kicad/thirdparty/sentry-native/external/crashpad/minidump/minidump_context.h

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// Copyright 2014 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.
#ifndef CRASHPAD_MINIDUMP_MINIDUMP_CONTEXT_H_
#define CRASHPAD_MINIDUMP_MINIDUMP_CONTEXT_H_
#include <stdint.h>
#include "base/compiler_specific.h"
#include "snapshot/cpu_context.h"
#include "util/numeric/int128.h"
namespace crashpad {
//! \brief Architecture-independent flags for `context_flags` fields in Minidump
//! context structures.
//
// https://zachsaw.blogspot.com/2010/11/wow64-bug-getthreadcontext-may-return.html#c5639760895973344002
enum MinidumpContextFlags : uint32_t {
//! \brief The thread was executing a trap handler in kernel mode
//! (`CONTEXT_EXCEPTION_ACTIVE`).
//!
//! If this bit is set, it indicates that the context is from a thread that
//! was executing a trap handler in the kernel. This bit is only valid when
//! ::kMinidumpContextExceptionReporting is also set. This bit is only used on
//! Windows.
kMinidumpContextExceptionActive = 0x08000000,
//! \brief The thread was executing a system call in kernel mode
//! (`CONTEXT_SERVICE_ACTIVE`).
//!
//! If this bit is set, it indicates that the context is from a thread that
//! was executing a system call in the kernel. This bit is only valid when
//! ::kMinidumpContextExceptionReporting is also set. This bit is only used on
//! Windows.
kMinidumpContextServiceActive = 0x10000000,
//! \brief Kernel-mode state reporting is desired
//! (`CONTEXT_EXCEPTION_REQUEST`).
//!
//! This bit is not used in context structures containing snapshots of thread
//! CPU context. It used when calling `GetThreadContext()` on Windows to
//! specify that kernel-mode state reporting
//! (::kMinidumpContextExceptionReporting) is desired in the returned context
//! structure.
kMinidumpContextExceptionRequest = 0x40000000,
//! \brief Kernel-mode state reporting is provided
//! (`CONTEXT_EXCEPTION_REPORTING`).
//!
//! If this bit is set, it indicates that the bits indicating how the thread
//! had entered kernel mode (::kMinidumpContextExceptionActive and
//! ::kMinidumpContextServiceActive) are valid. This bit is only used on
//! Windows.
kMinidumpContextExceptionReporting = 0x80000000,
};
//! \brief 32-bit x86-specifc flags for MinidumpContextX86::context_flags.
enum MinidumpContextX86Flags : uint32_t {
//! \brief Identifies the context structure as 32-bit x86. This is the same as
//! `CONTEXT_i386` and `CONTEXT_i486` on Windows for this architecture.
kMinidumpContextX86 = 0x00010000,
//! \brief Indicates the validity of control registers (`CONTEXT_CONTROL`).
//!
//! The `ebp`, `eip`, `cs`, `eflags`, `esp`, and `ss` fields are valid.
kMinidumpContextX86Control = kMinidumpContextX86 | 0x00000001,
//! \brief Indicates the validity of non-control integer registers
//! (`CONTEXT_INTEGER`).
//!
//! The `edi`, `esi`, `ebx`, `edx`, `ecx, and `eax` fields are valid.
kMinidumpContextX86Integer = kMinidumpContextX86 | 0x00000002,
//! \brief Indicates the validity of non-control segment registers
//! (`CONTEXT_SEGMENTS`).
//!
//! The `gs`, `fs`, `es`, and `ds` fields are valid.
kMinidumpContextX86Segment = kMinidumpContextX86 | 0x00000004,
//! \brief Indicates the validity of floating-point state
//! (`CONTEXT_FLOATING_POINT`).
//!
//! The `fsave` field is valid. The `float_save` field is included in this
//! definition, but its members have no practical use asdie from `fsave`.
kMinidumpContextX86FloatingPoint = kMinidumpContextX86 | 0x00000008,
//! \brief Indicates the validity of debug registers
//! (`CONTEXT_DEBUG_REGISTERS`).
