402 lines
13 KiB
C++
402 lines
13 KiB
C++
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// Copyright (c) 2011 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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//
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// Tool to log the execution of the process (Chrome). Writes logs containing
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// time and address of the callback being called for the first time.
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//
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// To speed up the logging, buffering logs is implemented. Every thread have its
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// own buffer and log file so the contention between threads is minimal. As a
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// side-effect, functions called might be mentioned in many thread logs.
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//
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// Special thread is created in the process to periodically flushes logs for all
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// threads for the case the thread has stopped before flushing its logs.
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//
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// Use this profiler with linux_use_tcmalloc=0.
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//
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// Note for the ChromeOS Chrome. Remove renderer process from the sandbox (add
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// --no-sandbox option to running Chrome in /sbin/session_manager_setup.sh).
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// Otherwise renderer will not be able to write logs (and will assert on that).
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//
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// Also note that the instrumentation code is self-activated. It begins to
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// record the log data when it is called first, including the run-time startup.
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// Have it in mind when modifying it, in particular do not use global objects
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// with constructors as they are called during startup (too late for us).
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#include <fcntl.h>
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#include <fstream>
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#include <pthread.h>
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#include <stdarg.h>
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#include <string>
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#include <sys/stat.h>
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#include <sys/syscall.h>
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#include <sys/time.h>
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#include <sys/types.h>
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#include <vector>
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#include "base/containers/hash_tables.h"
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#include "base/lazy_instance.h"
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#include "base/logging.h"
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#include "base/memory/singleton.h"
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#include "base/synchronization/lock.h"
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namespace cygprofile {
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extern "C" {
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// Note that these are linked internally by the compiler. Don't call
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// them directly!
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void __cyg_profile_func_enter(void* this_fn, void* call_site)
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__attribute__((no_instrument_function));
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void __cyg_profile_func_exit(void* this_fn, void* call_site)
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__attribute__((no_instrument_function));
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}
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// Single log entry layout.
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struct CygLogEntry {
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time_t seconds;
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long int usec;
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pid_t pid;
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pthread_t tid;
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const void* this_fn;
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CygLogEntry(time_t seconds, long int usec,
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pid_t pid, pthread_t tid, const void* this_fn)
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: seconds(seconds), usec(usec),
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pid(pid), tid(tid), this_fn(this_fn) {}
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};
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// Common data for the process. Singleton.
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class CygCommon {
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public:
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static CygCommon* GetInstance();
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std::string header() const { return header_line_; }
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private:
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CygCommon();
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std::string header_line_;
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friend struct DefaultSingletonTraits<CygCommon>;
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DISALLOW_COPY_AND_ASSIGN(CygCommon);
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};
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// Returns light-weight process ID. On linux, this is a system-wide
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// unique thread id.
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static pid_t GetLwp() {
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return syscall(__NR_gettid);
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}
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// A per-thread structure representing the log itself.
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class CygTlsLog {
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public:
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CygTlsLog()
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: in_use_(false), lwp_(GetLwp()), pthread_self_(pthread_self()) { }
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// Enter a log entity.
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void LogEnter(void* this_fn);
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// Add newly created CygTlsLog object to the list of all such objects.
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// Needed for the timer callback: it will enumerate each object and flush.
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static void AddNewLog(CygTlsLog* newlog);
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// Starts a thread in this process that periodically flushes all the threads.
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// Must be called once per process.
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static void StartFlushLogThread();
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private:
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static const int kBufMaxSize;
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static const char kLogFilenameFmt[];
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static const char kLogFileNamePrefix[];
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// Flush the log to file. Create file if needed.
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// Must be called with locked log_mutex_.
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void FlushLog();
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// Fork hooks. Needed to keep data in consistent state during fork().
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static void AtForkPrepare();
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static void AtForkParent();
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static void AtForkChild();
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// Thread callback to flush all logs periodically.
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static void* FlushLogThread(void*);
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std::string log_filename_;
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std::vector<CygLogEntry> buf_;
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// A lock that guards buf_ usage between per-thread instrumentation
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// routine and timer flush callback. So the contention could happen
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// only during the flush, every 30 secs.
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base::Lock log_mutex_;
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// Current thread is inside the instrumentation routine.
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bool in_use_;
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// Keeps track of all functions that have been logged on this thread
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// so we do not record dublicates.
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std::hash_set<void*> functions_called_;
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// Thread identifier as Linux kernel shows it. For debugging purposes.
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// LWP (light-weight process) is a unique ID of the thread in the system,
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// unlike pthread_self() which is the same for fork()-ed threads.
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pid_t lwp_;
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pthread_t pthread_self_;
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DISALLOW_COPY_AND_ASSIGN(CygTlsLog);
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};
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// Storage for logs for all threads in the process.
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// Using std::list may be better, but it fails when used before main().
