlink('/proc/self/exe') unable to resolve path to " 480 "executable: %s", p->progName()); 481 } 482 strncpy((char)buf.bufferPtr(), real_path, bufsiz); 483* size_t real_path_len = strlen(real_path); 484 if (real_path_len > bufsiz) { 485 // readlink will truncate the contents of the 486 // path to ensure it is no more than bufsiz 487 result = bufsiz; 488 } else { 489 result = real_path_len; 490 } 491 492 // Issue a warning about potential unexpected results 493 warn_once("readlink() called on '/proc/self/exe' may yield unexpected " 494 "results in various settings.\n Returning '%s'\n", 495 (char)buf.bufferPtr()); 496* } 497 498 buf.copyOut(tc->getMemProxy()); 499 500 return (result == -1) ? -errno : result; 501} 502 503SyscallReturn 504unlinkFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 505{ 506* return unlinkHelper(desc, num, p, tc, 0); 507} 508 509SyscallReturn 510unlinkHelper(SyscallDesc desc, int num, Process p, ThreadContext tc, 511* int index) 512{ 513 string path; 514 515 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 516 return -EFAULT; 517 518 path = p->fullPath(path); 519 520 int result = unlink(path.c_str()); 521 return (result == -1) ? -errno : result; 522} 523 524SyscallReturn 525linkFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 526{ 527* string path; 528 string new_path; 529 530 int index = 0; 531 auto &virt_mem = tc->getMemProxy(); 532 if (!virt_mem.tryReadString(path, p->getSyscallArg(tc, index))) 533 return -EFAULT; 534 if (!virt_mem.tryReadString(new_path, p->getSyscallArg(tc, index))) 535 return -EFAULT; 536 537 path = p->fullPath(path); 538 new_path = p->fullPath(new_path); 539 540 int result = link(path.c_str(), new_path.c_str()); 541 return (result == -1) ? -errno : result; 542} 543 544SyscallReturn 545symlinkFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 546{ 547* string path; 548 string new_path; 549 550 int index = 0; 551 auto &virt_mem = tc->getMemProxy(); 552 if (!virt_mem.tryReadString(path, p->getSyscallArg(tc, index))) 553 return -EFAULT; 554 if (!virt_mem.tryReadString(new_path, p->getSyscallArg(tc, index))) 555 return -EFAULT; 556 557 path = p->fullPath(path); 558 new_path = p->fullPath(new_path); 559 560 int result = symlink(path.c_str(), new_path.c_str()); 561 return (result == -1) ? -errno : result; 562} 563 564SyscallReturn 565mkdirFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 566{ 567* string path; 568 569 int index = 0; 570 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 571 return -EFAULT; 572 573 // Adjust path for current working directory 574 path = p->fullPath(path); 575 576 mode_t mode = p->getSyscallArg(tc, index); 577 578 int result = mkdir(path.c_str(), mode); 579 return (result == -1) ? -errno : result; 580} 581 582SyscallReturn 583renameFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 584{ 585* string old_name; 586 587 int index = 0; 588 if (!tc->getMemProxy().tryReadString(old_name, p->getSyscallArg(tc, index))) 589 return -EFAULT; 590 591 string new_name; 592 593 if (!tc->getMemProxy().tryReadString(new_name, p->getSyscallArg(tc, index))) 594 return -EFAULT; 595 596 // Adjust path for current working directory 597 old_name = p->fullPath(old_name); 598 new_name = p->fullPath(new_name); 599 600 int64_t result = rename(old_name.c_str(), new_name.c_str()); 601 return (result == -1) ? -errno : result; 602} 603 604SyscallReturn 605truncateFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 606{ 607* string path; 608 609 int index = 0; 610 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 611 return -EFAULT; 612 613 off_t length = p->getSyscallArg(tc, index); 614 615 // Adjust path for current working directory 616 path = p->fullPath(path); 617 618 int result = truncate(path.c_str(), length); 619 return (result == -1) ? -errno : result; 620} 621 622SyscallReturn 623ftruncateFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 624{ 625* int index = 0; 626 int tgt_fd = p->getSyscallArg(tc, index); 627 off_t length = p->getSyscallArg(tc, index); 628 629 auto ffdp = std::dynamic_pointer_cast<FileFDEntry>((p->fds)[tgt_fd]); 630* if (!ffdp) 631 return -EBADF; 632 int sim_fd = ffdp->getSimFD(); 633 634 int result = ftruncate(sim_fd, length); 635 return (result == -1) ? -errno : result; 636} 637 638SyscallReturn 639truncate64Func(SyscallDesc desc, int num, 640* Process process, ThreadContext tc) 641{ 642 int index = 0; 643 string path; 644 645 if (!tc->getMemProxy().tryReadString(path, process->getSyscallArg(tc, index))) 646 return -EFAULT; 647 648 int64_t length = process->getSyscallArg(tc, index, 64); 649 650 // Adjust path for current working directory 651 path = process->fullPath(path); 652 653#if NO_STAT64 654 int result = truncate(path.c_str(), length); 655#else 656 int result = truncate64(path.c_str(), length); 657#endif 658 return (result == -1) ? -errno : result; 659} 660 661SyscallReturn 662ftruncate64Func(SyscallDesc desc, int num, Process p, ThreadContext tc) 663{ 664* int index = 0; 665 int tgt_fd = p->getSyscallArg(tc, index); 666 int64_t length = p->getSyscallArg(tc, index, 64); 667 668 auto ffdp = std::dynamic_pointer_cast<FileFDEntry>((p->fds)[tgt_fd]); 669* if (!ffdp) 670 return -EBADF; 671 int sim_fd = ffdp->getSimFD(); 672 673#if NO_STAT64 674 int result = ftruncate(sim_fd, length); 675#else 676 int result = ftruncate64(sim_fd, length); 677#endif 678 return (result == -1) ? -errno : result; 679} 680 681SyscallReturn 682umaskFunc(SyscallDesc desc, int num, Process process, ThreadContext tc) 683{ 684* // Letting the simulated program change the simulator's umask seems like 685 // a bad idea. Compromise by just returning the current umask but not 686 // changing anything. 687 mode_t oldMask = umask(0); 688 umask(oldMask); 689 return (int)oldMask; 690} 691 692SyscallReturn 693chownFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 694{ 695* string path; 696 697 int index = 0; 698 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 699 return -EFAULT; 700 701 /* XXX endianess / 702* uint32_t owner = p->getSyscallArg(tc, index); 703 uid_t hostOwner = owner; 704 uint32_t group = p->getSyscallArg(tc, index); 705 gid_t hostGroup = group; 706 707 // Adjust path for current working directory 708 path = p->fullPath(path); 709 710 int result = chown(path.c_str(), hostOwner, hostGroup); 711 return (result == -1) ? -errno : result; 712} 713 714SyscallReturn 715fchownFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 716{ 717* int index = 0; 718 int tgt_fd = p->getSyscallArg(tc, index); 719 720 auto ffdp = std::dynamic_pointer_cast<FileFDEntry>((p->fds)[tgt_fd]); 721* if (!ffdp) 722 return -EBADF; 723 int sim_fd = ffdp->getSimFD(); 724 725 /* XXX endianess / 726* uint32_t owner = p->getSyscallArg(tc, index); 727 uid_t hostOwner = owner; 728 uint32_t group = p->getSyscallArg(tc, index); 729 gid_t hostGroup = group; 730 731 int result = fchown(sim_fd, hostOwner, hostGroup); 732 return (result == -1) ? -errno : result; 733} 734 735/** 736 * FIXME: The file description is not shared among file descriptors created 737 * with dup. Really, it's difficult to maintain fields like file offset or 738 * flags since an update to such a field won't be reflected in the metadata 739 * for the fd entries that we maintain for checkpoint restoration. 740 / 741SyscallReturn 742dupFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 743{ 744 int index = 0; 745 int tgt_fd = p->getSyscallArg(tc, index); 746 747 auto old_hbfdp = std::dynamic_pointer_cast<HBFDEntry>((p->fds)[tgt_fd]); 748* if (!old_hbfdp) 749 return -EBADF; 750 int sim_fd = old_hbfdp->getSimFD(); 751 752 int result = dup(sim_fd); 753 if (result == -1) 754 return -errno; 755 756 auto new_hbfdp = std::dynamic_pointer_cast<HBFDEntry>(old_hbfdp->clone()); 757 new_hbfdp->setSimFD(result); 758 new_hbfdp->setCOE(false); 759 return p->fds->allocFD(new_hbfdp); 760} 761 762SyscallReturn 763dup2Func(SyscallDesc desc, int num, Process p, ThreadContext tc) 764{ 765* int index = 0; 766 767 int old_tgt_fd = p->getSyscallArg(tc, index); 768 auto old_hbp = std::dynamic_pointer_cast<HBFDEntry>((p->fds)[old_tgt_fd]); 769* if (!old_hbp) 770 return -EBADF; 771 int old_sim_fd = old_hbp->getSimFD(); 772 773 /** 774 * We need a valid host file descriptor number to be able to pass into 775 * the second parameter for dup2 (newfd), but we don't know what the 776 * viable numbers are; we execute the open call to retrieve one. 777 / 778* int res_fd = dup2(old_sim_fd, open("/dev/null", O_RDONLY)); 779 if (res_fd == -1) 780 return -errno; 781 782 int new_tgt_fd = p->getSyscallArg(tc, index); 783 auto new_hbp = std::dynamic_pointer_cast<HBFDEntry>((p->fds)[new_tgt_fd]); 784* if (new_hbp) 785 p->fds->closeFDEntry(new_tgt_fd); 786 new_hbp = std::dynamic_pointer_cast<HBFDEntry>(old_hbp->clone()); 787 new_hbp->setSimFD(res_fd); 788 new_hbp->setCOE(false); 789 790 return p->fds->allocFD(new_hbp); 791} 792 793SyscallReturn 794fcntlFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 795{ 796* int arg; 797 int index = 0; 798 int tgt_fd = p->getSyscallArg(tc, index); 799 int cmd = p->getSyscallArg(tc, index); 800 801 auto hbfdp = std::dynamic_pointer_cast<HBFDEntry>((p->fds)[tgt_fd]); 802* if (!hbfdp) 803 return -EBADF; 804 int sim_fd = hbfdp->getSimFD(); 805 806 int coe = hbfdp->getCOE(); 807 808 switch (cmd) { 809 case F_GETFD: 810 return coe & FD_CLOEXEC; 811 812 case F_SETFD: { 813 arg = p->getSyscallArg(tc, index); 814 arg ? hbfdp->setCOE(true) : hbfdp->setCOE(false); 815 return 0; 816 } 817 818 // Rely on the host to maintain the file status flags for this file 819 // description rather than maintain it ourselves. Admittedly, this 820 // is suboptimal (and possibly error prone), but it is difficult to 821 // maintain the flags by tracking them across the different descriptors 822 // (that refer to this file description) caused by clone, dup, and 823 // subsequent fcntls. 