//!
//! The `dr0` through `dr3`, `dr6`, and `dr7` fields are valid.
kMinidumpContextX86Debug = kMinidumpContextX86 | 0x00000010,
//! \brief Indicates the validity of extended registers in `fxsave` format
//! (`CONTEXT_EXTENDED_REGISTERS`).
//!
//! The `extended_registers` field is valid and contains `fxsave` data.
kMinidumpContextX86Extended = kMinidumpContextX86 | 0x00000020,
//! \brief Indicates the validity of `xsave` data (`CONTEXT_XSTATE`).
//!
//! The context contains `xsave` data. This is used with an extended context
//! structure not currently defined here.
kMinidumpContextX86Xstate = kMinidumpContextX86 | 0x00000040,
//! \brief Indicates the validity of control, integer, and segment registers.
//! (`CONTEXT_FULL`).
kMinidumpContextX86Full = kMinidumpContextX86Control |
kMinidumpContextX86Integer |
kMinidumpContextX86Segment,
//! \brief Indicates the validity of all registers except `xsave` data.
//! (`CONTEXT_ALL`).
kMinidumpContextX86All = kMinidumpContextX86Full |
kMinidumpContextX86FloatingPoint |
kMinidumpContextX86Debug |
kMinidumpContextX86Extended,
};
//! \brief A 32-bit x86 CPU context (register state) carried in a minidump file.
//!
//! This is analogous to the `CONTEXT` structure on Windows when targeting
//! 32-bit x86, and the `WOW64_CONTEXT` structure when targeting an x86-family
//! CPU, either 32- or 64-bit. This structure is used instead of `CONTEXT` or
//! `WOW64_CONTEXT` to make it available when targeting other architectures.
//!
//! \note This structure doesnt carry `dr4` or `dr5`, which are obsolete and
//! normally alias `dr6` and `dr7`, respectively. See Intel Software
//! Developers Manual, Volume 3B: System Programming, Part 2 (253669-052),
//! 17.2.2 “Debug Registers DR4 and DR5”.
struct MinidumpContextX86 {
//! \brief A bitfield composed of values of #MinidumpContextFlags and
//! #MinidumpContextX86Flags.
//!
//! This field identifies the context structure as a 32-bit x86 CPU context,
//! and indicates which other fields in the structure are valid.
uint32_t context_flags;
uint32_t dr0;
uint32_t dr1;
uint32_t dr2;
uint32_t dr3;
uint32_t dr6;
uint32_t dr7;
// CPUContextX86::Fsave has identical layout to what the x86 CONTEXT structure
// places here.
CPUContextX86::Fsave fsave;
union {
uint32_t spare_0; // As in the native x86 CONTEXT structure since Windows 8
uint32_t cr0_npx_state; // As in WOW64_CONTEXT and older SDKs x86 CONTEXT
} float_save;
uint32_t gs;
uint32_t fs;
uint32_t es;
uint32_t ds;
uint32_t edi;
uint32_t esi;
uint32_t ebx;
uint32_t edx;
uint32_t ecx;
uint32_t eax;
uint32_t ebp;
uint32_t eip;
uint32_t cs;
uint32_t eflags;
uint32_t esp;
uint32_t ss;
// CPUContextX86::Fxsave has identical layout to what the x86 CONTEXT
// structure places here.
CPUContextX86::Fxsave fxsave;
};
//! \brief x86_64-specific flags for MinidumpContextAMD64::context_flags.
enum MinidumpContextAMD64Flags : uint32_t {
//! \brief Identifies the context structure as x86_64. This is the same as
//! `CONTEXT_AMD64` on Windows for this architecture.
kMinidumpContextAMD64 = 0x00100000,
//! \brief Indicates the validity of control registers (`CONTEXT_CONTROL`).
//!
