snapshot/win/cpu_context_win.cc - third_party/crashpad - Git at Google

 // Copyright 2015 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/win/cpu_context_win.h"

 #include <stddef.h>
 #include <stdint.h>
 #include <string.h>

 #include "base/logging.h"
 #include "snapshot/cpu_context.h"

 namespace crashpad {

 namespace {

 // Validation for casts used with CPUContextX86::FsaveToFxsave().
 static_assert(sizeof(CPUContextX86::Fsave) ==
                   offsetof(WOW64_FLOATING_SAVE_AREA, Cr0NpxState),
               "WoW64 fsave types must be equivalent");
 #if defined(ARCH_CPU_X86)
 static_assert(sizeof(CPUContextX86::Fsave) ==
                   offsetof(FLOATING_SAVE_AREA, Spare0),
               "fsave types must be equivalent");
 #endif  // ARCH_CPU_X86

 template <typename T>
 bool HasContextPart(const T& context, uint32_t bits) {
   return (context.ContextFlags & bits) == bits;
 }

 template <class T>
 void CommonInitializeX86Context(const T& context, CPUContextX86* out) {
   // This function assumes that the WOW64_CONTEXT_* and x86 CONTEXT_* values
   // for ContextFlags are identical. This can be tested when targeting 32-bit
   // x86.
 #if defined(ARCH_CPU_X86)
   static_assert(sizeof(CONTEXT) == sizeof(WOW64_CONTEXT),
                 "type mismatch: CONTEXT");
 #define ASSERT_WOW64_EQUIVALENT(x)                        \
   do {                                                    \
     static_assert(x == WOW64_##x, "value mismatch: " #x); \
   } while (false)
   ASSERT_WOW64_EQUIVALENT(CONTEXT_i386);
   ASSERT_WOW64_EQUIVALENT(CONTEXT_i486);
   ASSERT_WOW64_EQUIVALENT(CONTEXT_CONTROL);
   ASSERT_WOW64_EQUIVALENT(CONTEXT_INTEGER);
   ASSERT_WOW64_EQUIVALENT(CONTEXT_SEGMENTS);
   ASSERT_WOW64_EQUIVALENT(CONTEXT_FLOATING_POINT);
   ASSERT_WOW64_EQUIVALENT(CONTEXT_DEBUG_REGISTERS);
   ASSERT_WOW64_EQUIVALENT(CONTEXT_EXTENDED_REGISTERS);
   ASSERT_WOW64_EQUIVALENT(CONTEXT_FULL);
   ASSERT_WOW64_EQUIVALENT(CONTEXT_ALL);
   ASSERT_WOW64_EQUIVALENT(CONTEXT_XSTATE);
 #undef ASSERT_WOW64_EQUIVALENT
 #endif  // ARCH_CPU_X86

   memset(out, 0, sizeof(*out));

   LOG_IF(ERROR, !HasContextPart(context, WOW64_CONTEXT_i386))
       << "non-x86 context";

   if (HasContextPart(context, WOW64_CONTEXT_CONTROL)) {
     out->ebp = context.Ebp;
     out->eip = context.Eip;
     out->cs = static_cast<uint16_t>(context.SegCs);
     out->eflags = context.EFlags;
     out->esp = context.Esp;
     out->ss = static_cast<uint16_t>(context.SegSs);
   }

   if (HasContextPart(context, WOW64_CONTEXT_INTEGER)) {
     out->eax = context.Eax;
     out->ebx = context.Ebx;
     out->ecx = context.Ecx;
     out->edx = context.Edx;
     out->edi = context.Edi;
     out->esi = context.Esi;
   }

   if (HasContextPart(context, WOW64_CONTEXT_SEGMENTS)) {
     out->ds = static_cast<uint16_t>(context.SegDs);
     out->es = static_cast<uint16_t>(context.SegEs);
     out->fs = static_cast<uint16_t>(context.SegFs);
     out->gs = static_cast<uint16_t>(context.SegGs);
   }

   if (HasContextPart(context, WOW64_CONTEXT_DEBUG_REGISTERS)) {
     out->dr0 = context.Dr0;
     out->dr1 = context.Dr1;
     out->dr2 = context.Dr2;
     out->dr3 = context.Dr3;

