/* * Copyright (C) 2017 The Android Open Source Project * * 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. */ #pragma once #include #include #include #include #include #include #include #include #include #include #include #include #include namespace unwindstack { // Forward declarations. class Elf; class ThreadEntry; struct FrameData { size_t num; uint64_t rel_pc; uint64_t pc; uint64_t sp; SharedString function_name; uint64_t function_offset = 0; std::shared_ptr map_info; }; class Unwinder { public: Unwinder(size_t max_frames, Maps* maps, Regs* regs, std::shared_ptr process_memory) : max_frames_(max_frames), maps_(maps), regs_(regs), process_memory_(process_memory), arch_(regs->Arch()) {} Unwinder(size_t max_frames, Maps* maps, std::shared_ptr process_memory) : max_frames_(max_frames), maps_(maps), process_memory_(process_memory) {} virtual ~Unwinder() = default; virtual void Unwind(const std::vector* initial_map_names_to_skip = nullptr, const std::vector* map_suffixes_to_ignore = nullptr); size_t NumFrames() const { return frames_.size(); } // Returns frames after unwinding. // Intentionally mutable (which can be used to swap in reserved memory before unwinding). std::vector& frames() { return frames_; } std::vector ConsumeFrames() { std::vector frames = std::move(frames_); frames_.clear(); return frames; } std::string FormatFrame(size_t frame_num) const; std::string FormatFrame(const FrameData& frame) const; static std::string FormatFrame(ArchEnum arch, const FrameData& frame, bool display_build_id = true); void SetArch(ArchEnum arch) { arch_ = arch; }; void SetJitDebug(JitDebug* jit_debug); void SetRegs(Regs* regs) { regs_ = regs; arch_ = regs_ != nullptr ? regs->Arch() : ARCH_UNKNOWN; } Maps* GetMaps() { return maps_; } std::shared_ptr& GetProcessMemory() { return process_memory_; } // Disabling the resolving of names results in the function name being // set to an empty string and the function offset being set to zero. void SetResolveNames(bool resolve) { resolve_names_ = resolve; } void SetDisplayBuildID(bool display_build_id) { display_build_id_ = display_build_id; } void SetDexFiles(DexFiles* dex_files); const ErrorData& LastError() { return last_error_; } ErrorCode LastErrorCode() { return last_error_.code; } const char* LastErrorCodeString() { return GetErrorCodeString(last_error_.code); } uint64_t LastErrorAddress() { return last_error_.address; } uint64_t warnings() { return warnings_; } // Builds a frame for symbolization using the maps from this unwinder. The // constructed frame contains just enough information to be used to symbolize // frames collected by frame-pointer unwinding that's done outside of // libunwindstack. This is used by tombstoned to symbolize frame pointer-based // stack traces that are collected by tools such as GWP-ASan and MTE. static FrameData BuildFrameFromPcOnly(uint64_t pc, ArchEnum arch, Maps* maps, JitDebug* jit_debug, std::shared_ptr process_memory, bool resolve_names); FrameData BuildFrameFromPcOnly(uint64_t pc); protected: Unwinder(size_t max_frames, Maps* maps = nullptr) : max_frames_(max_frames), maps_(maps) {} Unwinder(size_t max_frames, ArchEnum arch, Maps* maps = nullptr) : max_frames_(max_frames), maps_(maps), arch_(arch) {} Unwinder(size_t max_frames, ArchEnum arch, Maps* maps, std::shared_ptr& process_memory) : max_frames_(max_frames), maps_(maps), process_memory_(process_memory), arch_(arch) {} void ClearErrors() { warnings_ = WARNING_NONE; last_error_.code = ERROR_NONE; last_error_.address = 0; } void FillInDexFrame(); FrameData* FillInFrame(std::shared_ptr& map_info, Elf* elf, uint64_t rel_pc, uint64_t pc_adjustment); size_t max_frames_; Maps* maps_ = nullptr; Regs* regs_; std::vector frames_; std::shared_ptr process_memory_; JitDebug* jit_debug_ = nullptr; DexFiles* dex_files_ = nullptr; bool resolve_names_ = true; bool display_build_id_ = false; ErrorData last_error_; uint64_t warnings_; ArchEnum arch_ = ARCH_UNKNOWN; }; class UnwinderFromPid : public Unwinder { public: UnwinderFromPid(size_t max_frames, pid_t pid, Maps* maps = nullptr) : Unwinder(max_frames, maps), pid_(pid) {} UnwinderFromPid(size_t max_frames, pid_t pid, std::shared_ptr& process_memory) : Unwinder(max_frames, nullptr, process_memory), pid_(pid) {} UnwinderFromPid(size_t max_frames, pid_t pid, ArchEnum arch, Maps* maps = nullptr) : Unwinder(max_frames, arch, maps), pid_(pid) {} UnwinderFromPid(size_t max_frames, pid_t pid, ArchEnum arch, Maps* maps, std::shared_ptr& process_memory) : Unwinder(max_frames, arch, maps, process_memory), pid_(pid) {} virtual ~UnwinderFromPid() = default; bool Init(); void Unwind(const std::vector* initial_map_names_to_skip = nullptr, const std::vector* map_suffixes_to_ignore = nullptr) override; protected: pid_t pid_; std::unique_ptr maps_ptr_; std::unique_ptr jit_debug_ptr_; std::unique_ptr dex_files_ptr_; bool initted_ = false; }; class ThreadUnwinder : public UnwinderFromPid { public: ThreadUnwinder(size_t max_frames, Maps* maps = nullptr); ThreadUnwinder(size_t max_frames, Maps* maps, std::shared_ptr& process_memory); ThreadUnwinder(size_t max_frames, const ThreadUnwinder* unwinder); virtual ~ThreadUnwinder() = default; void SetObjects(ThreadUnwinder* unwinder); void Unwind(const std::vector*, const std::vector*) override {} void UnwindWithSignal(int signal, pid_t tid, std::unique_ptr* initial_regs = nullptr, const std::vector* initial_map_names_to_skip = nullptr, const std::vector* map_suffixes_to_ignore = nullptr); protected: ThreadEntry* SendSignalToThread(int signal, pid_t tid); }; } // namespace unwindstack