//! The `cs`, `ss`, `eflags`, `rsp`, and `rip` fields are valid.
kMinidumpContextAMD64Control = kMinidumpContextAMD64 | 0x00000001,
//! \brief Indicates the validity of non-control integer registers
//! (`CONTEXT_INTEGER`).
//!
//! The `rax`, `rcx`, `rdx`, `rbx`, `rbp`, `rsi`, `rdi`, and `r8` through
//! `r15` fields are valid.
kMinidumpContextAMD64Integer = kMinidumpContextAMD64 | 0x00000002,
//! \brief Indicates the validity of non-control segment registers
//! (`CONTEXT_SEGMENTS`).
//!
//! The `ds`, `es`, `fs`, and `gs` fields are valid.
kMinidumpContextAMD64Segment = kMinidumpContextAMD64 | 0x00000004,
//! \brief Indicates the validity of floating-point state
//! (`CONTEXT_FLOATING_POINT`).
//!
//! The `xmm0` through `xmm15` fields are valid.
kMinidumpContextAMD64FloatingPoint = kMinidumpContextAMD64 | 0x00000008,
//! \brief Indicates the validity of debug registers
//! (`CONTEXT_DEBUG_REGISTERS`).
//!
//! The `dr0` through `dr3`, `dr6`, and `dr7` fields are valid.
kMinidumpContextAMD64Debug = kMinidumpContextAMD64 | 0x00000010,
//! \brief Indicates the validity of `xsave` data (`CONTEXT_XSTATE`).
//!
//! The context contains `xsave` data. This is used with an extended context
//! structure which is partly implemented for CET state only.
kMinidumpContextAMD64Xstate = kMinidumpContextAMD64 | 0x00000040,
//! \brief Indicates the validity of control, integer, and floating-point
//! registers (`CONTEXT_FULL`).
kMinidumpContextAMD64Full = kMinidumpContextAMD64Control |
kMinidumpContextAMD64Integer |
kMinidumpContextAMD64FloatingPoint,
//! \brief Indicates the validity of all registers except `xsave` data
//! (`CONTEXT_ALL`).
kMinidumpContextAMD64All = kMinidumpContextAMD64Full |
kMinidumpContextAMD64Segment |
kMinidumpContextAMD64Debug,
};
//! \brief An x86_64 (AMD64) CPU context (register state) carried in a minidump
//! file.
//!
//! This is analogous to the `CONTEXT` structure on Windows when targeting
//! x86_64. This structure is used instead of `CONTEXT` to make it available
//! when targeting other architectures.
//!
//! \note This structure doesnt carry `dr4` or `dr5`, which are obsolete and
//! normally alias `dr6` and `dr7`, respectively. See Intel Software
//! Developers Manual, Volume 3B: System Programming, Part 2 (253669-052),
//! 17.2.2 “Debug Registers DR4 and DR5”.
struct alignas(16) MinidumpContextAMD64 {
//! \brief Register parameter home address.
//!
//! On Windows, this field may contain the “home” address (on-stack, in the
//! shadow area) of a parameter passed by register. This field is present for
//! convenience but is not necessarily populated, even if a corresponding
//! parameter was passed by register.
//!
//! \{
uint64_t p1_home;
uint64_t p2_home;
uint64_t p3_home;
uint64_t p4_home;
uint64_t p5_home;
uint64_t p6_home;
//! \}
//! \brief A bitfield composed of values of #MinidumpContextFlags and
//! #MinidumpContextAMD64Flags.
//!
//! This field identifies the context structure as an x86_64 CPU context, and
//! indicates which other fields in the structure are valid.
uint32_t context_flags;
uint32_t mx_csr;
uint16_t cs;
uint16_t ds;
uint16_t es;
uint16_t fs;
uint16_t gs;
uint16_t ss;
uint32_t eflags;
uint64_t dr0;
uint64_t dr1;
uint64_t dr2;
uint64_t dr3;
uint64_t dr6;
uint64_t dr7;
uint64_t rax;
uint64_t rcx;
uint64_t rdx;
uint64_t rbx;
uint64_t rsp;
uint64_t rbp;
uint64_t rsi;
uint64_t rdi;
uint64_t r8;
uint64_t r9;
uint64_t r10;
uint64_t r11;
uint64_t r12;
uint64_t r13;
uint64_t r14;
uint64_t r15;
uint64_t rip;
// CPUContextX86_64::Fxsave has identical layout to what the x86_64 CONTEXT
// structure places here.
