/* * Copyright (C) 2012 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef ANDROID_TRACE_H #define ANDROID_TRACE_H #include #include #include #include #include #include #include #include #include // The ATRACE_TAG macro can be defined before including this header to trace // using one of the tags defined below. It must be defined to one of the // following ATRACE_TAG_* macros. The trace tag is used to filter tracing in // userland to avoid some of the runtime cost of tracing when it is not desired. // // Defining ATRACE_TAG to be ATRACE_TAG_ALWAYS will result in the tracing always // being enabled - this should ONLY be done for debug code, as userland tracing // has a performance cost even when the trace is not being recorded. Defining // ATRACE_TAG to be ATRACE_TAG_NEVER or leaving ATRACE_TAG undefined will result // in the tracing always being disabled. // // These tags must be kept in sync with frameworks/base/core/java/android/os/Trace.java. #define ATRACE_TAG_NEVER 0 // The "never" tag is never enabled. #define ATRACE_TAG_ALWAYS (1<<0) // The "always" tag is always enabled. #define ATRACE_TAG_GRAPHICS (1<<1) #define ATRACE_TAG_INPUT (1<<2) #define ATRACE_TAG_VIEW (1<<3) #define ATRACE_TAG_WEBVIEW (1<<4) #define ATRACE_TAG_WINDOW_MANAGER (1<<5) #define ATRACE_TAG_ACTIVITY_MANAGER (1<<6) #define ATRACE_TAG_SYNC_MANAGER (1<<7) #define ATRACE_TAG_AUDIO (1<<8) #define ATRACE_TAG_VIDEO (1<<9) #define ATRACE_TAG_CAMERA (1<<10) #define ATRACE_TAG_LAST ATRACE_TAG_CAMERA #define ATRACE_TAG_NOT_READY (1LL<<63) // Reserved for use during init #define ATRACE_TAG_VALID_MASK ((ATRACE_TAG_LAST - 1) | ATRACE_TAG_LAST) #ifndef ATRACE_TAG #define ATRACE_TAG ATRACE_TAG_NEVER #elif ATRACE_TAG > ATRACE_TAG_LAST #error ATRACE_TAG must be defined to be one of the tags defined in utils/Trace.h #endif // ATRACE_CALL traces the beginning and end of the current function. To trace // the correct start and end times this macro should be the first line of the // function body. #define ATRACE_CALL() android::ScopedTrace ___tracer(ATRACE_TAG, __FUNCTION__) // ATRACE_NAME traces the beginning and end of the current function. To trace // the correct start and end times this macro should be the first line of the // function body. #define ATRACE_NAME(name) android::ScopedTrace ___tracer(ATRACE_TAG, name) // ATRACE_INT traces a named integer value. This can be used to track how the // value changes over time in a trace. #define ATRACE_INT(name, value) android::Tracer::traceCounter(ATRACE_TAG, name, value) // ATRACE_ENABLED returns true if the trace tag is enabled. It can be used as a // guard condition around more expensive trace calculations. #define ATRACE_ENABLED() android::Tracer::isTagEnabled(ATRACE_TAG) namespace android { class Tracer { public: static uint64_t getEnabledTags() { initIfNeeded(); return sEnabledTags; } static inline bool isTagEnabled(uint64_t tag) { initIfNeeded(); return sEnabledTags & tag; } static inline void traceCounter(uint64_t tag, const char* name, int32_t value) { if (CC_UNLIKELY(isTagEnabled(tag))) { char buf[1024]; snprintf(buf, 1024, "C|%d|%s|%d", getpid(), name, value); write(sTraceFD, buf, strlen(buf)); } } static inline void traceBegin(uint64_t tag, const char* name) { if (CC_UNLIKELY(isTagEnabled(tag))) { char buf[1024]; size_t len = snprintf(buf, 1024, "B|%d|%s", getpid(), name); write(sTraceFD, buf, len); } } static inline void traceEnd(uint64_t tag) { if (CC_UNLIKELY(isTagEnabled(tag))) { char buf = 'E'; write(sTraceFD, &buf, 1); } } private: static inline void initIfNeeded() { if (!android_atomic_acquire_load(&sIsReady)) { init(); } } static void changeCallback(); // init opens the trace marker file for writing and reads the // atrace.tags.enableflags system property. It does this only the first // time it is run, using sMutex for synchronization. static void init(); // retrieve the current value of the system property. static void loadSystemProperty(); // sIsReady is a boolean value indicating whether a call to init() has // completed in this process. It is initialized to 0 and set to 1 when the // first init() call completes. It is set to 1 even if a failure occurred // in init (e.g. the trace marker file couldn't be opened). // // This should be checked by all tracing functions using an atomic acquire // load operation before calling init(). This check avoids the need to lock // a mutex each time a trace function gets called. static volatile int32_t sIsReady; // sTraceFD is the file descriptor used to write to the kernel's trace // buffer. It is initialized to -1 and set to an open file descriptor in // init() while a lock on sMutex is held. // // This should only be used by a trace function after init() has // successfully completed. static int sTraceFD; // sEnabledTags is the set of tag bits for which tracing is currently // enabled. It is initialized to 0 and set based on the // atrace.tags.enableflags system property in init() while a lock on sMutex // is held. // // This should only be used by a trace function after init() has // successfully completed. // // This value is only ever non-zero when tracing is initialized and sTraceFD is not -1. static uint64_t sEnabledTags; // sMutex is used to protect the execution of init(). static Mutex sMutex; }; class ScopedTrace { public: inline ScopedTrace(uint64_t tag, const char* name) : mTag(tag) { Tracer::traceBegin(mTag, name); } inline ~ScopedTrace() { Tracer::traceEnd(mTag); } private: uint64_t mTag; }; }; // namespace android #endif // ANDROID_TRACE_H