crashpad/snapshot/linux/cpu_context_linux.cc
Thomas Gales 4f5dd67229 [riscv] Add RISC-V Linux support
Only RV64GC is supported.

Bug: fuchsia:127655

Tested: `python build/run_tests.py` on RISC-V emulator
Tested: Created minidump via self-induced crash on RISC-V emulator,
ran through Breakpad stackwalker

Change-Id: I713797cd623b0a758269048e01696cbce502ca6c
Reviewed-on: https://chromium-review.googlesource.com/c/crashpad/crashpad/+/4581050
Reviewed-by: Joshua Peraza <jperaza@chromium.org>
2023-06-12 21:13:24 +00:00

288 lines
10 KiB
C++

// Copyright 2017 The Crashpad Authors
//
// 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/linux/cpu_context_linux.h"
#include <stddef.h>
#include <string.h>
#include <limits>
#include "base/logging.h"
namespace crashpad {
namespace internal {
#if defined(ARCH_CPU_X86_FAMILY)
#define SET_GPRS32() \
do { \
context->eax = thread_context.eax; \
context->ebx = thread_context.ebx; \
context->ecx = thread_context.ecx; \
context->edx = thread_context.edx; \
context->edi = thread_context.edi; \
context->esi = thread_context.esi; \
context->ebp = thread_context.ebp; \
context->esp = thread_context.esp; \
context->eip = thread_context.eip; \
context->eflags = thread_context.eflags; \
context->cs = thread_context.xcs; \
context->ds = thread_context.xds; \
context->es = thread_context.xes; \
context->fs = thread_context.xfs; \
context->gs = thread_context.xgs; \
context->ss = thread_context.xss; \
} while (false)
void InitializeCPUContextX86(const ThreadContext::t32_t& thread_context,
const FloatContext::f32_t& float_context,
CPUContextX86* context) {
SET_GPRS32();
static_assert(sizeof(context->fxsave) == sizeof(float_context.fxsave),
"fxsave size mismatch");
memcpy(&context->fxsave, &float_context.fxsave, sizeof(context->fxsave));
// TODO(jperaza): debug registers
context->dr0 = 0;
context->dr1 = 0;
context->dr2 = 0;
context->dr3 = 0;
context->dr4 = 0;
context->dr5 = 0;
context->dr6 = 0;
context->dr7 = 0;
}
void InitializeCPUContextX86(const SignalThreadContext32& thread_context,
const SignalFloatContext32& float_context,
CPUContextX86* context) {
InitializeCPUContextX86_NoFloatingPoint(thread_context, context);
CPUContextX86::FsaveToFxsave(float_context.fsave, &context->fxsave);
}
void InitializeCPUContextX86_NoFloatingPoint(
const SignalThreadContext32& thread_context,
CPUContextX86* context) {
SET_GPRS32();
memset(&context->fxsave, 0, sizeof(context->fxsave));
context->dr0 = 0;
context->dr1 = 0;
context->dr2 = 0;
context->dr3 = 0;
context->dr4 = 0;
context->dr5 = 0;
context->dr6 = 0;
context->dr7 = 0;
}
#define SET_GPRS64() \
do { \
context->rax = thread_context.rax; \
context->rbx = thread_context.rbx; \
context->rcx = thread_context.rcx; \
context->rdx = thread_context.rdx; \
context->rdi = thread_context.rdi; \
context->rsi = thread_context.rsi; \
context->rbp = thread_context.rbp; \
context->rsp = thread_context.rsp; \
context->r8 = thread_context.r8; \
context->r9 = thread_context.r9; \
context->r10 = thread_context.r10; \
context->r11 = thread_context.r11; \
context->r12 = thread_context.r12; \
context->r13 = thread_context.r13; \
context->r14 = thread_context.r14; \
context->r15 = thread_context.r15; \
context->rip = thread_context.rip; \
context->rflags = thread_context.eflags; \
context->cs = thread_context.cs; \
context->fs = thread_context.fs; \
context->gs = thread_context.gs; \
} while (false)
void InitializeCPUContextX86_64(const ThreadContext::t64_t& thread_context,
const FloatContext::f64_t& float_context,
CPUContextX86_64* context) {
SET_GPRS64();
static_assert(sizeof(context->fxsave) == sizeof(float_context.fxsave),
"fxsave size mismatch");
memcpy(&context->fxsave, &float_context.fxsave, sizeof(context->fxsave));
// TODO(jperaza): debug registers.
context->dr0 = 0;
context->dr1 = 0;
context->dr2 = 0;
context->dr3 = 0;
context->dr4 = 0;
context->dr5 = 0;
context->dr6 = 0;
context->dr7 = 0;
}
void InitializeCPUContextX86_64(const SignalThreadContext64& thread_context,
const SignalFloatContext64& float_context,
CPUContextX86_64* context) {
SET_GPRS64();
static_assert(
std::is_same<SignalFloatContext64, CPUContextX86_64::Fxsave>::value,
"signal float context has unexpected type");
memcpy(&context->fxsave, &float_context, sizeof(context->fxsave));
context->dr0 = 0;
context->dr1 = 0;
context->dr2 = 0;
context->dr3 = 0;
context->dr4 = 0;
context->dr5 = 0;