CPUContextX86_64::Fxsave fxsave;
uint128_struct vector_register[26];
uint64_t vector_control;
//! \brief Model-specific debug extension register.
//!
//! See Intel Software Developers Manual, Volume 3B: System Programming, Part
//! 2 (253669-051), 17.4 “Last Branch, Interrupt, and Exception Recording
//! Overview”, and AMD Architecture Programmers Manual, Volume 2: System
//! Programming (24593-3.24), 13.1.6 “Control-Transfer Breakpoint Features”.
//!
//! \{
uint64_t debug_control;
uint64_t last_branch_to_rip;
uint64_t last_branch_from_rip;
uint64_t last_exception_to_rip;
uint64_t last_exception_from_rip;
//! \}
};
//! \brief 32-bit ARM-specifc flags for MinidumpContextARM::context_flags.
enum MinidumpContextARMFlags : uint32_t {
//! \brief Identifies the context structure as 32-bit ARM.
kMinidumpContextARM = 0x40000000,
//! \brief Indicates the validity of integer regsiters.
//!
//! Regsiters `r0`-`r15` and `cpsr` are valid.
kMinidumpContextARMInteger = kMinidumpContextARM | 0x00000002,
//! \brief Inidicates the validity of VFP regsiters.
//!
//! Registers `d0`-`d31` and `fpscr` are valid.
kMinidumpContextARMVFP = kMinidumpContextARM | 0x00000004,
//! \brief Indicates the validity of all registers.
kMinidumpContextARMAll = kMinidumpContextARMInteger | kMinidumpContextARMVFP,
};
//! \brief A 32-bit ARM CPU context (register state) carried in a minidump file.
struct MinidumpContextARM {
//! \brief A bitfield composed of values of #MinidumpContextFlags and
//! #MinidumpContextARMFlags.
//!
//! This field identifies the context structure as a 32-bit ARM CPU context,
//! and indicates which other fields in the structure are valid.
uint32_t context_flags;
//! \brief General-purpose registers `r0`-`r15`.
uint32_t regs[11];
uint32_t fp; // r11
uint32_t ip; // r12
uint32_t sp; // r13
uint32_t lr; // r14
uint32_t pc; // r15
//! \brief Current program status register.
uint32_t cpsr;
//! \brief Floating-point status and control register.
uint32_t fpscr;
//! \brief VFP registers `d0`-`d31`.
uint64_t vfp[32];
//! \brief This space is unused. It is included for compatibility with
//! breakpad (which also doesn't use it).
uint32_t extra[8];
};
//! \brief CONTEXT_CHUNK
struct MinidumpContextChunk {
int32_t offset;
uint32_t size;
};
//! \brief CONTEXT_EX
struct MinidumpContextExHeader {
MinidumpContextChunk all;
MinidumpContextChunk legacy;
MinidumpContextChunk xstate;
};
//! \brief XSAVE_AREA_HEADER
struct MinidumpXSaveAreaHeader {
uint64_t mask;
uint64_t compaction_mask;
uint64_t xsave_header_reserved[6];
};
//! \brief Offset of first xsave feature in the full extended context.
//!
//! This is used to calculate the final size of the extended context, and
//! can be validated by calling InitializeContext2 with one XSTATE feature,
//! and LocateXStateFeature to determine the first offset.
//! Also see "MANAGING STATE USING THE XSAVE FEATURE SET", Ch. 13, Intel SDM.
constexpr uint32_t kMinidumpAMD64XSaveOffset = 0x550;
//! \brief Offset of first xsave feature within the extended context area.
