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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* 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 "nsExceptionHandler.h"
#include "nsExceptionHandlerUtils.h"
#include "nsAppDirectoryServiceDefs.h"
#include "nsComponentManagerUtils.h"
#include "nsDirectoryServiceDefs.h"
#include "nsDirectoryService.h"
#include "nsString.h"
#include "nsTHashMap.h"
#include "mozilla/ArrayUtils.h"
#include "mozilla/DebugOnly.h"
#include "mozilla/EnumeratedRange.h"
#include "mozilla/Services.h"
#include "nsIObserverService.h"
#include "mozilla/Unused.h"
#include "mozilla/UniquePtr.h"
#include "mozilla/Printf.h"
#include "mozilla/RuntimeExceptionModule.h"
#include "mozilla/ScopeExit.h"
#include "mozilla/Sprintf.h"
#include "mozilla/StaticMutex.h"
#include "mozilla/SyncRunnable.h"
#include "mozilla/TimeStamp.h"
#include "nsPrintfCString.h"
#include "nsThreadUtils.h"
#include "nsThread.h"
#include "jsfriendapi.h"
#include "private/pprio.h"
#include "base/process_util.h"
#include "common/basictypes.h"
#include "mozilla/toolkit/crashreporter/mozannotation_client_ffi_generated.h"
#include "mozilla/toolkit/crashreporter/mozannotation_server_ffi_generated.h"
#if defined(XP_WIN)
# ifdef WIN32_LEAN_AND_MEAN
# undef WIN32_LEAN_AND_MEAN
# endif
# include "nsXULAppAPI.h"
# include "nsIXULAppInfo.h"
# include "nsIWindowsRegKey.h"
# include "breakpad-client/windows/crash_generation/client_info.h"
# include "breakpad-client/windows/crash_generation/crash_generation_server.h"
# include "breakpad-client/windows/handler/exception_handler.h"
# include <dbghelp.h>
# include <string.h>
# include "nsDirectoryServiceUtils.h"
# include "nsWindowsDllInterceptor.h"
# include "mozilla/WindowsDllBlocklist.h"
# include "psapi.h" // For PERFORMANCE_INFORMATION and K32GetPerformanceInfo()
#elif defined(XP_MACOSX)
# include "breakpad-client/mac/crash_generation/client_info.h"
# include "breakpad-client/mac/crash_generation/crash_generation_server.h"
# include "breakpad-client/mac/handler/exception_handler.h"
# include <string>
# include <Carbon/Carbon.h>
# include <CoreFoundation/CoreFoundation.h>
# include <crt_externs.h>
# include <fcntl.h>
# include <mach/mach.h>
# include <mach/vm_statistics.h>
# include <sys/sysctl.h>
# include <sys/types.h>
# include <spawn.h>
# include <unistd.h>
# include "mac_utils.h"
#elif defined(XP_LINUX)
# include "nsIINIParser.h"
# include "common/linux/linux_libc_support.h"
# include "third_party/lss/linux_syscall_support.h"
# include "breakpad-client/linux/crash_generation/client_info.h"
# include "breakpad-client/linux/crash_generation/crash_generation_server.h"
# include "breakpad-client/linux/handler/exception_handler.h"
# include "common/linux/eintr_wrapper.h"
# include <fcntl.h>
# include <sys/types.h>
# include "sys/sysinfo.h"
# include <sys/wait.h>
# include <unistd.h>
#else
# error "Not yet implemented for this platform"
#endif // defined(XP_WIN)
#ifdef MOZ_CRASHREPORTER_INJECTOR
# include "InjectCrashReporter.h"
using mozilla::InjectCrashRunnable;
#endif
#include <stdlib.h>
#include <time.h>
#include <prenv.h>
#include <prio.h>
#include "mozilla/Mutex.h"
#include "nsDebug.h"
#include "nsCRT.h"
#include "nsIFile.h"
#include "mozilla/IOInterposer.h"
#include "mozilla/mozalloc_oom.h"
#if defined(XP_MACOSX)
CFStringRef reporterClientAppID = CFSTR("org.mozilla.crashreporter");
#endif
#if defined(MOZ_WIDGET_ANDROID)
# include "common/linux/file_id.h"
#endif
using google_breakpad::ClientInfo;
using google_breakpad::CrashGenerationServer;
#ifdef XP_LINUX
using google_breakpad::MinidumpDescriptor;
#elif defined(XP_WIN)
using google_breakpad::ExceptionHandler;
#endif
#if defined(MOZ_WIDGET_ANDROID)
using google_breakpad::auto_wasteful_vector;
using google_breakpad::FileID;
using google_breakpad::kDefaultBuildIdSize;
using google_breakpad::PageAllocator;
#endif
using namespace mozilla;
namespace mozilla::phc {
// Global instance that is retrieved by the process generating the crash report
mozilla::phc::AddrInfo gAddrInfo;
} // namespace mozilla::phc
namespace CrashReporter {
#ifdef XP_WIN
typedef wchar_t XP_CHAR;
typedef std::wstring xpstring;
# define XP_TEXT(x) L##x
# define CONVERT_XP_CHAR_TO_UTF16(x) x
# define XP_STRLEN(x) wcslen(x)
# define my_strlen strlen
# define my_memchr memchr
# define CRASH_REPORTER_FILENAME u"crashreporter.exe"_ns
# define XP_PATH_SEPARATOR L"\\"
# define XP_PATH_SEPARATOR_CHAR L'\\'
# define XP_PATH_MAX (MAX_PATH + 1)
// "<reporter path>" "<minidump path>"
# define CMDLINE_SIZE ((XP_PATH_MAX * 2) + 6)
# define XP_TTOA(time, buffer) _i64toa((time), (buffer), 10)
# define XP_STOA(size, buffer) _ui64toa((size), (buffer), 10)
#else
typedef char XP_CHAR;
typedef std::string xpstring;
# define XP_TEXT(x) x
# define CONVERT_XP_CHAR_TO_UTF16(x) NS_ConvertUTF8toUTF16(x)
# define CRASH_REPORTER_FILENAME u"crashreporter"_ns
# define XP_PATH_SEPARATOR "/"
# define XP_PATH_SEPARATOR_CHAR '/'
# define XP_PATH_MAX PATH_MAX
# ifdef XP_LINUX
# define XP_STRLEN(x) my_strlen(x)
# define XP_TTOA(time, buffer) \
my_u64tostring(uint64_t(time), (buffer), sizeof(buffer))
# define XP_STOA(size, buffer) \
my_u64tostring((size), (buffer), sizeof(buffer))
# else
# define XP_STRLEN(x) strlen(x)
# define XP_TTOA(time, buffer) sprintf(buffer, "%" PRIu64, uint64_t(time))
# define XP_STOA(size, buffer) sprintf(buffer, "%zu", size_t(size))
# define my_strlen strlen
# define my_memchr memchr
# define sys_close close
# define sys_fork fork
# define sys_open open
# define sys_read read
# define sys_write write
# endif
#endif // XP_WIN
#if defined(__GNUC__)
# define MAYBE_UNUSED __attribute__((unused))
#else
# define MAYBE_UNUSED
#endif // defined(__GNUC__)
#ifndef XP_LINUX
static const XP_CHAR dumpFileExtension[] = XP_TEXT(".dmp");
#endif
static const XP_CHAR extraFileExtension[] = XP_TEXT(".extra");
static const XP_CHAR memoryReportExtension[] = XP_TEXT(".memory.json.gz");
static xpstring* defaultMemoryReportPath = nullptr;
static const char kCrashMainID[] = "crash.main.3\n";
static google_breakpad::ExceptionHandler* gExceptionHandler = nullptr;
static mozilla::Atomic<bool> gEncounteredChildException(false);
static nsCString gServerURL;
static xpstring pendingDirectory;
static xpstring crashReporterPath;
static xpstring memoryReportPath;
// Where crash events should go.
static xpstring eventsDirectory;
// If this is false, we don't launch the crash reporter
static bool doReport = true;
// if this is true, we pass the exception on to the OS crash reporter
static bool showOSCrashReporter = false;
// The time of the last recorded crash, as a time_t value.
static time_t lastCrashTime = 0;
// The pathname of a file to store the crash time in
static XP_CHAR lastCrashTimeFilename[XP_PATH_MAX] = {0};
#if defined(MOZ_WIDGET_ANDROID)
// on Android 4.2 and above there is a user serial number associated
// with the current process that gets lost when we fork so we need to
// explicitly pass it to am
static char* androidUserSerial = nullptr;
// Before Android 8 we needed to use "startservice" to start the crash reporting
// service. After Android 8 we need to use "start-foreground-service"
static const char* androidStartServiceCommand = nullptr;
#endif
// this holds additional data sent via the API
static Mutex* notesFieldLock;
static nsCString* notesField = nullptr;
static bool isGarbageCollecting;
static uint32_t eventloopNestingLevel = 0;
static time_t inactiveStateStart = 0;
static
#if defined(XP_UNIX)
pthread_t
#elif defined(XP_WIN) // defined(XP_UNIX)
DWORD
#endif // defined(XP_WIN)
gMainThreadId = 0;
// Avoid a race during application termination.
static Mutex* dumpSafetyLock;
static bool isSafeToDump = false;
// Whether to include heap regions of the crash context.
static bool sIncludeContextHeap = false;
// OOP crash reporting
static CrashGenerationServer* crashServer; // chrome process has this
static std::terminate_handler oldTerminateHandler = nullptr;
#if defined(XP_WIN) || defined(XP_MACOSX)
// If crash reporting is disabled, we hand out this "null" pipe to the
// child process and don't attempt to connect to a parent server.
static const char kNullNotifyPipe[] = "-";
static char* childCrashNotifyPipe;
#elif defined(XP_LINUX)
static int serverSocketFd = -1;
static int clientSocketFd = -1;
// On Linux these file descriptors are created in the parent process and
// remapped in the child ones. See PosixProcessLauncher::DoSetup() for more
// details.
static FileHandle gMagicChildCrashReportFd =
# if defined(MOZ_WIDGET_ANDROID)
// On android the fd is set at the time of child creation.
kInvalidFileHandle
# else
4
# endif // defined(MOZ_WIDGET_ANDROID)
;
#endif
// |dumpMapLock| must protect all access to |pidToMinidump|.
static Mutex* dumpMapLock;
struct ChildProcessData : public nsUint32HashKey {
explicit ChildProcessData(KeyTypePointer aKey)
: nsUint32HashKey(aKey),
sequence(0),
annotations(nullptr),
minidumpOnly(false)
#ifdef MOZ_CRASHREPORTER_INJECTOR
,
callback(nullptr)
#endif
{
}
nsCOMPtr<nsIFile> minidump;
// Each crashing process is assigned an increasing sequence number to
// indicate which process crashed first.
uint32_t sequence;
UniquePtr<AnnotationTable> annotations;
bool minidumpOnly; // If true then no annotations are present
#ifdef MOZ_CRASHREPORTER_INJECTOR
InjectorCrashCallback* callback;
#endif
};
typedef nsTHashtable<ChildProcessData> ChildMinidumpMap;
static ChildMinidumpMap* pidToMinidump;
static uint32_t crashSequence;
static bool OOPInitialized();
#ifdef MOZ_CRASHREPORTER_INJECTOR
static nsIThread* sInjectorThread;
class ReportInjectedCrash : public Runnable {
public:
explicit ReportInjectedCrash(uint32_t pid)
: Runnable("ReportInjectedCrash"), mPID(pid) {}
NS_IMETHOD Run() override;
private:
uint32_t mPID;
};
#endif // MOZ_CRASHREPORTER_INJECTOR
void RecordMainThreadId() {
gMainThreadId =
#if defined(XP_UNIX)
pthread_self()
#elif defined(XP_WIN) // defined(XP_UNIX)
GetCurrentThreadId()
#endif // defined(XP_WIN)
;
}
bool SignalSafeIsMainThread() {
// We can't rely on NS_IsMainThread() because we are in a signal handler, and
// sTLSIsMainThread is a thread local variable and it can be lazy allocated
// i.e., we could hit code path where this variable has not been accessed
// before and needs to be allocated right now, which will lead to spinlock
// deadlock effectively hanging the process, as in bug 1756407.
#if defined(XP_UNIX)
pthread_t th = pthread_self();
return pthread_equal(th, gMainThreadId);
#elif defined(XP_WIN) // defined(XP_UNIX)
DWORD th = GetCurrentThreadId();
return th == gMainThreadId;
#endif // defined(XP_WIN)
}
#if defined(XP_WIN)
// the following are used to prevent other DLLs reverting the last chance
// exception handler to the windows default. Any attempt to change the
// unhandled exception filter or to reset it is ignored and our crash
// reporter is loaded instead (in case it became unloaded somehow)
typedef LPTOP_LEVEL_EXCEPTION_FILTER(WINAPI* SetUnhandledExceptionFilter_func)(
LPTOP_LEVEL_EXCEPTION_FILTER lpTopLevelExceptionFilter);
static WindowsDllInterceptor::FuncHookType<SetUnhandledExceptionFilter_func>
stub_SetUnhandledExceptionFilter;
static LPTOP_LEVEL_EXCEPTION_FILTER previousUnhandledExceptionFilter = nullptr;
static WindowsDllInterceptor gKernel32Intercept;
static bool gBlockUnhandledExceptionFilter = true;
static LPTOP_LEVEL_EXCEPTION_FILTER GetUnhandledExceptionFilter() {
// Set a dummy value to get the current filter, then restore
LPTOP_LEVEL_EXCEPTION_FILTER current = SetUnhandledExceptionFilter(nullptr);
SetUnhandledExceptionFilter(current);
return current;
}
static LPTOP_LEVEL_EXCEPTION_FILTER WINAPI patched_SetUnhandledExceptionFilter(
LPTOP_LEVEL_EXCEPTION_FILTER lpTopLevelExceptionFilter) {
if (!gBlockUnhandledExceptionFilter) {
// don't intercept
return stub_SetUnhandledExceptionFilter(lpTopLevelExceptionFilter);
}
if (lpTopLevelExceptionFilter == previousUnhandledExceptionFilter) {
// OK to swap back and forth between the previous filter
previousUnhandledExceptionFilter =
stub_SetUnhandledExceptionFilter(lpTopLevelExceptionFilter);
return previousUnhandledExceptionFilter;
}
// intercept attempts to change the filter
return nullptr;
}
# if defined(HAVE_64BIT_BUILD)
static LPTOP_LEVEL_EXCEPTION_FILTER sUnhandledExceptionFilter = nullptr;
static long JitExceptionHandler(void* exceptionRecord, void* context) {
EXCEPTION_POINTERS pointers = {(PEXCEPTION_RECORD)exceptionRecord,
(PCONTEXT)context};
return sUnhandledExceptionFilter(&pointers);
}
static void SetJitExceptionHandler() {
sUnhandledExceptionFilter = GetUnhandledExceptionFilter();
if (sUnhandledExceptionFilter)
js::SetJitExceptionHandler(JitExceptionHandler);
}
# endif
/**
* Reserve some VM space. In the event that we crash because VM space is
* being leaked without leaking memory, freeing this space before taking
* the minidump will allow us to collect a minidump.
*
* This size is bigger than xul.dll plus some extra for MinidumpWriteDump
* allocations.
*/
static const SIZE_T kReserveSize = 0x5000000; // 80 MB
static void* gBreakpadReservedVM;
#endif
#ifdef XP_LINUX
static inline void my_u64tostring(uint64_t aValue, char* aBuffer,
size_t aBufferLength) {
my_memset(aBuffer, 0, aBufferLength);
my_uitos(aBuffer, aValue, my_uint_len(aValue));
}
#endif
#ifdef XP_WIN
static void CreateFileFromPath(const xpstring& path, nsIFile** file) {
NS_NewLocalFile(nsDependentString(path.c_str()), false, file);
}
static xpstring* CreatePathFromFile(nsIFile* file) {
nsAutoString path;
nsresult rv = file->GetPath(path);
if (NS_FAILED(rv)) {
return nullptr;
}
return new xpstring(static_cast<wchar_t*>(path.get()), path.Length());
}
#else
static void CreateFileFromPath(const xpstring& path, nsIFile** file) {
NS_NewNativeLocalFile(nsDependentCString(path.c_str()), false, file);
}
MAYBE_UNUSED static xpstring* CreatePathFromFile(nsIFile* file) {
nsAutoCString path;
nsresult rv = file->GetNativePath(path);
if (NS_FAILED(rv)) {
return nullptr;
}
return new xpstring(path.get(), path.Length());
}
#endif
static time_t GetCurrentTimeForCrashTime() {
#ifdef XP_LINUX
struct kernel_timeval tv;
sys_gettimeofday(&tv, nullptr);
return tv.tv_sec;
#else
return time(nullptr);
#endif
}
static XP_CHAR* Concat(XP_CHAR* str, const XP_CHAR* toAppend, size_t* size) {
size_t appendLen = XP_STRLEN(toAppend);
if (appendLen >= *size) {
appendLen = *size - 1;
}
memcpy(str, toAppend, appendLen * sizeof(XP_CHAR));
str += appendLen;
*str = '\0';
*size -= appendLen;
return str;
}
void AnnotateOOMAllocationSize(size_t size) { gOOMAllocationSize = size; }
static size_t gTexturesSize = 0;
void AnnotateTexturesSize(size_t size) { gTexturesSize = size; }
#ifndef XP_WIN
// Like Windows CopyFile for *nix
//
// This function is not declared static even though it's not used outside of
// this file because of an issue in Fennec which prevents breakpad's exception
// handler from invoking the MinidumpCallback function. See bug 1424304.
bool copy_file(const char* from, const char* to) {
const int kBufSize = 4096;
int fdfrom = sys_open(from, O_RDONLY, 0);
if (fdfrom < 0) {
return false;
}
bool ok = false;
int fdto = sys_open(to, O_WRONLY | O_CREAT, 0666);
if (fdto < 0) {
sys_close(fdfrom);
return false;
}
char buf[kBufSize];
while (true) {
int r = sys_read(fdfrom, buf, kBufSize);
if (r == 0) {
ok = true;
break;
}
if (r < 0) {
break;
}
char* wbuf = buf;
while (r) {
int w = sys_write(fdto, wbuf, r);
if (w > 0) {
r -= w;
wbuf += w;
} else if (errno != EINTR) {
break;
}
}
if (r) {
break;
}
}
sys_close(fdfrom);
sys_close(fdto);
return ok;
}
#endif
/**
* The PlatformWriter class provides a tool to create and write to a file that
* is safe to call from within an exception handler. To use it this way the
* file path needs to be provided as a bare C string.
