diff options
Diffstat (limited to 'toolkit/crashreporter/google-breakpad/src/client/linux/minidump_writer/minidump_writer.cc')
-rw-r--r-- | toolkit/crashreporter/google-breakpad/src/client/linux/minidump_writer/minidump_writer.cc | 1376 |
1 files changed, 0 insertions, 1376 deletions
diff --git a/toolkit/crashreporter/google-breakpad/src/client/linux/minidump_writer/minidump_writer.cc b/toolkit/crashreporter/google-breakpad/src/client/linux/minidump_writer/minidump_writer.cc deleted file mode 100644 index 4b1ae5ad3..000000000 --- a/toolkit/crashreporter/google-breakpad/src/client/linux/minidump_writer/minidump_writer.cc +++ /dev/null @@ -1,1376 +0,0 @@ -// Copyright (c) 2010, 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. - -// This code writes out minidump files: -// http://msdn.microsoft.com/en-us/library/ms680378(VS.85,loband).aspx -// -// Minidumps are a Microsoft format which Breakpad uses for recording crash -// dumps. This code has to run in a compromised environment (the address space -// may have received SIGSEGV), thus the following rules apply: -// * You may not enter the dynamic linker. This means that we cannot call -// any symbols in a shared library (inc libc). Because of this we replace -// libc functions in linux_libc_support.h. -// * You may not call syscalls via the libc wrappers. This rule is a subset -// of the first rule but it bears repeating. We have direct wrappers -// around the system calls in linux_syscall_support.h. -// * You may not malloc. There's an alternative allocator in memory.h and -// a canonical instance in the LinuxDumper object. We use the placement -// new form to allocate objects and we don't delete them. - -#include "client/linux/handler/minidump_descriptor.h" -#include "client/linux/minidump_writer/minidump_writer.h" -#include "client/minidump_file_writer-inl.h" - -#include <ctype.h> -#include <errno.h> -#include <fcntl.h> -#include <link.h> -#include <stdio.h> -#if defined(__ANDROID__) -#include <sys/system_properties.h> -#endif -#include <sys/types.h> -#include <sys/ucontext.h> -#include <sys/user.h> -#include <sys/utsname.h> -#include <time.h> -#include <unistd.h> - -#include <algorithm> - -#include "client/linux/dump_writer_common/thread_info.h" -#include "client/linux/dump_writer_common/ucontext_reader.h" -#include "client/linux/handler/exception_handler.h" -#include "client/linux/minidump_writer/cpu_set.h" -#include "client/linux/minidump_writer/line_reader.h" -#include "client/linux/minidump_writer/linux_dumper.h" -#include "client/linux/minidump_writer/linux_ptrace_dumper.h" -#include "client/linux/minidump_writer/proc_cpuinfo_reader.h" -#include "client/minidump_file_writer.h" -#include "common/linux/file_id.h" -#include "common/linux/linux_libc_support.h" -#include "common/minidump_type_helper.h" -#include "google_breakpad/common/minidump_format.h" -#include "third_party/lss/linux_syscall_support.h" - -namespace { - -using google_breakpad::AppMemoryList; -using google_breakpad::auto_wasteful_vector; -using google_breakpad::ExceptionHandler; -using google_breakpad::CpuSet; -using google_breakpad::kDefaultBuildIdSize; -using google_breakpad::LineReader; -using google_breakpad::LinuxDumper; -using google_breakpad::LinuxPtraceDumper; -using google_breakpad::MDTypeHelper; -using google_breakpad::MappingEntry; -using google_breakpad::MappingInfo; -using google_breakpad::MappingList; -using google_breakpad::MinidumpFileWriter; -using google_breakpad::PageAllocator; -using google_breakpad::ProcCpuInfoReader; -using google_breakpad::RawContextCPU; -using google_breakpad::ThreadInfo; -using google_breakpad::TypedMDRVA; -using google_breakpad::UContextReader; -using google_breakpad::UntypedMDRVA; -using google_breakpad::wasteful_vector; - -typedef MDTypeHelper<sizeof(void*)>::MDRawDebug MDRawDebug; -typedef MDTypeHelper<sizeof(void*)>::MDRawLinkMap MDRawLinkMap; - -class MinidumpWriter { - public: - // The following kLimit* constants are for when minidump_size_limit_ is set - // and the minidump size might exceed it. - // - // Estimate for how big each thread's stack will be (in bytes). - static const unsigned kLimitAverageThreadStackLength = 8 * 1024; - // Number of threads whose stack size we don't want to limit. These base - // threads will simply be the first N threads returned by the dumper (although - // the crashing thread will never be limited). Threads beyond this count are - // the extra threads. - static const unsigned kLimitBaseThreadCount = 20; - // Maximum stack size to dump for any extra thread (in bytes). - static const unsigned kLimitMaxExtraThreadStackLen = 2 * 1024; - // Make sure this number of additional bytes can fit in the minidump - // (exclude the stack data). - static const unsigned kLimitMinidumpFudgeFactor = 64 * 1024; - - MinidumpWriter(const char* minidump_path, - int minidump_fd, - const ExceptionHandler::CrashContext* context, - const MappingList& mappings, - const AppMemoryList& appmem, - LinuxDumper* dumper) - : fd_(minidump_fd), - path_(minidump_path), - ucontext_(context ? &context->context : NULL), -#if !defined(__ARM_EABI__) && !defined(__mips__) - float_state_(context ? &context->float_state : NULL), -#endif - dumper_(dumper), - minidump_size_limit_(-1), - memory_blocks_(dumper_->allocator()), - mapping_list_(mappings), - app_memory_list_(appmem) { - // Assert there should be either a valid fd or a valid path, not both. - assert(fd_ != -1 || minidump_path); - assert(fd_ == -1 || !minidump_path); - } - - bool