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nest-open-source / nest-cam / v350 / breakpad / 8dd758f5d498750a4e00d0bfc1a17ecc7713801e / . / src / client / mac / Framework / Breakpad.mm
blob: 1a46b5977c188656b04320a3e057fef2c6a6d371 [file] [log] [blame]
// 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.
//
#define IGNORE_DEBUGGER "BREAKPAD_IGNORE_DEBUGGER"
#import "client/mac/Framework/Breakpad.h"
#include <assert.h>
#import <Foundation/Foundation.h>
#include <pthread.h>
#include <sys/stat.h>
#include <sys/sysctl.h>
#import "client/mac/crash_generation/Inspector.h"
#import "client/mac/handler/exception_handler.h"
#import "client/mac/Framework/Breakpad.h"
#import "client/mac/Framework/OnDemandServer.h"
#import "client/mac/handler/protected_memory_allocator.h"
#include "common/mac/launch_reporter.h"
#import "common/mac/MachIPC.h"
#import "common/simple_string_dictionary.h"
#if !defined(__EXCEPTIONS) || (__clang__ && !__has_feature(cxx_exceptions))
// This file uses C++ try/catch (but shouldn't). Duplicate the macros from
// <c++/4.2.1/exception_defines.h> allowing this file to work properly with
// exceptions disabled even when other C++ libraries are used. #undef the try
// and catch macros first in case libstdc++ is in use and has already provided
// its own definitions.
#undef try
#define try if (true)
#undef catch
#define catch(X) if (false)
#endif // __EXCEPTIONS
using google_breakpad::MachPortSender;
using google_breakpad::MachReceiveMessage;
using google_breakpad::MachSendMessage;
using google_breakpad::ReceivePort;
using google_breakpad::SimpleStringDictionary;
//=============================================================================
// We want any memory allocations which are used by breakpad during the
// exception handling process (after a crash has happened) to be read-only
// to prevent them from being smashed before a crash occurs. Unfortunately
// we cannot protect against smashes to our exception handling thread's
// stack.
//
// NOTE: Any memory allocations which are not used during the exception
// handling process may be allocated in the normal ways.
//
// The ProtectedMemoryAllocator class provides an Allocate() method which
// we'll using in conjunction with placement operator new() to control
// allocation of C++ objects. Note that we don't use operator delete()
// but instead call the objects destructor directly: object->~ClassName();
//
ProtectedMemoryAllocator* gMasterAllocator = NULL;
ProtectedMemoryAllocator* gKeyValueAllocator = NULL;
ProtectedMemoryAllocator* gBreakpadAllocator = NULL;
// Mutex for thread-safe access to the key/value dictionary used by breakpad.
// It's a global instead of an instance variable of Breakpad
// since it can't live in a protected memory area.
pthread_mutex_t gDictionaryMutex;
//=============================================================================
// Stack-based object for thread-safe access to a memory-protected region.
// It's assumed that normally the memory block (allocated by the allocator)
// is protected (read-only). Creating a stack-based instance of
// ProtectedMemoryLocker will unprotect this block after taking the lock.
// Its destructor will first re-protect the memory then release the lock.
