/* * Copyright (C) 2007 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_CALLSTACK_H #define ANDROID_CALLSTACK_H #include <memory> #include <android/log.h> #include <backtrace/backtrace_constants.h> #include <utils/String8.h> #include <utils/Vector.h> #include <stdint.h> #include <sys/types.h> #if !defined(__APPLE__) && !defined(_WIN32) # define WEAKS_AVAILABLE 1 #endif #ifndef CALLSTACK_WEAK # ifdef WEAKS_AVAILABLE # define CALLSTACK_WEAK __attribute__((weak)) # else // !WEAKS_AVAILABLE # define CALLSTACK_WEAK # endif // !WEAKS_AVAILABLE #endif // CALLSTACK_WEAK predefined #define ALWAYS_INLINE __attribute__((always_inline)) namespace android { class Printer; // Collect/print the call stack (function, file, line) traces for a single thread. class CallStack { public: // Create an empty call stack. No-op. CallStack(); // Create a callstack with the current thread's stack trace. // Immediately dump it to logcat using the given logtag. CallStack(const char* logtag, int32_t ignoreDepth = 1); ~CallStack(); // Reset the stack frames (same as creating an empty call stack). void clear() { mFrameLines.clear(); } // Immediately collect the stack traces for the specified thread. // The default is to dump the stack of the current call. void update(int32_t ignoreDepth = 1, pid_t tid = BACKTRACE_CURRENT_THREAD); // Dump a stack trace to the log using the supplied logtag. void log(const char* logtag, android_LogPriority priority = ANDROID_LOG_DEBUG, const char* prefix = nullptr) const; // Dump a stack trace to the specified file descriptor. void dump(int fd, int indent = 0, const char* prefix = nullptr) const; // Return a string (possibly very long) containing the complete stack trace. String8 toString(const char* prefix = nullptr) const; // Dump a serialized representation of the stack trace to the specified printer. void print(Printer& printer) const; // Get the count of stack frames that are in this call stack. size_t size() const { return mFrameLines.size(); } // DO NOT USE ANYTHING BELOW HERE. The following public members are expected // to disappear again shortly, once a better replacement facility exists. // The replacement facility will be incompatible! // Debugging accesses to some basic functionality. These use weak symbols to // avoid introducing a dependency on libutilscallstack. Such a dependency from // libutils results in a cyclic build dependency. These routines can be called // from within libutils. But if the actual library is unavailable, they do // nothing. // // DO NOT USE THESE. They will disappear. struct StackDeleter { #ifdef WEAKS_AVAILABLE void operator()(CallStack* stack) { deleteStack(stack); } #else void operator()(CallStack*) {} #endif }; typedef std::unique_ptr<CallStack, StackDeleter> CallStackUPtr; // Return current call stack if possible, nullptr otherwise. #ifdef WEAKS_AVAILABLE static CallStackUPtr ALWAYS_INLINE getCurrent(int32_t ignoreDepth = 1) { if (reinterpret_cast<uintptr_t>(getCurrentInternal) == 0) { ALOGW("CallStack::getCurrentInternal not linked, returning null"); return CallStackUPtr(nullptr); } else { return getCurrentInternal(ignoreDepth); } } #else // !WEAKS_AVAILABLE static CallStackUPtr ALWAYS_INLINE getCurrent(int32_t = 1) { return CallStackUPtr(nullptr); } #endif // !WEAKS_AVAILABLE #ifdef WEAKS_AVAILABLE static void ALWAYS_INLINE logStack(const char* logtag, CallStack* stack = getCurrent().get(), android_LogPriority priority = ANDROID_LOG_DEBUG) { if (reinterpret_cast<uintptr_t>(logStackInternal) != 0 && stack != nullptr) { logStackInternal(logtag, stack, priority); } else { ALOG(LOG_WARN, logtag, "CallStack::logStackInternal not linked"); } } #else static void ALWAYS_INLINE logStack(const char* logtag, CallStack* = getCurrent().get(), android_LogPriority = ANDROID_LOG_DEBUG) { ALOG(LOG_WARN, logtag, "CallStack::logStackInternal not linked"); } #endif // !WEAKS_AVAILABLE #ifdef WEAKS_AVAILABLE static String8 ALWAYS_INLINE stackToString(const char* prefix = nullptr, const CallStack* stack = getCurrent().get()) { if (reinterpret_cast<uintptr_t>(stackToStringInternal) != 0 && stack != nullptr) { return stackToStringInternal(prefix, stack); } else { return String8::format("%s<CallStack package not linked>", (prefix ? prefix : "")); } } #else // !WEAKS_AVAILABLE static String8 ALWAYS_INLINE stackToString(const char* prefix = nullptr, const CallStack* = getCurrent().get()) { return String8::format("%s<CallStack package not linked>", (prefix ? prefix : "")); } #endif // !WEAKS_AVAILABLE private: #ifdef WEAKS_AVAILABLE static CallStackUPtr CALLSTACK_WEAK getCurrentInternal(int32_t ignoreDepth); static void CALLSTACK_WEAK logStackInternal(const char* logtag, const CallStack* stack, android_LogPriority priority); static String8 CALLSTACK_WEAK stackToStringInternal(const char* prefix, const CallStack* stack); // The deleter is only invoked on non-null pointers. Hence it will never be // invoked if CallStack is not linked. static void CALLSTACK_WEAK deleteStack(CallStack* stack); #endif // WEAKS_AVAILABLE Vector<String8> mFrameLines; }; } // namespace android #endif // ANDROID_CALLSTACK_H