Init() { - if (!dumper_->Init()) - return false; - - if (fd_ != -1) - minidump_writer_.SetFile(fd_); - else if (!minidump_writer_.Open(path_)) - return false; - - return dumper_->ThreadsSuspend() && dumper_->LateInit(); - } - - ~MinidumpWriter() { - // Don't close the file descriptor when it's been provided explicitly. - // Callers might still need to use it. - if (fd_ == -1) - minidump_writer_.Close(); - dumper_->ThreadsResume(); - } - - bool Dump() { - // A minidump file contains a number of tagged streams. This is the number - // of stream which we write. - unsigned kNumWriters = 13; - - TypedMDRVA<MDRawDirectory> dir(&minidump_writer_); - { - // Ensure the header gets flushed, as that happens in the destructor. - // If we crash somewhere below, we should have a mostly-intact dump - TypedMDRVA<MDRawHeader> header(&minidump_writer_); - if (!header.Allocate()) - return false; - - if (!dir.AllocateArray(kNumWriters)) - return false; - - my_memset(header.get(), 0, sizeof(MDRawHeader)); - - header.get()->signature = MD_HEADER_SIGNATURE; - header.get()->version = MD_HEADER_VERSION; - header.get()->time_date_stamp = time(NULL); - header.get()->stream_count = kNumWriters; - header.get()->stream_directory_rva = dir.position(); - } - - unsigned dir_index = 0; - MDRawDirectory dirent; - - if (!WriteThreadListStream(&dirent)) - return false; - dir.CopyIndex(dir_index++, &dirent); - - if (!WriteMappings(&dirent)) - return false; - dir.CopyIndex(dir_index++, &dirent); - - if (!WriteAppMemory()) - return false; - - if (!WriteMemoryListStream(&dirent)) - return false; - dir.CopyIndex(dir_index++, &dirent); - - if (!WriteExceptionStream(&dirent)) - return false; - dir.CopyIndex(dir_index++, &dirent); - - if (!WriteSystemInfoStream(&dirent)) - return false; - dir.CopyIndex(dir_index++, &dirent); - - dirent.stream_type = MD_LINUX_CPU_INFO; - if (!WriteFile(&dirent.location, "/proc/cpuinfo")) - NullifyDirectoryEntry(&dirent); - dir.CopyIndex(dir_index++, &dirent); - - dirent.stream_type = MD_LINUX_PROC_STATUS; - if (!WriteProcFile(&dirent.location, GetCrashThread(), "status")) - NullifyDirectoryEntry(&dirent); - dir.CopyIndex(dir_index++, &dirent); - - dirent.stream_type = MD_LINUX_LSB_RELEASE; - if (!WriteFile(&dirent.location, "/etc/lsb-release")) - NullifyDirectoryEntry(&dirent); - dir.CopyIndex(dir_index++, &dirent); - - dirent.stream_type = MD_LINUX_CMD_LINE; - if (!WriteProcFile(&dirent.location, GetCrashThread(), "cmdline")) - NullifyDirectoryEntry(&dirent); - dir.CopyIndex(dir_index++, &dirent); - - dirent.stream_type = MD_LINUX_ENVIRON; - if (!WriteProcFile(&dirent.location, GetCrashThread(), "environ")) - NullifyDirectoryEntry(&dirent); - dir.CopyIndex(dir_index++, &dirent); - - dirent.stream_type = MD_LINUX_AUXV; - if (!WriteProcFile(&dirent.location, GetCrashThread(), "auxv")) - NullifyDirectoryEntry(&dirent); - dir.CopyIndex(dir_index++, &dirent); - - dirent.stream_type = MD_LINUX_MAPS; - if (!WriteProcFile(&dirent.location, GetCrashThread(), "maps")) - NullifyDirectoryEntry(&dirent); - dir.CopyIndex(dir_index++, &dirent); - - dirent.stream_type = MD_LINUX_DSO_DEBUG; - if (!WriteDSODebugStream(&dirent)) - NullifyDirectoryEntry(&dirent); - dir.CopyIndex(dir_index++, &dirent); - - // If you add more directory entries, don't forget to update kNumWriters, - // above. - - dumper_->ThreadsResume(); - return true; - } - - bool FillThreadStack(MDRawThread* thread, uintptr_t stack_pointer, - int max_stack_len, uint8_t** stack_copy) { - *stack_copy = NULL; - const void* stack; - size_t stack_len; - if (dumper_->GetStackInfo(&stack, &stack_len, stack_pointer)) { - UntypedMDRVA memory(&minidump_writer_); - if (max_stack_len >= 0 && - stack_len > static_cast<unsigned int>(max_stack_len)) { - stack_len = max_stack_len; - // Skip empty chunks of length max_stack_len. - uintptr_t int_stack = reinterpret_cast<uintptr_t>(stack); - if (max_stack_len > 0) { - while (int_stack + max_stack_len < stack_pointer) { - int_stack += max_stack_len; - } - } - stack = reinterpret_cast<const void*>(int_stack); - } - if (!memory.Allocate(stack_len)) - return false; - *stack_copy = reinterpret_cast<uint8_t*>(Alloc(stack_len)); - dumper_->CopyFromProcess(*stack_copy, thread->thread_id, stack, - stack_len); - memory.Copy(*stack_copy, stack_len); - thread->stack.start_of_memory_range = - reinterpret_cast<uintptr_t>(stack); - thread->stack.memory = memory.location(); - memory_blocks_.push_back(thread->stack); - } else { - thread->stack.start_of_memory_range = stack_pointer; - thread->stack.memory.data_size = 0; - thread->stack.memory.rva = minidump_writer_.position(); - } - return true; - } - - // Write information about the threads. - bool WriteThreadListStream(MDRawDirectory* dirent) { - const unsigned num_threads = dumper_->threads().size(); - - TypedMDRVA<uint32_t> list(&minidump_writer_); - if (!list.AllocateObjectAndArray(num_threads, sizeof(MDRawThread))) - return false; - - dirent->stream_type = MD_THREAD_LIST_STREAM; - dirent->location = list.location(); - - *list.get() = num_threads; - - // If there's a minidump size limit, check if it might be exceeded. Since - // most of the space is filled with stack data, just check against that. - // If this expects to exceed the limit, set extra_thread_stack_len such - // that any thread beyond the first kLimitBaseThreadCount threads will - // have only kLimitMaxExtraThreadStackLen bytes dumped. - int extra_thread_stack_len = -1; // default to no maximum - if (minidump_size_limit_ >= 0) { - const