class ProtectedMemoryLocker {
public:
ProtectedMemoryLocker(pthread_mutex_t* mutex,
ProtectedMemoryAllocator* allocator)
: mutex_(mutex),
allocator_(allocator) {
// Lock the mutex
__attribute__((unused)) int rv = pthread_mutex_lock(mutex_);
assert(rv == 0);
// Unprotect the memory
allocator_->Unprotect();
}
~ProtectedMemoryLocker() {
// First protect the memory
allocator_->Protect();
// Then unlock the mutex
__attribute__((unused)) int rv = pthread_mutex_unlock(mutex_);
assert(rv == 0);
}
private:
ProtectedMemoryLocker();
ProtectedMemoryLocker(const ProtectedMemoryLocker&);
ProtectedMemoryLocker& operator=(const ProtectedMemoryLocker&);
pthread_mutex_t* mutex_;
ProtectedMemoryAllocator* allocator_;
};
//=============================================================================
class Breakpad {
public:
// factory method
static Breakpad* Create(NSDictionary* parameters) {
// Allocate from our special allocation pool
Breakpad* breakpad =
new (gBreakpadAllocator->Allocate(sizeof(Breakpad)))
Breakpad();
if (!breakpad)
return NULL;
if (!breakpad->Initialize(parameters)) {
// Don't use operator delete() here since we allocated from special pool
breakpad->~Breakpad();
return NULL;
}
return breakpad;
}
~Breakpad();
void SetKeyValue(NSString* key, NSString* value);
NSString* KeyValue(NSString* key);
void RemoveKeyValue(NSString* key);
void GenerateAndSendReport();
void SetFilterCallback(BreakpadFilterCallback callback, void* context) {
filter_callback_ = callback;
filter_callback_context_ = context;
}
private:
Breakpad()
: handler_(NULL),
config_params_(NULL),
send_and_exit_(true),
filter_callback_(NULL),
filter_callback_context_(NULL) {
inspector_path_[0] = 0;
}
bool Initialize(NSDictionary* parameters);
bool InitializeInProcess(NSDictionary* parameters);
bool InitializeOutOfProcess(NSDictionary* parameters);
bool ExtractParameters(NSDictionary* parameters);
// Dispatches to HandleException()
static bool ExceptionHandlerDirectCallback(void* context,
int exception_type,
int exception_code,
int exception_subcode,
mach_port_t crashing_thread);
bool HandleException(int exception_type,
int exception_code,
int exception_subcode,
mach_port_t crashing_thread);
// Dispatches to HandleMinidump().
// This gets called instead of ExceptionHandlerDirectCallback when running
// with the BREAKPAD_IN_PROCESS option.
static bool HandleMinidumpCallback(const char* dump_dir,
const char* minidump_id,
void* context,
bool succeeded);
// This is only used when BREAKPAD_IN_PROCESS is YES.
bool HandleMinidump(const char* dump_dir, const char* minidump_id);
// Since ExceptionHandler (w/o namespace) is defined as typedef in OSX's
// MachineExceptions.h, we have to explicitly name the handler.
google_breakpad::ExceptionHandler* handler_; // The actual handler (STRONG)
char inspector_path_[PATH_MAX]; // Path to inspector tool
SimpleStringDictionary* config_params_; // Create parameters (STRONG)
OnDemandServer inspector_;
bool send_and_exit_; // Exit after sending, if true
BreakpadFilterCallback filter_callback_;
void* filter_callback_context_;
};
#pragma mark -
#pragma mark Helper functions
//=============================================================================
// Helper functions
//=============================================================================
static BOOL IsDebuggerActive() {
BOOL result = NO;
NSUserDefaults* stdDefaults = [NSUserDefaults standardUserDefaults];
// We check both defaults and the environment variable here
BOOL ignoreDebugger = [stdDefaults boolForKey:@IGNORE_DEBUGGER];
if (!ignoreDebugger) {
char* ignoreDebuggerStr = getenv(IGNORE_DEBUGGER);
ignoreDebugger = (ignoreDebuggerStr ? strtol(ignoreDebuggerStr, NULL, 10) : 0) != 0;
}
if (!ignoreDebugger) {
pid_t pid = getpid();
int mib[4] = {CTL_KERN, KERN_PROC, KERN_PROC_PID, pid};
int mibSize = sizeof(mib) / sizeof(int);
size_t actualSize;
if (sysctl(mib, mibSize, NULL, &actualSize, NULL, 0) == 0) {
struct kinfo_proc* info = (struct kinfo_proc*)malloc(actualSize);
if (info) {
// This comes from looking at the Darwin xnu Kernel
if (sysctl(mib, mibSize, info, &actualSize, NULL, 0) == 0)
result = (info->kp_proc.p_flag & P_TRACED) ? YES : NO;
free(info);
}
}
}
return result;
}
//=============================================================================
bool Breakpad::ExceptionHandlerDirectCallback(void* context,
int exception_type,
int exception_code,
int exception_subcode,
mach_port_t crashing_thread) {
Breakpad* breakpad = (Breakpad*)context;
// If our context is damaged or something, just return false to indicate that
// the handler should continue without us.
if (!breakpad)
return false;
return breakpad->HandleException( exception_type,
exception_code,
exception_subcode,
crashing_thread);
}
//=============================================================================
bool Breakpad::HandleMinidumpCallback(const char* dump_dir,
const char* minidump_id,
void* context,
bool succeeded) {
Breakpad* breakpad = (Breakpad*)context;
// If our context is damaged or something, just return false to indicate that
// the handler should continue without us.
if (!breakpad || !succeeded)
return false;
return breakpad->HandleMinidump(dump_dir, minidump_id);
}
//=============================================================================
#pragma mark -
#include <dlfcn.h>
//=============================================================================
// Returns the pathname to the Resources directory for this version of
// Breakpad which we are now running.
