src/trap-handler/handler-inside-win.cc - v8/v8 - Git at Google

 // Copyright 2018 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 // PLEASE READ BEFORE CHANGING THIS FILE!
 //
 // This file implements the out of bounds trap handler for
 // WebAssembly. Exception handlers are notoriously difficult to get
 // right, and getting it wrong can lead to security
 // vulnerabilities. In order to minimize this risk, here are some
 // rules to follow.
 //
 // 1. Do not introduce any new external dependencies. This file needs
 //    to be self contained so it is easy to audit everything that a
 //    trap handler might do.
 //
 // 2. Any changes must be reviewed by someone from the crash reporting
 //    or security team. See OWNERS for suggested reviewers.
 //
 // For more information, see https://goo.gl/yMeyUY.
 //
 // This file contains most of the code that actually runs in an exception
 // handler context. Some additional code is used both inside and outside the
 // trap handler. This code can be found in handler-shared.cc.

 #include "src/trap-handler/handler-inside-win.h"

 #include <windows.h>

 #include "src/trap-handler/trap-handler-internal.h"
 #include "src/trap-handler/trap-handler.h"

 namespace v8 {
 namespace internal {
 namespace trap_handler {

 // The below struct needed to access the offset in the Thread Environment Block
 // to see if the thread local storage for the thread has been allocated yet.
 //
 // The ThreadLocalStorage pointer is located 12 pointers into the TEB (i.e. at
 // offset 0x58 for 64-bit platforms, and 0x2c for 32-bit platforms). This is
 // true for x64, x86, ARM, and ARM64 platforms (see the header files in the SDK
 // named ksamd64.inc, ks386.inc, ksarm.h, and ksarm64.h respectively).
 //
 // These offsets are baked into compiled binaries, so can never be changed for
 // backwards compatibility reasons.
 struct TEB {
   PVOID reserved[11];
   PVOID thread_local_storage_pointer;
 };

 bool TryHandleWasmTrap(EXCEPTION_POINTERS* exception) {
   // VectoredExceptionHandlers need extreme caution. Do as little as possible
   // to determine if the exception should be handled or not. Exceptions can be
   // thrown very early in a threads life, before the thread has even completed
   // initializing. As a demonstrative example, there was a bug (#8966) where an
   // exception would be raised before the thread local copy of the
   // "__declspec(thread)" variables had been allocated, the handler tried to
   // access the thread-local "g_thread_in_wasm_code", which would then raise
   // another exception, and an infinite loop ensued.

   // First ensure this is an exception type of interest
   if (exception->ExceptionRecord->ExceptionCode != EXCEPTION_ACCESS_VIOLATION) {
     return false;
   }

   // See if thread-local storage for __declspec(thread) variables has been
   // allocated yet. This pointer is initially null in the TEB until the
   // loader has completed allocating the memory for thread_local variables
   // and copy constructed their initial values. (Note: Any functions that
   // need to run to initialize values may not have run yet, but that is not
   // the case for any thread_locals used here).
   TEB* pteb = reinterpret_cast<TEB*>(NtCurrentTeb());
   if (!pteb->thread_local_storage_pointer) {
     return false;
   }

   // Now safe to run more advanced logic, which may access thread_locals
   // Ensure the faulting thread was actually running Wasm code.
   if (!IsThreadInWasm()) {
     return false;
   }

   // Clear g_thread_in_wasm_code, primarily to protect against nested faults.
   g_thread_in_wasm_code = false;

   const EXCEPTION_RECORD* record = exception->ExceptionRecord;

   uintptr_t fault_addr = reinterpret_cast<uintptr_t>(record->ExceptionAddress);
   uintptr_t landing_pad = 0;

   if (TryFindLandingPad(fault_addr, &landing_pad)) {
     exception->ContextRecord->Rip = landing_pad;
     // We will return to wasm code, so restore the g_thread_in_wasm_code flag.
     g_thread_in_wasm_code = true;
     return true;
   }

   // If we get here, it's not a recoverable wasm fault, so we go to the next
   // handler. Leave the g_thread_in_wasm_code flag unset since we do not return
   // to wasm code.
   return false;
 }

 LONG HandleWasmTrap(EXCEPTION_POINTERS* exception) {
   if (TryHandleWasmTrap(exception)) {
     return EXCEPTION_CONTINUE_EXECUTION;
   }
   return EXCEPTION_CONTINUE_SEARCH;
 }