*/
class PlatformWriter {
public:
PlatformWriter() : mBuffer{}, mPos(0), mFD(kInvalidFileHandle) {}
explicit PlatformWriter(const XP_CHAR* aPath) : PlatformWriter() {
Open(aPath);
}
~PlatformWriter() {
if (Valid()) {
Flush();
#ifdef XP_WIN
CloseHandle(mFD);
#elif defined(XP_UNIX)
sys_close(mFD);
#endif
}
}
void Open(const XP_CHAR* aPath) {
#ifdef XP_WIN
mFD = CreateFile(aPath, GENERIC_WRITE, 0, nullptr, CREATE_ALWAYS,
FILE_ATTRIBUTE_NORMAL, nullptr);
#elif defined(XP_UNIX)
mFD = sys_open(aPath, O_WRONLY | O_CREAT | O_TRUNC, 0600);
#endif
}
void OpenHandle(FileHandle aFD) { mFD = aFD; }
bool Valid() { return mFD != kInvalidFileHandle; }
void WriteBuffer(const char* aBuffer, size_t aLen) {
if (!Valid()) {
return;
}
while (aLen-- > 0) {
WriteChar(*aBuffer++);
}
}
void WriteString(const char* aStr) { WriteBuffer(aStr, my_strlen(aStr)); }
template <int N>
void WriteLiteral(const char (&aStr)[N]) {
WriteBuffer(aStr, N - 1);
}
FileHandle FileDesc() { return mFD; }
private:
PlatformWriter(const PlatformWriter&) = delete;
const PlatformWriter& operator=(const PlatformWriter&) = delete;
void WriteChar(char aChar) {
if (mPos == kBufferSize) {
Flush();
}
mBuffer[mPos++] = aChar;
}
void Flush() {
if (mPos > 0) {
char* buffer = mBuffer;
size_t length = mPos;
while (length > 0) {
#ifdef XP_WIN
DWORD written_bytes = 0;
if (!WriteFile(mFD, buffer, length, &written_bytes, nullptr)) {
break;
}
#elif defined(XP_UNIX)
ssize_t written_bytes = sys_write(mFD, buffer, length);
if (written_bytes < 0) {
if (errno == EAGAIN) {
continue;
}
break;
}
#endif
buffer += written_bytes;
length -= written_bytes;
}
mPos = 0;
}
}
static const size_t kBufferSize = 512;
char mBuffer[kBufferSize];
size_t mPos;
FileHandle mFD;
};
class JSONAnnotationWriter : public AnnotationWriter {
public:
explicit JSONAnnotationWriter(PlatformWriter& aPlatformWriter)
: mWriter(aPlatformWriter), mEmpty(true) {
mWriter.WriteBuffer("{", 1);
}
~JSONAnnotationWriter() { mWriter.WriteBuffer("}", 1); }
void Write(Annotation aAnnotation, const char* aValue,
size_t aLen = 0) override {
size_t len = aLen ? aLen : my_strlen(aValue);
const char* annotationStr = AnnotationToString(aAnnotation);
if (len && CrashReporter::ShouldIncludeAnnotation(aAnnotation, aValue)) {
WritePrefix();
mWriter.WriteBuffer(annotationStr, my_strlen(annotationStr));
WriteSeparator();
WriteEscapedString(aValue, len);
WriteSuffix();
}
};
void Write(Annotation aAnnotation, bool aValue) override {
Write(aAnnotation, aValue ? "1" : "0", 1);
};
void Write(Annotation aAnnotation, uint64_t aValue) override {
char buffer[32] = {};
XP_STOA(aValue, buffer);
Write(aAnnotation, buffer);
};
private:
void WritePrefix() {
if (mEmpty) {
mWriter.WriteBuffer("\"", 1);
mEmpty = false;
} else {
mWriter.WriteBuffer(",\"", 2);
}
}
void WriteSeparator() { mWriter.WriteBuffer("\":\"", 3); }
void WriteSuffix() { mWriter.WriteBuffer("\"", 1); }
void WriteEscapedString(const char* aStr, size_t aLen) {
for (size_t i = 0; i < aLen; i++) {
uint8_t c = aStr[i];
if (c <= 0x1f || c == '\\' || c == '\"') {
mWriter.WriteBuffer("\\u00", 4);
WriteHexDigitAsAsciiChar((c & 0x00f0) >> 4);
WriteHexDigitAsAsciiChar(c & 0x000f);
} else {
mWriter.WriteBuffer(aStr + i, 1);
}
}
}
void WriteHexDigitAsAsciiChar(uint8_t u) {
char buf[1];
buf[0] = static_cast<unsigned>((u < 10) ? '0' + u : 'a' + (u - 10));
mWriter.WriteBuffer(buf, 1);
}
PlatformWriter& mWriter;
bool mEmpty;
};
class BinaryAnnotationWriter : public AnnotationWriter {
public:
explicit BinaryAnnotationWriter(PlatformWriter& aPlatformWriter)
: mPlatformWriter(aPlatformWriter) {}
void Write(Annotation aAnnotation, const char* aValue,
size_t aLen = 0) override {
uint64_t len = aLen ? aLen : my_strlen(aValue);
mPlatformWriter.WriteBuffer((const char*)&aAnnotation, sizeof(aAnnotation));
mPlatformWriter.WriteBuffer((const char*)&len, sizeof(len));
mPlatformWriter.WriteBuffer(aValue, len);
};
void Write(Annotation aAnnotation, uint64_t aValue) override {
char buffer[32] = {};
XP_STOA(aValue, buffer);
Write(aAnnotation, buffer);
};
private:
PlatformWriter& mPlatformWriter;
};
#ifdef MOZ_PHC
// 21 is the max length of a 64-bit decimal address entry, including the
// trailing comma or '\0'. And then we add another 32 just to be safe.
const size_t phcStringifiedAnnotationSize =
(mozilla::phc::StackTrace::kMaxFrames * 21) + 32;
static void PHCStackTraceToString(char* aBuffer, size_t aBufferLen,
const phc::StackTrace& aStack) {
char addrString[32];
*aBuffer = 0;
for (size_t i = 0; i < aStack.mLength; i++) {
if (i != 0) {
strcat(aBuffer, ",");
}
XP_STOA(uintptr_t(aStack.mPcs[i]), addrString);
strncat(aBuffer, addrString, aBufferLen);
}
}
// The stack traces are encoded as a comma-separated list of decimal
// (not hexadecimal!) addresses, e.g. "12345678,12345679,12345680".
static void WritePHCStackTrace(AnnotationWriter& aWriter,
const Annotation aName,
const Maybe<phc::StackTrace>& aStack) {
if (aStack.isNothing()) {
return;
}
// 21 is the max length of a 64-bit decimal address entry, including the
// trailing comma or '\0'. And then we add another 32 just to be safe.
char addrsString[phcStringifiedAnnotationSize];
PHCStackTraceToString(addrsString, sizeof(addrsString), *aStack);
aWriter.Write(aName, addrsString);
}
static void WritePHCAddrInfo(AnnotationWriter& writer,
const phc::AddrInfo* aAddrInfo) {
// Is this a PHC allocation needing special treatment?
if (aAddrInfo && aAddrInfo->mKind != phc::AddrInfo::Kind::Unknown) {
const char* kindString;
switch (aAddrInfo->mKind) {
case phc::AddrInfo::Kind::Unknown:
kindString = "Unknown(?!)";
break;
case phc::AddrInfo::Kind::NeverAllocatedPage:
kindString = "NeverAllocatedPage";
break;
case phc::AddrInfo::Kind::InUsePage:
kindString = "InUsePage(?!)";
break;
case phc::AddrInfo::Kind::FreedPage:
kindString = "FreedPage";
break;
case phc::AddrInfo::Kind::GuardPage:
kindString = "GuardPage";
break;
default:
kindString = "Unmatched(?!)";
break;
}
writer.Write(Annotation::PHCKind, kindString);
writer.Write(Annotation::PHCBaseAddress,
reinterpret_cast<uint64_t>(aAddrInfo->mBaseAddr));
writer.Write(Annotation::PHCUsableSize,
static_cast<uint64_t>(aAddrInfo->mUsableSize));
WritePHCStackTrace(writer, Annotation::PHCAllocStack,
aAddrInfo->mAllocStack);
WritePHCStackTrace(writer, Annotation::PHCFreeStack, aAddrInfo->mFreeStack);
}
}
static void PopulatePHCStackTraceAnnotation(
AnnotationTable& aAnnotations, const Annotation aName,
const Maybe<phc::StackTrace>& aStack) {
if (aStack.isNothing()) {
return;
}
char addrsString[phcStringifiedAnnotationSize];
PHCStackTraceToString(addrsString, sizeof(addrsString), *aStack);
aAnnotations[aName] = addrsString;
}
static void PopulatePHCAnnotations(AnnotationTable& aAnnotations,
const phc::AddrInfo* aAddrInfo) {
// Is this a PHC allocation needing special treatment?
if (aAddrInfo && aAddrInfo->mKind != phc::AddrInfo::Kind::Unknown) {
const char* kindString;
switch (aAddrInfo->mKind) {
case phc::AddrInfo::Kind::Unknown:
kindString = "Unknown(?!)";
break;
case phc::AddrInfo::Kind::NeverAllocatedPage:
kindString = "NeverAllocatedPage";
break;
case phc::AddrInfo::Kind::InUsePage:
kindString = "InUsePage(?!)";
break;
case phc::AddrInfo::Kind::FreedPage:
kindString = "FreedPage";
break;
case phc::AddrInfo::Kind::GuardPage:
kindString = "GuardPage";
break;
default:
kindString = "Unmatched(?!)";
break;
}
aAnnotations[Annotation::PHCKind] = kindString;
aAnnotations[Annotation::PHCBaseAddress] =
nsPrintfCString("%zu", uintptr_t(aAddrInfo->mBaseAddr));
aAnnotations[Annotation::PHCUsableSize] =
nsPrintfCString("%zu", aAddrInfo->mUsableSize);
PopulatePHCStackTraceAnnotation(aAnnotations, Annotation::PHCAllocStack,
aAddrInfo->mAllocStack);
PopulatePHCStackTraceAnnotation(aAnnotations, Annotation::PHCFreeStack,
aAddrInfo->mFreeStack);
}
}
#endif
/**
* If minidump_id is null, we assume that dump_path contains the full
* dump file path.
*/
static void OpenAPIData(PlatformWriter& aWriter, const XP_CHAR* dump_path,
const XP_CHAR* minidump_id = nullptr) {
static XP_CHAR extraDataPath[XP_PATH_MAX];
size_t size = XP_PATH_MAX;
XP_CHAR* p;
if (minidump_id) {
p = Concat(extraDataPath, dump_path, &size);
p = Concat(p, XP_PATH_SEPARATOR, &size);
p = Concat(p, minidump_id, &size);
} else {
p = Concat(extraDataPath, dump_path, &size);
// Skip back past the .dmp extension, if any.
if (*(p - 4) == XP_TEXT('.')) {
p -= 4;
size += 4;
}
}
Concat(p, extraFileExtension, &size);
aWriter.Open(extraDataPath);
}
#ifdef XP_WIN
static void AnnotateMemoryStatus(AnnotationWriter& aWriter) {
MEMORYSTATUSEX statex;
statex.dwLength = sizeof(statex);
if (GlobalMemoryStatusEx(&statex)) {
aWriter.Write(Annotation::SystemMemoryUsePercentage,
static_cast<uint64_t>(statex.dwMemoryLoad));
aWriter.Write(Annotation::TotalVirtualMemory, statex.ullTotalVirtual);
aWriter.Write(Annotation::AvailableVirtualMemory, statex.ullAvailVirtual);
aWriter.Write(Annotation::TotalPhysicalMemory, statex.ullTotalPhys);
aWriter.Write(Annotation::AvailablePhysicalMemory, statex.ullAvailPhys);
}
PERFORMANCE_INFORMATION info;
if (K32GetPerformanceInfo(&info, sizeof(info))) {
aWriter.Write(Annotation::TotalPageFile,
static_cast<uint64_t>(info.CommitLimit * info.PageSize));
aWriter.Write(Annotation::AvailablePageFile,
static_cast<uint64_t>((info.CommitLimit - info.CommitTotal) *
info.PageSize));
}
}
#elif XP_MACOSX
// Extract the total physical memory of the system.
static void WritePhysicalMemoryStatus(AnnotationWriter& aWriter) {
uint64_t physicalMemoryByteSize = 0;
const size_t NAME_LEN = 2;
int name[NAME_LEN] = {/* Hardware */ CTL_HW,
/* 64-bit physical memory size */ HW_MEMSIZE};
size_t infoByteSize = sizeof(physicalMemoryByteSize);
if (sysctl(name, NAME_LEN, &physicalMemoryByteSize, &infoByteSize,
/* We do not replace data */ nullptr,
/* We do not replace data */ 0) != -1) {
aWriter.Write(Annotation::TotalPhysicalMemory, physicalMemoryByteSize);
}
}
// Extract available and purgeable physical memory.
static void WriteAvailableMemoryStatus(AnnotationWriter& aWriter) {
auto host = mach_host_self();
vm_statistics64_data_t stats;
unsigned int count = HOST_VM_INFO64_COUNT;
if (host_statistics64(host, HOST_VM_INFO64, (host_info64_t)&stats, &count) ==
KERN_SUCCESS) {
aWriter.Write(Annotation::AvailablePhysicalMemory,
static_cast<uint64_t>(stats.free_count * vm_page_size));
aWriter.Write(Annotation::PurgeablePhysicalMemory,
static_cast<uint64_t>(stats.purgeable_count * vm_page_size));
}
}
// Extract the status of the swap.
static void WriteSwapFileStatus(AnnotationWriter& aWriter) {
const size_t NAME_LEN = 2;
int name[] = {/* Hardware */ CTL_VM,
/* 64-bit physical memory size */ VM_SWAPUSAGE};
struct xsw_usage swapUsage;
size_t infoByteSize = sizeof(swapUsage);
if (sysctl(name, NAME_LEN, &swapUsage, &infoByteSize,
/* We do not replace data */ nullptr,
/* We do not replace data */ 0) != -1) {
aWriter.Write(Annotation::AvailableSwapMemory, swapUsage.xsu_avail);
}
}
static void AnnotateMemoryStatus(AnnotationWriter& aWriter) {
WritePhysicalMemoryStatus(aWriter);
WriteAvailableMemoryStatus(aWriter);
WriteSwapFileStatus(aWriter);
}
#elif XP_LINUX
static void AnnotateMemoryStatus(AnnotationWriter& aWriter) {
// We can't simply call `sysinfo` as this requires libc.
// So we need to parse /proc/meminfo.
// We read the entire file to memory prior to parsing
// as it makes the parser code a little bit simpler.
// As /proc/meminfo is synchronized via `proc_create_single`,
// there's no risk of race condition regardless of how we
// read it.
// The buffer in which we're going to load the entire file.
// A typical size for /proc/meminfo is 1KiB, so 4KiB should
// be large enough until further notice.
const size_t BUFFER_SIZE_BYTES = 4096;
char buffer[BUFFER_SIZE_BYTES];
size_t bufferLen = 0;
{
// Read and load into memory.
int fd = sys_open("/proc/meminfo", O_RDONLY, /* chmod */ 0);
if (fd == -1) {
// No /proc/meminfo? Well, fail silently.
return;
}
auto Guard = MakeScopeExit([fd]() { mozilla::Unused << sys_close(fd); });
ssize_t bytesRead = 0;
do {
if ((bytesRead = sys_read(fd, buffer + bufferLen,
BUFFER_SIZE_BYTES - bufferLen)) < 0) {
if ((errno == EAGAIN) || (errno == EINTR)) {
continue;
}
// Cannot read for some reason. Let's give up.
return;
}
bufferLen += bytesRead;
if (bufferLen == BUFFER_SIZE_BYTES) {
// The file is too large, bail out
return;
}
} while (bytesRead != 0);
}
// Each line of /proc/meminfo looks like
// SomeLabel: number unit
// The last line is empty.