//
// Don't make the function static, since _dyld_lookup_and_bind_fully needs a
// simple non-static C name
//
extern "C" {
NSString* GetResourcePath();
NSString* GetResourcePath() {
NSString* resourcePath = nil;
// If there are multiple breakpads installed then calling bundleWithIdentifier
// will not work properly, so only use that as a backup plan.
// We want to find the bundle containing the code where this function lives
// and work from there
//
// Get the pathname to the code which contains this function
Dl_info info;
if (dladdr((const void*)GetResourcePath, &info) != 0) {
NSFileManager* filemgr = [NSFileManager defaultManager];
NSString* filePath =
[filemgr stringWithFileSystemRepresentation:info.dli_fname
length:strlen(info.dli_fname)];
NSString* bundlePath = [filePath stringByDeletingLastPathComponent];
// The "Resources" directory should be in the same directory as the
// executable code, since that's how the Breakpad framework is built.
resourcePath = [bundlePath stringByAppendingPathComponent:@"Resources/"];
} else {
// fallback plan
NSBundle* bundle =
[NSBundle bundleWithIdentifier:@"com.Google.BreakpadFramework"];
resourcePath = [bundle resourcePath];
}
return resourcePath;
}
} // extern "C"
//=============================================================================
bool Breakpad::Initialize(NSDictionary* parameters) {
// Initialize
config_params_ = NULL;
handler_ = NULL;
// Check for debugger
if (IsDebuggerActive()) {
return true;
}
// Gather any user specified parameters
if (!ExtractParameters(parameters)) {
return false;
}
if ([[parameters objectForKey:@BREAKPAD_IN_PROCESS] boolValue])
return InitializeInProcess(parameters);
else
return InitializeOutOfProcess(parameters);
}
//=============================================================================
bool Breakpad::InitializeInProcess(NSDictionary* parameters) {
handler_ =
new (gBreakpadAllocator->Allocate(
sizeof(google_breakpad::ExceptionHandler)))
google_breakpad::ExceptionHandler(
config_params_->GetValueForKey(BREAKPAD_DUMP_DIRECTORY),
0, &HandleMinidumpCallback, this, true, 0);
return true;
}
//=============================================================================
bool Breakpad::InitializeOutOfProcess(NSDictionary* parameters) {
// Get path to Inspector executable.
NSString* inspectorPathString = KeyValue(@BREAKPAD_INSPECTOR_LOCATION);
// Standardize path (resolve symlinkes, etc.) and escape spaces
inspectorPathString = [inspectorPathString stringByStandardizingPath];
inspectorPathString = [[inspectorPathString componentsSeparatedByString:@" "]
componentsJoinedByString:@"\\ "];
// Create an on-demand server object representing the Inspector.
// In case of a crash, we simply need to call the LaunchOnDemand()
// method on it, then send a mach message to its service port.
// It will then launch and perform a process inspection of our crashed state.
// See the HandleException() method for the details.
#define RECEIVE_PORT_NAME "com.Breakpad.Inspector"
name_t portName;
snprintf(portName, sizeof(name_t), "%s%d", RECEIVE_PORT_NAME, getpid());
// Save the location of the Inspector
strlcpy(inspector_path_, [inspectorPathString fileSystemRepresentation],
sizeof(inspector_path_));
// Append a single command-line argument to the Inspector path
// representing the bootstrap name of the launch-on-demand receive port.
// When the Inspector is launched, it can use this to lookup the port
// by calling bootstrap_check_in().
strlcat(inspector_path_, " ", sizeof(inspector_path_));
strlcat(inspector_path_, portName, sizeof(inspector_path_));
kern_return_t kr = inspector_.Initialize(inspector_path_,
portName,
true); // shutdown on exit
if (kr != KERN_SUCCESS) {
return false;
}
// Create the handler (allocating it in our special protected pool)
handler_ =
new (gBreakpadAllocator->Allocate(
sizeof(google_breakpad::ExceptionHandler)))
google_breakpad::ExceptionHandler(
Breakpad::ExceptionHandlerDirectCallback, this, true);
return true;
}
//=============================================================================
Breakpad::~Breakpad() {
// Note that we don't use operator delete() on these pointers,
// since they were allocated by ProtectedMemoryAllocator objects.