824 case F_GETFL: 825 case F_SETFL: { 826 arg = p->getSyscallArg(tc, index); 827 int rv = fcntl(sim_fd, cmd, arg); 828 return (rv == -1) ? -errno : rv; 829 } 830 831 default: 832 warn("fcntl: unsupported command %d\n", cmd); 833 return 0; 834 } 835} 836 837SyscallReturn 838fcntl64Func(SyscallDesc desc, int num, Process p, ThreadContext tc) 839{ 840* int index = 0; 841 int tgt_fd = p->getSyscallArg(tc, index); 842 843 auto hbfdp = std::dynamic_pointer_cast<HBFDEntry>((p->fds)[tgt_fd]); 844* if (!hbfdp) 845 return -EBADF; 846 int sim_fd = hbfdp->getSimFD(); 847 848 int cmd = p->getSyscallArg(tc, index); 849 switch (cmd) { 850 case 33: //F_GETLK64 851 warn("fcntl64(%d, F_GETLK64) not supported, error returned\n", tgt_fd); 852 return -EMFILE; 853 854 case 34: // F_SETLK64 855 case 35: // F_SETLKW64 856 warn("fcntl64(%d, F_SETLK(W)64) not supported, error returned\n", 857 tgt_fd); 858 return -EMFILE; 859 860 default: 861 // not sure if this is totally valid, but we'll pass it through 862 // to the underlying OS 863 warn("fcntl64(%d, %d) passed through to host\n", tgt_fd, cmd); 864 return fcntl(sim_fd, cmd); 865 } 866} 867 868SyscallReturn 869pipeImpl(SyscallDesc desc, int callnum, Process p, ThreadContext tc, 870* bool pseudoPipe) 871{ 872 Addr tgt_addr = 0; 873 if (!pseudoPipe) { 874 int index = 0; 875 tgt_addr = p->getSyscallArg(tc, index); 876 } 877 878 int sim_fds[2], tgt_fds[2]; 879 880 int pipe_retval = pipe(sim_fds); 881 if (pipe_retval == -1) 882 return -errno; 883 884 auto rend = PipeFDEntry::EndType::read; 885 auto rpfd = std::make_shared<PipeFDEntry>(sim_fds[0], O_WRONLY, rend); 886 tgt_fds[0] = p->fds->allocFD(rpfd); 887 888 auto wend = PipeFDEntry::EndType::write; 889 auto wpfd = std::make_shared<PipeFDEntry>(sim_fds[1], O_RDONLY, wend); 890 tgt_fds[1] = p->fds->allocFD(wpfd); 891 892 /** 893 * Now patch the read object to record the target file descriptor chosen 894 * as the write end of the pipe. 895 / 896* rpfd->setPipeReadSource(tgt_fds[1]); 897 898 /** 899 * Alpha Linux convention for pipe() is that fd[0] is returned as 900 * the return value of the function, and fd[1] is returned in r20. 901 / 902* if (pseudoPipe) { 903 tc->setIntReg(SyscallPseudoReturnReg, tgt_fds[1]); 904 return tgt_fds[0]; 905 } 906 907 /** 908 * Copy the target file descriptors into buffer space and then copy 909 * the buffer space back into the target address space. 910 / 911* BufferArg tgt_handle(tgt_addr, sizeof(int[2])); 912 int buf_ptr = (int)tgt_handle.bufferPtr(); 913 buf_ptr[0] = tgt_fds[0]; 914 buf_ptr[1] = tgt_fds[1]; 915 tgt_handle.copyOut(tc->getMemProxy()); 916 return 0; 917} 918 919SyscallReturn 920pipePseudoFunc(SyscallDesc desc, int callnum, Process process, 921 ThreadContext tc) 922{ 923* return pipeImpl(desc, callnum, process, tc, true); 924} 925 926SyscallReturn 927pipeFunc(SyscallDesc desc, int callnum, Process process, ThreadContext tc) 928{ 929* return pipeImpl(desc, callnum, process, tc, false); 930} 931 932SyscallReturn 933setpgidFunc(SyscallDesc desc, int callnum, Process process, 934 ThreadContext tc) 935{ 936* int index = 0; 937 int pid = process->getSyscallArg(tc, index); 938 int pgid = process->getSyscallArg(tc, index); 939 940 if (pgid < 0) 941 return -EINVAL; 942 943 if (pid == 0) { 944 process->setpgid(process->pid()); 945 return 0; 946 } 947 948 Process matched_ph = nullptr; 949* System sysh = tc->getSystemPtr(); 950* 951 // Retrieves process pointer from active/suspended thread contexts. 952 for (int i = 0; i < sysh->numContexts(); i++) { 953 if (sysh->threadContexts[i]->status() != ThreadContext::Halted) { 954 Process temp_h = sysh->threadContexts[i]->getProcessPtr(); 955* Process walk_ph = (Process)temp_h; 956 957 if (walk_ph && walk_ph->pid() == process->pid()) 958 matched_ph = walk_ph; 959 } 960 } 961 962 assert(matched_ph); 963 matched_ph->setpgid((pgid == 0) ? matched_ph->pid() : pgid); 964 965 return 0; 966} 967 968SyscallReturn 969getpidPseudoFunc(SyscallDesc desc, int callnum, Process process, 970 ThreadContext tc) 971{ 972* // Make up a PID. There's no interprocess communication in 973 // fake_syscall mode, so there's no way for a process to know it's 974 // not getting a unique value. 975 976 tc->setIntReg(SyscallPseudoReturnReg, process->ppid()); 977 return process->pid(); 978} 979 980 981SyscallReturn 982getuidPseudoFunc(SyscallDesc desc, int callnum, Process process, 983 ThreadContext tc) 984{ 985* // Make up a UID and EUID... it shouldn't matter, and we want the 986 // simulation to be deterministic. 987 988 // EUID goes in r20. 989 tc->setIntReg(SyscallPseudoReturnReg, process->euid()); // EUID 990 return process->uid(); // UID 991} 992 993 994SyscallReturn 995getgidPseudoFunc(SyscallDesc desc, int callnum, Process process, 996 ThreadContext tc) 997{ 998* // Get current group ID. EGID goes in r20. 999 tc->setIntReg(SyscallPseudoReturnReg, process->egid()); // EGID 1000 return process->gid(); 1001} 1002 1003 1004SyscallReturn 1005setuidFunc(SyscallDesc desc, int callnum, Process process, 1006 ThreadContext tc) 1007{ 1008* // can't fathom why a benchmark would call this. 1009 int index = 0; 1010 warn("Ignoring call to setuid(%d)\n", process->getSyscallArg(tc, index)); 1011 return 0; 1012} 1013 1014SyscallReturn 1015getpidFunc(SyscallDesc desc, int callnum, Process process, 1016 ThreadContext tc) 1017{ 1018* return process->tgid(); 1019} 1020 1021SyscallReturn 1022gettidFunc(SyscallDesc desc, int callnum, Process process, 1023 ThreadContext tc) 1024{ 1025* return process->pid(); 1026} 1027 1028SyscallReturn 1029getppidFunc(SyscallDesc desc, int callnum, Process process, 1030 ThreadContext tc) 1031{ 1032* return process->ppid(); 1033} 1034 1035SyscallReturn 1036getuidFunc(SyscallDesc desc, int callnum, Process process, 1037 ThreadContext tc) 1038{ 1039* return process->uid(); // UID 1040} 1041 1042SyscallReturn 1043geteuidFunc(SyscallDesc desc, int callnum, Process process, 1044 ThreadContext tc) 1045{ 1046* return process->euid(); // UID 1047} 1048 1049SyscallReturn 1050getgidFunc(SyscallDesc desc, int callnum, Process process, 1051 ThreadContext tc) 1052{ 1053* return process->gid(); 1054} 1055 1056SyscallReturn 1057getegidFunc(SyscallDesc desc, int callnum, Process process, 1058 ThreadContext tc) 1059{ 1060* return process->egid(); 1061} 1062 1063SyscallReturn 1064fallocateFunc(SyscallDesc desc, int callnum, Process p, ThreadContext tc) 1065{ 1066#if NO_FALLOCATE 1067* warn("Host OS cannot support calls to fallocate. Ignoring syscall"); 1068#else 1069 int index = 0; 1070 int tgt_fd = p->getSyscallArg(tc, index); 1071 int mode = p->getSyscallArg(tc, index); 1072 off_t offset = p->getSyscallArg(tc, index); 1073 off_t len = p->getSyscallArg(tc, index); 1074 1075 auto ffdp = std::dynamic_pointer_cast<FileFDEntry>((p->fds)[tgt_fd]); 1076* if (!ffdp) 1077 return -EBADF; 1078 int sim_fd = ffdp->getSimFD(); 1079 1080 int result = fallocate(sim_fd, mode, offset, len); 1081 if (result < 0) 1082 return -errno; 1083#endif 1084 return 0; 1085} 1086 1087SyscallReturn 1088accessFunc(SyscallDesc desc, int callnum, Process p, ThreadContext tc, 1089* int index) 1090{ 1091 string path; 1092 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 1093 return -EFAULT; 1094 1095 // Adjust path for current working directory 1096 path = p->fullPath(path); 1097 1098 mode_t mode = p->getSyscallArg(tc, index); 1099 1100 int result = access(path.c_str(), mode); 1101 return (result == -1) ? -errno : result; 1102} 1103 1104SyscallReturn 1105accessFunc(SyscallDesc desc, int callnum, Process p, ThreadContext tc) 1106{ 1107* return accessFunc(desc, callnum, p, tc, 0); 1108} 1109 1110SyscallReturn 