//!
//! 0x240 is the size of the legacy area (512) + the xsave header(64 bytes)
//! Intel SDM 13.4.1. This is not where the item is in the extended compacted
//! context, but is the offset recorded in the minidump. It needs to be correct
//! there. See https://windows-internals.com/cet-on-windows/ for some discussion
//! "CONTEXT_XSTATE: Extended processor state chunk. The state is stored in the
//! same format the XSAVE operation stores it with exception of the first 512
//! bytes, i.e. starting from XSAVE_AREA_HEADER." This may vary by cpuid.
constexpr uint32_t kXSaveAreaFirstOffset = 0x240;
//! \brief XSAVE_CET_U_FORMAT
struct MinidumpAMD64XSaveFormatCetU {
uint64_t cetmsr;
uint64_t ssp;
};
//! \brief 64-bit ARM-specifc flags for MinidumpContextARM64::context_flags.
enum MinidumpContextARM64Flags : uint32_t {
//! \brief Identifies the context structure as 64-bit ARM.
kMinidumpContextARM64 = 0x00400000,
//! \brief Indicates the validity of control registers.
//!
//! Registers `fp`, `lr`, `sp`, `pc`, and `cpsr`.
kMinidumpContextARM64Control = kMinidumpContextARM64 | 0x00000001,
//! \brief Indicates the validty of integer registers.
//!
//! Registers `x0`-`x28`.
kMinidumpContextARM64Integer = kMinidumpContextARM64 | 0x00000002,
//! \brief Indicates the validity of fpsimd registers.
//!
//! Registers `v0`-`v31`, `fpsr`, and `fpcr` are valid.
kMinidumpContextARM64Fpsimd = kMinidumpContextARM64 | 0x00000004,
//! \brief Indicates the validity of debug registers.
//!
//! `bcr`, `bvr`, `wcr`, and `wvr` are valid.
kMinidumpContextARM64Debug = kMinidumpContextARM64 | 0x00000008,
//! \brief Indicates the validity of control, integer and floating point
//! registers.
kMinidumpContextARM64Full = kMinidumpContextARM64Control |
kMinidumpContextARM64Integer |
kMinidumpContextARM64Fpsimd,
//! \brief Indicates the validity of all registers.
kMinidumpContextARM64All =
kMinidumpContextARM64Full | kMinidumpContextARM64Debug,
};
//! \brief A 64-bit ARM CPU context (register state) carried in a minidump file.
struct MinidumpContextARM64 {
uint32_t context_flags;
//! \brief Current program status register.
uint32_t cpsr;
//! \brief General-purpose registers `x0`-`x28`.
uint64_t regs[29];
//! \brief Frame pointer or `x29`.
uint64_t fp;
//! \brief Link register or `x30`.
uint64_t lr;
//! \brief Stack pointer or `x31`.
uint64_t sp;
//! \brief Program counter.
uint64_t pc;
//! \brief NEON registers `v0`-`v31`.
uint128_struct fpsimd[32];
//! \brief Floating-point control register.
uint32_t fpcr;
//! \brief Floating-point status register.
uint32_t fpsr;
//! \brief Debug registers.
uint32_t bcr[8];
uint64_t bvr[8];
uint32_t wcr[2];
uint64_t wvr[2];
};
//! \brief 32bit MIPS-specifc flags for MinidumpContextMIPS::context_flags.
//! Based on minidump_cpu_mips.h from breakpad
enum MinidumpContextMIPSFlags : uint32_t {
//! \brief Identifies the context structure as MIPSEL.
kMinidumpContextMIPS = 0x00040000,
//! \brief Indicates the validity of integer registers.
//!
//! Registers `0`-`31`, `mdhi`, `mdlo`, `epc`, `badvaddr`, `status` and
//! `cause` are valid.
kMinidumpContextMIPSInteger = kMinidumpContextMIPS | 0x00000002,
//! \brief Indicates the validity of floating point registers.
//!