//
if (config_params_) {
config_params_->~SimpleStringDictionary();
}
if (handler_)
handler_->~ExceptionHandler();
}
//=============================================================================
bool Breakpad::ExtractParameters(NSDictionary* parameters) {
NSUserDefaults* stdDefaults = [NSUserDefaults standardUserDefaults];
NSString* skipConfirm = [stdDefaults stringForKey:@BREAKPAD_SKIP_CONFIRM];
NSString* sendAndExit = [stdDefaults stringForKey:@BREAKPAD_SEND_AND_EXIT];
NSString* serverType = [parameters objectForKey:@BREAKPAD_SERVER_TYPE];
NSString* display = [parameters objectForKey:@BREAKPAD_PRODUCT_DISPLAY];
NSString* product = [parameters objectForKey:@BREAKPAD_PRODUCT];
NSString* version = [parameters objectForKey:@BREAKPAD_VERSION];
NSString* urlStr = [parameters objectForKey:@BREAKPAD_URL];
NSString* interval = [parameters objectForKey:@BREAKPAD_REPORT_INTERVAL];
NSString* inspectorPathString =
[parameters objectForKey:@BREAKPAD_INSPECTOR_LOCATION];
NSString* reporterPathString =
[parameters objectForKey:@BREAKPAD_REPORTER_EXE_LOCATION];
NSString* timeout = [parameters objectForKey:@BREAKPAD_CONFIRM_TIMEOUT];
NSArray* logFilePaths = [parameters objectForKey:@BREAKPAD_LOGFILES];
NSString* logFileTailSize =
[parameters objectForKey:@BREAKPAD_LOGFILE_UPLOAD_SIZE];
NSString* requestUserText =
[parameters objectForKey:@BREAKPAD_REQUEST_COMMENTS];
NSString* requestEmail = [parameters objectForKey:@BREAKPAD_REQUEST_EMAIL];
NSString* vendor =
[parameters objectForKey:@BREAKPAD_VENDOR];
NSString* dumpSubdirectory =
[parameters objectForKey:@BREAKPAD_DUMP_DIRECTORY];
NSDictionary* serverParameters =
[parameters objectForKey:@BREAKPAD_SERVER_PARAMETER_DICT];
// These may have been set above as user prefs, which take priority.
if (!skipConfirm) {
skipConfirm = [parameters objectForKey:@BREAKPAD_SKIP_CONFIRM];
}
if (!sendAndExit) {
sendAndExit = [parameters objectForKey:@BREAKPAD_SEND_AND_EXIT];
}
if (!product)
product = [parameters objectForKey:@"CFBundleName"];
if (!display) {
display = [parameters objectForKey:@"CFBundleDisplayName"];
if (!display) {
display = product;
}
}
if (!version)
version = [parameters objectForKey:@"CFBundleVersion"];
if (!interval)
interval = @"3600";
if (!timeout)
timeout = @"300";
if (!logFileTailSize)
logFileTailSize = @"200000";
if (!vendor) {
vendor = @"Vendor not specified";
}
// Normalize the values.
if (skipConfirm) {
skipConfirm = [skipConfirm uppercaseString];
if ([skipConfirm isEqualToString:@"YES"] ||
[skipConfirm isEqualToString:@"TRUE"] ||
[skipConfirm isEqualToString:@"1"])
skipConfirm = @"YES";
else
skipConfirm = @"NO";
} else {
skipConfirm = @"NO";
}
send_and_exit_ = true;
if (sendAndExit) {
sendAndExit = [sendAndExit uppercaseString];
if ([sendAndExit isEqualToString:@"NO"] ||
[sendAndExit isEqualToString:@"FALSE"] ||
[sendAndExit isEqualToString:@"0"])
send_and_exit_ = false;
}
if (requestUserText) {
requestUserText = [requestUserText uppercaseString];
if ([requestUserText isEqualToString:@"YES"] ||
[requestUserText isEqualToString:@"TRUE"] ||
[requestUserText isEqualToString:@"1"])
requestUserText = @"YES";
else
requestUserText = @"NO";
} else {
requestUserText = @"NO";
}
// Find the helper applications if not specified in user config.