1111mknodFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1112{ 1113* int index = 0; 1114 std::string path; 1115 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 1116 return -EFAULT; 1117 1118 path = p->fullPath(path); 1119 mode_t mode = p->getSyscallArg(tc, index); 1120 dev_t dev = p->getSyscallArg(tc, index); 1121 1122 auto result = mknod(path.c_str(), mode, dev); 1123 return (result == -1) ? -errno : result; 1124} 1125 1126SyscallReturn 1127chdirFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1128{ 1129* int index = 0; 1130 std::string path; 1131 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 1132 return -EFAULT; 1133 1134 path = p->fullPath(path); 1135 1136 auto result = chdir(path.c_str()); 1137 return (result == -1) ? -errno : result; 1138} 1139 1140SyscallReturn 1141rmdirFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1142{ 1143* int index = 0; 1144 std::string path; 1145 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 1146 return -EFAULT; 1147 1148 path = p->fullPath(path); 1149 1150 auto result = rmdir(path.c_str()); 1151 return (result == -1) ? -errno : result; 1152} 1153 1154#if defined(SYS_getdents) \|\| defined(SYS_getdents64) 1155template<typename DE, int SYS_NUM> 1156static SyscallReturn 1157getdentsImpl(SyscallDesc desc, int callnum, Process p, ThreadContext tc) 1158{ 1159* int index = 0; 1160 int tgt_fd = p->getSyscallArg(tc, index); 1161 Addr buf_ptr = p->getSyscallArg(tc, index); 1162 unsigned count = p->getSyscallArg(tc, index); 1163 1164 auto hbfdp = std::dynamic_pointer_cast<HBFDEntry>((p->fds)[tgt_fd]); 1165* if (!hbfdp) 1166 return -EBADF; 1167 int sim_fd = hbfdp->getSimFD(); 1168 1169 BufferArg buf_arg(buf_ptr, count); 1170 auto status = syscall(SYS_NUM, sim_fd, buf_arg.bufferPtr(), count); 1171 1172 if (status == -1) 1173 return -errno; 1174 1175 unsigned traversed = 0; 1176 while (traversed < status) { 1177 DE buffer = (DE)((Addr)buf_arg.bufferPtr() + traversed); 1178 1179 auto host_reclen = buffer->d_reclen; 1180 1181 /** 1182 * Convert the byte ordering from the host to the target before 1183 * passing the data back into the target's address space to preserve 1184 * endianness. 1185 / 1186* buffer->d_ino = htog(buffer->d_ino); 1187 buffer->d_off = htog(buffer->d_off); 1188 buffer->d_reclen = htog(buffer->d_reclen); 1189 1190 traversed += host_reclen; 1191 } 1192 1193 buf_arg.copyOut(tc->getMemProxy()); 1194 return status; 1195} 1196#endif 1197 1198#if defined(SYS_getdents) 1199SyscallReturn 1200getdentsFunc(SyscallDesc desc, int callnum, Process p, ThreadContext tc) 1201{ 1202* typedef struct linux_dirent { 1203 unsigned long d_ino; 1204 unsigned long d_off; 1205 unsigned short d_reclen; 1206 char dname[]; 1207 } LinDent; 1208 1209 return getdentsImpl<LinDent, SYS_getdents>(desc, callnum, p, tc); 1210} 1211#endif 1212 1213#if defined(SYS_getdents64) 1214SyscallReturn 1215getdents64Func(SyscallDesc desc, int callnum, Process p, ThreadContext tc) 1216{ 1217* typedef struct linux_dirent64 { 1218 ino64_t d_ino; 1219 off64_t d_off; 1220 unsigned short d_reclen; 1221 char dname[]; 1222 } LinDent64; 1223 1224 return getdentsImpl<LinDent64, SYS_getdents64>(desc, callnum, p, tc); 1225} 1226#endif 1227 1228SyscallReturn 1229shutdownFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1230{ 1231* int index = 0; 1232 int tgt_fd = p->getSyscallArg(tc, index); 1233 int how = p->getSyscallArg(tc, index); 1234 1235 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1236* if (!sfdp) 1237 return -EBADF; 1238 int sim_fd = sfdp->getSimFD(); 1239 1240 int retval = shutdown(sim_fd, how); 1241 1242 return (retval == -1) ? -errno : retval; 1243} 1244 1245SyscallReturn 1246bindFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1247{ 1248* int index = 0; 1249 int tgt_fd = p->getSyscallArg(tc, index); 1250 Addr buf_ptr = p->getSyscallArg(tc, index); 1251 int addrlen = p->getSyscallArg(tc, index); 1252 1253 BufferArg bufSock(buf_ptr, addrlen); 1254 bufSock.copyIn(tc->getMemProxy()); 1255 1256 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1257* if (!sfdp) 1258 return -EBADF; 1259 int sim_fd = sfdp->getSimFD(); 1260 1261 int status = ::bind(sim_fd, 1262 (struct sockaddr )bufSock.bufferPtr(), 1263* addrlen); 1264 1265 return (status == -1) ? -errno : status; 1266} 1267 1268SyscallReturn 1269listenFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1270{ 1271* int index = 0; 1272 int tgt_fd = p->getSyscallArg(tc, index); 1273 int backlog = p->getSyscallArg(tc, index); 1274 1275 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1276* if (!sfdp) 1277 return -EBADF; 1278 int sim_fd = sfdp->getSimFD(); 1279 1280 int status = listen(sim_fd, backlog); 1281 1282 return (status == -1) ? -errno : status; 1283} 1284 1285SyscallReturn 1286connectFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1287{ 1288* int index = 0; 1289 int tgt_fd = p->getSyscallArg(tc, index); 1290 Addr buf_ptr = p->getSyscallArg(tc, index); 1291 int addrlen = p->getSyscallArg(tc, index); 1292 1293 BufferArg addr(buf_ptr, addrlen); 1294 addr.copyIn(tc->getMemProxy()); 1295 1296 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1297* if (!sfdp) 1298 return -EBADF; 1299 int sim_fd = sfdp->getSimFD(); 1300 1301 int status = connect(sim_fd, 1302 (struct sockaddr )addr.bufferPtr(), 1303* (socklen_t)addrlen); 1304 1305 return (status == -1) ? -errno : status; 1306} 1307 1308SyscallReturn 1309recvfromFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1310{ 1311* int index = 0; 1312 int tgt_fd = p->getSyscallArg(tc, index); 1313 Addr bufrPtr = p->getSyscallArg(tc, index); 1314 size_t bufrLen = p->getSyscallArg(tc, index); 1315 int flags = p->getSyscallArg(tc, index); 1316 Addr addrPtr = p->getSyscallArg(tc, index); 1317 Addr addrlenPtr = p->getSyscallArg(tc, index); 1318 1319 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1320* if (!sfdp) 1321 return -EBADF; 1322 int sim_fd = sfdp->getSimFD(); 1323 1324 // Reserve buffer space. 1325 BufferArg bufrBuf(bufrPtr, bufrLen); 1326 1327 // Get address length. 1328 socklen_t addrLen = 0; 1329 if (addrlenPtr != 0) { 1330 // Read address length parameter. 1331 BufferArg addrlenBuf(addrlenPtr, sizeof(socklen_t)); 1332 addrlenBuf.copyIn(tc->getMemProxy()); 1333 addrLen = ((socklen_t )addrlenBuf.bufferPtr()); 1334 } 1335 1336 struct sockaddr sa, sap = NULL; 1337* if (addrLen != 0) { 1338 BufferArg addrBuf(addrPtr, addrLen); 1339 addrBuf.copyIn(tc->getMemProxy()); 1340 memcpy(&sa, (struct sockaddr )addrBuf.bufferPtr(), 1341* sizeof(struct sockaddr)); 1342 sap = &sa; 1343 } 1344 1345 ssize_t recvd_size = recvfrom(sim_fd, 1346 (void )bufrBuf.bufferPtr(), 1347* bufrLen, flags, sap, (socklen_t )&addrLen); 1348* 1349 if (recvd_size == -1) 1350 return -errno; 1351 1352 // Pass the received data out. 1353 bufrBuf.copyOut(tc->getMemProxy()); 1354 1355 // Copy address to addrPtr and pass it on. 1356 if (sap != NULL) { 1357 BufferArg addrBuf(addrPtr, addrLen); 1358 memcpy(addrBuf.bufferPtr(), sap, sizeof(sa)); 1359 addrBuf.copyOut(tc->getMemProxy()); 1360 } 1361 1362 // Copy len to addrlenPtr and pass it on. 1363 if (addrLen != 0) { 1364 BufferArg addrlenBuf(addrlenPtr, sizeof(socklen_t)); 1365 (socklen_t )addrlenBuf.bufferPtr() = addrLen; 1366 addrlenBuf.copyOut(tc->getMemProxy()); 1367 } 1368 1369 return recvd_size; 1370} 1371 1372SyscallReturn 1373sendtoFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1374{ 1375* int index = 0; 1376 int tgt_fd = p->getSyscallArg(tc, index); 1377 Addr bufrPtr = p->getSyscallArg(tc, index); 1378 size_t bufrLen = p->getSyscallArg(tc, index); 1379 int flags = p->getSyscallArg(tc, index); 1380 Addr addrPtr = p->getSyscallArg(tc, index); 1381 socklen_t addrLen = p->getSyscallArg(tc, index); 1382 1383 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1384* if (!sfdp) 1385 return -EBADF; 1386 int sim_fd = sfdp->getSimFD(); 1387 1388 // Reserve buffer space. 1389 BufferArg bufrBuf(bufrPtr, bufrLen); 1390 bufrBuf.copyIn(tc->getMemProxy()); 1391 1392 struct sockaddr sa, sap = nullptr; 1393* memset(&sa, 0, sizeof(sockaddr)); 1394 if (addrLen != 0) { 1395 BufferArg addrBuf(addrPtr, addrLen); 1396 addrBuf.copyIn(tc->getMemProxy()); 1397 memcpy(&sa, (sockaddr)addrBuf.bufferPtr(), addrLen); 1398* sap = &sa; 1399 } 1400 1401 ssize_t sent_size = sendto(sim_fd, 1402 (void )bufrBuf.bufferPtr(), 1403* bufrLen, flags, sap, (socklen_t)addrLen); 1404 1405 return (sent_size == -1) ? -errno : sent_size; 1406} 1407 1408SyscallReturn 1409recvmsgFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1410{ 1411* int index = 0; 1412 int tgt_fd = p->getSyscallArg(tc, index); 1413 Addr msgPtr = p->getSyscallArg(tc, index); 1414 int flags = p->getSyscallArg(tc, index); 1415 1416 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1417* if (!sfdp) 1418 return -EBADF; 1419 int sim_fd = sfdp->getSimFD(); 1420 1421 /** 1422 * struct msghdr { 1423 * void msg_name; // optional address 1424* * socklen_t msg_namelen; // size of address 1425 * struct iovec msg_iov; // iovec array 1426* * size_t msg_iovlen; // number entries in msg_iov 1427 * i // entries correspond to buffer 1428 * void msg_control; // ancillary data 1429* * size_t msg_controllen; // ancillary data buffer len 1430 * int msg_flags; // flags on received message 1431 * }; 1432 * 1433 * struct iovec { 1434 * void iov_base; // starting address 1435* * size_t iov_len; // number of bytes to transfer 1436 * }; 1437 / 1438* 1439 /** 1440 * The plan with this system call is to replace all of the pointers in the 1441 * structure and the substructure with BufferArg class pointers. We will 1442 * copy every field from the structures into our BufferArg classes. 