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|
// Copyright (c) 2006, Google Inc.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include <map>
#include <pthread.h>
#include <TargetConditionals.h>
#include "client/mac/handler/exception_handler.h"
#include "client/mac/handler/minidump_generator.h"
#include "common/mac/macho_utilities.h"
#include "common/mac/scoped_task_suspend-inl.h"
#ifndef USE_PROTECTED_ALLOCATIONS
#if TARGET_OS_IPHONE
#define USE_PROTECTED_ALLOCATIONS 1
#else
#define USE_PROTECTED_ALLOCATIONS 0
#endif
#endif
// If USE_PROTECTED_ALLOCATIONS is activated then the
// gBreakpadAllocator needs to be setup in other code
// ahead of time. Please see ProtectedMemoryAllocator.h
// for more details.
#if USE_PROTECTED_ALLOCATIONS
#include "protected_memory_allocator.h"
extern ProtectedMemoryAllocator *gBreakpadAllocator;
#endif
namespace google_breakpad {
using std::map;
// These structures and techniques are illustrated in
// Mac OS X Internals, Amit Singh, ch 9.7
struct ExceptionMessage {
mach_msg_header_t header;
mach_msg_body_t body;
mach_msg_port_descriptor_t thread;
mach_msg_port_descriptor_t task;
NDR_record_t ndr;
exception_type_t exception;
mach_msg_type_number_t code_count;
integer_t code[EXCEPTION_CODE_MAX];
char padding[512];
};
struct ExceptionParameters {
ExceptionParameters() : count(0) {}
mach_msg_type_number_t count;
exception_mask_t masks[EXC_TYPES_COUNT];
mach_port_t ports[EXC_TYPES_COUNT];
exception_behavior_t behaviors[EXC_TYPES_COUNT];
thread_state_flavor_t flavors[EXC_TYPES_COUNT];
};
struct ExceptionReplyMessage {
mach_msg_header_t header;
NDR_record_t ndr;
kern_return_t return_code;
};
// Only catch these three exceptions. The other ones are nebulously defined
// and may result in treating a non-fatal exception as fatal.
exception_mask_t s_exception_mask = EXC_MASK_BAD_ACCESS |
EXC_MASK_BAD_INSTRUCTION | EXC_MASK_ARITHMETIC | EXC_MASK_BREAKPOINT;
extern "C"
{
// Forward declarations for functions that need "C" style compilation
boolean_t exc_server(mach_msg_header_t *request,
mach_msg_header_t *reply);
// This symbol must be visible to dlsym() - see
// http://code.google.com/p/google-breakpad/issues/detail?id=345 for details.
kern_return_t catch_exception_raise(mach_port_t target_port,
mach_port_t failed_thread,
mach_port_t task,
exception_type_t exception,
exception_data_t code,
mach_msg_type_number_t code_count)
__attribute__((visibility("default")));
kern_return_t ForwardException(mach_port_t task,
mach_port_t failed_thread,
exception_type_t exception,
exception_data_t code,
mach_msg_type_number_t code_count);
kern_return_t exception_raise(mach_port_t target_port,
mach_port_t failed_thread,
mach_port_t task,
exception_type_t exception,
exception_data_t exception_code,
mach_msg_type_number_t exception_code_count);
kern_return_t
exception_raise_state(mach_port_t target_port,
mach_port_t failed_thread,
mach_port_t task,
exception_type_t exception,
exception_data_t exception_code,
mach_msg_type_number_t code_count,
thread_state_flavor_t *target_flavor,
thread_state_t in_thread_state,
mach_msg_type_number_t in_thread_state_count,
thread_state_t out_thread_state,
mach_msg_type_number_t *out_thread_state_count);
kern_return_t
exception_raise_state_identity(mach_port_t target_port,
mach_port_t failed_thread,
mach_port_t task,
exception_type_t exception,
exception_data_t exception_code,
mach_msg_type_number_t exception_code_count,
thread_state_flavor_t *target_flavor,
thread_state_t in_thread_state,
mach_msg_type_number_t in_thread_state_count,
thread_state_t out_thread_state,
mach_msg_type_number_t *out_thread_state_count);