NSString* resourcePath = nil;
if (!inspectorPathString || !reporterPathString) {
resourcePath = GetResourcePath();
if (!resourcePath) {
return false;
}
}
// Find Inspector.
if (!inspectorPathString) {
inspectorPathString =
[resourcePath stringByAppendingPathComponent:@"Inspector"];
}
// Verify that there is an Inspector tool.
if (![[NSFileManager defaultManager] fileExistsAtPath:inspectorPathString]) {
return false;
}
// Find Reporter.
if (!reporterPathString) {
reporterPathString =
[resourcePath
stringByAppendingPathComponent:@"crash_report_sender.app"];
reporterPathString =
[[NSBundle bundleWithPath:reporterPathString] executablePath];
}
// Verify that there is a Reporter application.
if (![[NSFileManager defaultManager]
fileExistsAtPath:reporterPathString]) {
return false;
}
if (!dumpSubdirectory) {
dumpSubdirectory = @"";
}
// The product, version, and URL are required values.
if (![product length]) {
return false;
}
if (![version length]) {
return false;
}
if (![urlStr length]) {
return false;
}
config_params_ =
new (gKeyValueAllocator->Allocate(sizeof(SimpleStringDictionary)) )
SimpleStringDictionary();
SimpleStringDictionary& dictionary = *config_params_;
dictionary.SetKeyValue(BREAKPAD_SERVER_TYPE, [serverType UTF8String]);
dictionary.SetKeyValue(BREAKPAD_PRODUCT_DISPLAY, [display UTF8String]);
dictionary.SetKeyValue(BREAKPAD_PRODUCT, [product UTF8String]);
dictionary.SetKeyValue(BREAKPAD_VERSION, [version UTF8String]);
dictionary.SetKeyValue(BREAKPAD_URL, [urlStr UTF8String]);
dictionary.SetKeyValue(BREAKPAD_REPORT_INTERVAL, [interval UTF8String]);
dictionary.SetKeyValue(BREAKPAD_SKIP_CONFIRM, [skipConfirm UTF8String]);
dictionary.SetKeyValue(BREAKPAD_CONFIRM_TIMEOUT, [timeout UTF8String]);
dictionary.SetKeyValue(BREAKPAD_INSPECTOR_LOCATION,
[inspectorPathString fileSystemRepresentation]);
dictionary.SetKeyValue(BREAKPAD_REPORTER_EXE_LOCATION,
[reporterPathString fileSystemRepresentation]);
dictionary.SetKeyValue(BREAKPAD_LOGFILE_UPLOAD_SIZE,
[logFileTailSize UTF8String]);
dictionary.SetKeyValue(BREAKPAD_REQUEST_COMMENTS,
[requestUserText UTF8String]);
dictionary.SetKeyValue(BREAKPAD_REQUEST_EMAIL, [requestEmail UTF8String]);
dictionary.SetKeyValue(BREAKPAD_VENDOR, [vendor UTF8String]);
dictionary.SetKeyValue(BREAKPAD_DUMP_DIRECTORY,
[dumpSubdirectory UTF8String]);
struct timeval tv;
gettimeofday(&tv, NULL);
char timeStartedString[32];
sprintf(timeStartedString, "%zd", tv.tv_sec);
dictionary.SetKeyValue(BREAKPAD_PROCESS_START_TIME,
timeStartedString);
if (logFilePaths) {
char logFileKey[255];
for(unsigned int i = 0; i < [logFilePaths count]; i++) {
sprintf(logFileKey,"%s%d", BREAKPAD_LOGFILE_KEY_PREFIX, i);
dictionary.SetKeyValue(logFileKey,
[[logFilePaths objectAtIndex:i]
fileSystemRepresentation]);
}
}
if (serverParameters) {
// For each key-value pair, call BreakpadAddUploadParameter()
NSEnumerator* keyEnumerator = [serverParameters keyEnumerator];
NSString* aParameter;
while ((aParameter = [keyEnumerator nextObject])) {
BreakpadAddUploadParameter(this, aParameter,
[serverParameters objectForKey:aParameter]);
}
}
return true;
}
//=============================================================================
void Breakpad::SetKeyValue(NSString* key, NSString* value) {
// We allow nil values. This is the same as removing the keyvalue.
