/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this file, * You can obtain one at http://mozilla.org/MPL/2.0/. */ #include #include #include #include #include #include #include #include "mozilla/Alignment.h" #include #define NS_EXPORT __attribute__ ((visibility("default"))) #if ANDROID_VERSION < 17 || defined(MOZ_WIDGET_ANDROID) /* Android doesn't have pthread_atfork(), so we need to use our own. */ struct AtForkFuncs { void (*prepare)(void); void (*parent)(void); void (*child)(void); }; /* jemalloc's initialization calls pthread_atfork. When pthread_atfork (see * further below) stores the corresponding data, it's going to allocate memory, * which will loop back to jemalloc's initialization, leading to a dead-lock. * So, for that specific vector, we use a special allocator that returns a * static buffer for small sizes, and force the initial vector capacity to * a size enough to store one atfork function table. */ template struct SpecialAllocator: public std::allocator { SpecialAllocator(): bufUsed(false) {} inline typename std::allocator::pointer allocate(typename std::allocator::size_type n, const void * = 0) { if (!bufUsed && n == 1) { bufUsed = true; return buf.addr(); } return reinterpret_cast(::operator new(sizeof(T) * n)); } inline void deallocate(typename std::allocator::pointer p, typename std::allocator::size_type n) { if (p == buf.addr()) bufUsed = false; else ::operator delete(p); } template struct rebind { typedef SpecialAllocator other; }; private: mozilla::AlignedStorage2 buf; bool bufUsed; }; static std::vector > atfork; #endif #ifdef MOZ_WIDGET_GONK #include "cpuacct.h" #define WRAP(x) x #if ANDROID_VERSION < 17 || defined(MOZ_WIDGET_ANDROID) extern "C" NS_EXPORT int timer_create(clockid_t, struct sigevent*, timer_t*) { __android_log_print(ANDROID_LOG_ERROR, "BionicGlue", "timer_create not supported!"); abort(); return -1; } #endif #else #define cpuacct_add(x) #define WRAP(x) __wrap_##x #endif #if ANDROID_VERSION < 17 || defined(MOZ_WIDGET_ANDROID) extern "C" NS_EXPORT int WRAP(pthread_atfork)(void (*prepare)(void), void (*parent)(void), void (*child)(void)) { AtForkFuncs funcs; funcs.prepare = prepare; funcs.parent = parent; funcs.child = child; if (!atfork.capacity()) atfork.reserve(1); atfork.push_back(funcs); return 0; } extern "C" NS_EXPORT pid_t __fork(void); extern "C" NS_EXPORT pid_t WRAP(fork)(void) { pid_t pid; for (auto it = atfork.rbegin(); it < atfork.rend(); ++it) if (it->prepare) it->prepare(); switch ((pid = syscall(__NR_clone, SIGCHLD, NULL, NULL, NULL, NULL))) { case 0: cpuacct_add(getuid()); for (auto it = atfork.begin(); it < atfork.end(); ++it) if (it->child) it->child(); break; default: for (auto it = atfork.begin(); it < atfork.end(); ++it) if (it->parent) it->parent(); } return pid; } #endif extern "C" NS_EXPORT int WRAP(raise)(int sig) { // Bug 741272: Bionic incorrectly uses kill(), which signals the // process, and thus could signal another thread (and let this one // return "successfully" from raising a fatal signal). // // Bug 943170: POSIX specifies pthread_kill(pthread_self(), sig) as // equivalent to raise(sig), but Bionic also has a bug with these // functions, where a forked child will kill its parent instead. extern pid_t gettid(void); return syscall(__NR_tgkill, getpid(), gettid(), sig); } /* * The following wrappers for PR_Xxx are needed until we can get * PR_DuplicateEnvironment landed in NSPR. * See see bug 772734 and bug 773414. * * We can't #include the pr headers here, and we can't call any of the * PR/PL functions either, so we just reimplemnt using native code. */ static pthread_mutex_t _pr_envLock = PTHREAD_MUTEX_INITIALIZER; extern "C" NS_EXPORT char* __wrap_PR_GetEnv(const char *var) { char *ev; pthread_mutex_lock(&_pr_envLock); ev = getenv(var); pthread_mutex_unlock(&_pr_envLock); return ev; } extern "C" NS_EXPORT int __wrap_PR_SetEnv(const char *string) { int result; if ( !strchr(string, '=')) return(-1); pthread_mutex_lock(&_pr_envLock); result = putenv(string); pthread_mutex_unlock(&_pr_envLock); return (result)? -1 : 0; } extern "C" NS_EXPORT pthread_mutex_t * PR_GetEnvLock(void) { return &_pr_envLock; } /* Amazon Kindle Fire HD's libc provides most of the * functions in string.h as weak symbols, which dlsym * cannot resolve. Thus, we must wrap these functions. * See bug 791419. */ #ifndef MOZ_WIDGET_GONK #include extern "C" NS_EXPORT void* __real_memccpy(void * a0, const void * a1, int a2, size_t a3); extern "C" NS_EXPORT void* __real_memchr(const void * a0, int a1, size_t a2); extern "C" NS_EXPORT void* __real_memrchr(const void * a0, int a1, size_t a2); extern "C" NS_EXPORT int __real_memcmp(const void * a0, const void * a1, size_t a2); extern "C" NS_EXPORT void* __real_memcpy(void * a0, const void * a1, size_t a2); extern "C" NS_EXPORT void* __real_memmove(void * a0, const void * a1, size_t a2); extern "C" NS_EXPORT void* __real_memset(void * a0, int a1, size_t a2); extern "C" NS_EXPORT void* __real_memmem(const void * a0, size_t a1, const void * a2, size_t a3); extern "C" NS_EXPORT char* __real_index(const char * a0, int a1); extern "C" NS_EXPORT char* __real_strchr(const char * a0, int a1); extern "C" NS_EXPORT char* __real_strrchr(const char * a0, int a1); extern "C" NS_EXPORT size_t __real_strlen(const char * a0); extern "C" NS_EXPORT int __real_strcmp(const char * a0, const char * a1); extern "C" NS_EXPORT char* __real_strcpy(char * a0, const char * a1); extern "C" NS_EXPORT char* __real_strcat(char * a0, const char * a1); extern "C" NS_EXPORT int __real_strcasecmp(const char * a0, const char * a1); extern "C" NS_EXPORT int __real_strncasecmp(const char * a0, const char * a1, size_t a2); extern "C" NS_EXPORT char* __real_strstr(const char * a0, const char * a1); extern "C" NS_EXPORT char* __real_strcasestr(const char * a0, const char * a1); extern "C" NS_EXPORT char* __real_strtok(char * a0, const char * a1); extern "C" NS_EXPORT char* __real_strtok_r(char * a0, const char * a1, char** a2); extern "C" NS_EXPORT char* __real_strerror(int a0); extern "C" NS_EXPORT int __real_strerror_r(int a0, char * a1, size_t a2); extern "C" NS_EXPORT size_t __real_strnlen(const char * a0, size_t a1); extern "C" NS_EXPORT char* __real_strncat(char * a0, const char * a1, size_t a2); extern "C" NS_EXPORT int __real_strncmp(const char * a0, const char * a1, size_t a2); extern "C" NS_EXPORT char* __real_strncpy(char * a0, const char * a1, size_t a2); extern "C" NS_EXPORT size_t __real_strlcat(char * a0, const char * a1, size_t a2); extern "C" NS_EXPORT size_t __real_strlcpy(char * a0, const char * a1, size_t a2); extern "C" NS_EXPORT size_t __real_strcspn(const char * a0, const char * a1); extern "C" NS_EXPORT char* __real_strpbrk(const char * a0, const char * a1); extern "C" NS_EXPORT char* __real_strsep(char ** a0, const char * a1); extern "C" NS_EXPORT size_t __real_strspn(const char * a0, const char * a1); extern "C" NS_EXPORT int __real_strcoll(const char * a0, const char * a1); extern "C" NS_EXPORT size_t __real_strxfrm(char * a0, const char * a1, size_t a2); extern "C" NS_EXPORT void* __wrap_memccpy(void * a0, const void * a1, int a2, size_t a3) { return __real_memccpy(a0, a1, a2, a3); } extern "C" NS_EXPORT void* __wrap_memchr(const void * a0, int a1, size_t a2) { return __real_memchr(a0, a1, a2); } extern "C" NS_EXPORT void* __wrap_memrchr(const