1443 / 1444* BufferArg msgBuf(msgPtr, sizeof(struct msghdr)); 1445 msgBuf.copyIn(tc->getMemProxy()); 1446 struct msghdr msgHdr = (struct msghdr )msgBuf.bufferPtr(); 1447 1448 /** 1449 * We will use these address place holders to retain the pointers which 1450 * we are going to replace with our own buffers in our simulator address 1451 * space. 1452 / 1453* Addr msg_name_phold = 0; 1454 Addr msg_iov_phold = 0; 1455 Addr iovec_base_phold[msgHdr->msg_iovlen]; 1456 Addr msg_control_phold = 0; 1457 1458 /** 1459 * Record msg_name pointer then replace with buffer pointer. 1460 / 1461* BufferArg nameBuf = NULL; 1462* if (msgHdr->msg_name) { 1463 /1/msg_name_phold = (Addr)msgHdr->msg_name; 1464 /2/nameBuf = new BufferArg(msg_name_phold, msgHdr->msg_namelen); 1465 /3/nameBuf->copyIn(tc->getMemProxy()); 1466 /4/msgHdr->msg_name = nameBuf->bufferPtr(); 1467 } 1468 1469 /** 1470 * Record msg_iov pointer then replace with buffer pointer. Also, setup 1471 * an array of buffer pointers for the iovec structs record and replace 1472 * their pointers with buffer pointers. 1473 / 1474* BufferArg iovBuf = NULL; 1475* BufferArg iovecBuf[msgHdr->msg_iovlen]; 1476* for (int i = 0; i < msgHdr->msg_iovlen; i++) { 1477 iovec_base_phold[i] = 0; 1478 iovecBuf[i] = NULL; 1479 } 1480 1481 if (msgHdr->msg_iov) { 1482 /1/msg_iov_phold = (Addr)msgHdr->msg_iov; 1483 /2/iovBuf = new BufferArg(msg_iov_phold, msgHdr->msg_iovlen * 1484 sizeof(struct iovec)); 1485 /3/iovBuf->copyIn(tc->getMemProxy()); 1486 for (int i = 0; i < msgHdr->msg_iovlen; i++) { 1487 if (((struct iovec )iovBuf->bufferPtr())[i].iov_base) { 1488* /1/iovec_base_phold[i] = 1489 (Addr)((struct iovec )iovBuf->bufferPtr())[i].iov_base; 1490* /2/iovecBuf[i] = new BufferArg(iovec_base_phold[i], 1491 ((struct iovec )iovBuf->bufferPtr())[i].iov_len); 1492* /3/iovecBuf[i]->copyIn(tc->getMemProxy()); 1493 /4/((struct iovec )iovBuf->bufferPtr())[i].iov_base = 1494* iovecBuf[i]->bufferPtr(); 1495 } 1496 } 1497 /4/msgHdr->msg_iov = (struct iovec )iovBuf->bufferPtr(); 1498* } 1499 1500 /** 1501 * Record msg_control pointer then replace with buffer pointer. 1502 / 1503* BufferArg controlBuf = NULL; 1504* if (msgHdr->msg_control) { 1505 /1/msg_control_phold = (Addr)msgHdr->msg_control; 1506 /2/controlBuf = new BufferArg(msg_control_phold, 1507 CMSG_ALIGN(msgHdr->msg_controllen)); 1508 /3/controlBuf->copyIn(tc->getMemProxy()); 1509 /4/msgHdr->msg_control = controlBuf->bufferPtr(); 1510 } 1511 1512 ssize_t recvd_size = recvmsg(sim_fd, msgHdr, flags); 1513 1514 if (recvd_size < 0) 1515 return -errno; 1516 1517 if (msgHdr->msg_name) { 1518 nameBuf->copyOut(tc->getMemProxy()); 1519 delete(nameBuf); 1520 msgHdr->msg_name = (void )msg_name_phold; 1521* } 1522 1523 if (msgHdr->msg_iov) { 1524 for (int i = 0; i< msgHdr->msg_iovlen; i++) { 1525 if (((struct iovec )iovBuf->bufferPtr())[i].iov_base) { 1526* iovecBuf[i]->copyOut(tc->getMemProxy()); 1527 delete iovecBuf[i]; 1528 ((struct iovec )iovBuf->bufferPtr())[i].iov_base = 1529* (void )iovec_base_phold[i]; 1530* } 1531 } 1532 iovBuf->copyOut(tc->getMemProxy()); 1533 delete iovBuf; 1534 msgHdr->msg_iov = (struct iovec )msg_iov_phold; 1535* } 1536 1537 if (msgHdr->msg_control) { 1538 controlBuf->copyOut(tc->getMemProxy()); 1539 delete(controlBuf); 1540 msgHdr->msg_control = (void )msg_control_phold; 1541* } 1542 1543 msgBuf.copyOut(tc->getMemProxy()); 1544 1545 return recvd_size; 1546} 1547 1548SyscallReturn 1549sendmsgFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1550{ 1551* int index = 0; 1552 int tgt_fd = p->getSyscallArg(tc, index); 1553 Addr msgPtr = p->getSyscallArg(tc, index); 1554 int flags = p->getSyscallArg(tc, index); 1555 1556 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1557* if (!sfdp) 1558 return -EBADF; 1559 int sim_fd = sfdp->getSimFD(); 1560 1561 /** 1562 * Reserve buffer space. 1563 / 1564* BufferArg msgBuf(msgPtr, sizeof(struct msghdr)); 1565 msgBuf.copyIn(tc->getMemProxy()); 1566 struct msghdr msgHdr = ((struct msghdr )msgBuf.bufferPtr()); 1567 1568 /** 1569 * Assuming msgHdr.msg_iovlen >= 1, then there is no point calling 1570 * recvmsg without a buffer. 1571 / 1572* struct iovec iovPtr = msgHdr.msg_iov; 1573* BufferArg iovBuf((Addr)iovPtr, sizeof(struct iovec) * msgHdr.msg_iovlen); 1574 iovBuf.copyIn(tc->getMemProxy()); 1575 struct iovec iov = (struct iovec )iovBuf.bufferPtr(); 1576 msgHdr.msg_iov = iov; 1577 1578 /** 1579 * Cannot instantiate buffers till inside the loop. 1580 * Create array to hold buffer addresses, to be used during copyIn of 1581 * send data. 1582 / 1583* BufferArg bufferArray = (BufferArg )malloc(msgHdr.msg_iovlen 1584 * sizeof(BufferArg )); 1585* 1586 /** 1587 * Iterate through the iovec structures: 1588 * Get the base buffer addreses, reserve iov_len amount of space for each. 1589 * Put the buf address into the bufferArray for later retrieval. 1590 / 1591* for (int iovIndex = 0 ; iovIndex < msgHdr.msg_iovlen; iovIndex++) { 1592 Addr basePtr = (Addr) iov[iovIndex].iov_base; 1593 bufferArray[iovIndex] = new BufferArg(basePtr, iov[iovIndex].iov_len); 1594 bufferArray[iovIndex]->copyIn(tc->getMemProxy()); 1595 iov[iovIndex].iov_base = bufferArray[iovIndex]->bufferPtr(); 1596 } 1597 1598 ssize_t sent_size = sendmsg(sim_fd, &msgHdr, flags); 1599 int local_errno = errno; 1600 1601 /** 1602 * Free dynamically allocated memory. 1603 / 1604* for (int iovIndex = 0 ; iovIndex < msgHdr.msg_iovlen; iovIndex++) { 1605 BufferArg baseBuf = ( BufferArg )bufferArray[iovIndex]; 1606 delete(baseBuf); 1607 } 1608 1609 /** 1610 * Malloced above. 1611 / 1612* free(bufferArray); 1613 1614 return (sent_size < 0) ? -local_errno : sent_size; 1615} 1616	283lseekFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 284{ 285* int index = 0; 286 int tgt_fd = p->getSyscallArg(tc, index); 287 uint64_t offs = p->getSyscallArg(tc, index); 288 int whence = p->getSyscallArg(tc, index); 289 290 auto ffdp = std::dynamic_pointer_cast<FileFDEntry>((p->fds)[tgt_fd]); 291* if (!ffdp) 292 return -EBADF; 293 int sim_fd = ffdp->getSimFD(); 294 295 off_t result = lseek(sim_fd, offs, whence); 296 297 return (result == (off_t)-1) ? -errno : result; 298} 299 300 301SyscallReturn 302_llseekFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 303{ 304* int index = 0; 305 int tgt_fd = p->getSyscallArg(tc, index); 306 uint64_t offset_high = p->getSyscallArg(tc, index); 307 uint32_t offset_low = p->getSyscallArg(tc, index); 308 Addr result_ptr = p->getSyscallArg(tc, index); 309 int whence = p->getSyscallArg(tc, index); 310 311 auto ffdp = std::dynamic_pointer_cast<FileFDEntry>((p->fds)[tgt_fd]); 312* if (!ffdp) 313 return -EBADF; 314 int sim_fd = ffdp->getSimFD(); 315 316 uint64_t offset = (offset_high << 32) \| offset_low; 317 318 uint64_t result = lseek(sim_fd, offset, whence); 319 result = TheISA::htog(result); 320 321 if (result == (off_t)-1) 322 return -errno; 323 // Assuming that the size of loff_t is 64 bits on the target platform 324 BufferArg result_buf(result_ptr, sizeof(result)); 325 memcpy(result_buf.bufferPtr(), &result, sizeof(result)); 326 result_buf.copyOut(tc->getMemProxy()); 327 return 0; 328} 329 330 331SyscallReturn 332munmapFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 333{ 334* // With mmap more fully implemented, it might be worthwhile to bite 335 // the bullet and implement munmap. Should allow us to reuse simulated 336 // memory. 337 return 0; 338} 339 340 341const char hostname = "m5.eecs.umich.edu"; 342* 343SyscallReturn 344gethostnameFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 345{ 346* int index = 0; 347 Addr buf_ptr = p->getSyscallArg(tc, index); 348 int name_len = p->getSyscallArg(tc, index); 349 BufferArg name(buf_ptr, name_len); 350 351 strncpy((char )name.bufferPtr(), hostname, name_len); 352* 353 name.copyOut(tc->getMemProxy()); 354 355 return 0; 356} 357 358SyscallReturn 359getcwdFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 360{ 361* int result = 0; 362 int index = 0; 363 Addr buf_ptr = p->getSyscallArg(tc, index); 364 unsigned long size = p->getSyscallArg(tc, index); 365 BufferArg buf(buf_ptr, size); 366 367 // Is current working directory defined? 