unsigned estimated_total_stack_size = num_threads * - kLimitAverageThreadStackLength; - const off_t estimated_minidump_size = minidump_writer_.position() + - estimated_total_stack_size + kLimitMinidumpFudgeFactor; - if (estimated_minidump_size > minidump_size_limit_) - extra_thread_stack_len = kLimitMaxExtraThreadStackLen; - } - - for (unsigned i = 0; i < num_threads; ++i) { - MDRawThread thread; - my_memset(&thread, 0, sizeof(thread)); - thread.thread_id = dumper_->threads()[i]; - - // We have a different source of information for the crashing thread. If - // we used the actual state of the thread we would find it running in the - // signal handler with the alternative stack, which would be deeply - // unhelpful. - if (static_cast<pid_t>(thread.thread_id) == GetCrashThread() && - ucontext_ && - !dumper_->IsPostMortem()) { - uint8_t* stack_copy; - const uintptr_t stack_ptr = UContextReader::GetStackPointer(ucontext_); - if (!FillThreadStack(&thread, stack_ptr, -1, &stack_copy)) - return false; - - // Copy 256 bytes around crashing instruction pointer to minidump. - const size_t kIPMemorySize = 256; - uint64_t ip = UContextReader::GetInstructionPointer(ucontext_); - // Bound it to the upper and lower bounds of the memory map - // it's contained within. If it's not in mapped memory, - // don't bother trying to write it. - bool ip_is_mapped = false; - MDMemoryDescriptor ip_memory_d; - for (unsigned j = 0; j < dumper_->mappings().size(); ++j) { - const MappingInfo& mapping = *dumper_->mappings()[j]; - if (ip >= mapping.start_addr && - ip < mapping.start_addr + mapping.size) { - ip_is_mapped = true; - // Try to get 128 bytes before and after the IP, but - // settle for whatever's available. - ip_memory_d.start_of_memory_range = - std::max(mapping.start_addr, - uintptr_t(ip - (kIPMemorySize / 2))); - uintptr_t end_of_range = - std::min(uintptr_t(ip + (kIPMemorySize / 2)), - uintptr_t(mapping.start_addr + mapping.size)); - ip_memory_d.memory.data_size = - end_of_range - ip_memory_d.start_of_memory_range; - break; - } - } - - if (ip_is_mapped) { - UntypedMDRVA ip_memory(&minidump_writer_); - if (!ip_memory.Allocate(ip_memory_d.memory.data_size)) - return false; - uint8_t* memory_copy = - reinterpret_cast<uint8_t*>(Alloc(ip_memory_d.memory.data_size)); - dumper_->CopyFromProcess( - memory_copy, - thread.thread_id, - reinterpret_cast<void*>(ip_memory_d.start_of_memory_range), - ip_memory_d.memory.data_size); - ip_memory.Copy(memory_copy, ip_memory_d.memory.data_size); - ip_memory_d.memory = ip_memory.location(); - memory_blocks_.push_back(ip_memory_d); - } - - TypedMDRVA<RawContextCPU> cpu(&minidump_writer_); - if (!cpu.Allocate()) - return false; - my_memset(cpu.get(), 0, sizeof(RawContextCPU)); -#if !defined(__ARM_EABI__) && !defined(__mips__) - UContextReader::FillCPUContext(cpu.get(), ucontext_, float_state_); -#else - UContextReader::FillCPUContext(cpu.get(), ucontext_); -#endif - thread.thread_context = cpu.location(); - crashing_thread_context_ = cpu.location(); - } else { - ThreadInfo info; - if (!dumper_->GetThreadInfoByIndex(i, &info)) - return false; - - uint8_t* stack_copy; - int max_stack_len = -1; // default to no maximum for this thread - if (minidump_size_limit_ >= 0 && i >= kLimitBaseThreadCount) - max_stack_len = extra_thread_stack_len; - if (!FillThreadStack(&thread, info.stack_pointer, max_stack_len, - &stack_copy)) - return false; - - TypedMDRVA<RawContextCPU> cpu(&minidump_writer_); - if (!cpu.Allocate()) - return false; - my_memset(cpu.get(), 0, sizeof(RawContextCPU)); - info.FillCPUContext(cpu.get()); - thread.thread_context = cpu.location(); - if (dumper_->threads()[i] == GetCrashThread()) { - crashing_thread_context_ = cpu.location(); - if (!dumper_->IsPostMortem()) { - // This is the crashing thread of a live process, but - // no context was provided, so set the crash address - // while the instruction pointer is already here. - dumper_->set_crash_address(info.GetInstructionPointer()); - } - } - } - - list.CopyIndexAfterObject(i, &thread, sizeof(thread)); - } - - return true; - } - - // Write application-provided memory regions. - bool WriteAppMemory() { - for (AppMemoryList::const_iterator iter = app_memory_list_.begin(); - iter != app_memory_list_.end(); - ++iter) { - uint8_t* data_copy = - reinterpret_cast<uint8_t*>(dumper_->allocator()->Alloc(iter->length)); - dumper_->CopyFromProcess(data_copy, GetCrashThread(), iter->ptr, - iter->length); - - UntypedMDRVA memory(&minidump_writer_); - if (!memory.Allocate(iter->length)) { - return false; - } - memory.Copy(data_copy, iter->length); - MDMemoryDescriptor desc; - desc.start_of_memory_range = reinterpret_cast<uintptr_t>(iter->ptr); - desc.memory = memory.location(); - memory_blocks_.push_back(desc); - } - - return true; - } - - static bool ShouldIncludeMapping(const MappingInfo& mapping) { - if (mapping.name[0] == 0 || // only want modules with filenames. - // Only want to include one mapping per shared lib. - // Avoid filtering executable mappings. - (mapping.offset != 0 && !mapping.exec) || - mapping.size < 4096) { // too small to get a signature for. - return false; - } - - return true; - } - - // If there is caller-provided information about this mapping - // in the mapping_list_ list, return true. Otherwise, return false. - bool HaveMappingInfo(const MappingInfo& mapping) { - for (MappingList::const_iterator iter = mapping_list_.begin(); - iter != mapping_list_.end(); - ++iter) { - // Ignore any mappings that are wholly contained