// Let's write a parser.
// Note that we don't care about writing a normative parser, so
// we happily skip whitespaces without checking that it's necessary.
// A stack-allocated structure containing a 0-terminated string.
// We could avoid the memory copies and make it a slice at the cost
// of a slightly more complicated parser. Since we're not in a
// performance-critical section, we didn't.
struct DataBuffer {
DataBuffer() : data{0}, pos(0) {}
// Clear the buffer.
void reset() {
pos = 0;
data[0] = 0;
}
// Append a character.
//
// In case of error (if c is '\0' or the buffer is full), does nothing.
void append(char c) {
if (c == 0 || pos >= sizeof(data) - 1) {
return;
}
data[pos++] = c;
data[pos] = 0;
}
// Compare the buffer against a nul-terminated string.
bool operator==(const char* s) const {
for (size_t i = 0; i < pos; ++i) {
if (s[i] != data[i]) {
// Note: Since `data` never contains a '0' in positions [0,pos)
// this will bailout once we have reached the end of `s`.
return false;
}
}
return true;
}
// A NUL-terminated string of `pos + 1` chars (the +1 is for the 0).
char data[256];
// Invariant: < 256.
size_t pos;
};
// A DataBuffer holding the string representation of a non-negative number.
struct NumberBuffer : DataBuffer {
// If possible, convert the string into a number.
// Returns `true` in case of success, `false` in case of failure.
bool asNumber(size_t* number) {
int result;
if (!my_strtoui(&result, data)) {
return false;
}
*number = result;
return true;
}
};
// A DataBuffer holding the string representation of a unit. As of this
// writing, we only support unit `kB`, which seems to be the only unit used in
// `/proc/meminfo`.
struct UnitBuffer : DataBuffer {
// If possible, convert the string into a multiplier, e.g. `kB => 1024`.
// Return `true` in case of success, `false` in case of failure.
bool asMultiplier(size_t* multiplier) {
if (*this == "kB") {
*multiplier = 1024;
return true;
}
// Other units don't seem to be specified/used.
return false;
}
};
// The state of the mini-parser.
enum class State {
// Reading the label, including the trailing ':'.
Label,
// Reading the number, ignoring any whitespace.
Number,
// Reading the unit, ignoring any whitespace.
Unit,
};
// A single measure being read from /proc/meminfo, e.g.
// the total physical memory available on the system.
struct Measure {
Measure() : state(State::Label) {}
// Reset the measure for a new read.
void reset() {
state = State::Label;
label.reset();
number.reset();
unit.reset();
}
// Attempt to convert the measure into a number.
// Return `true` if both the number and the multiplier could be
// converted, `false` otherwise.
// In case of overflow, produces the maximal possible `size_t`.
bool asValue(size_t* result) {
size_t numberAsSize = 0;
if (!number.asNumber(&numberAsSize)) {
return false;
}
size_t unitAsMultiplier = 0;
if (!unit.asMultiplier(&unitAsMultiplier)) {
return false;
}
if (numberAsSize * unitAsMultiplier >= numberAsSize) {
*result = numberAsSize * unitAsMultiplier;
} else {
// Overflow. Unlikely, but just in case, let's return
// the maximal possible value.
*result = size_t(-1);
}
return true;
}
// The label being read, e.g. `MemFree`. Does not include the trailing ':'.
DataBuffer label;
// The number being read, e.g. "1024".
NumberBuffer number;
// The unit being read, e.g. "kB".
UnitBuffer unit;
// What we're reading at the moment.
State state;
};
// A value we wish to store for later processing.
// e.g. to compute `AvailablePageFile`, we need to
// store `CommitLimit` and `Committed_AS`.
struct ValueStore {
ValueStore() : value(0), found(false) {}
size_t value;
bool found;
};
ValueStore commitLimit;
ValueStore committedAS;
ValueStore memTotal;
ValueStore swapTotal;
// The current measure.
Measure measure;
for (size_t pos = 0; pos < size_t(bufferLen); ++pos) {
const char c = buffer[pos];
switch (measure.state) {
case State::Label:
if (c == ':') {
// We have finished reading the label.
measure.state = State::Number;
} else {
measure.label.append(c);
}
break;
case State::Number:
if (c == ' ') {
// Ignore whitespace
} else if ('0' <= c && c <= '9') {
// Accumulate numbers.
measure.number.append(c);
} else {
// We have jumped to the unit.
measure.unit.append(c);
measure.state = State::Unit;
}
break;
case State::Unit:
if (c == ' ') {
// Ignore whitespace
} else if (c == '\n') {
// Flush line.
// - If this one of the measures we're interested in, write it.
// - Once we're done, reset the parser.
auto Guard = MakeScopeExit([&measure]() { measure.reset(); });
struct PointOfInterest {
// The label we're looking for, e.g. "MemTotal".
const char* label;
// If non-nullptr, store the value at this address.
ValueStore* dest;
// If other than Annotation::Count, write the value for this
// annotation.
Annotation annotation;
};
const PointOfInterest POINTS_OF_INTEREST[] = {
{"MemTotal", &memTotal, Annotation::TotalPhysicalMemory},
{"MemFree", nullptr, Annotation::AvailablePhysicalMemory},
{"MemAvailable", nullptr, Annotation::AvailableVirtualMemory},
{"SwapFree", nullptr, Annotation::AvailableSwapMemory},
{"SwapTotal", &swapTotal, Annotation::Count},
{"CommitLimit", &commitLimit, Annotation::Count},
{"Committed_AS", &committedAS, Annotation::Count},
};
for (const auto& pointOfInterest : POINTS_OF_INTEREST) {
if (measure.label == pointOfInterest.label) {
size_t value;
if (measure.asValue(&value)) {
if (pointOfInterest.dest != nullptr) {
pointOfInterest.dest->found = true;
pointOfInterest.dest->value = value;
}
if (pointOfInterest.annotation != Annotation::Count) {
aWriter.Write(pointOfInterest.annotation,
static_cast<uint64_t>(value));
}
}
break;
}
}
// Otherwise, ignore.
} else {
measure.unit.append(c);
}
break;
}
}
if (commitLimit.found && committedAS.found) {
// If available, attempt to determine the available virtual memory.
// As `commitLimit` is not guaranteed to be larger than `committedAS`,
// we return `0` in case the commit limit has already been exceeded.
uint64_t availablePageFile = (committedAS.value <= commitLimit.value)
? (commitLimit.value - committedAS.value)
: 0;
aWriter.Write(Annotation::AvailablePageFile, availablePageFile);
}
if (memTotal.found && swapTotal.found) {
// If available, attempt to determine the available virtual memory.
aWriter.Write(Annotation::TotalPageFile,
static_cast<uint64_t>(memTotal.value + swapTotal.value));
}
}
#else
static void AnnotateMemoryStatus(AnnotationTable&) {
// No memory data for other platforms yet.
}
#endif // XP_WIN || XP_MACOSX || XP_LINUX || else
#if !defined(MOZ_WIDGET_ANDROID)
/**
* Launches the program specified in aProgramPath with aMinidumpPath as its
* sole argument.
*
* @param aProgramPath The path of the program to be launched
* @param aMinidumpPath The path of the minidump file, passed as an argument
* to the launched program
*/
static bool LaunchProgram(const XP_CHAR* aProgramPath,
const XP_CHAR* aMinidumpPath) {
# ifdef XP_WIN
XP_CHAR cmdLine[CMDLINE_SIZE];
XP_CHAR* p;
size_t size = CMDLINE_SIZE;
p = Concat(cmdLine, L"\"", &size);
p = Concat(p, aProgramPath, &size);
p = Concat(p, L"\" \"", &size);
p = Concat(p, aMinidumpPath, &size);
Concat(p, L"\"", &size);
PROCESS_INFORMATION pi = {};
STARTUPINFO si = {};
si.cb = sizeof(si);
// If CreateProcess() fails don't do anything.
if (CreateProcess(
/* lpApplicationName */ nullptr, (LPWSTR)cmdLine,
/* lpProcessAttributes */ nullptr, /* lpThreadAttributes */ nullptr,
/* bInheritHandles */ FALSE,
NORMAL_PRIORITY_CLASS | CREATE_NO_WINDOW | CREATE_BREAKAWAY_FROM_JOB,
/* lpEnvironment */ nullptr, /* lpCurrentDirectory */ nullptr, &si,
&pi)) {
CloseHandle(pi.hProcess);
CloseHandle(pi.hThread);
}
# elif defined(XP_MACOSX)
pid_t pid = 0;
char* const my_argv[] = {const_cast<char*>(aProgramPath),
const_cast<char*>(aMinidumpPath), nullptr};
char** env = nullptr;
char*** nsEnv = _NSGetEnviron();
if (nsEnv) {
env = *nsEnv;
}
int rv = posix_spawnp(&pid, my_argv[0], nullptr, nullptr, my_argv, env);
if (rv != 0) {
return false;
}
# else // !XP_MACOSX
pid_t pid = sys_fork();
if (pid == -1) {
return false;
} else if (pid == 0) {
Unused << execl(aProgramPath, aProgramPath, aMinidumpPath, nullptr);
_exit(1);
}
# endif // XP_MACOSX
return true;
}
#else
/**
* Launch the crash reporter activity on Android
*
* @param aProgramPath The path of the program to be launched
* @param aMinidumpPath The path to the crash minidump file
*/
static bool LaunchCrashHandlerService(const XP_CHAR* aProgramPath,
const XP_CHAR* aMinidumpPath) {
static XP_CHAR extrasPath[XP_PATH_MAX];
size_t size = XP_PATH_MAX;
XP_CHAR* p = Concat(extrasPath, aMinidumpPath, &size);
p = Concat(p - 3, "extra", &size);
pid_t pid = sys_fork();
if (pid == -1)
return false;
else if (pid == 0) {
// Invoke the crash handler service using am
if (androidUserSerial) {
Unused << execlp("/system/bin/am", "/system/bin/am",
androidStartServiceCommand, "--user", androidUserSerial,
"-a", "org.mozilla.gecko.ACTION_CRASHED", "-n",
aProgramPath, "--es", "minidumpPath", aMinidumpPath,
"--es", "extrasPath", extrasPath, "--ez", "fatal",
"true", "--es", "processType", "MAIN", (char*)0);
} else {
Unused << execlp(
"/system/bin/am", "/system/bin/am", androidStartServiceCommand, "-a",
"org.mozilla.gecko.ACTION_CRASHED", "-n", aProgramPath, "--es",
"minidumpPath", aMinidumpPath, "--es", "extrasPath", extrasPath,
"--ez", "fatal", "true", "--es", "processType", "MAIN", (char*)0);
}
_exit(1);
} else {
// We need to wait on the 'am start' command above to finish, otherwise
// everything will be killed by the ActivityManager as soon as the signal
// handler exits
int status;
Unused << HANDLE_EINTR(sys_waitpid(pid, &status, __WALL));
}
return true;
}
#endif
static void WriteAnnotations(AnnotationWriter& aWriter,
const AnnotationTable& aAnnotations) {
for (auto key : MakeEnumeratedRange(Annotation::Count)) {
const nsCString& value = aAnnotations[key];
if (!value.IsEmpty()) {
aWriter.Write(key, value.get(), value.Length());
}
}
}
static void WriteSynthesizedAnnotations(AnnotationWriter& aWriter) {
AnnotateMemoryStatus(aWriter);
}
static void WriteAnnotationsForMainProcessCrash(PlatformWriter& pw,
const phc::AddrInfo* addrInfo,
time_t crashTime) {
JSONAnnotationWriter writer(pw);
for (auto key : MakeEnumeratedRange(Annotation::Count)) {
AnnotationContents contents = {};
size_t address =
mozannotation_get_contents(static_cast<uint32_t>(key), &contents);
if (address != 0) {
switch (TypeOfAnnotation(key)) {
case AnnotationType::String:
switch (contents.tag) {
case AnnotationContents::Tag::NSCStringPointer: {
const nsCString* string =
reinterpret_cast<const nsCString*>(address);
writer.Write(key, string->Data(), string->Length());
} break;
case AnnotationContents::Tag::CStringPointer:
address = *(reinterpret_cast<size_t*>(address));
if (address == 0) {
break;
}
// FALLTHROUGH
case AnnotationContents::Tag::CString: {
writer.Write(key, reinterpret_cast<const char*>(address));
} break;
case AnnotationContents::Tag::ByteBuffer:
writer.Write(key, reinterpret_cast<const char*>(address),
static_cast<size_t>(contents.byte_buffer._0));
break;
case AnnotationContents::Tag::OwnedByteBuffer:
writer.Write(key, reinterpret_cast<const char*>(address),
static_cast<size_t>(contents.owned_byte_buffer._0));
break;
case AnnotationContents::Tag::Empty:
break;
}
break;
case AnnotationType::Boolean:
writer.Write(key, *reinterpret_cast<const bool*>(address));
break;
case AnnotationType::U32:
writer.Write(key, static_cast<uint64_t>(
*reinterpret_cast<uint32_t*>(address)));
break;
case AnnotationType::U64:
writer.Write(key, *reinterpret_cast<uint64_t*>(address));
break;
case AnnotationType::USize:
writer.Write(
key, static_cast<uint64_t>(*reinterpret_cast<size_t*>(address)));
break;
}
}
}
WriteSynthesizedAnnotations(writer);
writer.Write(Annotation::CrashTime, uint64_t(crashTime));
if (inactiveStateStart) {
writer.Write(Annotation::LastInteractionDuration,
static_cast<uint64_t>(crashTime - inactiveStateStart));
}
double uptimeTS = (TimeStamp::NowLoRes() - TimeStamp::ProcessCreation())
.ToSecondsSigDigits();
char uptimeTSString[64] = {};
SimpleNoCLibDtoA(uptimeTS, uptimeTSString, sizeof(uptimeTSString));
writer.Write(Annotation::UptimeTS, uptimeTSString);
// calculate time since last crash (if possible).
if (lastCrashTime != 0) {
uint64_t timeSinceLastCrash = crashTime - lastCrashTime;
writer.Write(Annotation::SecondsSinceLastCrash, timeSinceLastCrash);
}
#if defined(XP_WIN) && defined(HAS_DLL_BLOCKLIST)
// HACK: The DLL blocklist code will manually write its annotations as JSON
DllBlocklist_WriteNotes();
#endif // defined(XP_WIN) && defined(HAS_DLL_BLOCKLIST)
#ifdef MOZ_PHC
WritePHCAddrInfo(writer, addrInfo);
#endif
}
static void WriteCrashEventFile(time_t crashTime, const char* crashTimeString,
const phc::AddrInfo* addrInfo,
#ifdef XP_LINUX
const MinidumpDescriptor& descriptor
#else
const XP_CHAR* minidump_id
#endif
) {
// Minidump IDs are UUIDs (36) + NULL.
static char id_ascii[37] = {};
#ifdef XP_LINUX
const char* index = strrchr(descriptor.path(), '/');
MOZ_ASSERT(index);
MOZ_ASSERT(strlen(index) == 1 + 36 + 4); // "/" + UUID + ".dmp"
for (uint32_t i = 0; i < 36; i++) {
id_ascii[i] = *(index + 1 + i);
}
#else
MOZ_ASSERT(XP_STRLEN(minidump_id) == 36);
for (uint32_t i = 0; i < 36; i++) {
id_ascii[i] = *((char*)(minidump_id + i));
}
#endif
PlatformWriter eventFile;
if (!eventsDirectory.empty()) {
static XP_CHAR crashEventPath[XP_PATH_MAX];
size_t size = XP_PATH_MAX;
XP_CHAR* p;
p = Concat(crashEventPath, eventsDirectory.c_str(), &size);
p = Concat(p, XP_PATH_SEPARATOR, &size);
#ifdef XP_LINUX
Concat(p, id_ascii, &size);
#else
Concat(p, minidump_id, &size);
#endif
eventFile.Open(crashEventPath);
eventFile.WriteLiteral(kCrashMainID);
eventFile.WriteString(crashTimeString);
eventFile.WriteLiteral("\n");
eventFile.WriteString(id_ascii);
eventFile.WriteLiteral("\n");
WriteAnnotationsForMainProcessCrash(eventFile, addrInfo, crashTime);
}
}
// Callback invoked from breakpad's exception handler, this writes out the
// last annotations after a crash occurs and launches the crash reporter client.