368 string cwd = p->getcwd(); 369 if (!cwd.empty()) { 370 if (cwd.length() >= size) { 371 // Buffer too small 372 return -ERANGE; 373 } 374 strncpy((char )buf.bufferPtr(), cwd.c_str(), size); 375* result = cwd.length(); 376 } else { 377 if (getcwd((char )buf.bufferPtr(), size)) { 378* result = strlen((char )buf.bufferPtr()); 379* } else { 380 result = -1; 381 } 382 } 383 384 buf.copyOut(tc->getMemProxy()); 385 386 return (result == -1) ? -errno : result; 387} 388 389SyscallReturn 390readlinkFunc(SyscallDesc desc, int callnum, Process process, 391 ThreadContext tc) 392{ 393* return readlinkFunc(desc, callnum, process, tc, 0); 394} 395 396SyscallReturn 397readlinkFunc(SyscallDesc desc, int num, Process p, ThreadContext tc, 398* int index) 399{ 400 string path; 401 402 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 403 return -EFAULT; 404 405 // Adjust path for current working directory 406 path = p->fullPath(path); 407 408 Addr buf_ptr = p->getSyscallArg(tc, index); 409 size_t bufsiz = p->getSyscallArg(tc, index); 410 411 BufferArg buf(buf_ptr, bufsiz); 412 413 int result = -1; 414 if (path != "/proc/self/exe") { 415 result = readlink(path.c_str(), (char )buf.bufferPtr(), bufsiz); 416* } else { 417 // Emulate readlink() called on '/proc/self/exe' should return the 418 // absolute path of the binary running in the simulated system (the 419 // Process' executable). It is possible that using this path in 420 // the simulated system will result in unexpected behavior if: 421 // 1) One binary runs another (e.g., -c time -o "my_binary"), and 422 // called binary calls readlink(). 423 // 2) The host's full path to the running benchmark changes from one 424 // simulation to another. This can result in different simulated 425 // performance since the simulated system will process the binary 426 // path differently, even if the binary itself does not change. 427 428 // Get the absolute canonical path to the running application 429 char real_path[PATH_MAX]; 430 char check_real_path = realpath(p->progName(), real_path); 431* if (!check_real_path) { 432 fatal("readlink('/proc/self/exe') unable to resolve path to " 433 "executable: %s", p->progName()); 434 } 435 strncpy((char)buf.bufferPtr(), real_path, bufsiz); 436* size_t real_path_len = strlen(real_path); 437 if (real_path_len > bufsiz) { 438 // readlink will truncate the contents of the 439 // path to ensure it is no more than bufsiz 440 result = bufsiz; 441 } else { 442 result = real_path_len; 443 } 444 445 // Issue a warning about potential unexpected results 446 warn_once("readlink() called on '/proc/self/exe' may yield unexpected " 447 "results in various settings.\n Returning '%s'\n", 448 (char)buf.bufferPtr()); 449* } 450 451 buf.copyOut(tc->getMemProxy()); 452 453 return (result == -1) ? -errno : result; 454} 455 456SyscallReturn 457unlinkFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 458{ 459* return unlinkHelper(desc, num, p, tc, 0); 460} 461 462SyscallReturn 463unlinkHelper(SyscallDesc desc, int num, Process p, ThreadContext tc, 464* int index) 465{ 466 string path; 467 468 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 469 return -EFAULT; 470 471 path = p->fullPath(path); 472 473 int result = unlink(path.c_str()); 474 return (result == -1) ? -errno : result; 475} 476 477SyscallReturn 478linkFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 479{ 480* string path; 481 string new_path; 482 483 int index = 0; 484 auto &virt_mem = tc->getMemProxy(); 485 if (!virt_mem.tryReadString(path, p->getSyscallArg(tc, index))) 486 return -EFAULT; 487 if (!virt_mem.tryReadString(new_path, p->getSyscallArg(tc, index))) 488 return -EFAULT; 489 490 path = p->fullPath(path); 491 new_path = p->fullPath(new_path); 492 493 int result = link(path.c_str(), new_path.c_str()); 494 return (result == -1) ? -errno : result; 495} 496 497SyscallReturn 498symlinkFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 499{ 500* string path; 501 string new_path; 502 503 int index = 0; 504 auto &virt_mem = tc->getMemProxy(); 505 if (!virt_mem.tryReadString(path, p->getSyscallArg(tc, index))) 506 return -EFAULT; 507 if (!virt_mem.tryReadString(new_path, p->getSyscallArg(tc, index))) 508 return -EFAULT; 509 510 path = p->fullPath(path); 511 new_path = p->fullPath(new_path); 512 513 int result = symlink(path.c_str(), new_path.c_str()); 514 return (result == -1) ? -errno : result; 515} 516 517SyscallReturn 518mkdirFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 519{ 520* string path; 521 522 int index = 0; 523 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 524 return -EFAULT; 525 526 // Adjust path for current working directory 527 path = p->fullPath(path); 528 529 mode_t mode = p->getSyscallArg(tc, index); 530 531 int result = mkdir(path.c_str(), mode); 532 return (result == -1) ? -errno : result; 533} 534 535SyscallReturn 536renameFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 537{ 538* string old_name; 539 540 int index = 0; 541 if (!tc->getMemProxy().tryReadString(old_name, p->getSyscallArg(tc, index))) 542 return -EFAULT; 543 544 string new_name; 545 546 if (!tc->getMemProxy().tryReadString(new_name, p->getSyscallArg(tc, index))) 547 return -EFAULT; 548 549 // Adjust path for current working directory 550 old_name = p->fullPath(old_name); 551 new_name = p->fullPath(new_name); 552 553 int64_t result = rename(old_name.c_str(), new_name.c_str()); 554 return (result == -1) ? -errno : result; 555} 556 557SyscallReturn 558truncateFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 559{ 560* string path; 561 562 int index = 0; 563 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 564 return -EFAULT; 565 566 off_t length = p->getSyscallArg(tc, index); 567 568 // Adjust path for current working directory 569 path = p->fullPath(path); 570 571 int result = truncate(path.c_str(), length); 572 return (result == -1) ? -errno : result; 573} 574 575SyscallReturn 576ftruncateFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 577{ 578* int index = 0; 579 int tgt_fd = p->getSyscallArg(tc, index); 580 off_t length = p->getSyscallArg(tc, index); 581 582 auto ffdp = std::dynamic_pointer_cast<FileFDEntry>((p->fds)[tgt_fd]); 583* if (!ffdp) 584 return -EBADF; 585 int sim_fd = ffdp->getSimFD(); 586 587 int result = ftruncate(sim_fd, length); 588 return (result == -1) ? -errno : result; 589} 590 591SyscallReturn 592truncate64Func(SyscallDesc desc, int num, 593* Process process, ThreadContext tc) 594{ 595 int index = 0; 596 string path; 597 598 if (!tc->getMemProxy().tryReadString(path, process->getSyscallArg(tc, index))) 599 return -EFAULT; 600 601 int64_t length = process->getSyscallArg(tc, index, 64); 602 603 // Adjust path for current working directory 604 path = process->fullPath(path); 605 606#if NO_STAT64 607 int result = truncate(path.c_str(), length); 608#else 609 int result = truncate64(path.c_str(), length); 610#endif 611 return (result == -1) ? -errno : result; 612} 613 614SyscallReturn 615ftruncate64Func(SyscallDesc desc, int num, Process p, ThreadContext tc) 616{ 617* int index = 0; 618 int tgt_fd = p->getSyscallArg(tc, index); 619 int64_t length = p->getSyscallArg(tc, index, 64); 620 621 auto ffdp = std::dynamic_pointer_cast<FileFDEntry>((p->fds)[tgt_fd]); 622* if (!ffdp) 623 return -EBADF; 624 int sim_fd = ffdp->getSimFD(); 625 626#if NO_STAT64 627 int result = ftruncate(sim_fd, length); 628#else 629 int result = ftruncate64(sim_fd, length); 630#endif 631 return (result == -1) ? -errno : result; 632} 633 634SyscallReturn 635umaskFunc(SyscallDesc desc, int num, Process process, ThreadContext tc) 636{ 637* // Letting the simulated program change the simulator's umask seems like 638 // a bad idea. Compromise by just returning the current umask but not 639 // changing anything. 640 mode_t oldMask = umask(0); 641 umask(oldMask); 642 return (int)oldMask; 643} 644 645SyscallReturn 646chownFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 647{ 648* string path; 649 650 int index = 0; 651 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 652 return -EFAULT; 653 654 /* XXX endianess / 655* uint32_t owner = p->getSyscallArg(tc, index); 656 uid_t hostOwner = owner; 657 uint32_t group = p->getSyscallArg(tc, index); 658 gid_t hostGroup = group; 659 660 // Adjust path for current working directory 661 path = p->fullPath(path); 662 663 int result = chown(path.c_str(), hostOwner, hostGroup); 664 return (result == -1) ? -errno : result; 665} 666 667SyscallReturn 668fchownFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 669{ 670* int index = 0; 671 int tgt_fd = p->getSyscallArg(tc, index); 672 673 auto ffdp = std::dynamic_pointer_cast<FileFDEntry>((p->fds)[tgt_fd]); 674* if (!ffdp) 675 return -EBADF; 676 int sim_fd = ffdp->getSimFD(); 677 678 /* XXX endianess / 679* uint32_t owner = p->getSyscallArg(tc, index); 680 uid_t hostOwner = owner; 681 uint32_t group = p->getSyscallArg(tc, index); 682 gid_t hostGroup = group; 683 684 int result = fchown(sim_fd, hostOwner, hostGroup); 685 return (result == -1) ? -errno : result; 686} 687 688/** 689 * FIXME: The file description is not shared among file descriptors created 690 * with dup. Really, it's difficult to maintain fields like file offset or 691 * flags since an update to such a field won't be reflected in the metadata 692 * for the fd entries that we maintain for checkpoint restoration. 