within - // mappings in the mapping_info_ list. - if (mapping.start_addr >= iter->first.start_addr && - (mapping.start_addr + mapping.size) <= - (iter->first.start_addr + iter->first.size)) { - return true; - } - } - return false; - } - - // Write information about the mappings in effect. Because we are using the - // minidump format, the information about the mappings is pretty limited. - // Because of this, we also include the full, unparsed, /proc/$x/maps file in - // another stream in the file. - bool WriteMappings(MDRawDirectory* dirent) { - const unsigned num_mappings = dumper_->mappings().size(); - unsigned num_output_mappings = mapping_list_.size(); - - for (unsigned i = 0; i < dumper_->mappings().size(); ++i) { - const MappingInfo& mapping = *dumper_->mappings()[i]; - if (ShouldIncludeMapping(mapping) && !HaveMappingInfo(mapping)) - num_output_mappings++; - } - - TypedMDRVA<uint32_t> list(&minidump_writer_); - if (num_output_mappings) { - if (!list.AllocateObjectAndArray(num_output_mappings, MD_MODULE_SIZE)) - return false; - } else { - // Still create the module list stream, although it will have zero - // modules. - if (!list.Allocate()) - return false; - } - - dirent->stream_type = MD_MODULE_LIST_STREAM; - dirent->location = list.location(); - *list.get() = num_output_mappings; - - // First write all the mappings from the dumper - unsigned int j = 0; - for (unsigned i = 0; i < num_mappings; ++i) { - const MappingInfo& mapping = *dumper_->mappings()[i]; - if (!ShouldIncludeMapping(mapping) || HaveMappingInfo(mapping)) - continue; - - MDRawModule mod; - if (!FillRawModule(mapping, true, i, &mod, NULL)) - return false; - list.CopyIndexAfterObject(j++, &mod, MD_MODULE_SIZE); - } - // Next write all the mappings provided by the caller - for (MappingList::const_iterator iter = mapping_list_.begin(); - iter != mapping_list_.end(); - ++iter) { - MDRawModule mod; - if (!FillRawModule(iter->first, false, 0, &mod, iter->second)) - return false; - list.CopyIndexAfterObject(j++, &mod, MD_MODULE_SIZE); - } - - return true; - } - - // Fill the MDRawModule |mod| with information about the provided - // |mapping|. If |identifier| is non-NULL, use it instead of calculating - // a file ID from the mapping. - bool FillRawModule(const MappingInfo& mapping, - bool member, - unsigned int mapping_id, - MDRawModule* mod, - const uint8_t* identifier) { - my_memset(mod, 0, MD_MODULE_SIZE); - - mod->base_of_image = mapping.start_addr; - mod->size_of_image = mapping.size; - - auto_wasteful_vector<uint8_t, kDefaultBuildIdSize> identifier_bytes( - dumper_->allocator()); - - if (identifier) { - // GUID was provided by caller. - identifier_bytes.insert(identifier_bytes.end(), - identifier, - identifier + sizeof(MDGUID)); - } else { - // Note: ElfFileIdentifierForMapping() can manipulate the |mapping.name|. - dumper_->ElfFileIdentifierForMapping(mapping, - member, - mapping_id, - identifier_bytes); - } - - if (!identifier_bytes.empty()) { - UntypedMDRVA cv(&minidump_writer_); - if (!cv.Allocate(MDCVInfoELF_minsize + identifier_bytes.size())) - return false; - - const uint32_t cv_signature = MD_CVINFOELF_SIGNATURE; - cv.Copy(&cv_signature, sizeof(cv_signature)); - cv.Copy(cv.position() + sizeof(cv_signature), &identifier_bytes[0], - identifier_bytes.size()); - - mod->cv_record = cv.location(); - } - - char file_name[NAME_MAX]; - char file_path[NAME_MAX]; - dumper_->GetMappingEffectiveNameAndPath( - mapping, file_path, sizeof(file_path), file_name, sizeof(file_name)); - - MDLocationDescriptor ld; - if (!minidump_writer_.WriteString(file_path, my_strlen(file_path), &ld)) - return false; - mod->module_name_rva = ld.rva; - return true; - } - - bool WriteMemoryListStream(MDRawDirectory* dirent) { - TypedMDRVA<uint32_t> list(&minidump_writer_); - if (memory_blocks_.size()) { - if (!list.AllocateObjectAndArray(memory_blocks_.size(), - sizeof(MDMemoryDescriptor))) - return false; - } else { - // Still create the memory list stream, although it will have zero - // memory blocks. - if (!list.Allocate()) - return false; - } - - dirent->stream_type = MD_MEMORY_LIST_STREAM; - dirent->location = list.location(); - - *list.get() = memory_blocks_.size(); - - for (size_t i = 0; i < memory_blocks_.size(); ++i) { - list.CopyIndexAfterObject(i, &memory_blocks_[i], - sizeof(MDMemoryDescriptor)); - } - return true; - } - - bool WriteExceptionStream(MDRawDirectory* dirent) { - TypedMDRVA<MDRawExceptionStream> exc(&minidump_writer_); - if (!exc.Allocate()) - return false; - my_memset(exc.get(), 0, sizeof(MDRawExceptionStream)); - - dirent->stream_type = MD_EXCEPTION_STREAM; - dirent->location = exc.location(); - - exc.get()->thread_id = GetCrashThread(); - exc.get()->exception_record.exception_code = dumper_->crash_signal(); - exc.get()->exception_record.exception_address = dumper_->crash_address(); - exc.get()->thread_context = crashing_thread_context_; - - return true; - } - - bool WriteSystemInfoStream(MDRawDirectory* dirent) { - TypedMDRVA<MDRawSystemInfo> si(&minidump_writer_); - if (!si.Allocate()) - return false; - my_memset(si.get(), 0, sizeof(MDRawSystemInfo)); - - dirent->stream_type = MD_SYSTEM_INFO_STREAM; - dirent->location = si.location(); - - WriteCPUInformation(si.get()); - WriteOSInformation(si.get()); - - return true; - } - - bool WriteDSODebugStream(MDRawDirectory* dirent) { - ElfW(Phdr)* phdr = reinterpret_cast<ElfW(Phdr) *>(dumper_->auxv()[AT_PHDR]); - char* base; - int phnum = dumper_->auxv()[AT_PHNUM]; - if (!phnum || !phdr) - return false; - - // Assume the program base is at the beginning of the same page as the PHDR - base = reinterpret_cast<char *>(reinterpret_cast<uintptr_t>(phdr) & ~0xfff); - - // Search for the program PT_DYNAMIC segment - ElfW(Addr) dyn_addr = 0; - for (; phnum >= 0; phnum--, phdr++) { - ElfW(Phdr) ph; - if (!dumper_->CopyFromProcess(&ph, GetCrashThread(), phdr, sizeof(ph))) - return false; - - // Adjust base address with the virtual address of the PT_LOAD segment - // corresponding to offset 0 - if (ph.p_type == PT_LOAD && ph.p_offset == 0) { - base -= ph.p_vaddr; - } - if (ph.p_type == PT_DYNAMIC) { - dyn_addr = ph.p_vaddr; - } - } - if (!dyn_addr) - return false; - - ElfW(Dyn) *dynamic = reinterpret_cast<ElfW(Dyn) *>(dyn_addr + base); - - // The dynamic linker makes information available that helps gdb find all - // DSOs loaded into the program. If this information is indeed available, - // dump it to a MD_LINUX_DSO_DEBUG stream. - struct r_debug* r_debug = NULL; - uint32_t dynamic_length = 0; - - for (int i = 0; ; ++i) { - ElfW(Dyn) dyn; - dynamic_length += sizeof(dyn); - if (!dumper_->CopyFromProcess(&dyn, GetCrashThread(), dynamic + i, - sizeof(dyn))) { - return false; - } - -#ifdef __mips__ - const int32_t debug_tag = DT_MIPS_RLD_MAP; -#else - const int32_t debug_tag = DT_DEBUG; -#endif - if (dyn.d_tag == debug_tag) { - r_debug = reinterpret_cast<struct r_debug*>(dyn.d_un.d_ptr); - continue; - } else if (dyn.d_tag == DT_NULL) { - break; - } - } - - // The "r_map" field of that r_debug struct contains a linked list of all - // loaded DSOs. - // Our list of DSOs potentially is different from the ones in the crashing - // process. So, we have to be careful to never dereference pointers - // directly. Instead, we use CopyFromProcess() everywhere. - // See <link.h> for a more detailed discussion of the how the dynamic - // loader communicates with debuggers. - - // Count the number of loaded DSOs - int dso_count = 0; - struct r_debug debug_entry; - if (!dumper_->CopyFromProcess(&debug_entry, GetCrashThread(), r_debug, - sizeof(debug_entry))) { - return false; - } - for (struct link_map* ptr = debug_entry.r_map; ptr; ) { - struct link_map map; - if (!dumper_->CopyFromProcess(&map, GetCrashThread(), ptr, sizeof(map))) - return false; - - ptr = map.l_next; - dso_count++; - } - - MDRVA linkmap_rva = minidump_writer_.kInvalidMDRVA; - if (dso_count > 0) { - // If we have at least one DSO, create an array of MDRawLinkMap - // entries in the minidump file. - TypedMDRVA<MDRawLinkMap> linkmap(&minidump_writer_); - if (!linkmap.AllocateArray(dso_count)) - return false; - linkmap_rva = linkmap.location().rva; - int idx = 0; - - // Iterate over DSOs and write their information to mini dump - for (struct link_map* ptr = debug_entry.r_map; ptr; ) { - struct link_map map; - if (!dumper_->CopyFromProcess(&map, GetCrashThread(), ptr, sizeof(map))) - return false; - - ptr = map.l_next; - char filename[257] = { 0 }; - if (map.l_name) { - dumper_->CopyFromProcess(filename, GetCrashThread(), map.l_name, - sizeof(filename) - 1); - } - MDLocationDescriptor location; - if (!minidump_writer_.WriteString(filename, 0, &location)) - return false; - MDRawLinkMap entry; - entry.name = location.rva; - entry.addr = map.l_addr; - entry.ld = reinterpret_cast<uintptr_t>(map.l_ld); - linkmap.CopyIndex(idx++, &entry); - } - } - - // Write MD_LINUX_DSO_DEBUG record - TypedMDRVA<MDRawDebug> debug(&minidump_writer_); - if (!debug.AllocateObjectAndArray(1, dynamic_length)) - return false; - my_memset(debug.get(), 0, sizeof(MDRawDebug)); - dirent->stream_type = MD_LINUX_DSO_DEBUG; - dirent->location = debug.location(); - - debug.get()->version = debug_entry.r_version; - debug.get()->map = linkmap_rva; - debug.get()->dso_count = dso_count; - debug.get()->brk = debug_entry.r_brk; - debug.get()->ldbase = debug_entry.r_ldbase; - debug.get()->dynamic = reinterpret_cast<uintptr_t>(dynamic); - - wasteful_vector<char> dso_debug_data(dumper_->allocator(), dynamic_length); - // The passed-in size to the constructor (above) is only a hint. - // Must call .resize() to do actual initialization of the elements. - dso_debug_data.resize(dynamic_length); - dumper_->CopyFromProcess(&dso_debug_data[0], GetCrashThread(), dynamic, - dynamic_length); - debug.CopyIndexAfterObject(0, &dso_debug_data[0], dynamic_length); - - return true; - } - - void set_minidump_size_limit(off_t limit) { minidump_size_limit_ = limit; } - - private: - void* Alloc(unsigned bytes) { - return dumper_->allocator()->Alloc(bytes); - } - - pid_t GetCrashThread() const { - return dumper_->crash_thread(); - } - - void NullifyDirectoryEntry(MDRawDirectory* dirent) { - dirent->stream_type = 0; - dirent->location.data_size = 0; - dirent->location.rva = 0; - } - -#if defined(__i386__) || defined(__x86_64__) || defined(__mips__) - bool WriteCPUInformation(MDRawSystemInfo* sys_info) { - char vendor_id[sizeof(sys_info->cpu.x86_cpu_info.vendor_id) + 1] = {0}; - static const char vendor_id_name[] = "vendor_id"; - - struct CpuInfoEntry { - const char* info_name; - int value; - bool found; - } cpu_info_table[] = { - { "processor", -1, false }, -#if defined(__i386__) || defined(__x86_64__) - { "model", 0, false }, - { "stepping", 0, false }, - { "cpu family", 0, false }, -#endif - }; - - // processor_architecture should always be set, do this first - sys_info->processor_architecture = -#if defined(__mips__) -# if _MIPS_SIM == _ABIO32 - MD_CPU_ARCHITECTURE_MIPS; -# elif _MIPS_SIM == _ABI64 - MD_CPU_ARCHITECTURE_MIPS64; -# else -# error "This mips ABI is currently not supported (n32)" -#endif -#elif defined(__i386__) - MD_CPU_ARCHITECTURE_X86; -#else - MD_CPU_ARCHITECTURE_AMD64; -#endif - - const int fd = sys_open("/proc/cpuinfo", O_RDONLY, 0); - if (fd < 0) - return false; - - { - PageAllocator allocator; - ProcCpuInfoReader* const reader = new(allocator) ProcCpuInfoReader(fd); - const char* field; - while (reader->GetNextField(&field)) { - bool is_first_entry = true; - for (CpuInfoEntry& entry : cpu_info_table) { - if (!is_first_entry && entry.found) { - // except for the 'processor' field, ignore repeated values. - continue; - } - is_first_entry = false; - if (!my_strcmp(field, entry.info_name)) { - size_t value_len; - const char* value = reader->GetValueAndLen(&value_len); - if (value_len == 0) - continue; - - uintptr_t val; - if (my_read_decimal_ptr(&val, value) == value) - continue; - - entry.value = static_cast<int>(val); - entry.found = true; - } - } - - // special case for vendor_id - if (!my_strcmp(field, vendor_id_name)) { - size_t value_len; - const char* value = reader->GetValueAndLen(&value_len); - if (value_len > 0) - my_strlcpy(vendor_id, value, sizeof(vendor_id)); - } - } - sys_close(fd); - } - - // make sure we got everything we wanted - for (const CpuInfoEntry& entry : cpu_info_table) { - if (!entry.found) { - return false; - } - } - // cpu_info_table[0] holds the last cpu id listed in /proc/cpuinfo, - // assuming this is the highest id, change it to the number of CPUs - // by adding one. - cpu_info_table[0].value++; - - sys_info->number_of_processors = cpu_info_table[0].value; -#if defined(__i386__) || defined(__x86_64__) - sys_info->processor_level = cpu_info_table[3].value; - sys_info->processor_revision = cpu_info_table[1].value << 8 | - cpu_info_table[2].value; -#endif - - if (vendor_id[0] != '\0') { - my_memcpy(sys_info->cpu.x86_cpu_info.vendor_id, vendor_id, - sizeof(sys_info->cpu.x86_cpu_info.vendor_id)); - } - return true; - } -#elif defined(__arm__) || defined(__aarch64__) - bool WriteCPUInformation(MDRawSystemInfo* sys_info) { - // The CPUID value is broken up in several entries in /proc/cpuinfo. - // This table is used to rebuild it from the entries. - const struct CpuIdEntry { - const char* field; - char format; - char bit_lshift; - char bit_length; - } cpu_id_entries[] = { - { "CPU implementer", 'x', 24, 8 }, - { "CPU variant", 'x', 20, 4 }, - { "CPU part", 'x', 4, 12 }, - { "CPU revision", 'd', 0, 4 }, - }; - - // The ELF hwcaps are listed in the "Features" entry as textual tags. - // This table is used to rebuild them. - const struct CpuFeaturesEntry { - const char* tag; - uint32_t hwcaps; - } cpu_features_entries[] = { -#if defined(__arm__) - { "swp", MD_CPU_ARM_ELF_HWCAP_SWP }, - { "half", MD_CPU_ARM_ELF_HWCAP_HALF }, - { "thumb", MD_CPU_ARM_ELF_HWCAP_THUMB }, - { "26bit", MD_CPU_ARM_ELF_HWCAP_26BIT }, - { "fastmult", MD_CPU_ARM_ELF_HWCAP_FAST_MULT }, - { "fpa", MD_CPU_ARM_ELF_HWCAP_FPA }, - { "vfp", MD_CPU_ARM_ELF_HWCAP_VFP }, - { "edsp", MD_CPU_ARM_ELF_HWCAP_EDSP }, - { "java", MD_CPU_ARM_ELF_HWCAP_JAVA }, - { "iwmmxt", MD_CPU_ARM_ELF_HWCAP_IWMMXT }, - { "crunch", MD_CPU_ARM_ELF_HWCAP_CRUNCH }, - { "thumbee", MD_CPU_ARM_ELF_HWCAP_THUMBEE }, - { "neon", MD_CPU_ARM_ELF_HWCAP_NEON }, - { "vfpv3", MD_CPU_ARM_ELF_HWCAP_VFPv3 }, - { "vfpv3d16", MD_CPU_ARM_ELF_HWCAP_VFPv3D16 }, - { "tls", MD_CPU_ARM_ELF_HWCAP_TLS }, - { "vfpv4", MD_CPU_ARM_ELF_HWCAP_VFPv4 }, - { "idiva", MD_CPU_ARM_ELF_HWCAP_IDIVA }, - { "idivt", MD_CPU_ARM_ELF_HWCAP_IDIVT }, - { "idiv", MD_CPU_ARM_ELF_HWCAP_IDIVA | MD_CPU_ARM_ELF_HWCAP_IDIVT }, -#elif defined(__aarch64__) - // No hwcaps on aarch64. -#endif - }; - - // processor_architecture should always be set, do this first - sys_info->processor_architecture = -#if defined(__aarch64__) - MD_CPU_ARCHITECTURE_ARM64; -#else - MD_CPU_ARCHITECTURE_ARM; -#endif - - // /proc/cpuinfo is not readable under various sandboxed environments - // (e.g. Android services with the android:isolatedProcess attribute) - // prepare for this by setting default values now, which will be - // returned when this happens. - // - // Note: Bogus values are used to distinguish between failures (to - // read /sys and /proc files) and really badly configured kernels. - sys_info->number_of_processors = 0; - sys_info->processor_level = 1U; // There is no ARMv1 - sys_info->processor_revision = 42; - sys_info->cpu.arm_cpu_info.cpuid = 0; - sys_info->cpu.arm_cpu_info.elf_hwcaps = 0; - - // Counting the number of CPUs involves parsing two sysfs files, - // because the content of /proc/cpuinfo will only mirror the number - // of 'online' cores, and thus will vary with time. - // See http://www.kernel.org/doc/Documentation/cputopology.txt - { - CpuSet cpus_present; - CpuSet cpus_possible; - - int fd = sys_open("/sys/devices/system/cpu/present", O_RDONLY, 0); - if (fd >= 0) { - cpus_present.ParseSysFile(fd); - sys_close(fd); - - fd = sys_open("/sys/devices/system/cpu/possible", O_RDONLY, 0); - if (fd >= 0) { - cpus_possible.ParseSysFile(fd); - sys_close(fd); - - cpus_present.IntersectWith(cpus_possible); - int cpu_count = cpus_present.GetCount(); - if (cpu_count > 255) - cpu_count = 255; - sys_info->number_of_processors = static_cast<uint8_t>(cpu_count); - } - } - } - - // Parse /proc/cpuinfo to reconstruct the CPUID value, as well - // as the ELF hwcaps field. For the latter, it would be easier to - // read /proc/self/auxv but unfortunately, this file is not always - // readable