kern_return_t breakpad_exception_raise_state(mach_port_t exception_port,
exception_type_t exception,
const exception_data_t code,
mach_msg_type_number_t codeCnt,
int *flavor,
const thread_state_t old_state,
mach_msg_type_number_t old_stateCnt,
thread_state_t new_state,
mach_msg_type_number_t *new_stateCnt
);
kern_return_t breakpad_exception_raise_state_identity(mach_port_t exception_port,
mach_port_t thread,
mach_port_t task,
exception_type_t exception,
exception_data_t code,
mach_msg_type_number_t codeCnt,
int *flavor,
thread_state_t old_state,
mach_msg_type_number_t old_stateCnt,
thread_state_t new_state,
mach_msg_type_number_t *new_stateCnt
);
kern_return_t breakpad_exception_raise(mach_port_t port, mach_port_t failed_thread,
mach_port_t task,
exception_type_t exception,
exception_data_t code,
mach_msg_type_number_t code_count);
}
kern_return_t breakpad_exception_raise_state(mach_port_t exception_port,
exception_type_t exception,
const exception_data_t code,
mach_msg_type_number_t codeCnt,
int *flavor,
const thread_state_t old_state,
mach_msg_type_number_t old_stateCnt,
thread_state_t new_state,
mach_msg_type_number_t *new_stateCnt
)
{
return KERN_SUCCESS;
}
kern_return_t breakpad_exception_raise_state_identity(mach_port_t exception_port,
mach_port_t thread,
mach_port_t task,
exception_type_t exception,
exception_data_t code,
mach_msg_type_number_t codeCnt,
int *flavor,
thread_state_t old_state,
mach_msg_type_number_t old_stateCnt,
thread_state_t new_state,
mach_msg_type_number_t *new_stateCnt
)
{
return KERN_SUCCESS;
}
kern_return_t breakpad_exception_raise(mach_port_t port, mach_port_t failed_thread,
mach_port_t task,
exception_type_t exception,
exception_data_t code,
mach_msg_type_number_t code_count) {
if (task != mach_task_self()) {
return KERN_FAILURE;
}
return ForwardException(task, failed_thread, exception, code, code_count);
}
ExceptionHandler::ExceptionHandler(const string &dump_path,
FilterCallback filter,
MinidumpCallback callback,
void *callback_context,
bool install_handler,
const char *port_name)
: dump_path_(),
filter_(filter),
callback_(callback),
callback_context_(callback_context),
directCallback_(NULL),
handler_thread_(NULL),
handler_port_(MACH_PORT_NULL),
previous_(NULL),
installed_exception_handler_(false),
is_in_teardown_(false),
last_minidump_write_result_(false),
use_minidump_write_mutex_(false) {
// This will update to the ID and C-string pointers
set_dump_path(dump_path);
MinidumpGenerator::GatherSystemInformation();
#if !TARGET_OS_IPHONE
if (port_name)
crash_generation_client_.reset(new CrashGenerationClient(port_name));
#endif
Setup(install_handler);
}
// special constructor if we want to bypass minidump writing and
// simply get a callback with the exception information
ExceptionHandler::ExceptionHandler(DirectCallback callback,
void *callback_context,
bool install_handler)
: dump_path_(),
filter_(NULL),
callback_(NULL),
callback_context_(callback_context),
directCallback_(callback),
handler_thread_(NULL),
handler_port_(MACH_PORT_NULL),
previous_(NULL),
installed_exception_handler_(false),
is_in_teardown_(false),
last_minidump_write_result_(false),
use_minidump_write_mutex_(false) {
MinidumpGenerator::GatherSystemInformation();
Setup(install_handler);
}
ExceptionHandler::~ExceptionHandler() {
Teardown();
}
bool ExceptionHandler::WriteMinidump(bool write_exception_stream) {
// If we're currently writing, just return
if (use_minidump_write_mutex_)
return false;
use_minidump_write_mutex_ = true;
last_minidump_write_result_ = false;
// Lock the mutex. Since we just created it, this will return immediately.