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struct AllLogs {
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std::vector<CygTlsLog*> logs;
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base::Lock mutex;
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};
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base::LazyInstance<AllLogs>::Leaky all_logs_ = LAZY_INSTANCE_INITIALIZER;
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// Per-thread pointer to the current log object.
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static __thread CygTlsLog* tls_current_log = NULL;
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// Magic value of above to prevent the instrumentation. Used when CygTlsLog is
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// being constructed (to prevent reentering by malloc, for example) and by
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// the FlushLogThread (to prevent it being logged - see comment in its code).
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CygTlsLog* const kMagicBeingConstructed = reinterpret_cast<CygTlsLog*>(1);
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// Number of entries in the per-thread log buffer before we flush.
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// Note, that we also flush by timer so not all thread logs may grow up to this.
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const int CygTlsLog::kBufMaxSize = 3000;
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#if defined(OS_ANDROID)
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const char CygTlsLog::kLogFileNamePrefix[] =
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"/data/local/tmp/chrome/cyglog/";
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#else
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const char CygTlsLog::kLogFileNamePrefix[] = "/var/log/chrome/";
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#endif
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// "cyglog.PID.LWP.pthread_self.PPID"
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const char CygTlsLog::kLogFilenameFmt[] = "%scyglog.%d.%d.%ld-%d";
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CygCommon* CygCommon::GetInstance() {
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return Singleton<CygCommon>::get();
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}
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CygCommon::CygCommon() {
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// Determine our module addresses.
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std::ifstream mapsfile("/proc/self/maps");
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CHECK(mapsfile.good());
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static const int kMaxLineSize = 512;
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char line[kMaxLineSize];
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void (*this_fn)(void) =
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reinterpret_cast<void(*)()>(__cyg_profile_func_enter);
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while (mapsfile.getline(line, kMaxLineSize)) {
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const std::string str_line = line;
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size_t permindex = str_line.find("r-xp");
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if (permindex != std::string::npos) {
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int dashindex = str_line.find("-");
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int spaceindex = str_line.find(" ");
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char* p;
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void* start = reinterpret_cast<void*>
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(strtol((str_line.substr(0, dashindex)).c_str(),
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&p, 16));
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CHECK(*p == 0); // Could not determine start address.
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void* end = reinterpret_cast<void*>
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(strtol((str_line.substr(dashindex + 1,
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spaceindex - dashindex - 1)).c_str(),
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&p, 16));
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CHECK(*p == 0); // Could not determine end address.
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if (this_fn >= start && this_fn < end)
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header_line_ = str_line;
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}
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}
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mapsfile.close();
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header_line_.append("\nsecs\tmsecs\tpid:threadid\tfunc\n");
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}
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void CygTlsLog::LogEnter(void* this_fn) {
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if (in_use_)
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return;
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in_use_ = true;
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if (functions_called_.find(this_fn) ==
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functions_called_.end()) {
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functions_called_.insert(this_fn);
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base::AutoLock lock(log_mutex_);
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if (buf_.capacity() < kBufMaxSize)
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buf_.reserve(kBufMaxSize);
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struct timeval timestamp;
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gettimeofday(×tamp, NULL);
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buf_.push_back(CygLogEntry(time(NULL), timestamp.tv_usec,
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getpid(), pthread_self(), this_fn));
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if (buf_.size() == kBufMaxSize) {
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FlushLog();
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}
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}
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in_use_ = false;
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}
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void CygTlsLog::AtForkPrepare() {
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CHECK(tls_current_log);
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CHECK(tls_current_log->lwp_ == GetLwp());
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CHECK(tls_current_log->pthread_self_ == pthread_self());
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all_logs_.Get().mutex.Acquire();
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}
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void CygTlsLog::AtForkParent() {
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CHECK(tls_current_log);
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CHECK(tls_current_log->lwp_ == GetLwp());
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CHECK(tls_current_log->pthread_self_ == pthread_self());
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all_logs_.Get().mutex.Release();
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}
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void CygTlsLog::AtForkChild() {
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CHECK(tls_current_log);
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// Update the IDs of this new thread of the new process.
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// Note that the process may (and Chrome main process forks zygote this way)
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// call exec(self) after we return (to launch new shiny self). If done like
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// that, PID and LWP will remain the same, but pthread_self() changes.
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pid_t lwp = GetLwp();
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CHECK(tls_current_log->lwp_ != lwp); // LWP is system-wide unique thread ID.
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tls_current_log->lwp_ = lwp;
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CHECK(tls_current_log->pthread_self_ == pthread_self());
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// Leave the only current thread tls object because fork() clones only the
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// current thread (the one that called fork) to the child process.
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AllLogs& all_logs = all_logs_.Get();
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all_logs.logs.clear();
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all_logs.logs.push_back(tls_current_log);
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CHECK(all_logs.logs.size() == 1);
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// Clear log filename so it will be re-calculated with the new PIDs.
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tls_current_log->log_filename_.clear();
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// Create the thread that will periodically flush all logs for this process.
