diff options
Diffstat (limited to 'src/client/linux/minidump_writer/minidump_writer.cc')
| -rw-r--r-- | src/client/linux/minidump_writer/minidump_writer.cc | 872 |
1 files changed, 872 insertions, 0 deletions
diff --git a/src/client/linux/minidump_writer/minidump_writer.cc b/src/client/linux/minidump_writer/minidump_writer.cc new file mode 100644 index 00000000..a99309f3 --- /dev/null +++ b/src/client/linux/minidump_writer/minidump_writer.cc @@ -0,0 +1,872 @@ +// Copyright (c) 2009, 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/minidump_writer/minidump_writer.h" +#include "client/minidump_file_writer-inl.h" + +#include <errno.h> +#include <fcntl.h> +#include <stdio.h> +#include <unistd.h> +#include <sys/ucontext.h> +#include <sys/user.h> +#include <sys/utsname.h> + +#include "client/minidump_file_writer.h" +#include "google_breakpad/common/minidump_format.h" +#include "google_breakpad/common/minidump_cpu_amd64.h" +#include "google_breakpad/common/minidump_cpu_x86.h" + +#include "client/linux/handler/exception_handler.h" +#include "client/linux/minidump_writer/line_reader.h" +#include "client/linux/minidump_writer//linux_dumper.h" +#include "common/linux/linux_libc_support.h" +#include "common/linux/linux_syscall_support.h" + +// These are additional minidump stream values which are specific to the linux +// breakpad implementation. +enum { + MD_LINUX_CPU_INFO = 0x47670003, /* /proc/cpuinfo */ + MD_LINUX_PROC_STATUS = 0x47670004, /* /proc/$x/status */ + MD_LINUX_LSB_RELEASE = 0x47670005, /* /etc/lsb-release */ + MD_LINUX_CMD_LINE = 0x47670006, /* /proc/$x/cmdline */ + MD_LINUX_ENVIRON = 0x47670007, /* /proc/$x/environ */ + MD_LINUX_AUXV = 0x47670008, /* /proc/$x/auxv */ +}; + +// Minidump defines register structures which are different from the raw +// structures which we get from the kernel. These are platform specific +// functions to juggle the ucontext and user structures into minidump format. +#if defined(__i386) +typedef MDRawContextX86 RawContextCPU; + +// Write a uint16_t to memory +// out: memory location to write to +// v: value to write. +static void U16(void* out, uint16_t v) { + memcpy(out, &v, sizeof(v)); +} + +// Write a uint32_t to memory +// out: memory location to write to +// v: value to write. +static void U32(void* out, uint32_t v) { + memcpy(out, &v, sizeof(v)); +} + +// Juggle an x86 user_(fp|fpx|)regs_struct into minidump format +// out: the minidump structure +// info: the collection of register structures. +static void CPUFillFromThreadInfo(MDRawContextX86 *out, + const google_breakpad::ThreadInfo &info) { + out->context_flags = MD_CONTEXT_X86_ALL; + + out->dr0 = info.dregs[0]; + out->dr1 = info.dregs[1]; + out->dr2 = info.dregs[2]; + out->dr3 = info.dregs[3]; + // 4 and 5 deliberatly omitted because they aren't included in the minidump + // format. + out->dr6 = info.dregs[6]; + out->dr7 = info.dregs[7]; + + out->gs = info.regs.xgs; + out->fs = info.regs.xfs; + out->es = info.regs.xes; + out->ds = info.regs.xds; + + out->edi = info.regs.edi; + out->esi = info.regs.esi; + out->ebx = info.regs.ebx; + out->edx = info.regs.edx; + out->ecx = info.regs.ecx; + out->eax = info.regs.eax; + + out->ebp = info.regs.ebp; + out->eip = info.regs.eip; + out->cs = info.regs.xcs; + out->eflags = info.regs.eflags; + out->esp = info.regs.esp; + out->ss = info.regs.xss; + + out->float_save.control_word = info.fpregs.cwd; + out->float_save.status_word = info.fpregs.swd; + out->float_save.tag_word = info.fpregs.twd; + out->float_save.error_offset = info.fpregs.fip; + out->float_save.error_selector = info.fpregs.fcs; + out->float_save.data_offset = info.fpregs.foo; + out->float_save.data_selector = info.fpregs.fos; + + // 8 registers * 10 bytes per register. + memcpy(out->float_save.register_area, info.fpregs.st_space, 10 * 8); + + // This matches the Intel fpsave format. + U16(out->extended_registers + 0, info.fpregs.cwd); + U16(out->extended_registers + 2, info.fpregs.swd); + U16(out->extended_registers + 4, info.fpregs.twd); + U16(out->extended_registers + 6, info.fpxregs.fop); + U32(out->extended_registers + 8, info.fpxregs.fip); + U16(out->extended_registers + 12, info.fpxregs.fcs); + U32(out->extended_registers + 16, info.fpregs.foo); + U16(out->extended_registers + 20, info.fpregs.fos); + U32(out->extended_registers + 24, info.fpxregs.mxcsr); + + memcpy(out->extended_registers + 32, &info.fpxregs.st_space, 128); + memcpy(out->extended_registers + 160, &info.fpxregs.xmm_space, 128); +} + +// Juggle an x86 ucontext into minidump format +// out: the minidump structure +// info: the collection of register structures. +static void CPUFillFromUContext(MDRawContextX86 *out, const ucontext *uc, + const struct _libc_fpstate* fp) { + const greg_t* regs = uc->uc_mcontext.gregs; + + out->context_flags = MD_CONTEXT_X86_FULL | + MD_CONTEXT_X86_FLOATING_POINT; + + out->gs = regs[REG_GS]; + out->fs = regs[REG_FS]; + out->es = regs[REG_ES]; + out->ds = regs[REG_DS]; + + out->edi = regs[REG_EDI]; + out->esi = regs[REG_ESI]; + out->ebx = regs[REG_EBX]; + out->edx = regs[REG_EDX]; + out->ecx = regs[REG_ECX]; + out->eax = regs[REG_EAX]; + + out->ebp = regs[REG_EBP]; + out->eip = regs[REG_EIP]; + out->cs = regs[REG_CS]; + out->eflags = regs[REG_EFL]; + out->esp = regs[REG_UESP]; + out->ss = regs[REG_SS]; + + out->float_save.control_word = fp->cw; + out->float_save.status_word = fp->sw; + out->float_save.tag_word = fp->tag; + out->float_save.error_offset = fp->ipoff; + out->float_save.error_selector = fp->cssel; + out->float_save.data_offset = fp->dataoff; + out->float_save.data_selector = fp->datasel; + + // 8 registers * 10 bytes per register. + memcpy(out->float_save.register_area, fp->_st, 10 * 8); +} + +#elif defined(__x86_64) +typedef MDRawContextAMD64 RawContextCPU; + +static void CPUFillFromThreadInfo(MDRawContextAMD64 *out, + const google_breakpad::ThreadInfo &info) { + out->context_flags = MD_CONTEXT_AMD64_FULL | + MD_CONTEXT_AMD64_SEGMENTS; + + out->cs = info.regs.cs; + + out->ds = info.regs.ds; + out->es = info.regs.es; + out->fs = info.regs.fs; + out->gs = info.regs.gs; + + out->ss = info.regs.ss; + out->eflags = info.regs.eflags; + + out->dr0 = info.dregs[0]; + out->dr1 = info.dregs[1]; + out->dr2 = info.dregs[2]; + out->dr3 = info.dregs[3]; + // 4 and 5 deliberatly omitted because they aren't included in the minidump + // format. + out->dr6 = info.dregs[6]; + out->dr7 = info.dregs[7]; + + out->rax = info.regs.rax; + out->rcx = info.regs.rcx; + out->rdx = info.regs.rdx; + out->rbx = info.regs.rbx; + + out->rsp = info.regs.rsp; + + out->rbp = info.regs.rbp; + out->rsi = info.regs.rsi; + out->rdi = info.regs.rdi; + out->r8 = info.regs.r8; + out->r9 = info.regs.r9; + out->r10 = info.regs.r10; + out->r11 = info.regs.r11; + out->r12 = info.regs.r12; + out->r13 = info.regs.r13; + out->r14 = info.regs.r14; + out->r15 = info.regs.r15; + + out->rip = info.regs.rip; + + out->flt_save.control_word = info.fpregs.cwd; + out->flt_save.status_word = info.fpregs.swd; + out->flt_save.tag_word = info.fpregs.twd; + out->flt_save.error_opcode = info.fpregs.fop; + out->flt_save.error_offset = info.fpregs.rip; + out->flt_save.error_selector = 0; // We don't have this. + out->flt_save.data_offset = info.fpregs.rdp; + out->flt_save.data_selector = 0; // We don't have this. + out->flt_save.mx_csr = info.fpregs.mxcsr; + out->flt_save.mx_csr_mask = info.fpregs.mxcsr_mask; + memcpy(&out->flt_save.float_registers, &info.fpregs.st_space, 8 * 16); + memcpy(&out->flt_save.xmm_registers, &info.fpregs.xmm_space, 16 * 16); +} + +static void CPUFillFromUContext(MDRawContextAMD64 *out, const ucontext *uc, + const struct _libc_fpstate* fpregs) { + const greg_t* regs = uc->gregs; + + out->context_flags = MD_CONTEXT_AMD64_FULL; + + out->cs = regs[REG_CSGSFS] & 0xffff; + + out->fs = (regs[REG_CSGSFS] >> 32) & 0xffff; + out->gs = (regs[REG_CSGSFS] >> 16) & 0xffff; + + out->eflags = regs[REG_EFL]; + + out->rax = regs[REG_RAX]; + out->rcx = regs[REG_RCX]; + out->rdx = regs[REG_RDX]; + out->rbx = regs[REG_RBX]; + + out->rsp = regs[REG_RSP]; + out->rbp = regs[REG_RBP]; + out->rsi = regs[REG_RSI]; + out->rdi = regs[REG_RDI]; + out->r8 = regs[REG_R8]; + out->r9 = regs[REG_R9]; + out->r10 = regs[REG_R10]; + out->r11 = regs[REG_R11]; + out->r12 = regs[REG_R12]; + out->r13 = regs[REG_R13]; + out->r14 = regs[REG_R14]; + out->r15 = regs[REG_R15]; + + out->rip = regs[REG_RIP]; + + out->flt_save.control_word = fpregs->cwd; + out->flt_save.status_word = fpregs->swd; + out->flt_save.tag_word = fpregs->ftw; + out->flt_save.error_opcode = fpregs->fop; + out->flt_save.error_offset = fpregs->rip; + out->flt_save.data_offset = fpregs->rdp; + out->flt_save.error_selector = 0; // We don't have this. + out->flt_save.data_selector = 0; // We don't have this. + out->flt_save.mx_csr = fpregs->mxcsr; + out->flt_save.mx_csr_mask = fpregs->mxcsr_mask; + memcpy(&out->flt_save.float_registers, &fpregs->_st, 8 * 16); + memcpy(&out->flt_save.xmm_registers, &fpregs->_xmm, 16 * 16); +} + +#else +#error "This code has not been ported to your platform yet." +#endif + +namespace google_breakpad { + +class MinidumpWriter { + public: + MinidumpWriter(const char* filename, + pid_t crashing_pid, + const ExceptionHandler::CrashContext* context) + : filename_(filename), + siginfo_(&context->siginfo), + ucontext_(&context->context), + float_state_(&context->float_state), + crashing_tid_(context->tid), + dumper_(crashing_pid) { + } + + bool Init() { + return dumper_.Init() && minidump_writer_.Open(filename_) && + dumper_.ThreadsSuspend(); + } + + ~MinidumpWriter() { + 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. + static const unsigned kNumWriters = 11; + + TypedMDRVA<MDRawHeader> header(&minidump_writer_); + TypedMDRVA<MDRawDirectory> dir(&minidump_writer_); + if (!header.Allocate()) + return false; + if (!dir.AllocateArray(kNumWriters)) + return false; + 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 (!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, crashing_tid_, "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, crashing_tid_, "cmdline")) + NullifyDirectoryEntry(&dirent); + dir.CopyIndex(dir_index++, &dirent); + + dirent.stream_type = MD_LINUX_ENVIRON; + if (!WriteProcFile(&dirent.location, crashing_tid_, "environ")) + NullifyDirectoryEntry(&dirent); + dir.CopyIndex(dir_index++, &dirent); + + dirent.stream_type = MD_LINUX_AUXV; + if (!WriteProcFile(&dirent.location, crashing_tid_, "auxv")) + NullifyDirectoryEntry(&dirent); + dir.CopyIndex(dir_index++, &dirent); + + dirent.stream_type = MD_LINUX_AUXV; + if (!WriteProcFile(&dirent.location, crashing_tid_, "maps")) + NullifyDirectoryEntry(&dirent); + dir.CopyIndex(dir_index++, &dirent); + + // If you add more directory entries, don't forget to update kNumWriters, + // above. + + dumper_.ThreadsResume(); + 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; + + 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 (thread.thread_id == crashing_tid_) { + const void* stack; + size_t stack_len; + if (!dumper_.GetStackInfo(&stack, &stack_len, GetStackPointer())) + return false; + UntypedMDRVA memory(&minidump_writer_); + if (!memory.Allocate(stack_len)) + return false; + uint8_t* stack_copy = (uint8_t*) dumper_.allocator()->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 = (uintptr_t) (stack); + thread.stack.memory = memory.location(); + TypedMDRVA<RawContextCPU> cpu(&minidump_writer_); + if (!cpu.Allocate()) + return false; + my_memset(cpu.get(), 0, sizeof(RawContextCPU)); + CPUFillFromUContext(cpu.get(), ucontext_, float_state_); + thread.thread_context = cpu.location(); + crashing_thread_context_ = cpu.location(); + } else { + ThreadInfo info; + if (!dumper_.ThreadInfoGet(dumper_.threads()[i], &info)) + return false; + UntypedMDRVA memory(&minidump_writer_); + if (!memory.Allocate(info.stack_len)) + return false; + uint8_t* stack_copy = + (uint8_t*) dumper_.allocator()->Alloc(info.stack_len); + dumper_.CopyFromProcess(stack_copy, thread.thread_id, info.stack, + info.stack_len); + memory.Copy(stack_copy, info.stack_len); + thread.stack.start_of_memory_range = (uintptr_t)(info.stack); + thread.stack.memory = memory.location(); + TypedMDRVA<RawContextCPU> cpu(&minidump_writer_); + if (!cpu.Allocate()) + return false; + my_memset(cpu.get(), 0, sizeof(RawContextCPU)); + CPUFillFromThreadInfo(cpu.get(), info); + thread.thread_context = cpu.location(); + } + + list.CopyIndexAfterObject(i, &thread, sizeof(thread)); + } + + return true; + } + + static bool ShouldIncludeMapping(const MappingInfo& mapping) { + if (mapping.name[0] == 0 || // we only want modules with filenames. + mapping.offset || // we only want to include one mapping per shared lib. + mapping.size < 4096) { // too small to get a signature for. + return false; + } + + return true; + } + + // 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 = 0; + + for (unsigned i = 0; i < dumper_.mappings().size(); ++i) { + const MappingInfo& mapping = *dumper_.mappings()[i]; + if (ShouldIncludeMapping(mapping)) + num_output_mappings++; + } + + TypedMDRVA<uint32_t> list(&minidump_writer_); + if (!list.AllocateObjectAndArray(num_output_mappings, sizeof(MDRawModule))) + return false; + + dirent->stream_type = MD_MODULE_LIST_STREAM; + dirent->location = list.location(); + *list.get() = num_output_mappings; + + for (unsigned i = 0, j = 0; i < num_mappings; ++i) { + const MappingInfo& mapping = *dumper_.mappings()[i]; + if (!ShouldIncludeMapping(mapping)) + continue; + + MDRawModule mod; + my_memset(&mod, 0, sizeof(mod)); + mod.base_of_image = mapping.start_addr; + mod.size_of_image = mapping.size; + const size_t filepath_len = my_strlen(mapping.name); + + // Figure out file name from path + const char* filename_ptr = mapping.name + filepath_len - 1; + while (filename_ptr >= mapping.name) { + if (*filename_ptr == '/') + break; + filename_ptr--; + } + filename_ptr++; + const size_t filename_len = mapping.name + filepath_len - filename_ptr; + + uint8_t cv_buf[MDCVInfoPDB70_minsize + NAME_MAX]; + uint8_t* cv_ptr = cv_buf; + UntypedMDRVA cv(&minidump_writer_); + if (!cv.Allocate(MDCVInfoPDB70_minsize + filename_len + 1)) + return false; + + const uint32_t cv_signature = MD_CVINFOPDB70_SIGNATURE; + memcpy(cv_ptr, &cv_signature, sizeof(cv_signature)); + cv_ptr += sizeof(cv_signature); + + { + // We XOR the first page of the file to get a signature for it. + uint8_t xor_buf[sizeof(MDGUID)]; + size_t done = 0; + uint8_t* signature = cv_ptr; + cv_ptr += sizeof(xor_buf); + + my_memset(signature, 0, sizeof(xor_buf)); + while (done < 4096) { + dumper_.CopyFromProcess(xor_buf, crashing_tid_, + (void *) (mod.base_of_image + done), + sizeof(xor_buf)); + for (unsigned i = 0; i < sizeof(xor_buf); ++i) + signature[i] ^= xor_buf[i]; + done += sizeof(xor_buf); + } + my_memset(cv_ptr, 0, sizeof(uint32_t)); // Set age to 0 on Linux. + cv_ptr += sizeof(uint32_t); + } + + // Write pdb_file_name + memcpy(cv_ptr, filename_ptr, filename_len + 1); + cv.Copy(cv_buf, MDCVInfoPDB70_minsize + filename_len + 1); + + mod.cv_record = cv.location(); + + MDLocationDescriptor ld; + if (!minidump_writer_.WriteString(mapping.name, filepath_len, &ld)) + return false; + mod.module_name_rva = ld.rva; + + list.CopyIndexAfterObject(j++, &mod, sizeof(mod)); + } + + 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 = crashing_tid_; + exc.get()->exception_record.exception_code = siginfo_->si_signo; + exc.get()->exception_record.exception_address = + (uintptr_t) siginfo_->si_addr; + 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; + } + + private: +#if defined(__i386) + uintptr_t GetStackPointer() { + return ucontext_->uc_mcontext.gregs[REG_ESP]; + } +#elif defined(__x86_64) + uintptr_t GetStackPointer() { + return ucontext_->uc_mcontext.gregs[REG_RSP]; + } +#else +#error "This code has not been ported to your platform yet." +#endif + + void NullifyDirectoryEntry(MDRawDirectory* dirent) { + dirent->stream_type = 0; + dirent->location.data_size = 0; + dirent->location.rva = 0; + } + + 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"; + static const size_t vendor_id_name_length = sizeof(vendor_id_name) - 1; + + struct CpuInfoEntry { + const char* info_name; + int value; + bool found; + } cpu_info_table[] = { + { "processor", -1, false }, + { "model", 0, false }, + { "stepping", 0, false }, + { "cpuid level", 0, false }, + }; + + // processor_architecture should always be set, do this first + sys_info->processor_architecture = +#if defined(__i386) + MD_CPU_ARCHITECTURE_X86; +#elif defined(__x86_64) + MD_CPU_ARCHITECTURE_AMD64; +#else +#error "Unknown CPU arch" +#endif + + const int fd = sys_open("/proc/cpuinfo", O_RDONLY, 0); + if (fd < 0) + return false; + + { + PageAllocator allocator; + LineReader* const line_reader = new(allocator) LineReader(fd); + const char* line; + unsigned line_len; + while (line_reader->GetNextLine(&line, &line_len)) { + for (size_t i = 0; + i < sizeof(cpu_info_table) / sizeof(cpu_info_table[0]); + i++) { + CpuInfoEntry* entry = &cpu_info_table[i]; + if (entry->found) + continue; + if (!strncmp(line, entry->info_name, strlen(entry->info_name))) { + const char* value = strchr(line, ':'); + if (!value) + continue; + + // the above strncmp only matches the prefix, it might be the wrong + // line. i.e. we matched "model name" instead of "model". + // check and make sure there is only spaces between the prefix and + // the colon. + const char* space_ptr = line + strlen(entry->info_name); + for (; space_ptr < value; space_ptr++) { + if (!isspace(*space_ptr)) { + break; + } + } + if (space_ptr != value) + continue; + + sscanf(++value, " %d", &(entry->value)); + entry->found = true; + } + } + + // special case for vendor_id + if (!strncmp(line, vendor_id_name, vendor_id_name_length)) { + const char* value = strchr(line, ':'); + if (!value) + goto popline; + + // skip ':" and all the spaces that follows + do { + value++; + } while (isspace(*value)); + + if (*value) { + size_t length = strlen(value); + if (length == 0) + goto popline; + // we don't want the trailing newline + if (value[length - 1] == '\n') + length--; + // ensure we have space for the value + if (length < sizeof(vendor_id)) + strncpy(vendor_id, value, length); + } + } + +popline: + line_reader->PopLine(line_len); + } + sys_close(fd); + } + + // make sure we got everything we wanted + for (size_t i = 0; + i < sizeof(cpu_info_table) / sizeof(cpu_info_table[0]); + i++) { + if (!cpu_info_table[i].found) { + return false; + } + } + // /proc/cpuinfo contains cpu id, change it into number by adding one. + cpu_info_table[0].value++; + + sys_info->number_of_processors = cpu_info_table[0].value; + sys_info->processor_level = cpu_info_table[3].value; + sys_info->processor_revision = cpu_info_table[1].value << 8 | + cpu_info_table[2].value; + + if (vendor_id[0] != '\0') { + memcpy(sys_info->cpu.x86_cpu_info.vendor_id, vendor_id, + sizeof(sys_info->cpu.x86_cpu_info.vendor_id)); + } + return true; + } + + 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 kMaxFileSize = 1024; + uint8_t* data = (uint8_t*) dumper_.allocator()->Alloc(kMaxFileSize); + + size_t done = 0; + while (done < kMaxFileSize) { + ssize_t r; + do { + r = sys_read(fd, data + done, kMaxFileSize - done); + } while (r == -1 && errno == EINTR); + + if (r < 1) + break; + done += r; + } + sys_close(fd); + + if (!done) + return false; + + UntypedMDRVA memory(&minidump_writer_); + if (!memory.Allocate(done)) + return false; + memory.Copy(data, done); + *result = memory.location(); + return true; + } + + bool WriteOSInformation(MDRawSystemInfo* sys_info) { + sys_info->platform_id = MD_OS_LINUX; + + 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 = strlen(separator); + size_t info_len = strlen(*cur_info); + if (info_len == 0) + continue; + + if (space_left < info_len + (first_item ? 0 : separator_len)) + break; + + if (!first_item) { + strcat(buf, separator); + space_left -= separator_len; + } + + first_item = false; + strcat(buf, *cur_info); + 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[80]; + memcpy(buf, "/proc/", 6); + const unsigned pid_len = my_int_len(pid); + my_itos(buf + 6, pid, pid_len); + buf[6 + pid_len] = '/'; + memcpy(buf + 6 + pid_len + 1, filename, my_strlen(filename) + 1); + return WriteFile(result, buf); + } + + const char* const filename_; // output filename + const siginfo_t* const siginfo_; // from the signal handler (see sigaction) + const struct ucontext* const ucontext_; // also from the signal handler + const struct _libc_fpstate* const float_state_; // ditto + const pid_t crashing_tid_; // the process which actually crashed + LinuxDumper dumper_; + MinidumpFileWriter minidump_writer_; + MDLocationDescriptor crashing_thread_context_; +}; + +bool WriteMinidump(const char* filename, pid_t crashing_process, + const void* blob, size_t blob_size) { + if (blob_size != sizeof(ExceptionHandler::CrashContext)) + return false; + const ExceptionHandler::CrashContext* context = + reinterpret_cast<const ExceptionHandler::CrashContext*>(blob); + MinidumpWriter writer(filename, crashing_process, context); + if (!writer.Init()) + return false; + return writer.Dump(); +} + +} // namespace google_breakpad |