void * a0, int a1, size_t a2) { return __real_memrchr(a0, a1, a2); } extern "C" NS_EXPORT int __wrap_memcmp(const void * a0, const void * a1, size_t a2) { return __real_memcmp(a0, a1, a2); } extern "C" NS_EXPORT void* __wrap_memcpy(void * a0, const void * a1, size_t a2) { return __real_memcpy(a0, a1, a2); } extern "C" NS_EXPORT void* __wrap_memmove(void * a0, const void * a1, size_t a2) { return __real_memmove(a0, a1, a2); } extern "C" NS_EXPORT void* __wrap_memset(void * a0, int a1, size_t a2) { return __real_memset(a0, a1, a2); } extern "C" NS_EXPORT void* __wrap_memmem(const void * a0, size_t a1, const void * a2, size_t a3) { return __real_memmem(a0, a1, a2, a3); } extern "C" NS_EXPORT char* __wrap_index(const char * a0, int a1) { return __real_index(a0, a1); } extern "C" NS_EXPORT char* __wrap_strchr(const char * a0, int a1) { return __real_strchr(a0, a1); } extern "C" NS_EXPORT char* __wrap_strrchr(const char * a0, int a1) { return __real_strrchr(a0, a1); } extern "C" NS_EXPORT size_t __wrap_strlen(const char * a0) { return __real_strlen(a0); } extern "C" NS_EXPORT int __wrap_strcmp(const char * a0, const char * a1) { return __real_strcmp(a0, a1); } extern "C" NS_EXPORT char* __wrap_strcpy(char * a0, const char * a1) { return __real_strcpy(a0, a1); } extern "C" NS_EXPORT char* __wrap_strcat(char * a0, const char * a1) { return __real_strcat(a0, a1); } extern "C" NS_EXPORT int __wrap_strcasecmp(const char * a0, const char * a1) { return __real_strcasecmp(a0, a1); } extern "C" NS_EXPORT int __wrap_strncasecmp(const char * a0, const char * a1, size_t a2) { return __real_strncasecmp(a0, a1, a2); } extern "C" NS_EXPORT char* __wrap_strstr(const char * a0, const char * a1) { return __real_strstr(a0, a1); } extern "C" NS_EXPORT char* __wrap_strcasestr(const char * a0, const char * a1) { return __real_strcasestr(a0, a1); } extern "C" NS_EXPORT char* __wrap_strtok(char * a0, const char * a1) { return __real_strtok(a0, a1); } extern "C" NS_EXPORT char* __wrap_strtok_r(char * a0, const char * a1, char** a2) { return __real_strtok_r(a0, a1, a2); } extern "C" NS_EXPORT char* __wrap_strerror(int a0) { return __real_strerror(a0); } extern "C" NS_EXPORT int __wrap_strerror_r(int a0, char * a1, size_t a2) { return __real_strerror_r(a0, a1, a2); } extern "C" NS_EXPORT size_t __wrap_strnlen(const char * a0, size_t a1) { return __real_strnlen(a0, a1); } extern "C" NS_EXPORT char* __wrap_strncat(char * a0, const char * a1, size_t a2) { return __real_strncat(a0, a1, a2); } extern "C" NS_EXPORT int __wrap_strncmp(const char * a0, const char * a1, size_t a2) { return __real_strncmp(a0, a1, a2); } extern "C" NS_EXPORT char* __wrap_strncpy(char * a0, const char * a1, size_t a2) { return __real_strncpy(a0, a1, a2); } extern "C" NS_EXPORT size_t __wrap_strlcat(char * a0, const char * a1, size_t a2) { return __real_strlcat(a0, a1, a2); } extern "C" NS_EXPORT size_t __wrap_strlcpy(char * a0, const char * a1, size_t a2) { return __real_strlcpy(a0, a1, a2); } extern "C" NS_EXPORT size_t __wrap_strcspn(const char * a0, const char * a1) { return __real_strcspn(a0, a1); } extern "C" NS_EXPORT char* __wrap_strpbrk(const char * a0, const char * a1) { return __real_strpbrk(a0, a1); } extern "C" NS_EXPORT char* __wrap_strsep(char ** a0, const char * a1) { return __real_strsep(a0, a1); } extern "C" NS_EXPORT size_t __wrap_strspn(const char * a0, const char * a1) { return __real_strspn(a0, a1); } extern "C" NS_EXPORT int __wrap_strcoll(const char * a0, const char * a1) { return __real_strcoll(a0, a1); } extern "C" NS_EXPORT size_t __wrap_strxfrm(char * a0, const char * a1, size_t a2) { return __real_strxfrm(a0, a1, a2); } #endif