// Copyright 2016 The Crashpad Authors. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "snapshot/capture_memory.h" #include #include #include #include "snapshot/memory_snapshot.h" namespace crashpad { namespace internal { namespace { void MaybeCaptureMemoryAround(CaptureMemory::Delegate* delegate, uint64_t address) { constexpr uint64_t non_address_offset = 0x10000; if (address < non_address_offset) return; const uint64_t max_address = delegate->Is64Bit() ? std::numeric_limits::max() : std::numeric_limits::max(); if (address > max_address - non_address_offset) return; constexpr uint64_t kRegisterByteOffset = 128; const uint64_t target = address - kRegisterByteOffset; constexpr uint64_t size = 512; static_assert(kRegisterByteOffset <= size / 2, "negative offset too large"); auto ranges = delegate->GetReadableRanges(CheckedRange(target, size)); for (const auto& range : ranges) { delegate->AddNewMemorySnapshot(range); } } template void CaptureAtPointersInRange(uint8_t* buffer, uint64_t buffer_size, CaptureMemory::Delegate* delegate) { for (uint64_t address_offset = 0; address_offset < buffer_size; address_offset += sizeof(T)) { uint64_t target_address = *reinterpret_cast(&buffer[address_offset]); MaybeCaptureMemoryAround(delegate, target_address); } } } // namespace // static void CaptureMemory::PointedToByContext(const CPUContext& context, Delegate* delegate) { #if defined(ARCH_CPU_X86_FAMILY) if (context.architecture == kCPUArchitectureX86_64) { MaybeCaptureMemoryAround(delegate, context.x86_64->rax); MaybeCaptureMemoryAround(delegate, context.x86_64->rbx); MaybeCaptureMemoryAround(delegate, context.x86_64->rcx); MaybeCaptureMemoryAround(delegate, context.x86_64->rdx); MaybeCaptureMemoryAround(delegate, context.x86_64->rdi); MaybeCaptureMemoryAround(delegate, context.x86_64->rsi); MaybeCaptureMemoryAround(delegate, context.x86_64->rbp); MaybeCaptureMemoryAround(delegate, context.x86_64->r8); MaybeCaptureMemoryAround(delegate, context.x86_64->r9); MaybeCaptureMemoryAround(delegate, context.x86_64->r10); MaybeCaptureMemoryAround(delegate, context.x86_64->r11); MaybeCaptureMemoryAround(delegate, context.x86_64->r12); MaybeCaptureMemoryAround(delegate, context.x86_64->r13); MaybeCaptureMemoryAround(delegate, context.x86_64->r14); MaybeCaptureMemoryAround(delegate, context.x86_64->r15); MaybeCaptureMemoryAround(delegate, context.x86_64->rip); } else { MaybeCaptureMemoryAround(delegate, context.x86->eax); MaybeCaptureMemoryAround(delegate, context.x86->ebx); MaybeCaptureMemoryAround(delegate, context.x86->ecx); MaybeCaptureMemoryAround(delegate, context.x86->edx); MaybeCaptureMemoryAround(delegate, context.x86->edi); MaybeCaptureMemoryAround(delegate, context.x86->esi); MaybeCaptureMemoryAround(delegate, context.x86->ebp); MaybeCaptureMemoryAround(delegate, context.x86->eip); } #elif defined(ARCH_CPU_ARM_FAMILY) if (context.architecture == kCPUArchitectureARM64) { MaybeCaptureMemoryAround(delegate, context.arm64->pc); for (size_t i = 0; i < arraysize(context.arm64->regs); ++i) { MaybeCaptureMemoryAround(delegate, context.arm64->regs[i]); } } else { MaybeCaptureMemoryAround(delegate, context.arm->pc); for (size_t i = 0; i < arraysize(context.arm->regs); ++i) { MaybeCaptureMemoryAround(delegate, context.arm->regs[i]); } } #elif defined(ARCH_CPU_MIPS_FAMILY) for (size_t i = 0; i < arraysize(context.mipsel->regs); ++i) { MaybeCaptureMemoryAround(delegate, context.mipsel->regs[i]); } #else #error Port. #endif } // static void CaptureMemory::PointedToByMemoryRange(const MemorySnapshot& memory, Delegate* delegate) { if (memory.Size() == 0) return; const size_t alignment = delegate->Is64Bit() ? sizeof(uint64_t) : sizeof(uint32_t); if (memory.Address() % alignment != 0 || memory.Size() % alignment != 0) { LOG(ERROR) << "unaligned range"; return; } std::unique_ptr buffer(new uint8_t[memory.Size()]); if (!delegate->ReadMemory(memory.Address(), memory.Size(), buffer.get())) { LOG(ERROR) << "ReadMemory"; return; } if (delegate->Is64Bit()) CaptureAtPointersInRange(buffer.get(), memory.Size(), delegate); else CaptureAtPointersInRange(buffer.get(), memory.Size(), delegate); } } // namespace internal } // namespace crashpad