from regular Android applications on later versions - // (>= 4.1) of the Android platform. - const int fd = sys_open("/proc/cpuinfo", O_RDONLY, 0); - if (fd < 0) { - // Do not return false here to allow the minidump generation - // to happen properly. - return true; - } - - { - PageAllocator allocator; - ProcCpuInfoReader* const reader = - new(allocator) ProcCpuInfoReader(fd); - const char* field; - while (reader->GetNextField(&field)) { - for (const CpuIdEntry& entry : cpu_id_entries) { - if (my_strcmp(entry.field, field) != 0) - continue; - uintptr_t result = 0; - const char* value = reader->GetValue(); - const char* p = value; - if (value[0] == '0' && value[1] == 'x') { - p = my_read_hex_ptr(&result, value+2); - } else if (entry.format == 'x') { - p = my_read_hex_ptr(&result, value); - } else { - p = my_read_decimal_ptr(&result, value); - } - if (p == value) - continue; - - result &= (1U << entry.bit_length)-1; - result <<= entry.bit_lshift; - sys_info->cpu.arm_cpu_info.cpuid |= - static_cast<uint32_t>(result); - } -#if defined(__arm__) - // Get the architecture version from the "Processor" field. - // Note that it is also available in the "CPU architecture" field, - // however, some existing kernels are misconfigured and will report - // invalid values here (e.g. 6, while the CPU is ARMv7-A based). - // The "Processor" field doesn't have this issue. - if (!my_strcmp(field, "Processor")) { - size_t value_len; - const char* value = reader->GetValueAndLen(&value_len); - // Expected format: <text> (v<level><endian>) - // Where <text> is some text like "ARMv7 Processor rev 2" - // and <level> is a decimal corresponding to the ARM - // architecture number. <endian> is either 'l' or 'b' - // and corresponds to the endianess, it is ignored here. - while (value_len > 0 && my_isspace(value[value_len-1])) - value_len--; - - size_t nn = value_len; - while (nn > 0 && value[nn-1] != '(') - nn--; - if (nn > 0 && value[nn] == 'v') { - uintptr_t arch_level = 5; - my_read_decimal_ptr(&arch_level, value + nn + 1); - sys_info->processor_level = static_cast<uint16_t>(arch_level); - } - } -#elif defined(__aarch64__) - // The aarch64 architecture does not provide the architecture level - // in the Processor field, so we instead check the "CPU architecture" - // field. - if (!my_strcmp(field, "CPU architecture")) { - uintptr_t arch_level = 0; - const char* value = reader->GetValue(); - const char* p = value; - p = my_read_decimal_ptr(&arch_level, value); - if (p == value) - continue; - sys_info->processor_level = static_cast<uint16_t>(arch_level); - } -#endif - // Rebuild the ELF hwcaps from the 'Features' field. - if (!my_strcmp(field, "Features")) { - size_t value_len; - const char* value = reader->GetValueAndLen(&value_len); - - // Parse each space-separated tag. - while (value_len > 0) { - const char* tag = value; - size_t tag_len = value_len; - const char* p = my_strchr(tag, ' '); - if (p) { - tag_len = static_cast<size_t>(p - tag); - value += tag_len + 1; - value_len -= tag_len + 1; - } else { - tag_len = strlen(tag); - value_len = 0; - } - for (const CpuFeaturesEntry& entry : cpu_features_entries) { - if (tag_len == strlen(entry.tag) && - !memcmp(tag, entry.tag, tag_len)) { - sys_info->cpu.arm_cpu_info.elf_hwcaps |= entry.hwcaps; - break; - } - } - } - } - } - sys_close(fd); - } - - return true; - } -#else -# error "Unsupported CPU" -#endif - - bool WriteFile(MDLocationDescriptor* result, const char* filename) { - const int fd = sys_open(filename, O_RDONLY, 0); - if (fd < 0) - return false; - - // We can't stat the files because several of the files that we want to - // read are kernel seqfiles, which always have a length of zero. So we have - // to read as much as we can into a buffer. - static const unsigned kBufSize = 1024 - 2*sizeof(void*); - struct Buffers { - Buffers* next; - size_t len; - uint8_t data[kBufSize]; - } *buffers = reinterpret_cast<Buffers*>(Alloc(sizeof(Buffers))); - buffers->next = NULL; - buffers->len = 0; - - size_t total = 0; - for (Buffers* bufptr = buffers;;) { - ssize_t r; - do { - r = sys_read(fd, &bufptr->data[bufptr->len], kBufSize - bufptr->len); - } while (r == -1 && errno == EINTR); - - if (r < 1) - break; - - total += r; - bufptr->len += r; - if (bufptr->len == kBufSize) { - bufptr->next = reinterpret_cast<Buffers*>(Alloc(sizeof(Buffers))); - bufptr = bufptr->next; - bufptr->next = NULL; - bufptr->len = 0; - } - } - sys_close(fd); - - if (!total) - return false; - - UntypedMDRVA memory(&minidump_writer_); - if (!memory.Allocate(total)) - return false; - for (MDRVA pos = memory.position(); buffers; buffers = buffers->next) { - // Check for special case of a zero-length buffer. This should only - // occur if a file's size happens to be a multiple of the buffer's - // size, in which case the final sys_read() will have resulted in - // zero bytes being read after the final buffer was just allocated. - if (buffers->len == 0) { - // This can only occur with final buffer. - assert(buffers->next == NULL); - continue; - } - memory.Copy(pos, &buffers->data, buffers->len); - pos += buffers->len; - } - *result = memory.location(); - return true; - } - - bool WriteOSInformation(MDRawSystemInfo* sys_info) { -#if defined(__ANDROID__) - sys_info->platform_id = MD_OS_ANDROID; -#else - sys_info->platform_id = MD_OS_LINUX; -#endif - - struct utsname uts; - if (uname(&uts)) - return false; - - static const size_t buf_len = 512; - char buf[buf_len] = {0}; - size_t space_left = buf_len - 1; - const char* info_table[] = { - uts.sysname, - uts.release, - uts.version, - uts.machine, - NULL - }; - bool first_item = true; - for (const char** cur_info = info_table; *cur_info; cur_info++) { - static const char separator[] = " "; - size_t separator_len = sizeof(separator) - 1; - size_t info_len = my_strlen(*cur_info); - if (info_len == 0) - continue; - - if (space_left < info_len + (first_item ? 