if (pthread_mutex_lock(&minidump_write_mutex_) == 0) {
// Send an empty message to the handle port so that a minidump will
// be written
SendMessageToHandlerThread(write_exception_stream ?
kWriteDumpWithExceptionMessage :
kWriteDumpMessage);
// Wait for the minidump writer to complete its writing. It will unlock
// the mutex when completed
pthread_mutex_lock(&minidump_write_mutex_);
}
use_minidump_write_mutex_ = false;
UpdateNextID();
return last_minidump_write_result_;
}
// static
bool ExceptionHandler::WriteMinidump(const string &dump_path,
bool write_exception_stream,
MinidumpCallback callback,
void *callback_context) {
ExceptionHandler handler(dump_path, NULL, callback, callback_context, false,
NULL);
return handler.WriteMinidump(write_exception_stream);
}
// static
bool ExceptionHandler::WriteMinidumpForChild(mach_port_t child,
mach_port_t child_blamed_thread,
const string &dump_path,
MinidumpCallback callback,
void *callback_context) {
ScopedTaskSuspend suspend(child);
MinidumpGenerator generator(child, MACH_PORT_NULL);
string dump_id;
string dump_filename = generator.UniqueNameInDirectory(dump_path, &dump_id);
generator.SetExceptionInformation(EXC_BREAKPOINT,
#if defined (__i386__) || defined(__x86_64__)
EXC_I386_BPT,
#elif defined (__ppc__) || defined (__ppc64__)
EXC_PPC_BREAKPOINT,
#elif defined (__arm__)
EXC_ARM_BREAKPOINT,
#else
#error architecture not supported
#endif
0,
child_blamed_thread);
bool result = generator.Write(dump_filename.c_str());
if (callback) {
return callback(dump_path.c_str(), dump_id.c_str(),
callback_context, result);
}
return result;
}
bool ExceptionHandler::WriteMinidumpWithException(int exception_type,
int exception_code,
int exception_subcode,
mach_port_t thread_name,
bool exit_after_write) {
bool result = false;
if (directCallback_) {
if (directCallback_(callback_context_,
exception_type,
exception_code,
exception_subcode,
thread_name) ) {
if (exit_after_write)
_exit(exception_type);
}
#if !TARGET_OS_IPHONE
} else if (IsOutOfProcess()) {
if (exception_type && exception_code) {
// If this is a real exception, give the filter (if any) a chance to
// decide if this should be sent.
if (filter_ && !filter_(callback_context_))
return false;
return crash_generation_client_->RequestDumpForException(
exception_type,
exception_code,
exception_subcode,
thread_name);
}
#endif
} else {
string minidump_id;
// Putting the MinidumpGenerator in its own context will ensure that the
// destructor is executed, closing the newly created minidump file.
if (!dump_path_.empty()) {
MinidumpGenerator md;
if (exception_type && exception_code) {
// If this is a real exception, give the filter (if any) a chance to
// decide if this should be sent.
if (filter_ && !filter_(callback_context_))
return false;
md.SetExceptionInformation(exception_type, exception_code,
exception_subcode, thread_name);
}
result = md.Write(next_minidump_path_c_);
}
// Call user specified callback (if any)
if (callback_) {
// If the user callback returned true and we're handling an exception
// (rather than just writing out the file), then we should exit without
// forwarding the exception to the next handler.
if (callback_(dump_path_c_, next_minidump_id_c_, callback_context_,
result)) {
if (exit_after_write)
_exit(exception_type);
}
}
}
return result;
}
kern_return_t ForwardException(mach_port_t task, mach_port_t failed_thread,
exception_type_t exception,
exception_data_t code,
mach_msg_type_number_t code_count) {
// At this time, we should have called Uninstall() on the exception handler
// so that the current exception ports are the ones that we should be
// forwarding to.
