// Copyright (c) 2006-2011 The Chromium Authors. All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in // the documentation and/or other materials provided with the // distribution. // * Neither the name of Google, Inc. nor the names of its contributors // may be used to endorse or promote products derived from this // software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS // FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE // COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, // INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, // BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS // OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED // AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, // OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT // OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF // SUCH DAMAGE. #ifndef TOOLS_PLATFORM_H_ #define TOOLS_PLATFORM_H_ #ifdef ANDROID #include #else #define __android_log_print(a, ...) #endif #ifdef XP_UNIX #include #endif #include #include #include "mozilla/unused.h" #include "mozilla/TimeStamp.h" #include "mozilla/Mutex.h" #include "MainThreadUtils.h" #include "PlatformMacros.h" #include "v8-support.h" #include #ifdef XP_WIN #include #endif #define ASSERT(a) MOZ_ASSERT(a) bool moz_profiler_verbose(); #ifdef ANDROID # if defined(__arm__) || defined(__thumb__) # define ENABLE_SPS_LEAF_DATA # define ENABLE_ARM_LR_SAVING # endif # define LOG(text) \ do { if (moz_profiler_verbose()) \ __android_log_write(ANDROID_LOG_ERROR, "Profiler", text); \ } while (0) # define LOGF(format, ...) \ do { if (moz_profiler_verbose()) \ __android_log_print(ANDROID_LOG_ERROR, "Profiler", format, \ __VA_ARGS__); \ } while (0) #else # define LOG(text) \ do { if (moz_profiler_verbose()) fprintf(stderr, "Profiler: %s\n", text); \ } while (0) # define LOGF(format, ...) \ do { if (moz_profiler_verbose()) fprintf(stderr, "Profiler: " format \ "\n", __VA_ARGS__); \ } while (0) #endif #if defined(XP_MACOSX) || defined(XP_WIN) || defined(XP_LINUX) #define ENABLE_SPS_LEAF_DATA #endif extern mozilla::TimeStamp sStartTime; typedef uint8_t* Address; // ---------------------------------------------------------------------------- // Mutex // // Mutexes are used for serializing access to non-reentrant sections of code. // The implementations of mutex should allow for nested/recursive locking. class Mutex { public: virtual ~Mutex() {} // Locks the given mutex. If the mutex is currently unlocked, it becomes // locked and owned by the calling thread, and immediately. If the mutex // is already locked by another thread, suspends the calling thread until // the mutex is unlocked. virtual int Lock() = 0; // Unlocks the given mutex. The mutex is assumed to be locked and owned by // the calling thread on entrance. virtual int Unlock() = 0; // Tries to lock the given mutex. Returns whether the mutex was // successfully locked. virtual bool TryLock() = 0; }; // ---------------------------------------------------------------------------- // OS // // This class has static methods for the different platform specific // functions. Add methods here to cope with differences between the // supported platforms. class OS { public: // Sleep for a number of milliseconds. static void Sleep(const int milliseconds); // Sleep for a number of microseconds. static void SleepMicro(const int microseconds); // Called on startup to initialize platform specific things static void Startup(); private: static const int msPerSecond = 1000; }; // ---------------------------------------------------------------------------- // Thread // // Thread objects are used for creating and running threads. When the start() // method is called the new thread starts running the run() method in the new // thread. The Thread object should not be deallocated before the thread has // terminated. class Thread { public: // Create new thread. explicit Thread(const char* name); virtual ~Thread(); // Start new thread by calling the Run() method in the new thread. void Start(); void Join(); inline const char* name() const { return name_; } // Abstract method for run handler. virtual void Run() = 0; // The thread name length is limited to 16 based on Linux's implementation of // prctl(). static const int kMaxThreadNameLength = 16; #ifdef XP_WIN HANDLE thread_; typedef DWORD tid_t; tid_t thread_id_; #else typedef ::pid_t tid_t; #endif #if defined(XP_MACOSX) pthread_t thread_; #endif static tid_t GetCurrentId(); private: void set_name(const char *name); char name_[kMaxThreadNameLength]; int stack_size_; DISALLOW_COPY_AND_ASSIGN(Thread); }; // ---------------------------------------------------------------------------- // HAVE_NATIVE_UNWIND // // Pseudo backtraces are available on all platforms. Native // backtraces are available only on selected platforms. Breakpad is // the only supported native unwinder. HAVE_NATIVE_UNWIND is set at // build time to indicate whether native unwinding is possible on this // platform. The actual unwind mode currently in use is stored in // sUnwindMode. #undef HAVE_NATIVE_UNWIND #if defined(MOZ_PROFILING) \ && (defined(SPS_PLAT_amd64_linux) || defined(SPS_PLAT_arm_android) \ || defined(SPS_PLAT_x86_linux) \ || defined(SPS_OS_windows) \ || defined(SPS_OS_darwin)) # define HAVE_NATIVE_UNWIND #endif /* Some values extracted at startup from environment variables, that control the behaviour of the breakpad unwinder. */ extern const char* PROFILER_MODE; extern const char* PROFILER_INTERVAL; extern const char* PROFILER_ENTRIES; extern const