//
// This function is not declared static even though it's not used outside of
// this file because of an issue in Fennec which prevents breakpad's exception
// handler from invoking it. See bug 1424304.
bool MinidumpCallback(
#ifdef XP_LINUX
const MinidumpDescriptor& descriptor,
#else
const XP_CHAR* dump_path, const XP_CHAR* minidump_id,
#endif
void* context,
#ifdef XP_WIN
EXCEPTION_POINTERS* exinfo, MDRawAssertionInfo* assertion,
#endif
const phc::AddrInfo* addrInfo, bool succeeded) {
bool returnValue = showOSCrashReporter ? false : succeeded;
static XP_CHAR minidumpPath[XP_PATH_MAX];
size_t size = XP_PATH_MAX;
XP_CHAR* p;
#ifndef XP_LINUX
p = Concat(minidumpPath, dump_path, &size);
p = Concat(p, XP_PATH_SEPARATOR, &size);
p = Concat(p, minidump_id, &size);
Concat(p, dumpFileExtension, &size);
#else
Concat(minidumpPath, descriptor.path(), &size);
#endif
static XP_CHAR memoryReportLocalPath[XP_PATH_MAX];
size = XP_PATH_MAX;
#ifndef XP_LINUX
p = Concat(memoryReportLocalPath, dump_path, &size);
p = Concat(p, XP_PATH_SEPARATOR, &size);
p = Concat(p, minidump_id, &size);
#else
p = Concat(memoryReportLocalPath, descriptor.path(), &size);
// Skip back past the .dmp extension
p -= 4;
#endif
Concat(p, memoryReportExtension, &size);
if (!memoryReportPath.empty()) {
#ifdef XP_WIN
CopyFile(memoryReportPath.c_str(), memoryReportLocalPath, false);
#else
copy_file(memoryReportPath.c_str(), memoryReportLocalPath);
#endif
}
time_t crashTime = GetCurrentTimeForCrashTime();
char crashTimeString[32];
XP_TTOA(crashTime, crashTimeString);
// write crash time to file
if (lastCrashTimeFilename[0] != 0) {
PlatformWriter lastCrashFile(lastCrashTimeFilename);
lastCrashFile.WriteString(crashTimeString);
}
WriteCrashEventFile(crashTime, crashTimeString, addrInfo,
#ifdef XP_LINUX
descriptor
#else
minidump_id
#endif
);
{
PlatformWriter apiData;
#ifdef XP_LINUX
OpenAPIData(apiData, descriptor.path());
#else
OpenAPIData(apiData, dump_path, minidump_id);
#endif
WriteAnnotationsForMainProcessCrash(apiData, addrInfo, crashTime);
}
if (doReport && isSafeToDump) {
// We launch the crash reporter client/dialog only if we've been explicitly
// asked to report crashes and if we weren't already trying to unset the
// exception handler (which is indicated by isSafeToDump being false).
#if defined(MOZ_WIDGET_ANDROID) // Android
returnValue =
LaunchCrashHandlerService(crashReporterPath.c_str(), minidumpPath);
#else // Windows, Mac, Linux, etc...
returnValue = LaunchProgram(crashReporterPath.c_str(), minidumpPath);
#endif
}
#ifdef XP_WIN
TerminateProcess(GetCurrentProcess(), 1);
#endif
return returnValue;
}
#if defined(XP_MACOSX) || defined(__ANDROID__) || defined(XP_LINUX)
static size_t EnsureTrailingSlash(XP_CHAR* aBuf, size_t aBufLen) {
size_t len = XP_STRLEN(aBuf);
if ((len + 1) < aBufLen && len > 0 &&
aBuf[len - 1] != XP_PATH_SEPARATOR_CHAR) {
aBuf[len] = XP_PATH_SEPARATOR_CHAR;
++len;
aBuf[len] = 0;
}
return len;
}
#endif
#if defined(XP_WIN)
static size_t BuildTempPath(wchar_t* aBuf, size_t aBufLen) {
// first figure out buffer size
DWORD pathLen = GetTempPath(0, nullptr);
if (pathLen == 0 || pathLen >= aBufLen) {
return 0;
}
return GetTempPath(pathLen, aBuf);
}
static size_t BuildTempPath(char16_t* aBuf, size_t aBufLen) {
return BuildTempPath(reinterpret_cast<wchar_t*>(aBuf), aBufLen);
}
#elif defined(XP_MACOSX)
static size_t BuildTempPath(char* aBuf, size_t aBufLen) {
if (aBufLen < PATH_MAX) {
return 0;
}
FSRef fsRef;
OSErr err =
FSFindFolder(kUserDomain, kTemporaryFolderType, kCreateFolder, &fsRef);
if (err != noErr) {
return 0;
}
OSStatus status = FSRefMakePath(&fsRef, (UInt8*)aBuf, PATH_MAX);
if (status != noErr) {
return 0;
}
return EnsureTrailingSlash(aBuf, aBufLen);
}
#elif defined(__ANDROID__)
static size_t BuildTempPath(char* aBuf, size_t aBufLen) {
// GeckoAppShell sets this in the environment
const char* tempenv = PR_GetEnv("TMPDIR");
if (!tempenv) {
return false;
}
size_t size = aBufLen;
Concat(aBuf, tempenv, &size);
return EnsureTrailingSlash(aBuf, aBufLen);
}
#elif defined(XP_UNIX)
static size_t BuildTempPath(char* aBuf, size_t aBufLen) {
const char* tempenv = PR_GetEnv("TMPDIR");
const char* tmpPath = "/tmp/";
if (!tempenv) {
tempenv = tmpPath;
}
size_t size = aBufLen;
Concat(aBuf, tempenv, &size);
return EnsureTrailingSlash(aBuf, aBufLen);
}
#else
# error "Implement this for your platform"
#endif
template <typename CharT, size_t N>
static size_t BuildTempPath(CharT (&aBuf)[N]) {
static_assert(N >= XP_PATH_MAX, "char array length is too small");
return BuildTempPath(&aBuf[0], N);
}
template <typename PathStringT>
static bool BuildTempPath(PathStringT& aResult) {
aResult.SetLength(XP_PATH_MAX);
size_t actualLen = BuildTempPath(aResult.BeginWriting(), XP_PATH_MAX);
if (!actualLen) {
return false;
}
aResult.SetLength(actualLen);
return true;
}
#ifdef XP_WIN
static void ReserveBreakpadVM() {
if (!gBreakpadReservedVM) {
gBreakpadReservedVM =
VirtualAlloc(nullptr, kReserveSize, MEM_RESERVE, PAGE_NOACCESS);
}
}
static void FreeBreakpadVM() {
if (gBreakpadReservedVM) {
VirtualFree(gBreakpadReservedVM, 0, MEM_RELEASE);
}
}
static bool IsCrashingException(EXCEPTION_POINTERS* exinfo) {
if (!exinfo) {
return true;
}
PEXCEPTION_RECORD e = (PEXCEPTION_RECORD)exinfo->ExceptionRecord;
switch (e->ExceptionCode) {
case STATUS_FLOAT_DENORMAL_OPERAND:
case STATUS_FLOAT_DIVIDE_BY_ZERO:
case STATUS_FLOAT_INEXACT_RESULT:
case STATUS_FLOAT_INVALID_OPERATION:
case STATUS_FLOAT_OVERFLOW:
case STATUS_FLOAT_STACK_CHECK:
case STATUS_FLOAT_UNDERFLOW:
case STATUS_FLOAT_MULTIPLE_FAULTS:
case STATUS_FLOAT_MULTIPLE_TRAPS:
return false; // Don't write minidump, continue exception search
default:
return true;
}
}
#endif // XP_WIN
// Do various actions to prepare the child process for minidump generation.
// This includes disabling the I/O interposer and DLL blocklist which both
// would get in the way. We also free the address space we had reserved in
// 32-bit builds to free room for the minidump generation to do its work.
static void PrepareForMinidump() {
mozilla::IOInterposer::Disable();
#if defined(XP_WIN)
# if defined(DEBUG) && defined(HAS_DLL_BLOCKLIST)
DllBlocklist_Shutdown();
# endif
FreeBreakpadVM();
#endif // XP_WIN
}
#ifdef XP_WIN
/**
* Filters out floating point exceptions which are handled by nsSigHandlers.cpp
* and should not be handled as crashes.
*/
static ExceptionHandler::FilterResult Filter(void* context,
EXCEPTION_POINTERS* exinfo,
MDRawAssertionInfo* assertion) {
if (!IsCrashingException(exinfo)) {
return ExceptionHandler::FilterResult::ContinueSearch;
}
PrepareForMinidump();
return ExceptionHandler::FilterResult::HandleException;
}
static ExceptionHandler::FilterResult ChildFilter(
void* context, EXCEPTION_POINTERS* exinfo, MDRawAssertionInfo* assertion) {
if (!IsCrashingException(exinfo)) {
return ExceptionHandler::FilterResult::ContinueSearch;
}
if (gEncounteredChildException.exchange(true)) {
return ExceptionHandler::FilterResult::AbortWithoutMinidump;
}
PrepareForMinidump();
return ExceptionHandler::FilterResult::HandleException;
}
static MINIDUMP_TYPE GetMinidumpType() {
MINIDUMP_TYPE minidump_type = static_cast<MINIDUMP_TYPE>(
MiniDumpWithFullMemoryInfo | MiniDumpWithUnloadedModules |
MiniDumpWithHandleData);
# ifdef NIGHTLY_BUILD
minidump_type = static_cast<MINIDUMP_TYPE>(
minidump_type |
// This is Nightly only because this doubles the size of minidumps based
// on the experimental data.
MiniDumpWithProcessThreadData |
// This allows us to examine heap objects referenced from stack objects
// at the cost of further doubling the size of minidumps.
MiniDumpWithIndirectlyReferencedMemory);
# endif
const char* e = PR_GetEnv("MOZ_CRASHREPORTER_FULLDUMP");
if (e && *e) {
minidump_type = MiniDumpWithFullMemory;
}
return minidump_type;
}
#else
static bool Filter(void* context) {
PrepareForMinidump();
return true;
}
static bool ChildFilter(void* context) {
if (gEncounteredChildException.exchange(true)) {
return false;
}
PrepareForMinidump();
return true;
}
#endif // !defined(XP_WIN)
static bool ChildMinidumpCallback(
#if defined(XP_WIN)
const wchar_t* dump_path, const wchar_t* minidump_id,
#elif defined(XP_LINUX)
const MinidumpDescriptor& descriptor,
#else // defined(XP_MACOSX)
const char* dump_dir, const char* minidump_id,
#endif
void* context,
#if defined(XP_WIN)
EXCEPTION_POINTERS* exinfo, MDRawAssertionInfo* assertion,
#endif // defined(XP_WIN)
const mozilla::phc::AddrInfo* addr_info, bool succeeded) {
return succeeded;
}
static bool ShouldReport() {
// this environment variable prevents us from launching
// the crash reporter client
const char* envvar = PR_GetEnv("MOZ_CRASHREPORTER_NO_REPORT");
if (envvar && *envvar) {
return false;
}
envvar = PR_GetEnv("MOZ_CRASHREPORTER_FULLDUMP");
if (envvar && *envvar) {
return false;
}
return true;
}
static void TerminateHandler() { MOZ_CRASH("Unhandled exception"); }
#if !defined(MOZ_WIDGET_ANDROID)
// Locate the specified executable and store its path as a native string in
// the |aPath| so we can later invoke it from within the exception handler.
static nsresult LocateExecutable(nsIFile* aXREDirectory, const nsAString& aName,
PathString& aPath) {
nsCOMPtr<nsIFile> exePath;
nsresult rv = aXREDirectory->Clone(getter_AddRefs(exePath));
NS_ENSURE_SUCCESS(rv, rv);
# ifdef XP_MACOSX
exePath->SetNativeLeafName("MacOS"_ns);
exePath->Append(u"crashreporter.app"_ns);
exePath->Append(u"Contents"_ns);
exePath->Append(u"MacOS"_ns);
# endif
exePath->Append(aName);
aPath = exePath->NativePath();
return NS_OK;
}
#endif // !defined(MOZ_WIDGET_ANDROID)
static void InitializeAppNotes() {
notesFieldLock = new Mutex("notesFieldLock");
notesField = new nsCString();
}
// Register crash annotations that are present in both main and child processes
static void RegisterAnnotations() {
mozannotation_register_cstring_ptr(
static_cast<uint32_t>(Annotation::MozCrashReason), &gMozCrashReason);
#ifdef MOZ_COLLECTING_RUNNABLE_TELEMETRY
mozannotation_register_cstring(
static_cast<uint32_t>(Annotation::MainThreadRunnableName),
&nsThread::sMainThreadRunnableName[0]);
#endif
mozannotation_register_bytebuffer(
static_cast<uint32_t>(Annotation::EventLoopNestingLevel),
&eventloopNestingLevel, sizeof(uint32_t));
mozannotation_register_nscstring(static_cast<uint32_t>(Annotation::Notes),
notesField);
mozannotation_register_bytebuffer(
static_cast<uint32_t>(Annotation::OOMAllocationSize), &gOOMAllocationSize,
sizeof(size_t));
mozannotation_register_bytebuffer(
static_cast<uint32_t>(Annotation::IsGarbageCollecting),
&isGarbageCollecting, sizeof(bool));
mozannotation_register_nscstring(static_cast<uint32_t>(Annotation::ServerURL),
&gServerURL);
mozannotation_register_bytebuffer(
static_cast<uint32_t>(Annotation::TextureUsage), &gTexturesSize,
sizeof(size_t));
#if defined(XP_WIN) && defined(HAS_DLL_BLOCKLIST)
mozannotation_register_bytebuffer(
static_cast<uint32_t>(Annotation::BlocklistInitFailed),
DllBlocklist_GetBlocklistInitFailedPointer(), sizeof(bool));
mozannotation_register_bytebuffer(
static_cast<uint32_t>(Annotation::User32BeforeBlocklist),
DllBlocklist_GetUser32BeforeBlocklistPointer(), sizeof(bool));
mozannotation_register_cstring(
static_cast<uint32_t>(Annotation::BlockedDllList),
DllBlocklist_GetBlocklistWriterData());
#endif // defined(XP_WIN) && defined(HAS_DLL_BLOCKLIST)
}
static void TeardownAppNotes() {
delete notesFieldLock;
notesFieldLock = nullptr;
delete notesField;
notesField = nullptr;
}
nsresult SetExceptionHandler(nsIFile* aXREDirectory, bool force /*=false*/) {
if (gExceptionHandler) return NS_ERROR_ALREADY_INITIALIZED;
#if defined(DEBUG)
// In debug builds, disable the crash reporter by default, and allow to
// enable it with the MOZ_CRASHREPORTER environment variable.
const char* envvar = PR_GetEnv("MOZ_CRASHREPORTER");
if ((!envvar || !*envvar) && !force) return NS_OK;
#else
// In other builds, enable the crash reporter by default, and allow
// disabling it with the MOZ_CRASHREPORTER_DISABLE environment variable.
const char* envvar = PR_GetEnv("MOZ_CRASHREPORTER_DISABLE");
if (envvar && *envvar && !force) return NS_OK;
#endif
// this environment variable prevents us from launching
// the crash reporter client
doReport = ShouldReport();
RegisterRuntimeExceptionModule();
InitializeAppNotes();
RegisterAnnotations();
#if !defined(MOZ_WIDGET_ANDROID)
// Locate the crash reporter executable
PathString crashReporterPath_temp;
nsresult rv = LocateExecutable(aXREDirectory, CRASH_REPORTER_FILENAME,
crashReporterPath_temp);
if (NS_WARN_IF(NS_FAILED(rv))) {
return rv;
}
crashReporterPath = crashReporterPath_temp.get();
#else
// On Android, we launch a service defined via MOZ_ANDROID_CRASH_HANDLER
const char* androidCrashHandler = PR_GetEnv("MOZ_ANDROID_CRASH_HANDLER");
if (androidCrashHandler) {
crashReporterPath = xpstring(androidCrashHandler);
} else {
NS_WARNING("No Android crash handler set");
}
const char* deviceAndroidVersion =
PR_GetEnv("MOZ_ANDROID_DEVICE_SDK_VERSION");
if (deviceAndroidVersion != nullptr) {
const int deviceSdkVersion = atol(deviceAndroidVersion);
if (deviceSdkVersion >= 26) {
androidStartServiceCommand = (char*)"start-foreground-service";
} else {
androidStartServiceCommand = (char*)"startservice";
}
}
#endif // !defined(MOZ_WIDGET_ANDROID)
// get temp path to use for minidump path
PathString tempPath;
if (!BuildTempPath(tempPath)) {
return NS_ERROR_FAILURE;
}
#ifdef XP_WIN
ReserveBreakpadVM();
// Pre-load psapi.dll to prevent it from being loaded during exception
// handling.
::LoadLibraryW(L"psapi.dll");
#endif // XP_WIN
#ifdef MOZ_WIDGET_ANDROID
androidUserSerial = getenv("MOZ_ANDROID_USER_SERIAL_NUMBER");
#endif
// Initialize the flag and mutex used to avoid dump processing
// once browser termination has begun.
NS_ASSERTION(!dumpSafetyLock, "Shouldn't have a lock yet");
// Do not deallocate this lock while it is still possible for
// isSafeToDump to be tested on another thread.
dumpSafetyLock = new Mutex("dumpSafetyLock");
MutexAutoLock lock(*dumpSafetyLock);
isSafeToDump = true;
// now set the exception handler
#ifdef XP_LINUX
MinidumpDescriptor descriptor(tempPath.get());
#endif
#ifdef XP_WIN
previousUnhandledExceptionFilter = GetUnhandledExceptionFilter();
#endif
gExceptionHandler = new google_breakpad::ExceptionHandler(
#ifdef XP_LINUX
descriptor,
#elif defined(XP_WIN)
std::wstring(tempPath.get()),
#else
tempPath.get(),
#endif
Filter, MinidumpCallback, nullptr,
#ifdef XP_WIN
google_breakpad::ExceptionHandler::HANDLER_ALL, GetMinidumpType(),
(const wchar_t*)nullptr, nullptr);
#else
true
# ifdef XP_MACOSX
,
nullptr
# endif
# ifdef XP_LINUX
,
-1
# endif
);
#endif // XP_WIN
if (!gExceptionHandler) return NS_ERROR_OUT_OF_MEMORY;
#ifdef XP_WIN
gExceptionHandler->set_handle_debug_exceptions(true);
// Initially set sIncludeContextHeap to true for debugging startup crashes
// even if the controlling pref value is false.