ExceptionParameters current;
current.count = EXC_TYPES_COUNT;
mach_port_t current_task = mach_task_self();
kern_return_t result = task_get_exception_ports(current_task,
s_exception_mask,
current.masks,
¤t.count,
current.ports,
current.behaviors,
current.flavors);
// Find the first exception handler that matches the exception
unsigned int found;
for (found = 0; found < current.count; ++found) {
if (current.masks[found] & (1 << exception)) {
break;
}
}
// Nothing to forward
if (found == current.count) {
fprintf(stderr, "** No previous ports for forwarding!! \n");
exit(KERN_FAILURE);
}
mach_port_t target_port = current.ports[found];
exception_behavior_t target_behavior = current.behaviors[found];
thread_state_flavor_t target_flavor = current.flavors[found];
mach_msg_type_number_t thread_state_count = THREAD_STATE_MAX;
breakpad_thread_state_data_t thread_state;
switch (target_behavior) {
case EXCEPTION_DEFAULT:
result = exception_raise(target_port, failed_thread, task, exception,
code, code_count);
break;
case EXCEPTION_STATE:
result = thread_get_state(failed_thread, target_flavor, thread_state,
&thread_state_count);
if (result == KERN_SUCCESS)
result = exception_raise_state(target_port, failed_thread, task,
exception, code,
code_count, &target_flavor,
thread_state, thread_state_count,
thread_state, &thread_state_count);
if (result == KERN_SUCCESS)
result = thread_set_state(failed_thread, target_flavor, thread_state,
thread_state_count);
break;
case EXCEPTION_STATE_IDENTITY:
result = thread_get_state(failed_thread, target_flavor, thread_state,
&thread_state_count);
if (result == KERN_SUCCESS)
result = exception_raise_state_identity(target_port, failed_thread,
task, exception, code,
code_count, &target_flavor,
thread_state,
thread_state_count,
thread_state,
&thread_state_count);
if (result == KERN_SUCCESS)
result = thread_set_state(failed_thread, target_flavor, thread_state,
thread_state_count);
break;
default:
fprintf(stderr, "** Unknown exception behavior\n");
result = KERN_FAILURE;
break;
}
return result;
}
// Callback from exc_server()
kern_return_t catch_exception_raise(mach_port_t port, mach_port_t failed_thread,
mach_port_t task,
exception_type_t exception,
exception_data_t code,
mach_msg_type_number_t code_count) {
if (task != mach_task_self()) {
return KERN_FAILURE;
}
return ForwardException(task, failed_thread, exception, code, code_count);
}
// static
void *ExceptionHandler::WaitForMessage(void *exception_handler_class) {
ExceptionHandler *self =
reinterpret_cast<ExceptionHandler *>(exception_handler_class);
ExceptionMessage receive;
// Wait for the exception info
while (1) {
receive.header.msgh_local_port = self->handler_port_;
receive.header.msgh_size = static_cast<mach_msg_size_t>(sizeof(receive));
kern_return_t result = mach_msg(&(receive.header),
MACH_RCV_MSG | MACH_RCV_LARGE, 0,
receive.header.msgh_size,
self->handler_port_,
MACH_MSG_TIMEOUT_NONE, MACH_PORT_NULL);
if (result == KERN_SUCCESS) {
// Uninstall our handler so that we don't get in a loop if the process of
// writing out a minidump causes an exception. However, if the exception
// was caused by a fork'd process, don't uninstall things
// If the actual exception code is zero, then we're calling this handler
// in a way that indicates that we want to either exit this thread or
// generate a minidump
//
// While reporting, all threads (except this one) must be suspended
// to avoid misleading stacks. If appropriate they will be resumed
// afterwards.
if (!receive.exception) {
// Don't touch self, since this message could have been sent
// from its destructor.