//! Floating point registers `0`-`31`, `fpcsr` and `fir` are valid
kMinidumpContextMIPSFloatingPoint = kMinidumpContextMIPS | 0x00000004,
//! \brief Indicates the validity of DSP registers.
//!
//! Registers `hi0`-`hi2`, `lo0`-`lo2` and `dsp_control` are valid
kMinidumpContextMIPSDSP = kMinidumpContextMIPS | 0x00000008,
//! \brief Indicates the validity of all registers.
kMinidumpContextMIPSAll = kMinidumpContextMIPSInteger |
kMinidumpContextMIPSFloatingPoint |
kMinidumpContextMIPSDSP,
};
//! \brief A 32bit MIPS CPU context (register state) carried in a minidump file.
struct MinidumpContextMIPS {
uint32_t context_flags;
//! \brief This padding field is included for breakpad compatibility.
uint32_t _pad0;
//! \brief General purpose registers `0`-`31`.
uint64_t regs[32];
//! \brief Multiply/divide result.
uint64_t mdhi, mdlo;
//! \brief DSP registers.
uint32_t hi[3];
uint32_t lo[3];
uint32_t dsp_control;
//! \brief This padding field is included for breakpad compatibility.
uint32_t _pad1;
// \brief cp0 registers.
uint64_t epc;
uint64_t badvaddr;
uint32_t status;
uint32_t cause;
//! \brief FPU registers.
union {
struct {
float _fp_fregs;
uint32_t _fp_pad;
} fregs[32];
double dregs[32];
} fpregs;
//! \brief FPU status register.
uint32_t fpcsr;
//! \brief FPU implementation register.
uint32_t fir;
};
//! \brief 64bit MIPS-specifc flags for MinidumpContextMIPS64::context_flags.
//! Based on minidump_cpu_mips.h from breakpad
enum MinidumpContextMIPS64Flags : uint32_t {
//! \brief Identifies the context structure as MIPS64EL.
kMinidumpContextMIPS64 = 0x00080000,
//! \brief Indicates the validity of integer registers.
//!
//! Registers `0`-`31`, `mdhi`, `mdlo`, `epc`, `badvaddr`, `status` and
//! `cause` are valid.
kMinidumpContextMIPS64Integer = kMinidumpContextMIPS64 | 0x00000002,
//! \brief Indicates the validity of floating point registers.
//!
//! Floating point registers `0`-`31`, `fpcsr` and `fir` are valid
kMinidumpContextMIPS64FloatingPoint = kMinidumpContextMIPS64 | 0x00000004,
//! \brief Indicates the validity of DSP registers.
//!
//! Registers `hi0`-`hi2`, `lo0`-`lo2` and `dsp_control` are valid.
kMinidumpContextMIPS64DSP = kMinidumpContextMIPS64 | 0x00000008,
//! \brief Indicates the validity of all registers.
kMinidumpContextMIPS64All = kMinidumpContextMIPS64Integer |
kMinidumpContextMIPS64FloatingPoint |
kMinidumpContextMIPS64DSP,
};
//! \brief A 32bit MIPS CPU context (register state) carried in a minidump file.
struct MinidumpContextMIPS64 {
uint64_t context_flags;
//! \brief General purpose registers.
uint64_t regs[32];
//! \brief Multiply/divide result.
uint64_t mdhi, mdlo;
//! \brief DSP registers.
uint64_t hi[3];
uint64_t lo[3];
uint64_t dsp_control;
//! \brief cp0 registers.
uint64_t epc;
uint64_t badvaddr;
uint64_t status;
uint64_t cause;
//! \brief FPU registers.
union {
struct {
float _fp_fregs;
uint32_t _fp_pad;
} fregs[32];
double dregs[32];
} fpregs;
//! \brief FPU status register.
uint64_t fpcsr;
//! \brief FPU implementation register.
uint64_t fir;
};
} // namespace crashpad
#endif // CRASHPAD_MINIDUMP_MINIDUMP_CONTEXT_H_