if (!config_params_ || !key)
return;
config_params_->SetKeyValue([key UTF8String], [value UTF8String]);
}
//=============================================================================
NSString* Breakpad::KeyValue(NSString* key) {
if (!config_params_ || !key)
return nil;
const char* value = config_params_->GetValueForKey([key UTF8String]);
return value ? [NSString stringWithUTF8String:value] : nil;
}
//=============================================================================
void Breakpad::RemoveKeyValue(NSString* key) {
if (!config_params_ || !key) return;
config_params_->RemoveKey([key UTF8String]);
}
//=============================================================================
void Breakpad::GenerateAndSendReport() {
config_params_->SetKeyValue(BREAKPAD_ON_DEMAND, "YES");
HandleException(0, 0, 0, mach_thread_self());
config_params_->SetKeyValue(BREAKPAD_ON_DEMAND, "NO");
}
//=============================================================================
bool Breakpad::HandleException(int exception_type,
int exception_code,
int exception_subcode,
mach_port_t crashing_thread) {
if (filter_callback_) {
bool should_handle = filter_callback_(exception_type,
exception_code,
crashing_thread,
filter_callback_context_);
if (!should_handle) return false;
}
// We need to reset the memory protections to be read/write,
// since LaunchOnDemand() requires changing state.
gBreakpadAllocator->Unprotect();
// Configure the server to launch when we message the service port.
// The reason we do this here, rather than at startup, is that we
// can leak a bootstrap service entry if this method is called and
// there never ends up being a crash.
inspector_.LaunchOnDemand();
gBreakpadAllocator->Protect();
// The Inspector should send a message to this port to verify it
// received our information and has finished the inspection.
ReceivePort acknowledge_port;
// Send initial information to the Inspector.
MachSendMessage message(kMsgType_InspectorInitialInfo);
message.AddDescriptor(mach_task_self()); // our task
message.AddDescriptor(crashing_thread); // crashing thread
message.AddDescriptor(mach_thread_self()); // exception-handling thread
message.AddDescriptor(acknowledge_port.GetPort());// message receive port
InspectorInfo info;
info.exception_type = exception_type;
info.exception_code = exception_code;
info.exception_subcode = exception_subcode;
info.parameter_count = config_params_->GetCount();
message.SetData(&info, sizeof(info));
MachPortSender sender(inspector_.GetServicePort());
kern_return_t result = sender.SendMessage(message, 2000);
if (result == KERN_SUCCESS) {
// Now, send a series of key-value pairs to the Inspector.
const SimpleStringDictionary::Entry* entry = NULL;
SimpleStringDictionary::Iterator iter(*config_params_);
while ( (entry = iter.Next()) ) {
KeyValueMessageData keyvalue_data(*entry);
MachSendMessage keyvalue_message(kMsgType_InspectorKeyValuePair);
keyvalue_message.SetData(&keyvalue_data, sizeof(keyvalue_data));
result = sender.SendMessage(keyvalue_message, 2000);
if (result != KERN_SUCCESS) {
break;
}
}
if (result == KERN_SUCCESS) {
// Wait for acknowledgement that the inspection has finished.
MachReceiveMessage acknowledge_messsage;
result = acknowledge_port.WaitForMessage(&acknowledge_messsage, 5000);
}
}
#if VERBOSE
PRINT_MACH_RESULT(result, "Breakpad: SendMessage ");
printf("Breakpad: Inspector service port = %#x\n",
inspector_.GetServicePort());
#endif
// If we don't want any forwarding, return true here to indicate that we've
// processed things as much as we want.
if (send_and_exit_) return true;
return false;
}
//=============================================================================
bool Breakpad::HandleMinidump(const char* dump_dir, const char* minidump_id) {
google_breakpad::ConfigFile config_file;
config_file.WriteFile(dump_dir, config_params_, dump_dir, minidump_id);
google_breakpad::LaunchReporter(
config_params_->GetValueForKey(BREAKPAD_REPORTER_EXE_LOCATION),
config_file.GetFilePath());
return true;
}
//=============================================================================
//=============================================================================
#pragma mark -
#pragma mark Public API
//=============================================================================
BreakpadRef BreakpadCreate(NSDictionary* parameters) {
try {
// This is confusing. Our two main allocators for breakpad memory are:
// - gKeyValueAllocator for the key/value memory
// - gBreakpadAllocator for the Breakpad, ExceptionHandler, and other
// breakpad allocations which are accessed at exception handling time.
//
// But in order to avoid these two allocators themselves from being smashed,
// we'll protect them as well by allocating them with gMasterAllocator.