if (receive.header.msgh_id == kShutdownMessage)
return NULL;
self->SuspendThreads();
#if USE_PROTECTED_ALLOCATIONS
if(gBreakpadAllocator)
gBreakpadAllocator->Unprotect();
#endif
mach_port_t thread = MACH_PORT_NULL;
int exception_type = 0;
int exception_code = 0;
if (receive.header.msgh_id == kWriteDumpWithExceptionMessage) {
thread = receive.thread.name;
exception_type = EXC_BREAKPOINT;
#if defined (__i386__) || defined(__x86_64__)
exception_code = EXC_I386_BPT;
#elif defined (__ppc__) || defined (__ppc64__)
exception_code = EXC_PPC_BREAKPOINT;
#elif defined (__arm__)
exception_code = EXC_ARM_BREAKPOINT;
#else
#error architecture not supported
#endif
}
// Write out the dump and save the result for later retrieval
self->last_minidump_write_result_ =
self->WriteMinidumpWithException(exception_type, exception_code,
0, thread,
false);
#if USE_PROTECTED_ALLOCATIONS
if(gBreakpadAllocator)
gBreakpadAllocator->Protect();
#endif
self->ResumeThreads();
if (self->use_minidump_write_mutex_)
pthread_mutex_unlock(&self->minidump_write_mutex_);
} else {
// When forking a child process with the exception handler installed,
// if the child crashes, it will send the exception back to the parent
// process. The check for task == self_task() ensures that only
// exceptions that occur in the parent process are caught and
// processed. If the exception was not caused by this task, we
// still need to call into the exception server and have it return
// KERN_FAILURE (see breakpad_exception_raise) in order for the kernel
// to move onto the host exception handler for the child task
if (receive.task.name == mach_task_self()) {
self->SuspendThreads();
#if USE_PROTECTED_ALLOCATIONS
if(gBreakpadAllocator)
gBreakpadAllocator->Unprotect();
#endif
int subcode = 0;
if (receive.exception == EXC_BAD_ACCESS && receive.code_count > 1)
subcode = receive.code[1];
// Generate the minidump with the exception data.
self->WriteMinidumpWithException(receive.exception, receive.code[0],
subcode, receive.thread.name, true);
#if USE_PROTECTED_ALLOCATIONS
// This may have become protected again within
// WriteMinidumpWithException, but it needs to be unprotected for
// UninstallHandler.
if(gBreakpadAllocator)
gBreakpadAllocator->Unprotect();
#endif
self->UninstallHandler(true);
#if USE_PROTECTED_ALLOCATIONS
if(gBreakpadAllocator)
gBreakpadAllocator->Protect();
#endif
}
// Pass along the exception to the server, which will setup the
// message and call breakpad_exception_raise() and put the return
// code into the reply.
ExceptionReplyMessage reply;
if (!exc_server(&receive.header, &reply.header))
exit(1);
// Send a reply and exit
result = mach_msg(&(reply.header), MACH_SEND_MSG,
reply.header.msgh_size, 0, MACH_PORT_NULL,
MACH_MSG_TIMEOUT_NONE, MACH_PORT_NULL);
}
}
}
return NULL;
}
bool ExceptionHandler::InstallHandler() {
try {
#if USE_PROTECTED_ALLOCATIONS
previous_ = new (gBreakpadAllocator->Allocate(sizeof(ExceptionParameters)) )
ExceptionParameters();
#else
previous_ = new ExceptionParameters();
#endif
}
catch (std::bad_alloc) {
return false;
}
// Save the current exception ports so that we can forward to them
previous_->count = EXC_TYPES_COUNT;
mach_port_t current_task = mach_task_self();
kern_return_t result = task_get_exception_ports(current_task,
s_exception_mask,
previous_->masks,
&previous_->count,
previous_->ports,
previous_->behaviors,
previous_->flavors);
// Setup the exception ports on this task
if (result == KERN_SUCCESS)
result = task_set_exception_ports(current_task, s_exception_mask,
handler_port_, EXCEPTION_DEFAULT,
THREAD_STATE_NONE);
installed_exception_handler_ = (result == KERN_SUCCESS);
return installed_exception_handler_;
}
bool ExceptionHandler::UninstallHandler(bool in_exception) {
kern_return_t result = KERN_SUCCESS;
if (installed_exception_handler_) {
mach_port_t current_task = mach_task_self();
// Restore the previous ports
for (unsigned int i = 0; i < previous_->count; ++i) {
result = task_set_exception_ports(current_task, previous_->masks[i],
previous_->ports[i],
previous_->behaviors[i],
previous_->flavors[i]);
if (result != KERN_SUCCESS)
return false;
}
// this delete should NOT happen if an exception just occurred!