0 : separator_len)) - break; - - if (!first_item) { - my_strlcat(buf, separator, sizeof(buf)); - space_left -= separator_len; - } - - first_item = false; - my_strlcat(buf, *cur_info, sizeof(buf)); - space_left -= info_len; - } - - MDLocationDescriptor location; - if (!minidump_writer_.WriteString(buf, 0, &location)) - return false; - sys_info->csd_version_rva = location.rva; - - return true; - } - - bool WriteProcFile(MDLocationDescriptor* result, pid_t pid, - const char* filename) { - char buf[NAME_MAX]; - if (!dumper_->BuildProcPath(buf, pid, filename)) - return false; - return WriteFile(result, buf); - } - - // Only one of the 2 member variables below should be set to a valid value. - const int fd_; // File descriptor where the minidum should be written. - const char* path_; // Path to the file where the minidum should be written. - - const ucontext_t* const ucontext_; // also from the signal handler -#if !defined(__ARM_EABI__) && !defined(__mips__) - const google_breakpad::fpstate_t* const float_state_; // ditto -#endif - LinuxDumper* dumper_; - MinidumpFileWriter minidump_writer_; - off_t minidump_size_limit_; - MDLocationDescriptor crashing_thread_context_; - // Blocks of memory written to the dump. These are all currently - // written while writing the thread list stream, but saved here - // so a memory list stream can be written afterwards. - wasteful_vector<MDMemoryDescriptor> memory_blocks_; - // Additional information about some mappings provided by the caller. - const MappingList& mapping_list_; - // Additional memory regions to be included in the dump, - // provided by the caller. - const AppMemoryList& app_memory_list_; -}; - - -bool WriteMinidumpImpl(const char* minidump_path, - int minidump_fd, - off_t minidump_size_limit, - pid_t crashing_process, - const void* blob, size_t blob_size, - const MappingList& mappings, - const AppMemoryList& appmem) { - LinuxPtraceDumper dumper(crashing_process); - const ExceptionHandler::CrashContext* context = NULL; - if (blob) { - if (blob_size != sizeof(ExceptionHandler::CrashContext)) - return false; - context = reinterpret_cast<const ExceptionHandler::CrashContext*>(blob); - dumper.set_crash_address( - reinterpret_cast<uintptr_t>(context->siginfo.si_addr)); - dumper.set_crash_signal(context->siginfo.si_signo); - dumper.set_crash_thread(context->tid); - } - MinidumpWriter writer(minidump_path, minidump_fd, context, mappings, - appmem, &dumper); - // Set desired limit for file size of minidump (-1 means no limit). - writer.set_minidump_size_limit(minidump_size_limit); - if (!writer.Init()) - return false; - return writer.Dump(); -} - -} // namespace - -namespace google_breakpad { - -bool WriteMinidump(const char* minidump_path, pid_t crashing_process, - const void* blob, size_t blob_size) { - return WriteMinidumpImpl(minidump_path, -1, -1, - crashing_process, blob, blob_size, - MappingList(), AppMemoryList()); -} - -bool WriteMinidump(int minidump_fd, pid_t crashing_process, - const void* blob, size_t blob_size) { - return WriteMinidumpImpl(NULL, minidump_fd, -1, - crashing_process, blob, blob_size, - MappingList(), AppMemoryList()); -} - -bool WriteMinidump(const char* minidump_path, pid_t process, - pid_t process_blamed_thread) { - LinuxPtraceDumper dumper(process); - // MinidumpWriter will set crash address - dumper.set_crash_signal(MD_EXCEPTION_CODE_LIN_DUMP_REQUESTED); - dumper.set_crash_thread(process_blamed_thread); - MinidumpWriter writer(minidump_path, -1, NULL, MappingList(), - AppMemoryList(), &dumper); - if (!writer.Init()) - return false; - return writer.Dump(); -} - -bool WriteMinidump(const char* minidump_path, pid_t crashing_process, - const void* blob, size_t blob_size, - const MappingList& mappings, - const AppMemoryList& appmem) { - return WriteMinidumpImpl(minidump_path, -1, -1, crashing_process, - blob, blob_size, - mappings, appmem); -} - -bool WriteMinidump(int minidump_fd, pid_t crashing_process, - const void* blob, size_t blob_size, - const MappingList& mappings, - const AppMemoryList& appmem) { - return WriteMinidumpImpl(NULL, minidump_fd, -1, crashing_process, - blob, blob_size, - mappings, appmem); -} - -bool WriteMinidump(const char* minidump_path, off_t minidump_size_limit, - pid_t crashing_process, - const void* blob, size_t blob_size, - const MappingList& mappings, - const AppMemoryList& appmem) { - return WriteMinidumpImpl(minidump_path, -1, minidump_size_limit, - crashing_process, blob, blob_size, - mappings, appmem); -} - -bool WriteMinidump(int minidump_fd, off_t minidump_size_limit, - pid_t crashing_process, - const void* blob, size_t blob_size, - const MappingList& mappings, - const AppMemoryList& appmem) { - return WriteMinidumpImpl(NULL, minidump_fd, minidump_size_limit, - crashing_process, blob, blob_size, - mappings, appmem); -} - -bool WriteMinidump(const char* filename, - const MappingList& mappings, - const AppMemoryList& appmem, - LinuxDumper* dumper) { - MinidumpWriter writer(filename, -1, NULL, mappings, appmem, dumper); - if (!writer.Init()) - return false; - return writer.Dump(); -} - -} // namespace google_breakpad |