char* PROFILER_STACK; extern const char* PROFILER_FEATURES; void read_profiler_env_vars(); void profiler_usage(); // Helper methods to expose modifying profiler behavior bool set_profiler_mode(const char*); bool set_profiler_interval(const char*); bool set_profiler_entries(const char*); bool set_profiler_scan(const char*); bool is_native_unwinding_avail(); typedef enum { UnwINVALID, UnwNATIVE, UnwPSEUDO, UnwCOMBINED } UnwMode; extern UnwMode sUnwindMode; /* what mode? */ extern int sUnwindInterval; /* in milliseconds */ extern int sUnwindStackScan; /* max # of dubious frames allowed */ extern int sProfileEntries; /* how many entries do we store? */ void set_tls_stack_top(void* stackTop); // ---------------------------------------------------------------------------- // Sampler // // A sampler periodically samples the state of the VM and optionally // (if used for profiling) the program counter and stack pointer for // the thread that created it. class PseudoStack; class ThreadProfile; // TickSample captures the information collected for each sample. class TickSample { public: TickSample() : pc(NULL), sp(NULL), fp(NULL), #ifdef ENABLE_ARM_LR_SAVING lr(NULL), #endif context(NULL), isSamplingCurrentThread(false) {} void PopulateContext(void* aContext); Address pc; // Instruction pointer. Address sp; // Stack pointer. Address fp; // Frame pointer. #ifdef ENABLE_ARM_LR_SAVING Address lr; // ARM link register #endif void* context; // The context from the signal handler, if available. On // Win32 this may contain the windows thread context. bool isSamplingCurrentThread; ThreadProfile* threadProfile; mozilla::TimeStamp timestamp; int64_t rssMemory; }; class ThreadInfo; class PlatformData; class TableTicker; class SyncProfile; class Sampler { public: // Initialize sampler. explicit Sampler(double interval, bool profiling, int entrySize); virtual ~Sampler(); double interval() const { return interval_; } // This method is called for each sampling period with the current // program counter. virtual void Tick(TickSample* sample) = 0; // Immediately captures the calling thread's call stack and returns it. virtual SyncProfile* GetBacktrace() = 0; // Request a save from a signal handler virtual void RequestSave() = 0; // Process any outstanding request outside a signal handler. virtual void HandleSaveRequest() = 0; // Start and stop sampler. void Start(); void Stop(); // Is the sampler used for profiling? bool IsProfiling() const { return profiling_; } // Whether the sampler is running (that is, consumes resources). bool IsActive() const { return active_; } // Low overhead way to stop the sampler from ticking bool IsPaused() const { return paused_; } void SetPaused(bool value) { NoBarrier_Store(&paused_, value); } virtual bool ProfileThreads() const = 0; int EntrySize() { return entrySize_; } // We can't new/delete the type safely without defining it // (-Wdelete-incomplete). Use these Alloc/Free functions instead. static PlatformData* AllocPlatformData(int aThreadId); static void FreePlatformData(PlatformData*); // If we move the backtracing code into the platform files we won't // need to have these hacks #ifdef XP_WIN // xxxehsan sucky hack :( static uintptr_t GetThreadHandle(PlatformData*); #endif #ifdef XP_MACOSX static pthread_t GetProfiledThread(PlatformData*); #endif static std::vector GetRegisteredThreads() { return *sRegisteredThreads; } static bool RegisterCurrentThread(const char* aName, PseudoStack* aPseudoStack, bool aIsMainThread, void* stackTop); static void UnregisterCurrentThread(); static void Startup(); // Should only be called on shutdown static void Shutdown(); static TableTicker* GetActiveSampler() { return sActiveSampler; } static void SetActiveSampler(TableTicker* sampler) { sActiveSampler = sampler; } static mozilla::Mutex* sRegisteredThreadsMutex; static bool CanNotifyObservers() { #if defined(SPS_OS_android) && !defined(MOZ_WIDGET_GONK) // Android ANR reporter uses the profiler off the main thread return NS_IsMainThread(); #else MOZ_ASSERT(NS_IsMainThread()); return true; #endif } protected: static std::vector* sRegisteredThreads; static TableTicker* sActiveSampler; private: void SetActive(bool value) { NoBarrier_Store(&active_, value); } const double interval_; const bool profiling_; Atomic32 paused_; Atomic32 active_; const int entrySize_; // Refactor me! #if defined(SPS_OS_linux) || defined(SPS_OS_android) bool signal_handler_installed_; struct sigaction old_sigprof_signal_handler_; struct sigaction old_sigsave_signal_handler_; bool signal_sender_launched_; pthread_t signal_sender_thread_; #endif }; class ThreadInfo { public: ThreadInfo(const char* aName, int aThreadId, bool aIsMainThread, PseudoStack* aPseudoStack, void* aStackTop) : mName(strdup(aName)) , mThreadId(aThreadId) , mIsMainThread(aIsMainThread) , mPseudoStack(aPseudoStack) , mPlatformData(Sampler::AllocPlatformData(aThreadId)) , mProfile(NULL) , mStackTop(aStackTop) {} virtual ~ThreadInfo(); const char* Name() const { return mName; } int ThreadId() const { return mThreadId; } bool IsMainThread() const { return mIsMainThread; } PseudoStack* Stack() const { return mPseudoStack; } void SetProfile(ThreadProfile* aProfile) { mProfile = aProfile; } ThreadProfile* Profile() const { return mProfile; } PlatformData* GetPlatformData() const { return mPlatformData; } void* StackTop() const { return mStackTop; } private: char* mName; int mThreadId; const bool mIsMainThread; PseudoStack* mPseudoStack; PlatformData* mPlatformData; ThreadProfile* mProfile; void* const mStackTop; }; #endif /* ndef TOOLS_PLATFORM_H_ */