if (!in_exception) {
#if USE_PROTECTED_ALLOCATIONS
previous_->~ExceptionParameters();
#else
delete previous_;
#endif
}
previous_ = NULL;
installed_exception_handler_ = false;
}
return result == KERN_SUCCESS;
}
bool ExceptionHandler::Setup(bool install_handler) {
if (pthread_mutex_init(&minidump_write_mutex_, NULL))
return false;
// Create a receive right
mach_port_t current_task = mach_task_self();
kern_return_t result = mach_port_allocate(current_task,
MACH_PORT_RIGHT_RECEIVE,
&handler_port_);
// Add send right
if (result == KERN_SUCCESS)
result = mach_port_insert_right(current_task, handler_port_, handler_port_,
MACH_MSG_TYPE_MAKE_SEND);
if (install_handler && result == KERN_SUCCESS)
if (!InstallHandler())
return false;
if (result == KERN_SUCCESS) {
// Install the handler in its own thread, detached as we won't be joining.
pthread_attr_t attr;
pthread_attr_init(&attr);
pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED);
int thread_create_result = pthread_create(&handler_thread_, &attr,
&WaitForMessage, this);
pthread_attr_destroy(&attr);
result = thread_create_result ? KERN_FAILURE : KERN_SUCCESS;
}
return result == KERN_SUCCESS ? true : false;
}
bool ExceptionHandler::Teardown() {
kern_return_t result = KERN_SUCCESS;
is_in_teardown_ = true;
if (!UninstallHandler(false))
return false;
// Send an empty message so that the handler_thread exits
if (SendMessageToHandlerThread(kShutdownMessage)) {
mach_port_t current_task = mach_task_self();
result = mach_port_deallocate(current_task, handler_port_);
if (result != KERN_SUCCESS)
return false;
} else {
return false;
}
handler_thread_ = NULL;
handler_port_ = NULL;
pthread_mutex_destroy(&minidump_write_mutex_);
return result == KERN_SUCCESS;
}
bool ExceptionHandler::SendMessageToHandlerThread(
HandlerThreadMessage message_id) {
ExceptionMessage msg;
memset(&msg, 0, sizeof(msg));
msg.header.msgh_id = message_id;
if (message_id == kWriteDumpMessage ||
message_id == kWriteDumpWithExceptionMessage) {
// Include this thread's port.
msg.thread.name = mach_thread_self();
msg.thread.disposition = MACH_MSG_TYPE_PORT_SEND;
msg.thread.type = MACH_MSG_PORT_DESCRIPTOR;
}
msg.header.msgh_size = sizeof(msg) - sizeof(msg.padding);
msg.header.msgh_remote_port = handler_port_;
msg.header.msgh_bits = MACH_MSGH_BITS(MACH_MSG_TYPE_COPY_SEND,
MACH_MSG_TYPE_MAKE_SEND_ONCE);
kern_return_t result = mach_msg(&(msg.header),
MACH_SEND_MSG | MACH_SEND_TIMEOUT,
msg.header.msgh_size, 0, 0,
MACH_MSG_TIMEOUT_NONE, MACH_PORT_NULL);
return result == KERN_SUCCESS;
}
void ExceptionHandler::UpdateNextID() {
next_minidump_path_ =
(MinidumpGenerator::UniqueNameInDirectory(dump_path_, &next_minidump_id_));
next_minidump_path_c_ = next_minidump_path_.c_str();
next_minidump_id_c_ = next_minidump_id_.c_str();
}
bool ExceptionHandler::SuspendThreads() {
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 false;
// suspend all of the threads except for this one
for (unsigned int i = 0; i < thread_count; ++i) {
if (threads_for_task[i] != mach_thread_self()) {
if (thread_suspend(threads_for_task[i]))
return false;
}
}
return true;
}
bool ExceptionHandler::ResumeThreads() {
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 false;
// resume all of the threads except for this one
for (unsigned int i = 0; i < thread_count; ++i) {
if (threads_for_task[i] != mach_thread_self()) {
if (thread_resume(threads_for_task[i]))
return false;
}
}
return true;
}
} // namespace google_breakpad
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