     // DR4 and DR5 are obsolete synonyms for DR6 and DR7, see
     // https://en.wikipedia.org/wiki/X86_debug_register.
     out->dr4 = context.Dr6;
     out->dr5 = context.Dr7;

     out->dr6 = context.Dr6;
     out->dr7 = context.Dr7;
   }

   if (HasContextPart(context, WOW64_CONTEXT_EXTENDED_REGISTERS)) {
     static_assert(sizeof(out->fxsave) == sizeof(context.ExtendedRegisters),
                   "fxsave types must be equivalent");
     memcpy(&out->fxsave, &context.ExtendedRegisters, sizeof(out->fxsave));
   } else if (HasContextPart(context, WOW64_CONTEXT_FLOATING_POINT)) {
     // The static_assert that validates this cast can’t be here because it
     // relies on field names that vary based on the template parameter.
     CPUContextX86::FsaveToFxsave(
         *reinterpret_cast<const CPUContextX86::Fsave*>(&context.FloatSave),
         &out->fxsave);
   }
 }

 }  // namespace

 #if defined(ARCH_CPU_X86)

 void InitializeX86Context(const CONTEXT& context, CPUContextX86* out) {
   CommonInitializeX86Context(context, out);
 }

 #elif defined(ARCH_CPU_X86_64)

 void InitializeX86Context(const WOW64_CONTEXT& context, CPUContextX86* out) {
   CommonInitializeX86Context(context, out);
 }

 void InitializeX64Context(const CONTEXT& context, CPUContextX86_64* out) {
   memset(out, 0, sizeof(*out));

   LOG_IF(ERROR, !HasContextPart(context, CONTEXT_AMD64)) << "non-x64 context";

   if (HasContextPart(context, CONTEXT_CONTROL)) {
     out->cs = context.SegCs;
     out->rflags = context.EFlags;
     out->rip = context.Rip;
     out->rsp = context.Rsp;
     // SegSs ignored.
   }

   if (HasContextPart(context, CONTEXT_INTEGER)) {
     out->rax = context.Rax;
     out->rbx = context.Rbx;
     out->rcx = context.Rcx;
     out->rdx = context.Rdx;
     out->rdi = context.Rdi;
     out->rsi = context.Rsi;
     out->rbp = context.Rbp;
     out->r8 = context.R8;
     out->r9 = context.R9;
     out->r10 = context.R10;
     out->r11 = context.R11;
     out->r12 = context.R12;
     out->r13 = context.R13;
     out->r14 = context.R14;
     out->r15 = context.R15;
   }

   if (HasContextPart(context, CONTEXT_SEGMENTS)) {
     out->fs = context.SegFs;
     out->gs = context.SegGs;
     // SegDs ignored.
     // SegEs ignored.
   }

   if (HasContextPart(context, CONTEXT_DEBUG_REGISTERS)) {
     out->dr0 = context.Dr0;
     out->dr1 = context.Dr1;
     out->dr2 = context.Dr2;
     out->dr3 = context.Dr3;

     // DR4 and DR5 are obsolete synonyms for DR6 and DR7, see
     // https://en.wikipedia.org/wiki/X86_debug_register.
     out->dr4 = context.Dr6;
     out->dr5 = context.Dr7;

     out->dr6 = context.Dr6;
     out->dr7 = context.Dr7;
   }

   if (HasContextPart(context, CONTEXT_FLOATING_POINT)) {
     static_assert(sizeof(out->fxsave) == sizeof(context.FltSave),
                   "types must be equivalent");
     memcpy(&out->fxsave, &context.FltSave, sizeof(out->fxsave));
   }
 }

 #elif defined(ARCH_CPU_ARM64)

 void InitializeARM64Context(const CONTEXT& context, CPUContextARM64* out) {
   memset(out, 0, sizeof(*out));

   LOG_IF(ERROR, !HasContextPart(context, CONTEXT_ARM64)) << "non-arm64 context";

   if (HasContextPart(context, CONTEXT_CONTROL)) {
     out->spsr = context.Cpsr;
     out->pc = context.Pc;
     out->regs[30] = context.Lr;
     out->sp = context.Sp;
     out->regs[29] = context.Fp;
   }

   if (HasContextPart(context, CONTEXT_INTEGER)) {
     memcpy(&out->regs[0], &context.X0, 18 * sizeof(context.X0));
     // Don't copy x18 which is reserved as platform register.
     memcpy(&out->regs[19], &context.X19, 10 * sizeof(context.X0));
   }

   if (HasContextPart(context, CONTEXT_FLOATING_POINT)) {
     static_assert(sizeof(out->fpsimd) == sizeof(context.V),
                   "types must be equivalent");
     memcpy(&out->fpsimd, &context.V, sizeof(out->fpsimd));
   }
 }