693 / 694SyscallReturn 695dupFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 696{ 697 int index = 0; 698 int tgt_fd = p->getSyscallArg(tc, index); 699 700 auto old_hbfdp = std::dynamic_pointer_cast<HBFDEntry>((p->fds)[tgt_fd]); 701* if (!old_hbfdp) 702 return -EBADF; 703 int sim_fd = old_hbfdp->getSimFD(); 704 705 int result = dup(sim_fd); 706 if (result == -1) 707 return -errno; 708 709 auto new_hbfdp = std::dynamic_pointer_cast<HBFDEntry>(old_hbfdp->clone()); 710 new_hbfdp->setSimFD(result); 711 new_hbfdp->setCOE(false); 712 return p->fds->allocFD(new_hbfdp); 713} 714 715SyscallReturn 716dup2Func(SyscallDesc desc, int num, Process p, ThreadContext tc) 717{ 718* int index = 0; 719 720 int old_tgt_fd = p->getSyscallArg(tc, index); 721 auto old_hbp = std::dynamic_pointer_cast<HBFDEntry>((p->fds)[old_tgt_fd]); 722* if (!old_hbp) 723 return -EBADF; 724 int old_sim_fd = old_hbp->getSimFD(); 725 726 /** 727 * We need a valid host file descriptor number to be able to pass into 728 * the second parameter for dup2 (newfd), but we don't know what the 729 * viable numbers are; we execute the open call to retrieve one. 730 / 731* int res_fd = dup2(old_sim_fd, open("/dev/null", O_RDONLY)); 732 if (res_fd == -1) 733 return -errno; 734 735 int new_tgt_fd = p->getSyscallArg(tc, index); 736 auto new_hbp = std::dynamic_pointer_cast<HBFDEntry>((p->fds)[new_tgt_fd]); 737* if (new_hbp) 738 p->fds->closeFDEntry(new_tgt_fd); 739 new_hbp = std::dynamic_pointer_cast<HBFDEntry>(old_hbp->clone()); 740 new_hbp->setSimFD(res_fd); 741 new_hbp->setCOE(false); 742 743 return p->fds->allocFD(new_hbp); 744} 745 746SyscallReturn 747fcntlFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 748{ 749* int arg; 750 int index = 0; 751 int tgt_fd = p->getSyscallArg(tc, index); 752 int cmd = p->getSyscallArg(tc, index); 753 754 auto hbfdp = std::dynamic_pointer_cast<HBFDEntry>((p->fds)[tgt_fd]); 755* if (!hbfdp) 756 return -EBADF; 757 int sim_fd = hbfdp->getSimFD(); 758 759 int coe = hbfdp->getCOE(); 760 761 switch (cmd) { 762 case F_GETFD: 763 return coe & FD_CLOEXEC; 764 765 case F_SETFD: { 766 arg = p->getSyscallArg(tc, index); 767 arg ? hbfdp->setCOE(true) : hbfdp->setCOE(false); 768 return 0; 769 } 770 771 // Rely on the host to maintain the file status flags for this file 772 // description rather than maintain it ourselves. Admittedly, this 773 // is suboptimal (and possibly error prone), but it is difficult to 774 // maintain the flags by tracking them across the different descriptors 775 // (that refer to this file description) caused by clone, dup, and 776 // subsequent fcntls. 777 case F_GETFL: 778 case F_SETFL: { 779 arg = p->getSyscallArg(tc, index); 780 int rv = fcntl(sim_fd, cmd, arg); 781 return (rv == -1) ? -errno : rv; 782 } 783 784 default: 785 warn("fcntl: unsupported command %d\n", cmd); 786 return 0; 787 } 788} 789 790SyscallReturn 791fcntl64Func(SyscallDesc desc, int num, Process p, ThreadContext tc) 792{ 793* int index = 0; 794 int tgt_fd = p->getSyscallArg(tc, index); 795 796 auto hbfdp = std::dynamic_pointer_cast<HBFDEntry>((p->fds)[tgt_fd]); 797* if (!hbfdp) 798 return -EBADF; 799 int sim_fd = hbfdp->getSimFD(); 800 801 int cmd = p->getSyscallArg(tc, index); 802 switch (cmd) { 803 case 33: //F_GETLK64 804 warn("fcntl64(%d, F_GETLK64) not supported, error returned\n", tgt_fd); 805 return -EMFILE; 806 807 case 34: // F_SETLK64 808 case 35: // F_SETLKW64 809 warn("fcntl64(%d, F_SETLK(W)64) not supported, error returned\n", 810 tgt_fd); 811 return -EMFILE; 812 813 default: 814 // not sure if this is totally valid, but we'll pass it through 815 // to the underlying OS 816 warn("fcntl64(%d, %d) passed through to host\n", tgt_fd, cmd); 817 return fcntl(sim_fd, cmd); 818 } 819} 820 821SyscallReturn 822pipeImpl(SyscallDesc desc, int callnum, Process p, ThreadContext tc, 823* bool pseudoPipe) 824{ 825 Addr tgt_addr = 0; 826 if (!pseudoPipe) { 827 int index = 0; 828 tgt_addr = p->getSyscallArg(tc, index); 829 } 830 831 int sim_fds[2], tgt_fds[2]; 832 833 int pipe_retval = pipe(sim_fds); 834 if (pipe_retval == -1) 835 return -errno; 836 837 auto rend = PipeFDEntry::EndType::read; 838 auto rpfd = std::make_shared<PipeFDEntry>(sim_fds[0], O_WRONLY, rend); 839 tgt_fds[0] = p->fds->allocFD(rpfd); 840 841 auto wend = PipeFDEntry::EndType::write; 842 auto wpfd = std::make_shared<PipeFDEntry>(sim_fds[1], O_RDONLY, wend); 843 tgt_fds[1] = p->fds->allocFD(wpfd); 844 845 /** 846 * Now patch the read object to record the target file descriptor chosen 847 * as the write end of the pipe. 848 / 849* rpfd->setPipeReadSource(tgt_fds[1]); 850 851 /** 852 * Alpha Linux convention for pipe() is that fd[0] is returned as 853 * the return value of the function, and fd[1] is returned in r20. 854 / 855* if (pseudoPipe) { 856 tc->setIntReg(SyscallPseudoReturnReg, tgt_fds[1]); 857 return tgt_fds[0]; 858 } 859 860 /** 861 * Copy the target file descriptors into buffer space and then copy 862 * the buffer space back into the target address space. 863 / 864* BufferArg tgt_handle(tgt_addr, sizeof(int[2])); 865 int buf_ptr = (int)tgt_handle.bufferPtr(); 866 buf_ptr[0] = tgt_fds[0]; 867 buf_ptr[1] = tgt_fds[1]; 868 tgt_handle.copyOut(tc->getMemProxy()); 869 return 0; 870} 871 872SyscallReturn 873pipePseudoFunc(SyscallDesc desc, int callnum, Process process, 874 ThreadContext tc) 875{ 876* return pipeImpl(desc, callnum, process, tc, true); 877} 878 879SyscallReturn 880pipeFunc(SyscallDesc desc, int callnum, Process process, ThreadContext tc) 881{ 882* return pipeImpl(desc, callnum, process, tc, false); 883} 884 885SyscallReturn 886setpgidFunc(SyscallDesc desc, int callnum, Process process, 887 ThreadContext tc) 888{ 889* int index = 0; 890 int pid = process->getSyscallArg(tc, index); 891 int pgid = process->getSyscallArg(tc, index); 892 893 if (pgid < 0) 894 return -EINVAL; 895 896 if (pid == 0) { 897 process->setpgid(process->pid()); 898 return 0; 899 } 900 901 Process matched_ph = nullptr; 902* System sysh = tc->getSystemPtr(); 903* 904 // Retrieves process pointer from active/suspended thread contexts. 905 for (int i = 0; i < sysh->numContexts(); i++) { 906 if (sysh->threadContexts[i]->status() != ThreadContext::Halted) { 907 Process temp_h = sysh->threadContexts[i]->getProcessPtr(); 908* Process walk_ph = (Process)temp_h; 909 910 if (walk_ph && walk_ph->pid() == process->pid()) 911 matched_ph = walk_ph; 912 } 913 } 914 915 assert(matched_ph); 916 matched_ph->setpgid((pgid == 0) ? matched_ph->pid() : pgid); 917 918 return 0; 919} 920 921SyscallReturn 922getpidPseudoFunc(SyscallDesc desc, int callnum, Process process, 923 ThreadContext tc) 924{ 925* // Make up a PID. There's no interprocess communication in 926 // fake_syscall mode, so there's no way for a process to know it's 927 // not getting a unique value. 928 929 tc->setIntReg(SyscallPseudoReturnReg, process->ppid()); 930 return process->pid(); 931} 932 933 934SyscallReturn 935getuidPseudoFunc(SyscallDesc desc, int callnum, Process process, 936 ThreadContext tc) 937{ 938* // Make up a UID and EUID... it shouldn't matter, and we want the 939 // simulation to be deterministic. 940 941 // EUID goes in r20. 942 tc->setIntReg(SyscallPseudoReturnReg, process->euid()); // EUID 943 return process->uid(); // UID 944} 945 946 947SyscallReturn 948getgidPseudoFunc(SyscallDesc desc, int callnum, Process process, 949 ThreadContext tc) 950{ 951* // Get current group ID. EGID goes in r20. 