 }  // namespace trap_handler
 }  // namespace internal
 }  // namespace v8
	// Copyright 2018 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	// PLEASE READ BEFORE CHANGING THIS FILE!
	//
	// This file implements the out of bounds trap handler for
	// WebAssembly. Exception handlers are notoriously difficult to get
	// right, and getting it wrong can lead to security
	// vulnerabilities. In order to minimize this risk, here are some
	// rules to follow.
	//
	// 1. Do not introduce any new external dependencies. This file needs
	// to be self contained so it is easy to audit everything that a
	// trap handler might do.
	//
	// 2. Any changes must be reviewed by someone from the crash reporting
	// or security team. See OWNERS for suggested reviewers.
	//
	// For more information, see https://goo.gl/yMeyUY.
	//
	// This file contains most of the code that actually runs in an exception
	// handler context. Some additional code is used both inside and outside the
	// trap handler. This code can be found in handler-shared.cc.

	#include "src/trap-handler/handler-inside-win.h"

	#include <windows.h>

	#include "src/trap-handler/trap-handler-internal.h"
	#include "src/trap-handler/trap-handler.h"

	namespace v8 {
	namespace internal {
	namespace trap_handler {

	// The below struct needed to access the offset in the Thread Environment Block
	// to see if the thread local storage for the thread has been allocated yet.
	//
	// The ThreadLocalStorage pointer is located 12 pointers into the TEB (i.e. at
	// offset 0x58 for 64-bit platforms, and 0x2c for 32-bit platforms). This is
	// true for x64, x86, ARM, and ARM64 platforms (see the header files in the SDK
	// named ksamd64.inc, ks386.inc, ksarm.h, and ksarm64.h respectively).
	//
	// These offsets are baked into compiled binaries, so can never be changed for
	// backwards compatibility reasons.
	struct TEB {
	PVOID reserved[11];
	PVOID thread_local_storage_pointer;
	};

	bool TryHandleWasmTrap(EXCEPTION_POINTERS* exception) {
	// VectoredExceptionHandlers need extreme caution. Do as little as possible
	// to determine if the exception should be handled or not. Exceptions can be
	// thrown very early in a threads life, before the thread has even completed
	// initializing. As a demonstrative example, there was a bug (#8966) where an
	// exception would be raised before the thread local copy of the
	// "__declspec(thread)" variables had been allocated, the handler tried to
	// access the thread-local "g_thread_in_wasm_code", which would then raise
	// another exception, and an infinite loop ensued.

	// First ensure this is an exception type of interest
	if (exception->ExceptionRecord->ExceptionCode != EXCEPTION_ACCESS_VIOLATION) {
	return false;
	}

	// See if thread-local storage for __declspec(thread) variables has been
	// allocated yet. This pointer is initially null in the TEB until the
	// loader has completed allocating the memory for thread_local variables
	// and copy constructed their initial values. (Note: Any functions that
	// need to run to initialize values may not have run yet, but that is not
	// the case for any thread_locals used here).
	TEB* pteb = reinterpret_cast<TEB*>(NtCurrentTeb());
	if (!pteb->thread_local_storage_pointer) {
	return false;
	}

	// Now safe to run more advanced logic, which may access thread_locals
	// Ensure the faulting thread was actually running Wasm code.
	if (!IsThreadInWasm()) {
	return false;
	}

	// Clear g_thread_in_wasm_code, primarily to protect against nested faults.
	g_thread_in_wasm_code = false;

	const EXCEPTION_RECORD* record = exception->ExceptionRecord;

	uintptr_t fault_addr = reinterpret_cast<uintptr_t>(record->ExceptionAddress);
	uintptr_t landing_pad = 0;

	if (TryFindLandingPad(fault_addr, &landing_pad)) {
	exception->ContextRecord->Rip = landing_pad;
	// We will return to wasm code, so restore the g_thread_in_wasm_code flag.
	g_thread_in_wasm_code = true;
	return true;
	}

	// If we get here, it's not a recoverable wasm fault, so we go to the next
	// handler. Leave the g_thread_in_wasm_code flag unset since we do not return
	// to wasm code.
	return false;
	}

	LONG HandleWasmTrap(EXCEPTION_POINTERS* exception) {
	if (TryHandleWasmTrap(exception)) {
	return EXCEPTION_CONTINUE_EXECUTION;
	}
	return EXCEPTION_CONTINUE_SEARCH;
	}

	} // namespace trap_handler
	} // namespace internal
	} // namespace v8