SetIncludeContextHeap(true);
# if defined(HAVE_64BIT_BUILD)
// Tell JS about the new filter before we disable SetUnhandledExceptionFilter
SetJitExceptionHandler();
# endif
RecordMainThreadId();
// protect the crash reporter from being unloaded
gBlockUnhandledExceptionFilter = true;
gKernel32Intercept.Init("kernel32.dll");
DebugOnly<bool> ok = stub_SetUnhandledExceptionFilter.Set(
gKernel32Intercept, "SetUnhandledExceptionFilter",
&patched_SetUnhandledExceptionFilter);
# ifdef DEBUG
if (!ok)
printf_stderr(
"SetUnhandledExceptionFilter hook failed; crash reporter is "
"vulnerable.\n");
# endif
#endif
// store application start time
RecordAnnotationU64(Annotation::StartupTime,
static_cast<uint64_t>(time(nullptr)));
#if defined(XP_MACOSX)
// On OS X, many testers like to see the OS crash reporting dialog
// since it offers immediate stack traces. We allow them to set
// a default to pass exceptions to the OS handler.
Boolean keyExistsAndHasValidFormat = false;
Boolean prefValue = ::CFPreferencesGetAppBooleanValue(
CFSTR("OSCrashReporter"), kCFPreferencesCurrentApplication,
&keyExistsAndHasValidFormat);
if (keyExistsAndHasValidFormat) showOSCrashReporter = prefValue;
#endif
oldTerminateHandler = std::set_terminate(&TerminateHandler);
return NS_OK;
}
bool GetEnabled() { return gExceptionHandler != nullptr; }
bool GetMinidumpPath(nsAString& aPath) {
if (!gExceptionHandler) return false;
#ifndef XP_LINUX
aPath = CONVERT_XP_CHAR_TO_UTF16(gExceptionHandler->dump_path().c_str());
#else
aPath = CONVERT_XP_CHAR_TO_UTF16(
gExceptionHandler->minidump_descriptor().directory().c_str());
#endif
return true;
}
nsresult SetMinidumpPath(const nsAString& aPath) {
if (!gExceptionHandler) return NS_ERROR_NOT_INITIALIZED;
#ifdef XP_WIN
gExceptionHandler->set_dump_path(
std::wstring(char16ptr_t(aPath.BeginReading())));
#elif defined(XP_LINUX)
gExceptionHandler->set_minidump_descriptor(
MinidumpDescriptor(NS_ConvertUTF16toUTF8(aPath).BeginReading()));
#else
gExceptionHandler->set_dump_path(NS_ConvertUTF16toUTF8(aPath).BeginReading());
#endif
return NS_OK;
}
static nsresult WriteDataToFile(nsIFile* aFile, const nsACString& data) {
PRFileDesc* fd;
nsresult rv = aFile->OpenNSPRFileDesc(PR_WRONLY | PR_CREATE_FILE, 00600, &fd);
NS_ENSURE_SUCCESS(rv, rv);
rv = NS_OK;
if (PR_Write(fd, data.Data(), data.Length()) == -1) {
rv = NS_ERROR_FAILURE;
}
PR_Close(fd);
return rv;
}
static nsresult GetFileContents(nsIFile* aFile, nsACString& data) {
PRFileDesc* fd;
nsresult rv = aFile->OpenNSPRFileDesc(PR_RDONLY, 0, &fd);
NS_ENSURE_SUCCESS(rv, rv);
rv = NS_OK;
int32_t filesize = PR_Available(fd);
if (filesize <= 0) {
rv = NS_ERROR_FILE_NOT_FOUND;
} else {
data.SetLength(filesize);
if (PR_Read(fd, data.BeginWriting(), filesize) == -1) {
rv = NS_ERROR_FAILURE;
}
}
PR_Close(fd);
return rv;
}
// Function typedef for initializing a piece of data that we
// don't already have.
typedef nsresult (*InitDataFunc)(nsACString&);
// Attempt to read aFile's contents into aContents, if aFile
// does not exist, create it and initialize its contents
// by calling aInitFunc for the data.
static nsresult GetOrInit(nsIFile* aDir, const nsACString& filename,
nsACString& aContents, InitDataFunc aInitFunc) {
bool exists;
nsCOMPtr<nsIFile> dataFile;
nsresult rv = aDir->Clone(getter_AddRefs(dataFile));
NS_ENSURE_SUCCESS(rv, rv);
rv = dataFile->AppendNative(filename);
NS_ENSURE_SUCCESS(rv, rv);
rv = dataFile->Exists(&exists);
NS_ENSURE_SUCCESS(rv, rv);
if (!exists) {
if (aInitFunc) {
// get the initial value and write it to the file
rv = aInitFunc(aContents);
NS_ENSURE_SUCCESS(rv, rv);
rv = WriteDataToFile(dataFile, aContents);
} else {
// didn't pass in an init func
rv = NS_ERROR_FAILURE;
}
} else {
// just get the file's contents
rv = GetFileContents(dataFile, aContents);
}
return rv;
}
// Init the "install time" data. We're taking an easy way out here
// and just setting this to "the time when this version was first run".
static nsresult InitInstallTime(nsACString& aInstallTime) {
time_t t = time(nullptr);
aInstallTime = nsPrintfCString("%" PRIu64, static_cast<uint64_t>(t));
return NS_OK;
}
// Ensure a directory exists and create it if missing.
static nsresult EnsureDirectoryExists(nsIFile* dir) {
nsresult rv = dir->Create(nsIFile::DIRECTORY_TYPE, 0700);
if (NS_WARN_IF(NS_FAILED(rv) && rv != NS_ERROR_FILE_ALREADY_EXISTS)) {
return rv;
}
return NS_OK;
}
// Creates a directory that will be accessible by the crash reporter. The
// directory will live under Firefox default data directory and will use the
// specified name. The directory path will be passed to the crashreporter via
// the specified environment variable.
static nsresult SetupCrashReporterDirectory(nsIFile* aAppDataDirectory,
const char* aDirName,
const XP_CHAR* aEnvVarName,
nsIFile** aDirectory = nullptr) {
nsCOMPtr<nsIFile> directory;
nsresult rv = aAppDataDirectory->Clone(getter_AddRefs(directory));
NS_ENSURE_SUCCESS(rv, rv);
rv = directory->AppendNative(nsDependentCString(aDirName));
NS_ENSURE_SUCCESS(rv, rv);
EnsureDirectoryExists(directory);
xpstring* directoryPath = CreatePathFromFile(directory);
if (!directoryPath) {
return NS_ERROR_FAILURE;
}
#if defined(XP_WIN)
SetEnvironmentVariableW(aEnvVarName, directoryPath->c_str());
#else
setenv(aEnvVarName, directoryPath->c_str(), /* overwrite */ 1);
#endif
delete directoryPath;
if (aDirectory) {
directory.forget(aDirectory);
}
return NS_OK;
}
// Annotate the crash report with a Unique User ID and time
// since install. Also do some prep work for recording
// time since last crash, which must be calculated at
// crash time.
// If any piece of data doesn't exist, initialize it first.
nsresult SetupExtraData(nsIFile* aAppDataDirectory,
const nsACString& aBuildID) {
nsCOMPtr<nsIFile> dataDirectory;
nsresult rv =
SetupCrashReporterDirectory(aAppDataDirectory, "Crash Reports",
XP_TEXT("MOZ_CRASHREPORTER_DATA_DIRECTORY"),
getter_AddRefs(dataDirectory));
if (NS_WARN_IF(NS_FAILED(rv))) {
return rv;
}
rv = SetupCrashReporterDirectory(aAppDataDirectory, "Pending Pings",
XP_TEXT("MOZ_CRASHREPORTER_PING_DIRECTORY"));
if (NS_WARN_IF(NS_FAILED(rv))) {
return rv;
}
nsAutoCString data;
if (NS_SUCCEEDED(GetOrInit(dataDirectory, "InstallTime"_ns + aBuildID, data,
InitInstallTime))) {
RecordAnnotationNSCString(Annotation::InstallTime, data);
}
// this is a little different, since we can't init it with anything,
// since it's stored at crash time, and we can't annotate the
// crash report with the stored value, since we really want
// (now - LastCrash), so we just get a value if it exists,
// and store it in a time_t value.
if (NS_SUCCEEDED(GetOrInit(dataDirectory, "LastCrash"_ns, data, nullptr))) {
lastCrashTime = (time_t)atol(data.get());
}
// not really the best place to init this, but I have the path I need here
nsCOMPtr<nsIFile> lastCrashFile;
rv = dataDirectory->Clone(getter_AddRefs(lastCrashFile));
NS_ENSURE_SUCCESS(rv, rv);
rv = lastCrashFile->AppendNative("LastCrash"_ns);
NS_ENSURE_SUCCESS(rv, rv);
memset(lastCrashTimeFilename, 0, sizeof(lastCrashTimeFilename));
PathString filename;
#if defined(XP_WIN)
rv = lastCrashFile->GetPath(filename);
#else
rv = lastCrashFile->GetNativePath(filename);
#endif
NS_ENSURE_SUCCESS(rv, rv);
if (filename.Length() < XP_PATH_MAX) {
#if defined(XP_WIN)
wcsncpy(lastCrashTimeFilename, filename.get(), filename.Length());
#else
strncpy(lastCrashTimeFilename, filename.get(), filename.Length());
#endif
}
return NS_OK;
}
static void OOPDeinit();
nsresult UnsetExceptionHandler() {
if (isSafeToDump) {
MutexAutoLock lock(*dumpSafetyLock);
isSafeToDump = false;
}
#ifdef XP_WIN
// allow SetUnhandledExceptionFilter
gBlockUnhandledExceptionFilter = false;
#endif
delete gExceptionHandler;
gServerURL = "";
TeardownAppNotes();
if (!gExceptionHandler) return NS_ERROR_NOT_INITIALIZED;
gExceptionHandler = nullptr;
OOPDeinit();
delete dumpSafetyLock;
dumpSafetyLock = nullptr;
std::set_terminate(oldTerminateHandler);
return NS_OK;
}
const bool* RegisterAnnotationBool(Annotation aKey, const bool* aData) {
MOZ_ASSERT(TypeOfAnnotation(aKey) == AnnotationType::Boolean,
"Wrong annotation type");
if (!GetEnabled()) {
return nullptr;
}
return reinterpret_cast<const bool*>(mozannotation_register_bytebuffer(
static_cast<uint32_t>(aKey), aData, sizeof(bool)));
}
const uint32_t* RegisterAnnotationU32(Annotation aKey, const uint32_t* aData) {
MOZ_ASSERT(TypeOfAnnotation(aKey) == AnnotationType::U32,
"Wrong annotation type");
if (!GetEnabled()) {
return nullptr;
}
return reinterpret_cast<const uint32_t*>(mozannotation_register_bytebuffer(
static_cast<uint32_t>(aKey), aData, sizeof(uint32_t)));
}
const uint64_t* RegisterAnnotationU64(Annotation aKey, const uint64_t* aData) {
MOZ_ASSERT(TypeOfAnnotation(aKey) == AnnotationType::U64,
"Wrong annotation type");
if (!GetEnabled()) {
return nullptr;
}
return reinterpret_cast<const uint64_t*>(mozannotation_register_bytebuffer(
static_cast<uint32_t>(aKey), aData, sizeof(uint64_t)));
}
const size_t* RegisterAnnotationUSize(Annotation aKey, const size_t* aData) {
MOZ_ASSERT(TypeOfAnnotation(aKey) == AnnotationType::USize,
"Wrong annotation type");
if (!GetEnabled()) {
return nullptr;
}
return reinterpret_cast<const size_t*>(mozannotation_register_bytebuffer(
static_cast<uint32_t>(aKey), aData, sizeof(size_t)));
}
const char* RegisterAnnotationCString(Annotation aKey, const char* aData) {
MOZ_ASSERT(TypeOfAnnotation(aKey) == AnnotationType::String,
"Wrong annotation type");
if (!GetEnabled()) {
return nullptr;
}
return mozannotation_register_cstring(static_cast<uint32_t>(aKey), aData);
}
const nsCString* RegisterAnnotationNSCString(Annotation aKey,
const nsCString* aData) {
MOZ_ASSERT(TypeOfAnnotation(aKey) == AnnotationType::String,
"Wrong annotation type");
if (!GetEnabled()) {
return nullptr;
}
return mozannotation_register_nscstring(static_cast<uint32_t>(aKey), aData);
}
nsresult RecordAnnotationBool(Annotation aKey, bool aData) {
MOZ_ASSERT(TypeOfAnnotation(aKey) == AnnotationType::Boolean,
"Wrong annotation type");
if (!GetEnabled()) {
return NS_ERROR_NOT_INITIALIZED;
}
mozannotation_record_bytebuffer(static_cast<uint32_t>(aKey), &aData,
sizeof(bool));
return NS_OK;
}
nsresult RecordAnnotationU32(Annotation aKey, uint32_t aData) {
MOZ_ASSERT(TypeOfAnnotation(aKey) == AnnotationType::U32,
"Wrong annotation type");
if (!GetEnabled()) {
return NS_ERROR_NOT_INITIALIZED;
}
mozannotation_record_bytebuffer(static_cast<uint32_t>(aKey), &aData,
sizeof(uint32_t));
return NS_OK;
}
nsresult RecordAnnotationU64(Annotation aKey, uint64_t aData) {
MOZ_ASSERT(TypeOfAnnotation(aKey) == AnnotationType::U64,
"Wrong annotation type");
if (!GetEnabled()) {
return NS_ERROR_NOT_INITIALIZED;
}
mozannotation_record_bytebuffer(static_cast<uint64_t>(aKey), &aData,
sizeof(uint64_t));
return NS_OK;
}
nsresult RecordAnnotationUSize(Annotation aKey, size_t aData) {
MOZ_ASSERT(TypeOfAnnotation(aKey) == AnnotationType::USize,
"Wrong annotation type");
if (!GetEnabled()) {
return NS_ERROR_NOT_INITIALIZED;
}
mozannotation_record_bytebuffer(static_cast<size_t>(aKey), &aData,
sizeof(size_t));
return NS_OK;
}
nsresult RecordAnnotationCString(Annotation aKey, const char* aData) {
MOZ_ASSERT(TypeOfAnnotation(aKey) == AnnotationType::String,
"Wrong annotation type");
if (!GetEnabled()) {
return NS_ERROR_NOT_INITIALIZED;
}
mozannotation_record_cstring(static_cast<uint32_t>(aKey), aData);
return NS_OK;
}
nsresult RecordAnnotationNSCString(Annotation aKey, const nsACString& aData) {
MOZ_ASSERT(TypeOfAnnotation(aKey) == AnnotationType::String,
"Wrong annotation type");
if (!GetEnabled()) {
return NS_ERROR_NOT_INITIALIZED;
}
mozannotation_record_nscstring_from_raw_parts(
static_cast<uint32_t>(aKey),
reinterpret_cast<const uint8_t*>(aData.Data()), aData.Length());
return NS_OK;
}
nsresult RecordAnnotationNSString(Annotation aKey, const nsAString& aData) {
MOZ_ASSERT(TypeOfAnnotation(aKey) == AnnotationType::String,
"Wrong annotation type");
if (!GetEnabled()) {
return NS_ERROR_NOT_INITIALIZED;
}
nsAutoCString data = NS_ConvertUTF16toUTF8(aData);
RecordAnnotationNSCString(aKey, data);
return NS_OK;
}
nsresult UnrecordAnnotation(Annotation aKey) {
if (!GetEnabled()) {
return NS_ERROR_NOT_INITIALIZED;
}
mozannotation_unregister(static_cast<uint32_t>(aKey));
return NS_OK;
}
// TODO: The first three methods here should be migrated to use native
// types instead of turning the values into strings. They're not currently
// used in mozilla-central so it doesn't really matter in the short term.
