forked from OSchip/llvm-project
179 lines
6.3 KiB
C++
179 lines
6.3 KiB
C++
//===-- esan_sideline_linux.cpp ---------------------------------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file is a part of EfficiencySanitizer, a family of performance tuners.
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//
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// Support for a separate or "sideline" tool thread on Linux.
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//===----------------------------------------------------------------------===//
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#include "sanitizer_common/sanitizer_platform.h"
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#if SANITIZER_LINUX
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#include "esan_sideline.h"
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#include "sanitizer_common/sanitizer_atomic.h"
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#include "sanitizer_common/sanitizer_common.h"
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#include "sanitizer_common/sanitizer_linux.h"
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#include <errno.h>
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#include <sched.h>
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#include <sys/prctl.h>
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#include <sys/signal.h>
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#include <sys/time.h>
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#include <sys/types.h>
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#include <sys/wait.h>
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namespace __esan {
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static const int SigAltStackSize = 4*1024;
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static const int SidelineStackSize = 4*1024;
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static const uptr SidelineIdUninitialized = 1;
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// FIXME: we'll need some kind of TLS (can we trust that a pthread key will
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// work in our non-POSIX thread?) to access our data in our signal handler
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// with multiple sideline threads. For now we assume there is only one
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// sideline thread and we use a dirty solution of a global var.
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static SidelineThread *TheThread;
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// We aren't passing SA_NODEFER so the same signal is blocked while here.
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void SidelineThread::handleSidelineSignal(int SigNum,
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__sanitizer_siginfo *SigInfo,
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void *Ctx) {
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VPrintf(3, "Sideline signal %d\n", SigNum);
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CHECK_EQ(SigNum, SIGALRM);
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// See above about needing TLS to avoid this global var.
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SidelineThread *Thread = TheThread;
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if (atomic_load(&Thread->SidelineExit, memory_order_relaxed) != 0)
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return;
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Thread->sampleFunc(Thread->FuncArg);
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}
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void SidelineThread::registerSignal(int SigNum) {
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__sanitizer_sigaction SigAct;
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internal_memset(&SigAct, 0, sizeof(SigAct));
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SigAct.sigaction = handleSidelineSignal;
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// We do not pass SA_NODEFER as we want to block the same signal.
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SigAct.sa_flags = SA_ONSTACK | SA_SIGINFO;
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int Res = internal_sigaction(SigNum, &SigAct, nullptr);
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CHECK_EQ(Res, 0);
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}
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int SidelineThread::runSideline(void *Arg) {
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VPrintf(1, "Sideline thread starting\n");
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SidelineThread *Thread = static_cast<SidelineThread*>(Arg);
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// If the parent dies, we want to exit also.
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internal_prctl(PR_SET_PDEATHSIG, SIGKILL, 0, 0, 0);
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// Set up a signal handler on an alternate stack for safety.
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InternalScopedBuffer<char> StackMap(SigAltStackSize);
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stack_t SigAltStack;
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SigAltStack.ss_sp = StackMap.data();
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SigAltStack.ss_size = SigAltStackSize;
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SigAltStack.ss_flags = 0;
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internal_sigaltstack(&SigAltStack, nullptr);
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// We inherit the signal mask from the app thread. In case
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// we weren't created at init time, we ensure the mask is empty.
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__sanitizer_sigset_t SigSet;
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internal_sigfillset(&SigSet);
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int Res = internal_sigprocmask(SIG_UNBLOCK, &SigSet, nullptr);
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CHECK_EQ(Res, 0);
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registerSignal(SIGALRM);
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bool TimerSuccess = Thread->adjustTimer(Thread->Freq);
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CHECK(TimerSuccess);
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// We loop, doing nothing but handling itimer signals.
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while (atomic_load(&TheThread->SidelineExit, memory_order_relaxed) == 0)
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sched_yield();
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if (!Thread->adjustTimer(0))
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VPrintf(1, "Failed to disable timer\n");
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VPrintf(1, "Sideline thread exiting\n");
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return 0;
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}
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bool SidelineThread::launchThread(SidelineFunc takeSample, void *Arg,
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u32 FreqMilliSec) {
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// This can only be called once. However, we can't clear a field in
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// the constructor and check for that here as the constructor for
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// a static instance is called *after* our module_ctor and thus after
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// this routine! Thus we rely on the TheThread check below.
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CHECK(TheThread == nullptr); // Only one sideline thread is supported.
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TheThread = this;
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sampleFunc = takeSample;
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FuncArg = Arg;
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Freq = FreqMilliSec;
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atomic_store(&SidelineExit, 0, memory_order_relaxed);
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// We do without a guard page.
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Stack = static_cast<char*>(MmapOrDie(SidelineStackSize, "SidelineStack"));
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// We need to handle the return value from internal_clone() not having been
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// assigned yet (for our CHECK in adjustTimer()) so we ensure this has a
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// sentinel value.
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SidelineId = SidelineIdUninitialized;
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// By omitting CLONE_THREAD, the child is in its own thread group and will not
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// receive any of the application's signals.
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SidelineId = internal_clone(
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runSideline, Stack + SidelineStackSize,
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CLONE_VM | CLONE_FS | CLONE_FILES | CLONE_UNTRACED,
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this, nullptr /* parent_tidptr */,
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nullptr /* newtls */, nullptr /* child_tidptr */);
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int ErrCode;
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if (internal_iserror(SidelineId, &ErrCode)) {
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Printf("FATAL: EfficiencySanitizer failed to spawn a thread (code %d).\n",
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ErrCode);
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Die();
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return false; // Not reached.
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}
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return true;
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}
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bool SidelineThread::joinThread() {
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VPrintf(1, "Joining sideline thread\n");
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bool Res = true;
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atomic_store(&SidelineExit, 1, memory_order_relaxed);
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while (true) {
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uptr Status = internal_waitpid(SidelineId, nullptr, __WALL);
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int ErrCode;
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if (!internal_iserror(Status, &ErrCode))
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break;
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if (ErrCode == EINTR)
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continue;
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VPrintf(1, "Failed to join sideline thread (errno %d)\n", ErrCode);
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Res = false;
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break;
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}
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UnmapOrDie(Stack, SidelineStackSize);
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return Res;
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}
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// Must be called from the sideline thread itself.
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bool SidelineThread::adjustTimer(u32 FreqMilliSec) {
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// The return value of internal_clone() may not have been assigned yet:
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CHECK(internal_getpid() == SidelineId ||
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SidelineId == SidelineIdUninitialized);
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Freq = FreqMilliSec;
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struct itimerval TimerVal;
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TimerVal.it_interval.tv_sec = (time_t) Freq / 1000;
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TimerVal.it_interval.tv_usec = (time_t) (Freq % 1000) * 1000;
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TimerVal.it_value.tv_sec = (time_t) Freq / 1000;
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TimerVal.it_value.tv_usec = (time_t) (Freq % 1000) * 1000;
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// As we're in a different thread group, we cannot use either
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// ITIMER_PROF or ITIMER_VIRTUAL without taking up scheduled
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// time ourselves: thus we must use real time.
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int Res = setitimer(ITIMER_REAL, &TimerVal, nullptr);
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return (Res == 0);
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}
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} // namespace __esan
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#endif // SANITIZER_LINUX
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