 #else
 #error Unsupported Windows Arch
 #endif  // ARCH_CPU_X86

 }  // namespace crashpad
	// Copyright 2015 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/win/cpu_context_win.h"

	#include <stddef.h>
	#include <stdint.h>
	#include <string.h>

	#include "base/logging.h"
	#include "snapshot/cpu_context.h"

	namespace crashpad {

	namespace {

	// Validation for casts used with CPUContextX86::FsaveToFxsave().
	static_assert(sizeof(CPUContextX86::Fsave) ==
	offsetof(WOW64_FLOATING_SAVE_AREA, Cr0NpxState),
	"WoW64 fsave types must be equivalent");
	#if defined(ARCH_CPU_X86)
	static_assert(sizeof(CPUContextX86::Fsave) ==
	offsetof(FLOATING_SAVE_AREA, Spare0),
	"fsave types must be equivalent");
	#endif // ARCH_CPU_X86

	template <typename T>
	bool HasContextPart(const T& context, uint32_t bits) {
	return (context.ContextFlags & bits) == bits;
	}

	template <class T>
	void CommonInitializeX86Context(const T& context, CPUContextX86* out) {
	// This function assumes that the WOW64_CONTEXT_* and x86 CONTEXT_* values
	// for ContextFlags are identical. This can be tested when targeting 32-bit
	// x86.
	#if defined(ARCH_CPU_X86)
	static_assert(sizeof(CONTEXT) == sizeof(WOW64_CONTEXT),
	"type mismatch: CONTEXT");
	#define ASSERT_WOW64_EQUIVALENT(x) \
	do { \
	static_assert(x == WOW64_##x, "value mismatch: " #x); \
	} while (false)
	ASSERT_WOW64_EQUIVALENT(CONTEXT_i386);
	ASSERT_WOW64_EQUIVALENT(CONTEXT_i486);
	ASSERT_WOW64_EQUIVALENT(CONTEXT_CONTROL);
	ASSERT_WOW64_EQUIVALENT(CONTEXT_INTEGER);
	ASSERT_WOW64_EQUIVALENT(CONTEXT_SEGMENTS);
	ASSERT_WOW64_EQUIVALENT(CONTEXT_FLOATING_POINT);
	ASSERT_WOW64_EQUIVALENT(CONTEXT_DEBUG_REGISTERS);
	ASSERT_WOW64_EQUIVALENT(CONTEXT_EXTENDED_REGISTERS);
	ASSERT_WOW64_EQUIVALENT(CONTEXT_FULL);
	ASSERT_WOW64_EQUIVALENT(CONTEXT_ALL);
	ASSERT_WOW64_EQUIVALENT(CONTEXT_XSTATE);
	#undef ASSERT_WOW64_EQUIVALENT
	#endif // ARCH_CPU_X86

	memset(out, 0, sizeof(*out));

	LOG_IF(ERROR, !HasContextPart(context, WOW64_CONTEXT_i386))
	<< "non-x86 context";

	if (HasContextPart(context, WOW64_CONTEXT_CONTROL)) {
	out->ebp = context.Ebp;
	out->eip = context.Eip;
	out->cs = static_cast<uint16_t>(context.SegCs);
	out->eflags = context.EFlags;
	out->esp = context.Esp;
	out->ss = static_cast<uint16_t>(context.SegSs);
	}

	if (HasContextPart(context, WOW64_CONTEXT_INTEGER)) {
	out->eax = context.Eax;
	out->ebx = context.Ebx;
	out->ecx = context.Ecx;
	out->edx = context.Edx;
	out->edi = context.Edi;
	out->esi = context.Esi;
	}

	if (HasContextPart(context, WOW64_CONTEXT_SEGMENTS)) {
	out->ds = static_cast<uint16_t>(context.SegDs);
	out->es = static_cast<uint16_t>(context.SegEs);
	out->fs = static_cast<uint16_t>(context.SegFs);
	out->gs = static_cast<uint16_t>(context.SegGs);
	}

	if (HasContextPart(context, WOW64_CONTEXT_DEBUG_REGISTERS)) {
	out->dr0 = context.Dr0;
	out->dr1 = context.Dr1;
	out->dr2 = context.Dr2;
	out->dr3 = context.Dr3;