AutoRecordAnnotation::AutoRecordAnnotation(Annotation key, bool data)
: AutoRecordAnnotation(key, data ? "1"_ns : "0"_ns) {}
AutoRecordAnnotation::AutoRecordAnnotation(Annotation key, int data)
: AutoRecordAnnotation(key, nsPrintfCString("%d", data)) {}
AutoRecordAnnotation::AutoRecordAnnotation(Annotation key, unsigned data)
: AutoRecordAnnotation(key, nsPrintfCString("%u", data)) {}
AutoRecordAnnotation::AutoRecordAnnotation(Annotation key,
const nsACString& data)
: mKey(key), mCurrent(data) {
if (GetEnabled()) {
mPrevious =
mozannotation_register_nscstring(static_cast<uint32_t>(key), &mCurrent);
}
}
AutoRecordAnnotation::~AutoRecordAnnotation() {
if (GetEnabled()) {
Unused << mozannotation_register_nscstring(static_cast<uint32_t>(mKey),
mPrevious);
}
}
void MergeCrashAnnotations(AnnotationTable& aDst, const AnnotationTable& aSrc) {
for (auto key : MakeEnumeratedRange(Annotation::Count)) {
const nsCString& value = aSrc[key];
if (!value.IsEmpty()) {
aDst[key] = value;
}
}
}
// Adds crash time, uptime and memory report annotations
static void AddCommonAnnotations(AnnotationTable& aAnnotations) {
const time_t crashTime = time(nullptr);
nsAutoCString crashTimeStr;
crashTimeStr.AppendInt(static_cast<uint64_t>(crashTime));
aAnnotations[Annotation::CrashTime] = crashTimeStr;
if (inactiveStateStart) {
nsAutoCString inactiveDuration;
inactiveDuration.AppendInt(
static_cast<uint64_t>(crashTime - inactiveStateStart));
aAnnotations[Annotation::LastInteractionDuration] = inactiveDuration;
}
double uptimeTS = (TimeStamp::NowLoRes() - TimeStamp::ProcessCreation())
.ToSecondsSigDigits();
nsAutoCString uptimeStr;
uptimeStr.AppendFloat(uptimeTS);
aAnnotations[Annotation::UptimeTS] = uptimeStr;
}
nsresult SetGarbageCollecting(bool collecting) {
if (!GetEnabled()) return NS_ERROR_NOT_INITIALIZED;
isGarbageCollecting = collecting;
return NS_OK;
}
void SetEventloopNestingLevel(uint32_t level) { eventloopNestingLevel = level; }
void ClearInactiveStateStart() { inactiveStateStart = 0; }
void SetInactiveStateStart() {
if (!inactiveStateStart) {
inactiveStateStart = GetCurrentTimeForCrashTime();
}
}
void SetMinidumpAnalysisAllThreads() {
char* env = strdup("MOZ_CRASHREPORTER_DUMP_ALL_THREADS=1");
PR_SetEnv(env);
}
nsresult AppendAppNotesToCrashReport(const nsACString& data) {
if (!GetEnabled()) return NS_ERROR_NOT_INITIALIZED;
MutexAutoLock lock(*notesFieldLock);
notesField->Append(data);
return NS_OK;
}
nsresult RegisterAppMemory(void* ptr, size_t length) {
if (!GetEnabled()) return NS_ERROR_NOT_INITIALIZED;
#if defined(XP_LINUX) || defined(XP_WIN)
gExceptionHandler->RegisterAppMemory(ptr, length);
return NS_OK;
#else
return NS_ERROR_NOT_IMPLEMENTED;
#endif
}
nsresult UnregisterAppMemory(void* ptr) {
if (!GetEnabled()) return NS_ERROR_NOT_INITIALIZED;
#if defined(XP_LINUX) || defined(XP_WIN)
gExceptionHandler->UnregisterAppMemory(ptr);
return NS_OK;
#else
return NS_ERROR_NOT_IMPLEMENTED;
#endif
}
void SetIncludeContextHeap(bool aValue) {
sIncludeContextHeap = aValue;
#ifdef XP_WIN
if (gExceptionHandler) {
gExceptionHandler->set_include_context_heap(sIncludeContextHeap);
}
#endif
}
bool GetServerURL(nsACString& aServerURL) {
if (!gExceptionHandler) {
return false;
}
aServerURL = gServerURL;
return true;
}
nsresult SetServerURL(const nsACString& aServerURL) {
// Store the server URL as an annotation, the crash reporter client knows how
// to handle this specially.
gServerURL = aServerURL;
return NS_OK;
}
nsresult SetRestartArgs(int argc, char** argv) {
if (!gExceptionHandler) return NS_OK;
int i;
nsAutoCString envVar;
char* env;
for (i = 1; i < argc; i++) {
envVar = "MOZ_CRASHREPORTER_RESTART_ARG_";
envVar.AppendInt(i);
envVar += "=";
envVar += argv[i];
// PR_SetEnv() wants the string to be available for the lifetime
// of the app, so dup it here. This conversion is not lossy.
env = ToNewCString(envVar, mozilla::fallible);
if (!env) return NS_ERROR_OUT_OF_MEMORY;
PR_SetEnv(env);
}
// make sure the arg list is terminated
envVar = "MOZ_CRASHREPORTER_RESTART_ARG_";
envVar.AppendInt(i);
envVar += "=";
// PR_SetEnv() wants the string to be available for the lifetime
// of the app, so dup it here. This conversion is not lossy.
env = ToNewCString(envVar, mozilla::fallible);
if (!env) return NS_ERROR_OUT_OF_MEMORY;
PR_SetEnv(env);
// make sure we save the info in XUL_APP_FILE for the reporter
const char* appfile = PR_GetEnv("XUL_APP_FILE");
if (appfile && *appfile) {
envVar = "MOZ_CRASHREPORTER_RESTART_XUL_APP_FILE=";
envVar += appfile;
// PR_SetEnv() wants the string to be available for the lifetime
// of the app, so dup it here. This conversion is not lossy.
env = ToNewCString(envVar);
PR_SetEnv(env);
}
return NS_OK;
}
#ifdef XP_WIN
nsresult WriteMinidumpForException(EXCEPTION_POINTERS* aExceptionInfo) {
if (!gExceptionHandler) return NS_ERROR_NOT_INITIALIZED;
return gExceptionHandler->WriteMinidumpForException(aExceptionInfo)
? NS_OK
: NS_ERROR_FAILURE;
}
#endif
#ifdef XP_LINUX
bool WriteMinidumpForSigInfo(int signo, siginfo_t* info, void* uc) {
if (!gExceptionHandler) {
// Crash reporting is disabled.
return false;
}
return gExceptionHandler->HandleSignal(signo, info, uc);
}
#endif
#ifdef XP_MACOSX
nsresult AppendObjCExceptionInfoToAppNotes(void* inException) {
nsAutoCString excString;
GetObjCExceptionInfo(inException, excString);
AppendAppNotesToCrashReport(excString);
return NS_OK;
}
#endif
/*
* Combined code to get/set the crash reporter submission pref on
* different platforms.
*/
static nsresult PrefSubmitReports(bool* aSubmitReports, bool writePref) {
nsresult rv;
#if defined(XP_WIN)
/*
* NOTE! This needs to stay in sync with the preference checking code
* in toolkit/crashreporter/client/crashreporter_win.cpp
*/
nsCOMPtr<nsIXULAppInfo> appinfo =
do_GetService("@mozilla.org/xre/app-info;1", &rv);
NS_ENSURE_SUCCESS(rv, rv);
nsAutoCString appVendor, appName;
rv = appinfo->GetVendor(appVendor);
NS_ENSURE_SUCCESS(rv, rv);
rv = appinfo->GetName(appName);
NS_ENSURE_SUCCESS(rv, rv);
nsCOMPtr<nsIWindowsRegKey> regKey(
do_CreateInstance("@mozilla.org/windows-registry-key;1", &rv));
NS_ENSURE_SUCCESS(rv, rv);
nsAutoCString regPath;
regPath.AppendLiteral("Software\\");
// We need to ensure the registry keys are created so we can properly
// write values to it
// Create appVendor key
if (!appVendor.IsEmpty()) {
regPath.Append(appVendor);
regKey->Create(nsIWindowsRegKey::ROOT_KEY_CURRENT_USER,
NS_ConvertUTF8toUTF16(regPath),
nsIWindowsRegKey::ACCESS_SET_VALUE);
regPath.Append('\\');
}
// Create appName key
regPath.Append(appName);
regKey->Create(nsIWindowsRegKey::ROOT_KEY_CURRENT_USER,
NS_ConvertUTF8toUTF16(regPath),
nsIWindowsRegKey::ACCESS_SET_VALUE);
regPath.Append('\\');
// Create Crash Reporter key
regPath.AppendLiteral("Crash Reporter");
regKey->Create(nsIWindowsRegKey::ROOT_KEY_CURRENT_USER,
NS_ConvertUTF8toUTF16(regPath),
nsIWindowsRegKey::ACCESS_SET_VALUE);
// If we're saving the pref value, just write it to ROOT_KEY_CURRENT_USER
// and we're done.
if (writePref) {
rv = regKey->Open(nsIWindowsRegKey::ROOT_KEY_CURRENT_USER,
NS_ConvertUTF8toUTF16(regPath),
nsIWindowsRegKey::ACCESS_SET_VALUE);
NS_ENSURE_SUCCESS(rv, rv);
uint32_t value = *aSubmitReports ? 1 : 0;
rv = regKey->WriteIntValue(u"SubmitCrashReport"_ns, value);
regKey->Close();
return rv;
}
// We're reading the pref value, so we need to first look under
// ROOT_KEY_LOCAL_MACHINE to see if it's set there, and then fall back to
// ROOT_KEY_CURRENT_USER. If it's not set in either place, the pref defaults
// to "true".
uint32_t value;
rv = regKey->Open(nsIWindowsRegKey::ROOT_KEY_LOCAL_MACHINE,
NS_ConvertUTF8toUTF16(regPath),
nsIWindowsRegKey::ACCESS_QUERY_VALUE);
if (NS_SUCCEEDED(rv)) {
rv = regKey->ReadIntValue(u"SubmitCrashReport"_ns, &value);
regKey->Close();
if (NS_SUCCEEDED(rv)) {
*aSubmitReports = !!value;
return NS_OK;
}
}
rv = regKey->Open(nsIWindowsRegKey::ROOT_KEY_CURRENT_USER,
NS_ConvertUTF8toUTF16(regPath),
nsIWindowsRegKey::ACCESS_QUERY_VALUE);
if (NS_FAILED(rv)) {
*aSubmitReports = true;
return NS_OK;
}
rv = regKey->ReadIntValue(u"SubmitCrashReport"_ns, &value);
// default to true on failure
if (NS_FAILED(rv)) {
value = 1;
rv = NS_OK;
}
regKey->Close();
*aSubmitReports = !!value;
return NS_OK;
#elif defined(XP_MACOSX)
rv = NS_OK;
if (writePref) {
CFPropertyListRef cfValue =
(CFPropertyListRef)(*aSubmitReports ? kCFBooleanTrue : kCFBooleanFalse);
::CFPreferencesSetAppValue(CFSTR("submitReport"), cfValue,
reporterClientAppID);
if (!::CFPreferencesAppSynchronize(reporterClientAppID))
rv = NS_ERROR_FAILURE;
} else {
*aSubmitReports = true;
Boolean keyExistsAndHasValidFormat = false;
Boolean prefValue = ::CFPreferencesGetAppBooleanValue(
CFSTR("submitReport"), reporterClientAppID,
&keyExistsAndHasValidFormat);
if (keyExistsAndHasValidFormat) *aSubmitReports = !!prefValue;
}
return rv;
#elif defined(XP_UNIX)
/*
* NOTE! This needs to stay in sync with the preference checking code
* in toolkit/crashreporter/client/crashreporter_linux.cpp
*/
nsCOMPtr<nsIFile> reporterINI;
rv = NS_GetSpecialDirectory("UAppData", getter_AddRefs(reporterINI));
NS_ENSURE_SUCCESS(rv, rv);
reporterINI->AppendNative("Crash Reports"_ns);
reporterINI->AppendNative("crashreporter.ini"_ns);
bool exists;
rv = reporterINI->Exists(&exists);
NS_ENSURE_SUCCESS(rv, rv);
if (!exists) {
if (!writePref) {
// If reading the pref, default to true if .ini doesn't exist.
*aSubmitReports = true;
return NS_OK;
}
// Create the file so the INI processor can write to it.
rv = reporterINI->Create(nsIFile::NORMAL_FILE_TYPE, 0600);
NS_ENSURE_SUCCESS(rv, rv);
}
nsCOMPtr<nsIINIParserFactory> iniFactory =
do_GetService("@mozilla.org/xpcom/ini-parser-factory;1", &rv);
NS_ENSURE_SUCCESS(rv, rv);
nsCOMPtr<nsIINIParser> iniParser;
rv = iniFactory->CreateINIParser(reporterINI, getter_AddRefs(iniParser));
NS_ENSURE_SUCCESS(rv, rv);
// If we're writing the pref, just set and we're done.
if (writePref) {
nsCOMPtr<nsIINIParserWriter> iniWriter = do_QueryInterface(iniParser);
NS_ENSURE_TRUE(iniWriter, NS_ERROR_FAILURE);
rv = iniWriter->SetString("Crash Reporter"_ns, "SubmitReport"_ns,
*aSubmitReports ? "1"_ns : "0"_ns);
NS_ENSURE_SUCCESS(rv, rv);
rv = iniWriter->WriteFile(reporterINI);
return rv;
}
nsAutoCString submitReportValue;
rv = iniParser->GetString("Crash Reporter"_ns, "SubmitReport"_ns,
submitReportValue);
// Default to "true" if the pref can't be found.
if (NS_FAILED(rv))
*aSubmitReports = true;
else if (submitReportValue.EqualsASCII("0"))
*aSubmitReports = false;
else
*aSubmitReports = true;
return NS_OK;
#else
return NS_ERROR_NOT_IMPLEMENTED;
#endif
}
nsresult GetSubmitReports(bool* aSubmitReports) {
return PrefSubmitReports(aSubmitReports, false);
}
nsresult SetSubmitReports(bool aSubmitReports) {
nsresult rv;
nsCOMPtr<nsIObserverService> obsServ =
mozilla::services::GetObserverService();
if (!obsServ) {
return NS_ERROR_FAILURE;
}
rv = PrefSubmitReports(&aSubmitReports, true);
if (NS_FAILED(rv)) {
return rv;
}
obsServ->NotifyObservers(nullptr, "submit-reports-pref-changed", nullptr);
return NS_OK;
}
static void SetCrashEventsDir(nsIFile* aDir) {
static const XP_CHAR eventsDirectoryEnv[] =
XP_TEXT("MOZ_CRASHREPORTER_EVENTS_DIRECTORY");
nsCOMPtr<nsIFile> eventsDir = aDir;
const char* env = PR_GetEnv("CRASHES_EVENTS_DIR");
if (env && *env) {
NS_NewNativeLocalFile(nsDependentCString(env), false,
getter_AddRefs(eventsDir));
EnsureDirectoryExists(eventsDir);
}
xpstring* path = CreatePathFromFile(eventsDir);
if (!path) {
return; // There's no clean failure from this
}
eventsDirectory = xpstring(*path);
#ifdef XP_WIN
SetEnvironmentVariableW(eventsDirectoryEnv, path->c_str());
#else
setenv(eventsDirectoryEnv, path->c_str(), /* overwrite */ 1);
#endif
delete path;
}
void SetProfileDirectory(nsIFile* aDir) {
nsCOMPtr<nsIFile> dir;
aDir->Clone(getter_AddRefs(dir));
dir->Append(u"crashes"_ns);
EnsureDirectoryExists(dir);
dir->Append(u"events"_ns);
EnsureDirectoryExists(dir);
SetCrashEventsDir(dir);
}
void SetUserAppDataDirectory(nsIFile* aDir) {
nsCOMPtr<nsIFile> dir;
aDir->Clone(getter_AddRefs(dir));
dir->Append(u"Crash Reports"_ns);
EnsureDirectoryExists(dir);
dir->Append(u"events"_ns);
EnsureDirectoryExists(dir);
SetCrashEventsDir(dir);
}
void UpdateCrashEventsDir() {
const char* env = PR_GetEnv("CRASHES_EVENTS_DIR");
if (env && *env) {
SetCrashEventsDir(nullptr);
}
nsCOMPtr<nsIFile> eventsDir;
nsresult rv = NS_GetSpecialDirectory("ProfD", getter_AddRefs(eventsDir));
if (NS_SUCCEEDED(rv)) {
SetProfileDirectory(eventsDir);
return;
}
rv = NS_GetSpecialDirectory("UAppData", getter_AddRefs(eventsDir));
if (NS_SUCCEEDED(rv)) {
SetUserAppDataDirectory(eventsDir);
return;
}
NS_WARNING(
"Couldn't get the user appdata directory. Crash events may not be "
"produced.");
}
bool GetCrashEventsDir(nsAString& aPath) {
if (eventsDirectory.empty()) {
return false;
}
aPath = CONVERT_XP_CHAR_TO_UTF16(eventsDirectory.c_str());
return true;
}
void SetMemoryReportFile(nsIFile* aFile) {
if (!gExceptionHandler) {
return;
}
PathString path;
#ifdef XP_WIN
aFile->GetPath(path);
#else
aFile->GetNativePath(path);
#endif
memoryReportPath = xpstring(path.get());
}
nsresult GetDefaultMemoryReportFile(nsIFile** aFile) {
nsCOMPtr<nsIFile> defaultMemoryReportFile;
if (!defaultMemoryReportPath) {
nsresult rv = NS_GetSpecialDirectory(
NS_APP_PROFILE_DIR_STARTUP, getter_AddRefs(defaultMemoryReportFile));
if (NS_FAILED(rv)) {
return rv;
}
defaultMemoryReportFile->AppendNative("memory-report.json.gz"_ns);
defaultMemoryReportPath = CreatePathFromFile(defaultMemoryReportFile);
if (!defaultMemoryReportPath) {
return NS_ERROR_FAILURE;
}
} else {
CreateFileFromPath(*defaultMemoryReportPath,
getter_AddRefs(defaultMemoryReportFile));
if (!defaultMemoryReportFile) {
return NS_ERROR_FAILURE;
}
}
defaultMemoryReportFile.forget(aFile);
return NS_OK;
}
static void FindPendingDir() {
if (!pendingDirectory.empty()) {
return;
}
nsCOMPtr<nsIFile> pendingDir;
nsresult rv = NS_GetSpecialDirectory("UAppData", getter_AddRefs(pendingDir));
if (NS_FAILED(rv)) {
NS_WARNING(
"Couldn't get the user appdata directory, crash dumps will go in an "
"unusual location");
} else {
pendingDir->Append(u"Crash Reports"_ns);
pendingDir->Append(u"pending"_ns);
PathString path;
#ifdef XP_WIN
pendingDir->GetPath(path);
#else
pendingDir->GetNativePath(path);
#endif
pendingDirectory = xpstring(path.get());
}
}
// The "pending" dir is Crash Reports/pending, from which minidumps
// can be submitted. Because this method may be called off the main thread,
// we store the pending directory as a path.