//
// gMasterAllocator itself will NOT be protected, but this doesn't matter,
// since once it does its allocations and locks the memory, smashes to itself
// don't affect anything we care about.
gMasterAllocator =
new ProtectedMemoryAllocator(sizeof(ProtectedMemoryAllocator) * 2);
gKeyValueAllocator =
new (gMasterAllocator->Allocate(sizeof(ProtectedMemoryAllocator)))
ProtectedMemoryAllocator(sizeof(SimpleStringDictionary));
// Create a mutex for use in accessing the SimpleStringDictionary
int mutexResult = pthread_mutex_init(&gDictionaryMutex, NULL);
if (mutexResult == 0) {
// With the current compiler, gBreakpadAllocator is allocating 1444 bytes.
// Let's round up to the nearest page size.
//
int breakpad_pool_size = 4096;
/*
sizeof(Breakpad)
+ sizeof(google_breakpad::ExceptionHandler)
+ sizeof( STUFF ALLOCATED INSIDE ExceptionHandler )
*/
gBreakpadAllocator =
new (gMasterAllocator->Allocate(sizeof(ProtectedMemoryAllocator)))
ProtectedMemoryAllocator(breakpad_pool_size);
// Stack-based autorelease pool for Breakpad::Create() obj-c code.
NSAutoreleasePool* pool = [[NSAutoreleasePool alloc] init];
Breakpad* breakpad = Breakpad::Create(parameters);
if (breakpad) {
// Make read-only to protect against memory smashers
gMasterAllocator->Protect();
gKeyValueAllocator->Protect();
gBreakpadAllocator->Protect();
// Can uncomment this line to figure out how much space was actually
// allocated using this allocator
// printf("gBreakpadAllocator allocated size = %d\n",
// gBreakpadAllocator->GetAllocatedSize() );
[pool release];
return (BreakpadRef)breakpad;
}
[pool release];
}
} catch(...) { // don't let exceptions leave this C API
fprintf(stderr, "BreakpadCreate() : error\n");
}
if (gKeyValueAllocator) {
gKeyValueAllocator->~ProtectedMemoryAllocator();
gKeyValueAllocator = NULL;
}
if (gBreakpadAllocator) {
gBreakpadAllocator->~ProtectedMemoryAllocator();
gBreakpadAllocator = NULL;
}
delete gMasterAllocator;
gMasterAllocator = NULL;
return NULL;
}
//=============================================================================
void BreakpadRelease(BreakpadRef ref) {
try {
Breakpad* breakpad = (Breakpad*)ref;
if (gMasterAllocator) {
gMasterAllocator->Unprotect();
gKeyValueAllocator->Unprotect();
gBreakpadAllocator->Unprotect();
breakpad->~Breakpad();
// Unfortunately, it's not possible to deallocate this stuff
// because the exception handling thread is still finishing up
// asynchronously at this point... OK, it could be done with
// locks, etc. But since BreakpadRelease() should usually only
// be called right before the process exits, it's not worth
// deallocating this stuff.
#if 0
gKeyValueAllocator->~ProtectedMemoryAllocator();
gBreakpadAllocator->~ProtectedMemoryAllocator();
delete gMasterAllocator;
gMasterAllocator = NULL;
gKeyValueAllocator = NULL;
gBreakpadAllocator = NULL;
#endif
pthread_mutex_destroy(&gDictionaryMutex);
}
} catch(...) { // don't let exceptions leave this C API
fprintf(stderr, "BreakpadRelease() : error\n");
}
}
//=============================================================================
void BreakpadSetKeyValue(BreakpadRef ref, NSString* key, NSString* value) {
try {
// Not called at exception time
Breakpad* breakpad = (Breakpad*)ref;
if (breakpad && key && gKeyValueAllocator) {
ProtectedMemoryLocker locker(&gDictionaryMutex, gKeyValueAllocator);
breakpad->SetKeyValue(key, value);
}
} catch(...) { // don't let exceptions leave this C API
fprintf(stderr, "BreakpadSetKeyValue() : error\n");
}
}
void BreakpadAddUploadParameter(BreakpadRef ref,
NSString* key,
NSString* value) {
// The only difference, internally, between an upload parameter and
// a key value one that is set with BreakpadSetKeyValue is that we
// prepend the keyname with a special prefix. This informs the
// crash sender that the parameter should be sent along with the
// POST of the crash dump upload.