952 tc->setIntReg(SyscallPseudoReturnReg, process->egid()); // EGID 953 return process->gid(); 954} 955 956 957SyscallReturn 958setuidFunc(SyscallDesc desc, int callnum, Process process, 959 ThreadContext tc) 960{ 961* // can't fathom why a benchmark would call this. 962 int index = 0; 963 warn("Ignoring call to setuid(%d)\n", process->getSyscallArg(tc, index)); 964 return 0; 965} 966 967SyscallReturn 968getpidFunc(SyscallDesc desc, int callnum, Process process, 969 ThreadContext tc) 970{ 971* return process->tgid(); 972} 973 974SyscallReturn 975gettidFunc(SyscallDesc desc, int callnum, Process process, 976 ThreadContext tc) 977{ 978* return process->pid(); 979} 980 981SyscallReturn 982getppidFunc(SyscallDesc desc, int callnum, Process process, 983 ThreadContext tc) 984{ 985* return process->ppid(); 986} 987 988SyscallReturn 989getuidFunc(SyscallDesc desc, int callnum, Process process, 990 ThreadContext tc) 991{ 992* return process->uid(); // UID 993} 994 995SyscallReturn 996geteuidFunc(SyscallDesc desc, int callnum, Process process, 997 ThreadContext tc) 998{ 999* return process->euid(); // UID 1000} 1001 1002SyscallReturn 1003getgidFunc(SyscallDesc desc, int callnum, Process process, 1004 ThreadContext tc) 1005{ 1006* return process->gid(); 1007} 1008 1009SyscallReturn 1010getegidFunc(SyscallDesc desc, int callnum, Process process, 1011 ThreadContext tc) 1012{ 1013* return process->egid(); 1014} 1015 1016SyscallReturn 1017fallocateFunc(SyscallDesc desc, int callnum, Process p, ThreadContext tc) 1018{ 1019#if NO_FALLOCATE 1020* warn("Host OS cannot support calls to fallocate. Ignoring syscall"); 1021#else 1022 int index = 0; 1023 int tgt_fd = p->getSyscallArg(tc, index); 1024 int mode = p->getSyscallArg(tc, index); 1025 off_t offset = p->getSyscallArg(tc, index); 1026 off_t len = p->getSyscallArg(tc, index); 1027 1028 auto ffdp = std::dynamic_pointer_cast<FileFDEntry>((p->fds)[tgt_fd]); 1029* if (!ffdp) 1030 return -EBADF; 1031 int sim_fd = ffdp->getSimFD(); 1032 1033 int result = fallocate(sim_fd, mode, offset, len); 1034 if (result < 0) 1035 return -errno; 1036#endif 1037 return 0; 1038} 1039 1040SyscallReturn 1041accessFunc(SyscallDesc desc, int callnum, Process p, ThreadContext tc, 1042* int index) 1043{ 1044 string path; 1045 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 1046 return -EFAULT; 1047 1048 // Adjust path for current working directory 1049 path = p->fullPath(path); 1050 1051 mode_t mode = p->getSyscallArg(tc, index); 1052 1053 int result = access(path.c_str(), mode); 1054 return (result == -1) ? -errno : result; 1055} 1056 1057SyscallReturn 1058accessFunc(SyscallDesc desc, int callnum, Process p, ThreadContext tc) 1059{ 1060* return accessFunc(desc, callnum, p, tc, 0); 1061} 1062 1063SyscallReturn 1064mknodFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1065{ 1066* int index = 0; 1067 std::string path; 1068 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 1069 return -EFAULT; 1070 1071 path = p->fullPath(path); 1072 mode_t mode = p->getSyscallArg(tc, index); 1073 dev_t dev = p->getSyscallArg(tc, index); 1074 1075 auto result = mknod(path.c_str(), mode, dev); 1076 return (result == -1) ? -errno : result; 1077} 1078 1079SyscallReturn 1080chdirFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1081{ 1082* int index = 0; 1083 std::string path; 1084 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 1085 return -EFAULT; 1086 1087 path = p->fullPath(path); 1088 1089 auto result = chdir(path.c_str()); 1090 return (result == -1) ? -errno : result; 1091} 1092 1093SyscallReturn 1094rmdirFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1095{ 1096* int index = 0; 1097 std::string path; 1098 if (!tc->getMemProxy().tryReadString(path, p->getSyscallArg(tc, index))) 1099 return -EFAULT; 1100 1101 path = p->fullPath(path); 1102 1103 auto result = rmdir(path.c_str()); 1104 return (result == -1) ? -errno : result; 1105} 1106 1107#if defined(SYS_getdents) \|\| defined(SYS_getdents64) 1108template<typename DE, int SYS_NUM> 1109static SyscallReturn 1110getdentsImpl(SyscallDesc desc, int callnum, Process p, ThreadContext tc) 1111{ 1112* int index = 0; 1113 int tgt_fd = p->getSyscallArg(tc, index); 1114 Addr buf_ptr = p->getSyscallArg(tc, index); 1115 unsigned count = p->getSyscallArg(tc, index); 1116 1117 auto hbfdp = std::dynamic_pointer_cast<HBFDEntry>((p->fds)[tgt_fd]); 1118* if (!hbfdp) 1119 return -EBADF; 1120 int sim_fd = hbfdp->getSimFD(); 1121 1122 BufferArg buf_arg(buf_ptr, count); 1123 auto status = syscall(SYS_NUM, sim_fd, buf_arg.bufferPtr(), count); 1124 1125 if (status == -1) 1126 return -errno; 1127 1128 unsigned traversed = 0; 1129 while (traversed < status) { 1130 DE buffer = (DE)((Addr)buf_arg.bufferPtr() + traversed); 1131 1132 auto host_reclen = buffer->d_reclen; 1133 1134 /** 1135 * Convert the byte ordering from the host to the target before 1136 * passing the data back into the target's address space to preserve 1137 * endianness. 1138 / 1139* buffer->d_ino = htog(buffer->d_ino); 1140 buffer->d_off = htog(buffer->d_off); 1141 buffer->d_reclen = htog(buffer->d_reclen); 1142 1143 traversed += host_reclen; 1144 } 1145 1146 buf_arg.copyOut(tc->getMemProxy()); 1147 return status; 1148} 1149#endif 1150 1151#if defined(SYS_getdents) 1152SyscallReturn 1153getdentsFunc(SyscallDesc desc, int callnum, Process p, ThreadContext tc) 1154{ 1155* typedef struct linux_dirent { 1156 unsigned long d_ino; 1157 unsigned long d_off; 1158 unsigned short d_reclen; 1159 char dname[]; 1160 } LinDent; 1161 1162 return getdentsImpl<LinDent, SYS_getdents>(desc, callnum, p, tc); 1163} 1164#endif 1165 1166#if defined(SYS_getdents64) 1167SyscallReturn 1168getdents64Func(SyscallDesc desc, int callnum, Process p, ThreadContext tc) 1169{ 1170* typedef struct linux_dirent64 { 1171 ino64_t d_ino; 1172 off64_t d_off; 1173 unsigned short d_reclen; 1174 char dname[]; 1175 } LinDent64; 1176 1177 return getdentsImpl<LinDent64, SYS_getdents64>(desc, callnum, p, tc); 1178} 1179#endif 1180 1181SyscallReturn 1182shutdownFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1183{ 1184* int index = 0; 1185 int tgt_fd = p->getSyscallArg(tc, index); 1186 int how = p->getSyscallArg(tc, index); 1187 1188 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1189* if (!sfdp) 1190 return -EBADF; 1191 int sim_fd = sfdp->getSimFD(); 1192 1193 int retval = shutdown(sim_fd, how); 1194 1195 return (retval == -1) ? -errno : retval; 1196} 1197 1198SyscallReturn 1199bindFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1200{ 1201* int index = 0; 1202 int tgt_fd = p->getSyscallArg(tc, index); 1203 Addr buf_ptr = p->getSyscallArg(tc, index); 1204 int addrlen = p->getSyscallArg(tc, index); 1205 1206 BufferArg bufSock(buf_ptr, addrlen); 1207 bufSock.copyIn(tc->getMemProxy()); 1208 1209 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1210* if (!sfdp) 1211 return -EBADF; 1212 int sim_fd = sfdp->getSimFD(); 1213 1214 int status = ::bind(sim_fd, 1215 (struct sockaddr )bufSock.bufferPtr(), 1216* addrlen); 1217 1218 return (status == -1) ? -errno : status; 1219} 1220 1221SyscallReturn 1222listenFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1223{ 1224* int index = 0; 1225 int tgt_fd = p->getSyscallArg(tc, index); 1226 int backlog = p->getSyscallArg(tc, index); 1227 1228 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1229* if (!sfdp) 1230 return -EBADF; 1231 int sim_fd = sfdp->getSimFD(); 1232 1233 int status = listen(sim_fd, backlog); 1234 1235 return (status == -1) ? -errno : status; 1236} 1237 1238SyscallReturn 1239connectFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1240{ 1241* int index = 0; 1242 int tgt_fd = p->getSyscallArg(tc, index); 1243 Addr buf_ptr = p->getSyscallArg(tc, index); 1244 int addrlen = p->getSyscallArg(tc, index); 1245 1246 BufferArg addr(buf_ptr, addrlen); 1247 addr.copyIn(tc->getMemProxy()); 1248 1249 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1250* if (!sfdp) 1251 return -EBADF; 1252 int sim_fd = sfdp->getSimFD(); 1253 1254 int status = connect(sim_fd, 1255 (struct sockaddr )addr.bufferPtr(), 1256* (socklen_t)addrlen); 1257 1258 return (status == -1) ? -errno : status; 1259} 1260 1261SyscallReturn 1262recvfromFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1263{ 1264* int index = 0; 1265 int tgt_fd = p->getSyscallArg(tc, index); 1266 Addr bufrPtr = p->getSyscallArg(tc, index); 1267 size_t bufrLen = p->getSyscallArg(tc, index); 1268 int flags = p->getSyscallArg(tc, index); 1269 Addr addrPtr = p->getSyscallArg(tc, index); 1270 Addr addrlenPtr = p->getSyscallArg(tc, index); 1271 1272 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1273* if (!sfdp) 1274 return -EBADF; 1275 int sim_fd = sfdp->getSimFD(); 1276 1277 // Reserve buffer space. 1278 BufferArg bufrBuf(bufrPtr, bufrLen); 1279 1280 // Get address length. 1281 socklen_t addrLen = 0; 1282 if (addrlenPtr != 0) { 1283 // Read address length parameter. 