static bool GetPendingDir(nsIFile** dir) {
// MOZ_ASSERT(OOPInitialized());
if (pendingDirectory.empty()) {
return false;
}
nsCOMPtr<nsIFile> pending = do_CreateInstance(NS_LOCAL_FILE_CONTRACTID);
if (!pending) {
NS_WARNING("Can't set up pending directory during shutdown.");
return false;
}
#ifdef XP_WIN
pending->InitWithPath(nsDependentString(pendingDirectory.c_str()));
#else
pending->InitWithNativePath(nsDependentCString(pendingDirectory.c_str()));
#endif
pending.swap(*dir);
return true;
}
// The "limbo" dir is where minidumps go to wait for something else to
// use them. If we're |ShouldReport()|, then the "something else" is
// a minidump submitter, and they're coming from the
// Crash Reports/pending/ dir. Otherwise, we don't know what the
// "somthing else" is, but the minidumps stay in [profile]/minidumps/
// limbo.
static bool GetMinidumpLimboDir(nsIFile** dir) {
if (ShouldReport()) {
return GetPendingDir(dir);
} else {
#ifndef XP_LINUX
CreateFileFromPath(gExceptionHandler->dump_path(), dir);
#else
CreateFileFromPath(gExceptionHandler->minidump_descriptor().directory(),
dir);
#endif
return nullptr != *dir;
}
}
void DeleteMinidumpFilesForID(const nsAString& aId,
const Maybe<nsString>& aAdditionalMinidump) {
nsCOMPtr<nsIFile> minidumpFile;
if (GetMinidumpForID(aId, getter_AddRefs(minidumpFile))) {
minidumpFile->Remove(false);
}
nsCOMPtr<nsIFile> extraFile;
if (GetExtraFileForID(aId, getter_AddRefs(extraFile))) {
extraFile->Remove(false);
}
if (aAdditionalMinidump && GetMinidumpForID(aId, getter_AddRefs(minidumpFile),
aAdditionalMinidump)) {
minidumpFile->Remove(false);
}
}
bool GetMinidumpForID(const nsAString& id, nsIFile** minidump,
const Maybe<nsString>& aAdditionalMinidump) {
if (!GetMinidumpLimboDir(minidump)) {
return false;
}
nsAutoString fileName(id);
if (aAdditionalMinidump) {
fileName.Append('-');
fileName.Append(*aAdditionalMinidump);
}
fileName.Append(u".dmp"_ns);
(*minidump)->Append(fileName);
bool exists;
if (NS_FAILED((*minidump)->Exists(&exists)) || !exists) {
return false;
}
return true;
}
bool GetIDFromMinidump(nsIFile* minidump, nsAString& id) {
if (minidump && NS_SUCCEEDED(minidump->GetLeafName(id))) {
id.ReplaceLiteral(id.Length() - 4, 4, u"");
return true;
}
return false;
}
bool GetExtraFileForID(const nsAString& id, nsIFile** extraFile) {
if (!GetMinidumpLimboDir(extraFile)) {
return false;
}
(*extraFile)->Append(id + u".extra"_ns);
bool exists;
if (NS_FAILED((*extraFile)->Exists(&exists)) || !exists) {
return false;
}
return true;
}
bool GetExtraFileForMinidump(nsIFile* minidump, nsIFile** extraFile) {
nsAutoString leafName;
nsresult rv = minidump->GetLeafName(leafName);
if (NS_FAILED(rv)) return false;
nsCOMPtr<nsIFile> extraF;
rv = minidump->Clone(getter_AddRefs(extraF));
if (NS_FAILED(rv)) return false;
leafName.Replace(leafName.Length() - 3, 3, u"extra"_ns);
rv = extraF->SetLeafName(leafName);
if (NS_FAILED(rv)) return false;
*extraFile = nullptr;
extraF.swap(*extraFile);
return true;
}
static bool WriteExtraFile(PlatformWriter& pw,
const AnnotationTable& aAnnotations) {
if (!pw.Valid()) {
return false;
}
JSONAnnotationWriter writer(pw);
WriteAnnotations(writer, aAnnotations);
WriteSynthesizedAnnotations(writer);
return true;
}
bool WriteExtraFile(const nsAString& id, const AnnotationTable& annotations) {
nsCOMPtr<nsIFile> extra;
if (!GetMinidumpLimboDir(getter_AddRefs(extra))) {
return false;
}
extra->Append(id + u".extra"_ns);
PathString path;
#ifdef XP_WIN
NS_ENSURE_SUCCESS(extra->GetPath(path), false);
#elif defined(XP_UNIX)
NS_ENSURE_SUCCESS(extra->GetNativePath(path), false);
#endif
PlatformWriter pw(path.get());
return WriteExtraFile(pw, annotations);
}
template <typename T>
static bool IsFixedSizeAnnotation(AnnotationContents& contents) {
return ((contents.tag == AnnotationContents::Tag::ByteBuffer) &&
(contents.byte_buffer._0 == sizeof(T))) ||
((contents.tag == AnnotationContents::Tag::OwnedByteBuffer) &&
(contents.owned_byte_buffer._0 == sizeof(T)));
}
// This adds annotations that were populated in the main process but are not
// present among the ones that were passed in. Additionally common annotations
// which are present in every crash report are added, including crash time,
// uptime, etc...
static void AddSharedAnnotations(AnnotationTable& aAnnotations) {
for (auto key : MakeEnumeratedRange(Annotation::Count)) {
AnnotationContents contents = {};
nsAutoCString value;
size_t address =
mozannotation_get_contents(static_cast<uint32_t>(key), &contents);
if (address) {
switch (TypeOfAnnotation(key)) {
case AnnotationType::String:
switch (contents.tag) {
case AnnotationContents::Tag::Empty:
break;
case AnnotationContents::Tag::CStringPointer:
address = *reinterpret_cast<size_t*>(address);
if (address == 0) {
break;
}
// FALLTHROUGH
case AnnotationContents::Tag::CString:
value.Assign(reinterpret_cast<const char*>(address));
break;
case AnnotationContents::Tag::NSCStringPointer:
value.Assign(*reinterpret_cast<nsCString*>(address));
break;
case AnnotationContents::Tag::ByteBuffer:
value.Assign(reinterpret_cast<const char*>(address),
contents.byte_buffer._0);
break;
case AnnotationContents::Tag::OwnedByteBuffer:
value.Assign(reinterpret_cast<const char*>(address),
contents.owned_byte_buffer._0);
break;
}
break;
case AnnotationType::Boolean:
if (IsFixedSizeAnnotation<bool>(contents)) {
value.Assign(*reinterpret_cast<const bool*>(address) ? "1" : "0");
}
break;
case AnnotationType::U32:
if (IsFixedSizeAnnotation<uint32_t>(contents)) {
value.AppendInt(*reinterpret_cast<const uint32_t*>(address));
}
break;
case AnnotationType::U64:
if (IsFixedSizeAnnotation<uint64_t>(contents)) {
value.AppendInt(*reinterpret_cast<const uint64_t*>(address));
}
break;
case AnnotationType::USize:
if (IsFixedSizeAnnotation<size_t>(contents)) {
#ifdef XP_MACOSX
// macOS defines size_t as unsigned long, which causes ambiguity
// when it comes to function overload, use a 64-bit integer instead
value.AppendInt(*reinterpret_cast<const uint64_t*>(address));
#else
value.AppendInt(*reinterpret_cast<const size_t*>(address));
#endif
}
break;
}
if (!value.IsEmpty() && aAnnotations[key].IsEmpty() &&
ShouldIncludeAnnotation(key, value.get())) {
aAnnotations[key] = value;
}
}
}
AddCommonAnnotations(aAnnotations);
}
static void AddChildProcessAnnotations(
AnnotationTable& aAnnotations, nsTArray<CAnnotation>* aChildAnnotations) {
if (!aChildAnnotations) {
// TODO: We should probably make a list of errors that occurred when
// generating a crash report as more than one can occurr.
aAnnotations[Annotation::DumperError] = "MissingAnnotations";
return;
}
for (const auto& annotation : *aChildAnnotations) {
Annotation id = static_cast<Annotation>(annotation.id);
const AnnotationData& data = annotation.data;
if ((id == Annotation::PHCBaseAddress) &&
(data.tag == AnnotationData::Tag::ByteBuffer)) {
// PHC is special for now, let's deal with it here
#ifdef MOZ_PHC
const auto& buffer = data.byte_buffer._0;
mozilla::phc::AddrInfo addr_info;
memcpy(&addr_info, buffer.Elements(), sizeof(addr_info));
PopulatePHCAnnotations(aAnnotations, &addr_info);
#endif
continue;
}
if (data.tag == AnnotationData::Tag::Empty) {
continue;
}
nsAutoCString value;
const uint8_t* buffer = data.byte_buffer._0.Elements();
const size_t length = data.byte_buffer._0.Length();
switch (TypeOfAnnotation(id)) {
case AnnotationType::String:
value.Assign(reinterpret_cast<const char*>(buffer), length);
break;
case AnnotationType::Boolean:
if (length == sizeof(bool)) {
value.Assign(*reinterpret_cast<const bool*>(buffer) ? "1" : "0");
}
break;
case AnnotationType::U32:
if (length == sizeof(uint32_t)) {
value.AppendInt(*reinterpret_cast<const uint32_t*>(buffer));
}
break;
case AnnotationType::U64:
if (length == sizeof(uint64_t)) {
value.AppendInt(*reinterpret_cast<const uint64_t*>(buffer));
}
break;
case AnnotationType::USize:
if (length == sizeof(size_t)) {
#ifdef XP_MACOSX
// macOS defines size_t as unsigned long, which causes ambiguity
// when it comes to function overload, use a 64-bit integer instead
value.AppendInt(*reinterpret_cast<const uint64_t*>(buffer));
#else
value.AppendInt(*reinterpret_cast<const size_t*>(buffer));
#endif
}
break;
}
if (!value.IsEmpty() && ShouldIncludeAnnotation(id, value.get())) {
aAnnotations[id] = value;
}
}
}
// It really only makes sense to call this function when
// ShouldReport() is true.
// Uses dumpFile's filename to generate memoryReport's filename (same name
// with a different extension)
static bool MoveToPending(nsIFile* dumpFile, nsIFile* extraFile,
nsIFile* memoryReport) {
nsCOMPtr<nsIFile> pendingDir;
if (!GetPendingDir(getter_AddRefs(pendingDir))) return false;
if (NS_FAILED(dumpFile->MoveTo(pendingDir, u""_ns))) {
return false;
}
if (extraFile && NS_FAILED(extraFile->MoveTo(pendingDir, u""_ns))) {
return false;
}
if (memoryReport) {
nsAutoString leafName;
nsresult rv = dumpFile->GetLeafName(leafName);
if (NS_FAILED(rv)) {
return false;
}
// Generate the correct memory report filename from the dumpFile's name
leafName.Replace(
leafName.Length() - 4, 4,
static_cast<nsString>(CONVERT_XP_CHAR_TO_UTF16(memoryReportExtension)));
if (NS_FAILED(memoryReport->MoveTo(pendingDir, leafName))) {
return false;
}
}
return true;
}
static void MaybeAnnotateDumperError(const ClientInfo& aClientInfo,
AnnotationTable& aAnnotations) {
#if defined(MOZ_OXIDIZED_BREAKPAD)
if (aClientInfo.had_error()) {
aAnnotations[Annotation::DumperError] = *aClientInfo.error_msg();
}
#endif
}
static void OnChildProcessDumpRequested(
void* aContext, const ClientInfo& aClientInfo,
const xpstring& aFilePath) MOZ_NO_THREAD_SAFETY_ANALYSIS {
nsCOMPtr<nsIFile> minidump;
// Hold the mutex until the current dump request is complete, to
// prevent UnsetExceptionHandler() from pulling the rug out from
// under us.
MutexAutoLock lock(*dumpSafetyLock);
if (!isSafeToDump) return;
CreateFileFromPath(aFilePath, getter_AddRefs(minidump));
ProcessId pid = aClientInfo.pid();
if (ShouldReport()) {
nsCOMPtr<nsIFile> memoryReport;
if (!memoryReportPath.empty()) {
CreateFileFromPath(memoryReportPath, getter_AddRefs(memoryReport));
MOZ_ASSERT(memoryReport);
}
MoveToPending(minidump, nullptr, memoryReport);
}
#if XP_WIN
nsTArray<CAnnotation>* child_annotations = mozannotation_retrieve(
reinterpret_cast<uintptr_t>(aClientInfo.process_handle()),
static_cast<size_t>(Annotation::Count));
#elif defined(XP_MACOSX)
nsTArray<CAnnotation>* child_annotations = mozannotation_retrieve(
aClientInfo.task(), static_cast<size_t>(Annotation::Count));
#else
nsTArray<CAnnotation>* child_annotations =
mozannotation_retrieve(pid, static_cast<size_t>(Annotation::Count));
#endif
// TODO: Write a minimal set of annotations if we fail to read them, and
// add an error to the minidump to highlight this fact.