try {
Breakpad* breakpad = (Breakpad*)ref;
if (breakpad && key && gKeyValueAllocator) {
ProtectedMemoryLocker locker(&gDictionaryMutex, gKeyValueAllocator);
NSString* prefixedKey = [@BREAKPAD_SERVER_PARAMETER_PREFIX
stringByAppendingString:key];
breakpad->SetKeyValue(prefixedKey, value);
}
} catch(...) { // don't let exceptions leave this C API
fprintf(stderr, "BreakpadSetKeyValue() : error\n");
}
}
void BreakpadRemoveUploadParameter(BreakpadRef ref,
NSString* key) {
try {
// Not called at exception time
Breakpad* breakpad = (Breakpad*)ref;
if (breakpad && key && gKeyValueAllocator) {
ProtectedMemoryLocker locker(&gDictionaryMutex, gKeyValueAllocator);
NSString* prefixedKey = [NSString stringWithFormat:@"%@%@",
@BREAKPAD_SERVER_PARAMETER_PREFIX, key];
breakpad->RemoveKeyValue(prefixedKey);
}
} catch(...) { // don't let exceptions leave this C API
fprintf(stderr, "BreakpadRemoveKeyValue() : error\n");
}
}
//=============================================================================
NSString* BreakpadKeyValue(BreakpadRef ref, NSString* key) {
NSString* value = nil;
try {
// Not called at exception time
Breakpad* breakpad = (Breakpad*)ref;
if (!breakpad || !key || !gKeyValueAllocator)
return nil;
ProtectedMemoryLocker locker(&gDictionaryMutex, gKeyValueAllocator);
value = breakpad->KeyValue(key);
} catch(...) { // don't let exceptions leave this C API
fprintf(stderr, "BreakpadKeyValue() : error\n");
}
return value;
}
//=============================================================================
void BreakpadRemoveKeyValue(BreakpadRef ref, NSString* key) {
try {
// Not called at exception time
Breakpad* breakpad = (Breakpad*)ref;
if (breakpad && key && gKeyValueAllocator) {
ProtectedMemoryLocker locker(&gDictionaryMutex, gKeyValueAllocator);
breakpad->RemoveKeyValue(key);
}
} catch(...) { // don't let exceptions leave this C API
fprintf(stderr, "BreakpadRemoveKeyValue() : error\n");
}
}
//=============================================================================
void BreakpadGenerateAndSendReport(BreakpadRef ref) {
try {
Breakpad* breakpad = (Breakpad*)ref;
if (breakpad && gKeyValueAllocator) {
ProtectedMemoryLocker locker(&gDictionaryMutex, gKeyValueAllocator);
gBreakpadAllocator->Unprotect();
breakpad->GenerateAndSendReport();
gBreakpadAllocator->Protect();
}
} catch(...) { // don't let exceptions leave this C API
fprintf(stderr, "BreakpadGenerateAndSendReport() : error\n");
}
}
//=============================================================================
void BreakpadSetFilterCallback(BreakpadRef ref,
BreakpadFilterCallback callback,
void* context) {
try {
Breakpad* breakpad = (Breakpad*)ref;
if (breakpad && gBreakpadAllocator) {
// share the dictionary mutex here (we really don't need a mutex)
ProtectedMemoryLocker locker(&gDictionaryMutex, gBreakpadAllocator);
breakpad->SetFilterCallback(callback, context);
}
} catch(...) { // don't let exceptions leave this C API
fprintf(stderr, "BreakpadSetFilterCallback() : error\n");
}
}
//============================================================================
void BreakpadAddLogFile(BreakpadRef ref, NSString* logPathname) {
int logFileCounter = 0;
NSString* logFileKey = [NSString stringWithFormat:@"%@%d",
@BREAKPAD_LOGFILE_KEY_PREFIX,
logFileCounter];
NSString* existingLogFilename = nil;
existingLogFilename = BreakpadKeyValue(ref, logFileKey);
// Find the first log file key that we can use by testing for existence
while (existingLogFilename) {
if ([existingLogFilename isEqualToString:logPathname]) {
return;
}
logFileCounter++;
logFileKey = [NSString stringWithFormat:@"%@%d",
@BREAKPAD_LOGFILE_KEY_PREFIX,
logFileCounter];
existingLogFilename = BreakpadKeyValue(ref, logFileKey);
}
BreakpadSetKeyValue(ref, logFileKey, logPathname);
}