1284 BufferArg addrlenBuf(addrlenPtr, sizeof(socklen_t)); 1285 addrlenBuf.copyIn(tc->getMemProxy()); 1286 addrLen = ((socklen_t )addrlenBuf.bufferPtr()); 1287 } 1288 1289 struct sockaddr sa, sap = NULL; 1290* if (addrLen != 0) { 1291 BufferArg addrBuf(addrPtr, addrLen); 1292 addrBuf.copyIn(tc->getMemProxy()); 1293 memcpy(&sa, (struct sockaddr )addrBuf.bufferPtr(), 1294* sizeof(struct sockaddr)); 1295 sap = &sa; 1296 } 1297 1298 ssize_t recvd_size = recvfrom(sim_fd, 1299 (void )bufrBuf.bufferPtr(), 1300* bufrLen, flags, sap, (socklen_t )&addrLen); 1301* 1302 if (recvd_size == -1) 1303 return -errno; 1304 1305 // Pass the received data out. 1306 bufrBuf.copyOut(tc->getMemProxy()); 1307 1308 // Copy address to addrPtr and pass it on. 1309 if (sap != NULL) { 1310 BufferArg addrBuf(addrPtr, addrLen); 1311 memcpy(addrBuf.bufferPtr(), sap, sizeof(sa)); 1312 addrBuf.copyOut(tc->getMemProxy()); 1313 } 1314 1315 // Copy len to addrlenPtr and pass it on. 1316 if (addrLen != 0) { 1317 BufferArg addrlenBuf(addrlenPtr, sizeof(socklen_t)); 1318 (socklen_t )addrlenBuf.bufferPtr() = addrLen; 1319 addrlenBuf.copyOut(tc->getMemProxy()); 1320 } 1321 1322 return recvd_size; 1323} 1324 1325SyscallReturn 1326sendtoFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1327{ 1328* int index = 0; 1329 int tgt_fd = p->getSyscallArg(tc, index); 1330 Addr bufrPtr = p->getSyscallArg(tc, index); 1331 size_t bufrLen = p->getSyscallArg(tc, index); 1332 int flags = p->getSyscallArg(tc, index); 1333 Addr addrPtr = p->getSyscallArg(tc, index); 1334 socklen_t addrLen = p->getSyscallArg(tc, index); 1335 1336 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1337* if (!sfdp) 1338 return -EBADF; 1339 int sim_fd = sfdp->getSimFD(); 1340 1341 // Reserve buffer space. 1342 BufferArg bufrBuf(bufrPtr, bufrLen); 1343 bufrBuf.copyIn(tc->getMemProxy()); 1344 1345 struct sockaddr sa, sap = nullptr; 1346* memset(&sa, 0, sizeof(sockaddr)); 1347 if (addrLen != 0) { 1348 BufferArg addrBuf(addrPtr, addrLen); 1349 addrBuf.copyIn(tc->getMemProxy()); 1350 memcpy(&sa, (sockaddr)addrBuf.bufferPtr(), addrLen); 1351* sap = &sa; 1352 } 1353 1354 ssize_t sent_size = sendto(sim_fd, 1355 (void )bufrBuf.bufferPtr(), 1356* bufrLen, flags, sap, (socklen_t)addrLen); 1357 1358 return (sent_size == -1) ? -errno : sent_size; 1359} 1360 1361SyscallReturn 1362recvmsgFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1363{ 1364* int index = 0; 1365 int tgt_fd = p->getSyscallArg(tc, index); 1366 Addr msgPtr = p->getSyscallArg(tc, index); 1367 int flags = p->getSyscallArg(tc, index); 1368 1369 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1370* if (!sfdp) 1371 return -EBADF; 1372 int sim_fd = sfdp->getSimFD(); 1373 1374 /** 1375 * struct msghdr { 1376 * void msg_name; // optional address 1377* * socklen_t msg_namelen; // size of address 1378 * struct iovec msg_iov; // iovec array 1379* * size_t msg_iovlen; // number entries in msg_iov 1380 * i // entries correspond to buffer 1381 * void msg_control; // ancillary data 1382* * size_t msg_controllen; // ancillary data buffer len 1383 * int msg_flags; // flags on received message 1384 * }; 1385 * 1386 * struct iovec { 1387 * void iov_base; // starting address 1388* * size_t iov_len; // number of bytes to transfer 1389 * }; 1390 / 1391* 1392 /** 1393 * The plan with this system call is to replace all of the pointers in the 1394 * structure and the substructure with BufferArg class pointers. We will 1395 * copy every field from the structures into our BufferArg classes. 1396 / 1397* BufferArg msgBuf(msgPtr, sizeof(struct msghdr)); 1398 msgBuf.copyIn(tc->getMemProxy()); 1399 struct msghdr msgHdr = (struct msghdr )msgBuf.bufferPtr(); 1400 1401 /** 1402 * We will use these address place holders to retain the pointers which 1403 * we are going to replace with our own buffers in our simulator address 1404 * space. 1405 / 1406* Addr msg_name_phold = 0; 1407 Addr msg_iov_phold = 0; 1408 Addr iovec_base_phold[msgHdr->msg_iovlen]; 1409 Addr msg_control_phold = 0; 1410 1411 /** 1412 * Record msg_name pointer then replace with buffer pointer. 1413 / 1414* BufferArg nameBuf = NULL; 1415* if (msgHdr->msg_name) { 1416 /1/msg_name_phold = (Addr)msgHdr->msg_name; 1417 /2/nameBuf = new BufferArg(msg_name_phold, msgHdr->msg_namelen); 1418 /3/nameBuf->copyIn(tc->getMemProxy()); 1419 /4/msgHdr->msg_name = nameBuf->bufferPtr(); 1420 } 1421 1422 /** 1423 * Record msg_iov pointer then replace with buffer pointer. Also, setup 1424 * an array of buffer pointers for the iovec structs record and replace 1425 * their pointers with buffer pointers. 1426 / 1427* BufferArg iovBuf = NULL; 1428* BufferArg iovecBuf[msgHdr->msg_iovlen]; 1429* for (int i = 0; i < msgHdr->msg_iovlen; i++) { 1430 iovec_base_phold[i] = 0; 1431 iovecBuf[i] = NULL; 1432 } 1433 1434 if (msgHdr->msg_iov) { 1435 /1/msg_iov_phold = (Addr)msgHdr->msg_iov; 1436 /2/iovBuf = new BufferArg(msg_iov_phold, msgHdr->msg_iovlen * 1437 sizeof(struct iovec)); 1438 /3/iovBuf->copyIn(tc->getMemProxy()); 1439 for (int i = 0; i < msgHdr->msg_iovlen; i++) { 1440 if (((struct iovec )iovBuf->bufferPtr())[i].iov_base) { 1441* /1/iovec_base_phold[i] = 1442 (Addr)((struct iovec )iovBuf->bufferPtr())[i].iov_base; 1443* /2/iovecBuf[i] = new BufferArg(iovec_base_phold[i], 1444 ((struct iovec )iovBuf->bufferPtr())[i].iov_len); 1445* /3/iovecBuf[i]->copyIn(tc->getMemProxy()); 1446 /4/((struct iovec )iovBuf->bufferPtr())[i].iov_base = 1447* iovecBuf[i]->bufferPtr(); 1448 } 1449 } 1450 /4/msgHdr->msg_iov = (struct iovec )iovBuf->bufferPtr(); 1451* } 1452 1453 /** 1454 * Record msg_control pointer then replace with buffer pointer. 1455 / 1456* BufferArg controlBuf = NULL; 1457* if (msgHdr->msg_control) { 1458 /1/msg_control_phold = (Addr)msgHdr->msg_control; 1459 /2/controlBuf = new BufferArg(msg_control_phold, 1460 CMSG_ALIGN(msgHdr->msg_controllen)); 1461 /3/controlBuf->copyIn(tc->getMemProxy()); 1462 /4/msgHdr->msg_control = controlBuf->bufferPtr(); 1463 } 1464 1465 ssize_t recvd_size = recvmsg(sim_fd, msgHdr, flags); 1466 1467 if (recvd_size < 0) 1468 return -errno; 1469 1470 if (msgHdr->msg_name) { 1471 nameBuf->copyOut(tc->getMemProxy()); 1472 delete(nameBuf); 1473 msgHdr->msg_name = (void )msg_name_phold; 1474* } 1475 1476 if (msgHdr->msg_iov) { 1477 for (int i = 0; i< msgHdr->msg_iovlen; i++) { 1478 if (((struct iovec )iovBuf->bufferPtr())[i].iov_base) { 1479* iovecBuf[i]->copyOut(tc->getMemProxy()); 1480 delete iovecBuf[i]; 1481 ((struct iovec )iovBuf->bufferPtr())[i].iov_base = 1482* (void )iovec_base_phold[i]; 1483* } 1484 } 1485 iovBuf->copyOut(tc->getMemProxy()); 1486 delete iovBuf; 1487 msgHdr->msg_iov = (struct iovec )msg_iov_phold; 1488* } 1489 1490 if (msgHdr->msg_control) { 1491 controlBuf->copyOut(tc->getMemProxy()); 1492 delete(controlBuf); 1493 msgHdr->msg_control = (void )msg_control_phold; 1494* } 1495 1496 msgBuf.copyOut(tc->getMemProxy()); 1497 1498 return recvd_size; 1499} 1500 1501SyscallReturn 1502sendmsgFunc(SyscallDesc desc, int num, Process p, ThreadContext tc) 1503{ 1504* int index = 0; 1505 int tgt_fd = p->getSyscallArg(tc, index); 1506 Addr msgPtr = p->getSyscallArg(tc, index); 1507 int flags = p->getSyscallArg(tc, index); 1508 1509 auto sfdp = std::dynamic_pointer_cast<SocketFDEntry>((p->fds)[tgt_fd]); 1510* if (!sfdp) 1511 return -EBADF; 1512 int sim_fd = sfdp->getSimFD(); 1513 1514 /** 1515 * Reserve buffer space. 1516 / 1517* BufferArg msgBuf(msgPtr, sizeof(struct msghdr)); 1518 msgBuf.copyIn(tc->getMemProxy()); 1519 struct msghdr msgHdr = ((struct msghdr )msgBuf.bufferPtr()); 1520 1521 /** 1522 * Assuming msgHdr.msg_iovlen >= 1, then there is no point calling 1523 * recvmsg without a buffer. 1524 / 1525* struct iovec iovPtr = msgHdr.msg_iov; 1526* BufferArg iovBuf((Addr)iovPtr, sizeof(struct iovec) * msgHdr.msg_iovlen); 1527 iovBuf.copyIn(tc->getMemProxy()); 1528 struct iovec iov = (struct iovec )iovBuf.bufferPtr(); 1529 msgHdr.msg_iov = iov; 1530 1531 /** 1532 * Cannot instantiate buffers till inside the loop. 1533 * Create array to hold buffer addresses, to be used during copyIn of 1534 * send data. 1535 / 1536* BufferArg bufferArray = (BufferArg )malloc(msgHdr.msg_iovlen 1537 * sizeof(BufferArg )); 1538* 1539 /** 1540 * Iterate through the iovec structures: 1541 * Get the base buffer addreses, reserve iov_len amount of space for each. 1542 * Put the buf address into the bufferArray for later retrieval. 1543 / 1544* for (int iovIndex = 0 ; iovIndex < msgHdr.msg_iovlen; iovIndex++) { 1545 Addr basePtr = (Addr) iov[iovIndex].iov_base; 1546 bufferArray[iovIndex] = new BufferArg(basePtr, iov[iovIndex].iov_len); 1547 bufferArray[iovIndex]->copyIn(tc->getMemProxy()); 1548 iov[iovIndex].iov_base = bufferArray[iovIndex]->bufferPtr(); 1549 } 1550 1551 ssize_t sent_size = sendmsg(sim_fd, &msgHdr, flags); 1552 int local_errno = errno; 1553 1554 /** 1555 * Free dynamically allocated memory. 1556 / 1557* for (int iovIndex = 0 ; iovIndex < msgHdr.msg_iovlen; iovIndex++) { 1558 BufferArg baseBuf = ( BufferArg )bufferArray[iovIndex]; 1559 delete(baseBuf); 1560 } 1561 1562 /** 1563 * Malloced above. 1564 / 1565* free(bufferArray); 1566 1567 return (sent_size < 0) ? -local_errno : sent_size; 1568} 1569