	// DR4 and DR5 are obsolete synonyms for DR6 and DR7, see
	// https://en.wikipedia.org/wiki/X86_debug_register.
	out->dr4 = context.Dr6;
	out->dr5 = context.Dr7;

	out->dr6 = context.Dr6;
	out->dr7 = context.Dr7;
	}

	if (HasContextPart(context, WOW64_CONTEXT_EXTENDED_REGISTERS)) {
	static_assert(sizeof(out->fxsave) == sizeof(context.ExtendedRegisters),
	"fxsave types must be equivalent");
	memcpy(&out->fxsave, &context.ExtendedRegisters, sizeof(out->fxsave));
	} else if (HasContextPart(context, WOW64_CONTEXT_FLOATING_POINT)) {
	// The static_assert that validates this cast can’t be here because it
	// relies on field names that vary based on the template parameter.
	CPUContextX86::FsaveToFxsave(
	reinterpret_cast<const CPUContextX86::Fsave>(&context.FloatSave),
	&out->fxsave);
	}
	}

	} // namespace

	#if defined(ARCH_CPU_X86)

	void InitializeX86Context(const CONTEXT& context, CPUContextX86* out) {
	CommonInitializeX86Context(context, out);
	}

	#elif defined(ARCH_CPU_X86_64)

	void InitializeX86Context(const WOW64_CONTEXT& context, CPUContextX86* out) {
	CommonInitializeX86Context(context, out);
	}

	void InitializeX64Context(const CONTEXT& context, CPUContextX86_64* out) {
	memset(out, 0, sizeof(*out));

	LOG_IF(ERROR, !HasContextPart(context, CONTEXT_AMD64)) << "non-x64 context";

	if (HasContextPart(context, CONTEXT_CONTROL)) {
	out->cs = context.SegCs;
	out->rflags = context.EFlags;
	out->rip = context.Rip;
	out->rsp = context.Rsp;
	// SegSs ignored.
	}

	if (HasContextPart(context, CONTEXT_INTEGER)) {
	out->rax = context.Rax;
	out->rbx = context.Rbx;
	out->rcx = context.Rcx;
	out->rdx = context.Rdx;
	out->rdi = context.Rdi;
	out->rsi = context.Rsi;
	out->rbp = context.Rbp;
	out->r8 = context.R8;
	out->r9 = context.R9;
	out->r10 = context.R10;
	out->r11 = context.R11;
	out->r12 = context.R12;
	out->r13 = context.R13;
	out->r14 = context.R14;
	out->r15 = context.R15;
	}

	if (HasContextPart(context, CONTEXT_SEGMENTS)) {
	out->fs = context.SegFs;
	out->gs = context.SegGs;
	// SegDs ignored.
	// SegEs ignored.
	}

	if (HasContextPart(context, CONTEXT_DEBUG_REGISTERS)) {
	out->dr0 = context.Dr0;
	out->dr1 = context.Dr1;
	out->dr2 = context.Dr2;
	out->dr3 = context.Dr3;

	// DR4 and DR5 are obsolete synonyms for DR6 and DR7, see
	// https://en.wikipedia.org/wiki/X86_debug_register.
	out->dr4 = context.Dr6;
	out->dr5 = context.Dr7;

	out->dr6 = context.Dr6;
	out->dr7 = context.Dr7;
	}

	if (HasContextPart(context, CONTEXT_FLOATING_POINT)) {
	static_assert(sizeof(out->fxsave) == sizeof(context.FltSave),
	"types must be equivalent");
	memcpy(&out->fxsave, &context.FltSave, sizeof(out->fxsave));
	}
	}

	#elif defined(ARCH_CPU_ARM64)

	void InitializeARM64Context(const CONTEXT& context, CPUContextARM64* out) {
	memset(out, 0, sizeof(*out));

	LOG_IF(ERROR, !HasContextPart(context, CONTEXT_ARM64)) << "non-arm64 context";

	if (HasContextPart(context, CONTEXT_CONTROL)) {
	out->spsr = context.Cpsr;
	out->pc = context.Pc;
	out->regs[30] = context.Lr;
	out->sp = context.Sp;
	out->regs[29] = context.Fp;
	}

	if (HasContextPart(context, CONTEXT_INTEGER)) {
	memcpy(&out->regs[0], &context.X0, 18 * sizeof(context.X0));
	// Don't copy x18 which is reserved as platform register.
	memcpy(&out->regs[19], &context.X19, 10 * sizeof(context.X0));
	}

	if (HasContextPart(context, CONTEXT_FLOATING_POINT)) {
	static_assert(sizeof(out->fpsimd) == sizeof(context.V),
	"types must be equivalent");
	memcpy(&out->fpsimd, &context.V, sizeof(out->fpsimd));
	}
	}

	#else
	#error Unsupported Windows Arch
	#endif // ARCH_CPU_X86

	} // namespace crashpad