{
#ifdef MOZ_CRASHREPORTER_INJECTOR
bool runCallback;
#endif
{
MutexAutoLock lock(*dumpMapLock);
ChildProcessData* pd = pidToMinidump->PutEntry(pid);
MOZ_ASSERT(!pd->minidump);
pd->minidump = minidump;
pd->sequence = ++crashSequence;
pd->annotations = MakeUnique<AnnotationTable>();
AnnotationTable& annotations = *(pd->annotations);
AddSharedAnnotations(annotations);
AddChildProcessAnnotations(annotations, child_annotations);
MaybeAnnotateDumperError(aClientInfo, annotations);
#ifdef MOZ_CRASHREPORTER_INJECTOR
runCallback = nullptr != pd->callback;
#endif
}
#ifdef MOZ_CRASHREPORTER_INJECTOR
if (runCallback) NS_DispatchToMainThread(new ReportInjectedCrash(pid));
#endif
}
if (child_annotations) {
mozannotation_free(child_annotations);
}
}
static bool OOPInitialized() { return pidToMinidump != nullptr; }
void OOPInit() {
class ProxyToMainThread : public Runnable {
public:
ProxyToMainThread() : Runnable("nsExceptionHandler::ProxyToMainThread") {}
NS_IMETHOD Run() override {
OOPInit();
return NS_OK;
}
};
if (!NS_IsMainThread()) {
// This logic needs to run on the main thread
nsCOMPtr<nsIThread> mainThread = do_GetMainThread();
mozilla::SyncRunnable::DispatchToThread(mainThread,
new ProxyToMainThread());
return;
}
if (OOPInitialized()) return;
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(gExceptionHandler != nullptr,
"attempt to initialize OOP crash reporter before in-process "
"crashreporter!");
#if defined(XP_WIN)
childCrashNotifyPipe =
mozilla::Smprintf("\\\\.\\pipe\\gecko-crash-server-pipe.%i",
static_cast<int>(::GetCurrentProcessId()))
.release();
const std::wstring dumpPath = gExceptionHandler->dump_path();
crashServer = new CrashGenerationServer(
std::wstring(NS_ConvertASCIItoUTF16(childCrashNotifyPipe).get()),
nullptr, // default security attributes
nullptr, nullptr, // we don't care about process connect here
OnChildProcessDumpRequested, nullptr, nullptr, nullptr,
nullptr, // we don't care about process exit here
nullptr, nullptr, // we don't care about upload request here
true, // automatically generate dumps
&dumpPath);
if (sIncludeContextHeap) {
crashServer->set_include_context_heap(sIncludeContextHeap);
}
#elif defined(XP_LINUX)
if (!CrashGenerationServer::CreateReportChannel(&serverSocketFd,
&clientSocketFd))
MOZ_CRASH("can't create crash reporter socketpair()");
const std::string dumpPath =
gExceptionHandler->minidump_descriptor().directory();
crashServer =
new CrashGenerationServer(serverSocketFd, OnChildProcessDumpRequested,
nullptr, nullptr, nullptr, true, &dumpPath);
#elif defined(XP_MACOSX)
childCrashNotifyPipe = mozilla::Smprintf("gecko-crash-server-pipe.%i",
static_cast<int>(getpid()))
.release();
const std::string dumpPath = gExceptionHandler->dump_path();
crashServer = new CrashGenerationServer(childCrashNotifyPipe, nullptr,
nullptr, OnChildProcessDumpRequested,
nullptr, nullptr, nullptr,
true, // automatically generate dumps
dumpPath);
#endif
if (!crashServer->Start()) MOZ_CRASH("can't start crash reporter server()");
pidToMinidump = new ChildMinidumpMap();
dumpMapLock = new Mutex("CrashReporter::dumpMapLock");
FindPendingDir();
UpdateCrashEventsDir();
}
static void OOPDeinit() {
if (!OOPInitialized()) {
NS_WARNING("OOPDeinit() without successful OOPInit()");
return;
}
#ifdef MOZ_CRASHREPORTER_INJECTOR
if (sInjectorThread) {
sInjectorThread->Shutdown();
NS_RELEASE(sInjectorThread);
}
#endif
delete crashServer;
crashServer = nullptr;
delete dumpMapLock;
dumpMapLock = nullptr;
delete pidToMinidump;
pidToMinidump = nullptr;
#if defined(XP_WIN) || defined(XP_MACOSX)
free(childCrashNotifyPipe);
childCrashNotifyPipe = nullptr;
#endif
}
#if defined(XP_WIN) || defined(XP_MACOSX)
// Parent-side API for children
const char* GetChildNotificationPipe() {
if (!GetEnabled()) return kNullNotifyPipe;
MOZ_ASSERT(OOPInitialized());
return childCrashNotifyPipe;
}
#endif
#ifdef MOZ_CRASHREPORTER_INJECTOR
void InjectCrashReporterIntoProcess(DWORD processID,
InjectorCrashCallback* cb) {
if (!GetEnabled()) return;
if (!OOPInitialized()) OOPInit();
if (!sInjectorThread) {
if (NS_FAILED(NS_NewNamedThread("CrashRep Inject", &sInjectorThread)))
return;
}
{
MutexAutoLock lock(*dumpMapLock);
ChildProcessData* pd = pidToMinidump->PutEntry(processID);
MOZ_ASSERT(!pd->minidump && !pd->callback);
pd->callback = cb;
pd->minidumpOnly = true;
}
nsCOMPtr<nsIRunnable> r = new InjectCrashRunnable(processID);
sInjectorThread->Dispatch(r, nsIEventTarget::DISPATCH_NORMAL);
}
NS_IMETHODIMP
ReportInjectedCrash::Run() {
// Crash reporting may have been disabled after this method was dispatched
if (!OOPInitialized()) return NS_OK;
InjectorCrashCallback* cb;
{
MutexAutoLock lock(*dumpMapLock);
ChildProcessData* pd = pidToMinidump->GetEntry(mPID);
if (!pd || !pd->callback) return NS_OK;
MOZ_ASSERT(pd->minidump);
cb = pd->callback;
}
cb->OnCrash(mPID);
return NS_OK;
}
void UnregisterInjectorCallback(DWORD processID) {
if (!OOPInitialized()) return;
MutexAutoLock lock(*dumpMapLock);
pidToMinidump->RemoveEntry(processID);
}
#endif // MOZ_CRASHREPORTER_INJECTOR
#if defined(XP_LINUX)
// Parent-side API for children
bool CreateNotificationPipeForChild(int* childCrashFd, int* childCrashRemapFd) {
if (!GetEnabled()) {
*childCrashFd = -1;
*childCrashRemapFd = -1;
return true;
}
MOZ_ASSERT(OOPInitialized());
*childCrashFd = clientSocketFd;
*childCrashRemapFd = gMagicChildCrashReportFd;
return true;
}
#endif // defined(XP_LINUX)
bool SetRemoteExceptionHandler(const char* aCrashPipe) {
MOZ_ASSERT(!gExceptionHandler, "crash client already init'd");
RegisterRuntimeExceptionModule();
InitializeAppNotes();
RegisterAnnotations();
#ifdef MOZ_PHC
// HACK: We're using the PHCBaseAddress annotation to point to the actual
// PHC address information object. This is because we currently have no
// difference between the internal representation of annotations and their
// external representation. Once we remove the old annotation API this
// will be properly addressed.
mozannotation_register_bytebuffer(
static_cast<uint32_t>(Annotation::PHCBaseAddress),
&mozilla::phc::gAddrInfo, sizeof(mozilla::phc::gAddrInfo));
#endif
#if defined(XP_WIN)
gExceptionHandler = new google_breakpad::ExceptionHandler(
L"", ChildFilter, ChildMinidumpCallback,
nullptr, // no callback context
google_breakpad::ExceptionHandler::HANDLER_ALL, GetMinidumpType(),
NS_ConvertASCIItoUTF16(aCrashPipe).get(), nullptr);
gExceptionHandler->set_handle_debug_exceptions(true);
# if defined(HAVE_64BIT_BUILD)
SetJitExceptionHandler();
# endif
#elif defined(XP_LINUX)
// MinidumpDescriptor requires a non-empty path.
google_breakpad::MinidumpDescriptor path(".");
gExceptionHandler = new google_breakpad::ExceptionHandler(
path, ChildFilter, ChildMinidumpCallback,
nullptr, // no callback context
true, // install signal handlers
gMagicChildCrashReportFd);
#elif defined(XP_MACOSX)
gExceptionHandler = new google_breakpad::ExceptionHandler(
"", ChildFilter, ChildMinidumpCallback,
nullptr, // no callback context
true, // install signal handlers
aCrashPipe);
#endif
RecordMainThreadId();
oldTerminateHandler = std::set_terminate(&TerminateHandler);
// we either do remote or nothing, no fallback to regular crash reporting
return gExceptionHandler->IsOutOfProcess();
}
void GetAnnotation(uint32_t childPid, Annotation annotation,
nsACString& outStr) {
if (!GetEnabled()) {
return;
}
MutexAutoLock lock(*dumpMapLock);
ChildProcessData* pd = pidToMinidump->GetEntry(childPid);
if (!pd) {
return;
}
outStr = (*pd->annotations)[annotation];
}
bool TakeMinidumpForChild(uint32_t childPid, nsIFile** dump,
AnnotationTable& aAnnotations, uint32_t* aSequence) {
if (!GetEnabled()) return false;
MutexAutoLock lock(*dumpMapLock);
ChildProcessData* pd = pidToMinidump->GetEntry(childPid);
if (!pd) return false;
NS_IF_ADDREF(*dump = pd->minidump);
// Only plugin process minidumps taken using the injector don't have
// annotations.
if (!pd->minidumpOnly) {
aAnnotations = *(pd->annotations);
}
if (aSequence) {
*aSequence = pd->sequence;
}
pidToMinidump->RemoveEntry(pd);
return !!*dump;
}
bool FinalizeOrphanedMinidump(uint32_t aChildPid, GeckoProcessType aType,
nsString* aDumpId) {
AnnotationTable annotations;
nsCOMPtr<nsIFile> minidump;
if (!TakeMinidumpForChild(aChildPid, getter_AddRefs(minidump), annotations)) {
return false;
}
nsAutoString id;
if (!GetIDFromMinidump(minidump, id)) {
return false;
}
if (aDumpId) {
*aDumpId = id;
}
annotations[Annotation::ProcessType] =
XRE_ChildProcessTypeToAnnotation(aType);
return WriteExtraFile(id, annotations);
}
#ifdef XP_WIN
// Function invoked by the WER runtime exception handler running in an
// external process. This function isn't used anywhere inside Gecko directly
// but rather invoked via CreateRemoteThread() in the main process.
// Store this global in a section called mozwerpt where we can find it by just
// looking at the program headers.
# pragma section("mozwerpt", read, executable, shared)
__declspec(allocate("mozwerpt")) MOZ_EXPORT DWORD WINAPI
WerNotifyProc(LPVOID aParameter) {
const WindowsErrorReportingData* werData =
static_cast<const WindowsErrorReportingData*>(aParameter);
auto freeParameterOnExit = MakeScopeExit([&aParameter] {
VirtualFree(aParameter, sizeof(WindowsErrorReportingData), MEM_RELEASE);
});
// Hold the mutex until the current dump request is complete, to
// prevent UnsetExceptionHandler() from pulling the rug out from
// under us.
MutexAutoLock safetyLock(*dumpSafetyLock);
if (!isSafeToDump || !ShouldReport()) {
return S_OK;
}
ProcessId pid = werData->mChildPid;
nsCOMPtr<nsIFile> minidump;
if (!GetPendingDir(getter_AddRefs(minidump))) {
return S_OK;
}
xpstring minidump_native_name(werData->mMinidumpFile,
werData->mMinidumpFile + 40);
nsString minidump_name(minidump_native_name.c_str());
minidump->Append(minidump_name);
{
MutexAutoLock lock(*dumpMapLock);
ChildProcessData* pd = pidToMinidump->PutEntry(pid);
MOZ_ASSERT(!pd->minidump);
pd->minidump = minidump;
pd->sequence = ++crashSequence;
pd->annotations = MakeUnique<AnnotationTable>();
(*pd->annotations)[Annotation::WindowsErrorReporting] = "1"_ns;
AddSharedAnnotations(*(pd->annotations));
}
return S_OK;
}
#endif // XP_WIN
//-----------------------------------------------------------------------------
// CreateMinidumpsAndPair() and helpers
//
/*
* Renames the stand alone dump file aDumpFile to:
* |aOwnerDumpFile-aDumpFileProcessType.dmp|
* and moves it into the same directory as aOwnerDumpFile. Does not
* modify aOwnerDumpFile in any way.
*
* @param aDumpFile - the dump file to associate with aOwnerDumpFile.
* @param aOwnerDumpFile - the new owner of aDumpFile.
* @param aDumpFileProcessType - process name associated with aDumpFile.
*/
static void RenameAdditionalHangMinidump(nsIFile* minidump,
nsIFile* childMinidump,
const nsACString& name) {
nsCOMPtr<nsIFile> directory;
childMinidump->GetParent(getter_AddRefs(directory));
if (!directory) return;
nsAutoCString leafName;
childMinidump->GetNativeLeafName(leafName);
// turn "<id>.dmp" into "<id>-<name>.dmp
leafName.Insert("-"_ns + name, leafName.Length() - 4);
if (NS_FAILED(minidump->MoveToNative(directory, leafName))) {
NS_WARNING("RenameAdditionalHangMinidump failed to move minidump.");
}
}
// Stores the minidump in the nsIFile pointed by the |context| parameter.
static bool PairedDumpCallback(
#ifdef XP_LINUX
const MinidumpDescriptor& descriptor,
#else
const XP_CHAR* dump_path, const XP_CHAR* minidump_id,
#endif
void* context,
#ifdef XP_WIN
EXCEPTION_POINTERS* /*unused*/, MDRawAssertionInfo* /*unused*/,
#endif
const phc::AddrInfo* addrInfo, bool succeeded) {
XP_CHAR* path = static_cast<XP_CHAR*>(context);
size_t size = XP_PATH_MAX;
#ifdef XP_LINUX
Concat(path, descriptor.path(), &size);
#else
path = Concat(path, dump_path, &size);
path = Concat(path, XP_PATH_SEPARATOR, &size);
path = Concat(path, minidump_id, &size);
Concat(path, dumpFileExtension, &size);
#endif
return true;
}
ThreadId CurrentThreadId() {
#if defined(XP_WIN)
return ::GetCurrentThreadId();
#elif defined(XP_LINUX)
return sys_gettid();
#elif defined(XP_MACOSX)
// Just return an index, since Mach ports can't be directly serialized
thread_act_port_array_t threads_for_task;
mach_msg_type_number_t thread_count;
if (task_threads(mach_task_self(), &threads_for_task, &thread_count))
return -1;
for (unsigned int i = 0; i < thread_count; ++i) {
if (threads_for_task[i] == mach_thread_self()) return i;
}
abort();
#else
# error "Unsupported platform"
#endif
}
#ifdef XP_MACOSX
static mach_port_t GetChildThread(ProcessHandle childPid,
ThreadId childBlamedThread) {
mach_port_t childThread = MACH_PORT_NULL;
thread_act_port_array_t threads_for_task;
mach_msg_type_number_t thread_count;
if (task_threads(childPid, &threads_for_task, &thread_count) ==
KERN_SUCCESS &&
childBlamedThread < thread_count) {
childThread = threads_for_task[childBlamedThread];
}
return childThread;
}
#endif
bool CreateMinidumpsAndPair(ProcessHandle aTargetHandle,
ThreadId aTargetBlamedThread,
const nsACString& aIncomingPairName,
AnnotationTable& aTargetAnnotations,
nsIFile** aMainDumpOut) {
if (!GetEnabled()) {
return false;
}
AutoIOInterposerDisable disableIOInterposition;
#ifdef XP_MACOSX
mach_port_t targetThread = GetChildThread(aTargetHandle, aTargetBlamedThread);
#else
ThreadId targetThread = aTargetBlamedThread;
#endif
xpstring dump_path;
#ifndef XP_LINUX
dump_path = gExceptionHandler->dump_path();
#else
dump_path = gExceptionHandler->minidump_descriptor().directory();
#endif
// Ugly, but due to Breakpad limitations we can't allocate memory in the
// callback when generating a dump of the calling process.
XP_CHAR minidumpPath[XP_PATH_MAX] = {};
// dump the target
if (!google_breakpad::ExceptionHandler::WriteMinidumpForChild(
aTargetHandle, targetThread, dump_path, PairedDumpCallback,
static_cast<void*>(minidumpPath)
#ifdef XP_WIN
,
GetMinidumpType()
#endif
)) {
return false;
}
nsCOMPtr<nsIFile> targetMinidump;
CreateFileFromPath(xpstring(minidumpPath), getter_AddRefs(targetMinidump));
// Create a dump of this process.
if (!google_breakpad::ExceptionHandler::WriteMinidump(
dump_path,
#ifdef XP_MACOSX
true,
#endif
PairedDumpCallback, static_cast<void*>(minidumpPath)
#ifdef XP_WIN
,
GetMinidumpType()
#endif
)) {
targetMinidump->Remove(false);
return false;
}
nsCOMPtr<nsIFile> incomingDump;
CreateFileFromPath(xpstring(minidumpPath), getter_AddRefs(incomingDump));
RenameAdditionalHangMinidump(incomingDump, targetMinidump, aIncomingPairName);
if (ShouldReport()) {
MoveToPending(targetMinidump, nullptr, nullptr);
MoveToPending(incomingDump, nullptr, nullptr);
}
#if defined(DEBUG) && defined(HAS_DLL_BLOCKLIST)
DllBlocklist_Shutdown();
#endif
AddSharedAnnotations(aTargetAnnotations);
#if XP_WIN
nsTArray<CAnnotation>* child_annotations =
mozannotation_retrieve(reinterpret_cast<uintptr_t>(aTargetHandle),
static_cast<size_t>(Annotation::Count));
#else
nsTArray<CAnnotation>* child_annotations = mozannotation_retrieve(
aTargetHandle, static_cast<size_t>(Annotation::Count));
#endif
AddChildProcessAnnotations(aTargetAnnotations, child_annotations);
if (child_annotations) {
mozannotation_free(child_annotations);
}
targetMinidump.forget(aMainDumpOut);
return true;
}
bool UnsetRemoteExceptionHandler(bool wasSet) {
// On Linux we don't unset breakpad's exception handler if the sandbox is
// enabled because it requires invoking `sigaltstack` and we don't want to
// allow that syscall in the sandbox. See bug 1622452.
#if !defined(XP_LINUX) || !defined(MOZ_SANDBOX)
if (wasSet) {
std::set_terminate(oldTerminateHandler);
delete gExceptionHandler;
gExceptionHandler = nullptr;
}
#endif
gServerURL = "";
TeardownAppNotes();
return true;
}
#if defined(MOZ_WIDGET_ANDROID)
void SetNotificationPipeForChild(int childCrashFd) {
gMagicChildCrashReportFd = childCrashFd;
}
#endif
} // namespace CrashReporter
#if defined(__ANDROID_API__) && (__ANDROID_API__ < 24)
// Bionic introduced support for getgrgid_r() and getgrnam_r() only in version
// 24 (that is Android Nougat / 7.1.2). Since GeckoView is built by version 16
// (32-bit) or 21 (64-bit), those functions aren't defined, but nix needs them
// and minidump-writer relies on nix. These functions should never be called
// in practice hence we implement them only to satisfy nix linking
// requirements but we crash if we accidentally enter them.
extern "C" {
int getgrgid_r(gid_t gid, struct group* grp, char* buf, size_t buflen,
struct group** result) {
MOZ_CRASH("getgrgid_r() is not available");
return EPERM;
}
int getgrnam_r(const char* name, struct group* grp, char* buf, size_t buflen,
struct group** result) {
MOZ_CRASH("getgrnam_r() is not available");
return EPERM;
}
int mlockall(int flags) {
MOZ_CRASH("mlockall() is not available");
return EPERM;
}
int munlockall(void) {
MOZ_CRASH("munlockall() is not available");
return EPERM;
}
}
#endif // __ANDROID_API__ && (__ANDROID_API__ < 24)
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