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StartFlushLogThread();
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// We do not update log header line (CygCommon data) as it will be the same
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// because the new process is just a forked copy.
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all_logs.mutex.Release();
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}
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void CygTlsLog::StartFlushLogThread() {
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pthread_t tid;
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CHECK(!pthread_create(&tid, NULL, &CygTlsLog::FlushLogThread, NULL));
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}
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void CygTlsLog::AddNewLog(CygTlsLog* newlog) {
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CHECK(tls_current_log == kMagicBeingConstructed);
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AllLogs& all_logs = all_logs_.Get();
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base::AutoLock lock(all_logs.mutex);
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if (all_logs.logs.empty()) {
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// An Android app never fork, it always starts with a pre-defined number of
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// process descibed by the android manifest file. In fact, there is not
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// support for pthread_atfork at the android system libraries. All chrome
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// for android processes will start as independent processs and each one
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// will generate its own logs that will later have to be merged as usual.
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#if !defined(OS_ANDROID)
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CHECK(!pthread_atfork(CygTlsLog::AtForkPrepare,
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CygTlsLog::AtForkParent,
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CygTlsLog::AtForkChild));
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#endif
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// The very first process starts its flush thread here. Forked processes
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// will do it in AtForkChild().
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StartFlushLogThread();
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}
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all_logs.logs.push_back(newlog);
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}
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// Printf-style routine to write to open file.
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static void WriteLogLine(int fd, const char* fmt, ...) {
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va_list arg_ptr;
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va_start(arg_ptr, fmt);
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char msg[160];
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int len = vsnprintf(msg, sizeof(msg), fmt, arg_ptr);
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int rc = write(fd, msg, (len > sizeof(msg))? sizeof(msg): len);
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va_end(arg_ptr);
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};
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void CygTlsLog::FlushLog() {
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bool first_log_write = false;
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if (log_filename_.empty()) {
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first_log_write = true;
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char buf[80];
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snprintf(buf, sizeof(buf), kLogFilenameFmt,
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kLogFileNamePrefix, getpid(), lwp_, pthread_self_, getppid());
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log_filename_ = buf;
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unlink(log_filename_.c_str());
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}
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int file = open(log_filename_.c_str(), O_CREAT | O_WRONLY | O_APPEND, 00600);
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CHECK(file != -1);
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if (first_log_write)
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WriteLogLine(file, "%s", CygCommon::GetInstance()->header().c_str());
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for (int i = 0; i != buf_.size(); ++i) {
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const CygLogEntry& p = buf_[i];
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WriteLogLine(file, "%ld %ld\t%d:%ld\t%p\n",
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p.seconds, p.usec, p.pid, p.tid, p.this_fn);
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}
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close(file);
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buf_.clear();
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}
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void* CygTlsLog::FlushLogThread(void*) {
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// Disable logging this thread. Although this routine is not instrumented
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// (cygprofile.gyp provides that), the called routines are and thus will
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// call instrumentation.
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CHECK(tls_current_log == NULL); // Must be 0 as this is a new thread.
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tls_current_log = kMagicBeingConstructed;
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// Run this loop infinitely: sleep 30 secs and the flush all thread's
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// buffers. There is a danger that, when quitting Chrome, this thread may
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// see unallocated data and segfault. We do not care because we need logs
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// when Chrome is working.
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while (true) {
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for(int secs_to_sleep = 30; secs_to_sleep != 0;)
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secs_to_sleep = sleep(secs_to_sleep);
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AllLogs& all_logs = all_logs_.Get();
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base::AutoLock lock(all_logs.mutex);
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for (int i = 0; i != all_logs.logs.size(); ++i) {
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CygTlsLog* current_log = all_logs.logs[i];
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base::AutoLock current_lock(current_log->log_mutex_);
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if (current_log->buf_.size()) {
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current_log->FlushLog();
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} else {
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// The thread's log is still empty. Probably the thread finished prior
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// to previous timer fired - deallocate its buffer. Even if the thread
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// ever resumes, it will allocate its buffer again in
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// std::vector::push_back().
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current_log->buf_.clear();
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}
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}
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}
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}
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// Gcc Compiler callback, called on every function invocation providing
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// addresses of caller and callee codes.
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void __cyg_profile_func_enter(void* this_fn, void* callee_unused) {
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if (tls_current_log == NULL) {
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tls_current_log = kMagicBeingConstructed;
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CygTlsLog* newlog = new CygTlsLog;
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CHECK(newlog);
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CygTlsLog::AddNewLog(newlog);
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tls_current_log = newlog;
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}
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if (tls_current_log != kMagicBeingConstructed) {
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tls_current_log->LogEnter(this_fn);
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}
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}
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// Gcc Compiler callback, called after every function invocation providing
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// addresses of caller and callee codes.
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void __cyg_profile_func_exit(void* this_fn, void* call_site) {
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}
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} // namespace cygprofile
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