context->dr6 = 0;
context->dr7 = 0;
}
void InitializeCPUContextX86_64_NoFloatingPoint(
const SignalThreadContext64& thread_context,
CPUContextX86_64* context) {
SET_GPRS64();
memset(&context->fxsave, 0, sizeof(context->fxsave));
context->dr0 = 0;
context->dr1 = 0;
context->dr2 = 0;
context->dr3 = 0;
context->dr4 = 0;
context->dr5 = 0;
context->dr6 = 0;
context->dr7 = 0;
}
#elif defined(ARCH_CPU_ARM_FAMILY)
void InitializeCPUContextARM(const ThreadContext::t32_t& thread_context,
const FloatContext::f32_t& float_context,
CPUContextARM* context) {
static_assert(sizeof(context->regs) == sizeof(thread_context.regs),
"registers size mismatch");
memcpy(&context->regs, &thread_context.regs, sizeof(context->regs));
context->fp = thread_context.fp;
context->ip = thread_context.ip;
context->sp = thread_context.sp;
context->lr = thread_context.lr;
context->pc = thread_context.pc;
context->cpsr = thread_context.cpsr;
static_assert(sizeof(context->vfp_regs) == sizeof(float_context.vfp),
"vfp size mismatch");
context->have_vfp_regs = float_context.have_vfp;
if (float_context.have_vfp) {
memcpy(&context->vfp_regs, &float_context.vfp, sizeof(context->vfp_regs));
}
static_assert(sizeof(context->fpa_regs) == sizeof(float_context.fpregs),
"fpregs size mismatch");
context->have_fpa_regs = float_context.have_fpregs;
if (float_context.have_fpregs) {
memcpy(
&context->fpa_regs, &float_context.fpregs, sizeof(context->fpa_regs));
}
}
void InitializeCPUContextARM_NoFloatingPoint(
const SignalThreadContext32& thread_context,
CPUContextARM* context) {
static_assert(sizeof(context->regs) == sizeof(thread_context.regs),
"registers size mismatch");
memcpy(&context->regs, &thread_context.regs, sizeof(context->regs));
context->fp = thread_context.fp;
context->ip = thread_context.ip;
context->sp = thread_context.sp;
context->lr = thread_context.lr;
context->pc = thread_context.pc;
context->cpsr = thread_context.cpsr;
memset(&context->fpa_regs, 0, sizeof(context->fpa_regs));
memset(&context->vfp_regs, 0, sizeof(context->vfp_regs));
context->have_fpa_regs = false;
context->have_vfp_regs = false;
}
void InitializeCPUContextARM64(const ThreadContext::t64_t& thread_context,
const FloatContext::f64_t& float_context,
CPUContextARM64* context) {
InitializeCPUContextARM64_NoFloatingPoint(thread_context, context);
static_assert(sizeof(context->fpsimd) == sizeof(float_context.vregs),
"fpsimd context size mismatch");
memcpy(context->fpsimd, float_context.vregs, sizeof(context->fpsimd));
context->fpsr = float_context.fpsr;
context->fpcr = float_context.fpcr;
}
void InitializeCPUContextARM64_NoFloatingPoint(
const ThreadContext::t64_t& thread_context,
CPUContextARM64* context) {
static_assert(sizeof(context->regs) == sizeof(thread_context.regs),
"gpr context size mismtach");
memcpy(context->regs, thread_context.regs, sizeof(context->regs));
context->sp = thread_context.sp;
context->pc = thread_context.pc;
// Linux seems to only be putting the SPSR register in its "pstate" field.
// https://elixir.bootlin.com/linux/latest/source/arch/arm64/include/uapi/asm/ptrace.h
if (thread_context.pstate >
std::numeric_limits<decltype(context->spsr)>::max()) {
LOG(WARNING) << "pstate truncation: we only expect the SPSR bits to be set "
"in the pstate";
}
context->spsr = static_cast<decltype(context->spsr)>(thread_context.pstate);
memset(&context->fpsimd, 0, sizeof(context->fpsimd));
context->fpsr = 0;
context->fpcr = 0;
}
void InitializeCPUContextARM64_OnlyFPSIMD(
const SignalFPSIMDContext& float_context,
CPUContextARM64* context) {
static_assert(sizeof(context->fpsimd) == sizeof(float_context.vregs),
"fpsimd context size mismatch");
memcpy(context->fpsimd, float_context.vregs, sizeof(context->fpsimd));
context->fpsr = float_context.fpsr;
context->fpcr = float_context.fpcr;
}
#elif defined(ARCH_CPU_RISCV64)
void InitializeCPUContextRISCV64(const ThreadContext::t64_t& thread_context,
const FloatContext::f64_t& float_context,
CPUContextRISCV64* context) {
context->pc = thread_context.pc;
static_assert(sizeof(context->regs) == sizeof(thread_context.regs));
memcpy(context->regs, thread_context.regs, sizeof(context->regs));
static_assert(sizeof(context->fpregs) == sizeof(float_context.fpregs));
memcpy(context->fpregs, float_context.fpregs, sizeof(context->fpregs));
context->fcsr = float_context.fcsr;
}
#endif // ARCH_CPU_X86_FAMILY
} // namespace internal
} // namespace crashpad