Source/WebCore/contentextensions/DFABytecodeInterpreter.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2015 Apple Inc. All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
  * THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
  * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
  * THE POSSIBILITY OF SUCH DAMAGE.
  */

 #include "config.h"
 #include "DFABytecodeInterpreter.h"

 #include "ContentExtensionsDebugging.h"
 #include <wtf/text/CString.h>

 #if ENABLE(CONTENT_EXTENSIONS)

 namespace WebCore {

 namespace ContentExtensions {

 template <typename IntType>
 static inline IntType getBits(const DFABytecode* bytecode, uint32_t bytecodeLength, uint32_t index)
 {
     ASSERT_UNUSED(bytecodeLength, index + sizeof(IntType) <= bytecodeLength);
     return *reinterpret_cast<const IntType*>(&bytecode[index]);
 }

 static inline DFABytecodeInstruction getInstruction(const DFABytecode* bytecode, uint32_t bytecodeLength, uint32_t index)
 {
     return static_cast<DFABytecodeInstruction>(getBits<uint8_t>(bytecode, bytecodeLength, index) & DFABytecodeInstructionMask);
 }

 static inline size_t jumpSizeInBytes(DFABytecodeJumpSize jumpSize)
 {
     switch (jumpSize) {
     case Int8:
         return sizeof(int8_t);
     case Int16:
         return sizeof(int16_t);
     case Int24:
         return sizeof(uint16_t) + sizeof(int8_t);
     case Int32:
         return sizeof(int32_t);
     default:
         RELEASE_ASSERT_NOT_REACHED();
     }
 }

 static inline DFABytecodeJumpSize getJumpSize(const DFABytecode* bytecode, uint32_t bytecodeLength, uint32_t index)
 {
     DFABytecodeJumpSize jumpSize = static_cast<DFABytecodeJumpSize>(getBits<uint8_t>(bytecode, bytecodeLength, index) & DFABytecodeJumpSizeMask);
     ASSERT(jumpSize == DFABytecodeJumpSize::Int32 || jumpSize == DFABytecodeJumpSize::Int24 || jumpSize == DFABytecodeJumpSize::Int16 || jumpSize == DFABytecodeJumpSize::Int8);
     return jumpSize;
 }

 static inline int32_t getJumpDistance(const DFABytecode* bytecode, uint32_t bytecodeLength, uint32_t index, DFABytecodeJumpSize jumpSize)
 {
     switch (jumpSize) {
     case Int8:
         return getBits<int8_t>(bytecode, bytecodeLength, index);
     case Int16:
         return getBits<int16_t>(bytecode, bytecodeLength, index);
     case Int24:
         return getBits<uint16_t>(bytecode, bytecodeLength, index) | (static_cast<int32_t>(getBits<int8_t>(bytecode, bytecodeLength, index + sizeof(uint16_t))) << 16);
     case Int32:
         return getBits<int32_t>(bytecode, bytecodeLength, index);
     default:
         RELEASE_ASSERT_NOT_REACHED();
     }
 }

 static inline bool matchesCondition(uint64_t actionAndFlags, const DFABytecodeInterpreter::Actions& conditionActions)
 {
     bool ifCondition = actionAndFlags & IfConditionFlag;
     bool condition = conditionActions.contains(actionAndFlags);
     return ifCondition == condition;
 }

 void DFABytecodeInterpreter::interpretAppendAction(uint32_t& programCounter, Actions& actions, bool ifCondition)
 {
     ASSERT(getInstruction(m_bytecode, m_bytecodeLength, programCounter) == DFABytecodeInstruction::AppendAction
         || getInstruction(m_bytecode, m_bytecodeLength, programCounter) == DFABytecodeInstruction::AppendActionWithIfCondition);
     uint64_t action = (ifCondition ? IfConditionFlag : 0) | static_cast<uint64_t>(getBits<uint32_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction)));
     if (!m_topURLActions || matchesCondition(action, *m_topURLActions))
         actions.add(action);

     programCounter += instructionSizeWithArguments(DFABytecodeInstruction::AppendAction);
     ASSERT(instructionSizeWithArguments(DFABytecodeInstruction::AppendAction) == instructionSizeWithArguments(DFABytecodeInstruction::AppendActionWithIfCondition));
 }

 void DFABytecodeInterpreter::interpretTestFlagsAndAppendAction(uint32_t& programCounter, uint16_t flags, Actions& actions, bool ifCondition)
 {
     ASSERT(getInstruction(m_bytecode, m_bytecodeLength, programCounter) == DFABytecodeInstruction::TestFlagsAndAppendAction
         || getInstruction(m_bytecode, m_bytecodeLength, programCounter) == DFABytecodeInstruction::TestFlagsAndAppendActionWithIfCondition);
     uint16_t flagsToCheck = getBits<uint16_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction));

     uint16_t loadTypeFlags = flagsToCheck & LoadTypeMask;
     uint16_t resourceTypeFlags = flagsToCheck & ResourceTypeMask;

     bool loadTypeMatches = loadTypeFlags ? (loadTypeFlags & flags) : true;
     bool resourceTypeMatches = resourceTypeFlags ? (resourceTypeFlags & flags) : true;

     if (loadTypeMatches && resourceTypeMatches) {
         uint64_t actionAndFlags = (ifCondition ? IfConditionFlag : 0) | (static_cast<uint64_t>(flagsToCheck) << 32) | static_cast<uint64_t>(getBits<uint32_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction) + sizeof(uint16_t)));
         if (!m_topURLActions || matchesCondition(actionAndFlags, *m_topURLActions))
             actions.add(actionAndFlags);
     }
     programCounter += instructionSizeWithArguments(DFABytecodeInstruction::TestFlagsAndAppendAction);
     ASSERT(instructionSizeWithArguments(DFABytecodeInstruction::TestFlagsAndAppendAction) == instructionSizeWithArguments(DFABytecodeInstruction::TestFlagsAndAppendActionWithIfCondition));
 }

 template<bool caseSensitive>
 inline void DFABytecodeInterpreter::interpetJumpTable(const char* url, uint32_t& urlIndex, uint32_t& programCounter, bool& urlIndexIsAfterEndOfString)
 {
     DFABytecodeJumpSize jumpSize = getJumpSize(m_bytecode, m_bytecodeLength, programCounter);

     char character = caseSensitive ? url[urlIndex] : toASCIILower(url[urlIndex]);
     uint8_t firstCharacter = getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction));
     uint8_t lastCharacter = getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction) + sizeof(uint8_t));
     if (character >= firstCharacter && character <= lastCharacter) {
         uint32_t startOffset = programCounter + sizeof(DFABytecodeInstruction) + 2 * sizeof(uint8_t);
         uint32_t jumpLocation = startOffset + (character - firstCharacter) * jumpSizeInBytes(jumpSize);
         programCounter += getJumpDistance(m_bytecode, m_bytecodeLength, jumpLocation, jumpSize);
         if (!character)
             urlIndexIsAfterEndOfString = true;
         urlIndex++; // This represents an edge in the DFA.
     } else
         programCounter += sizeof(DFABytecodeInstruction) + 2 * sizeof(uint8_t) + jumpSizeInBytes(jumpSize) * (lastCharacter - firstCharacter + 1);
 }

 DFABytecodeInterpreter::Actions DFABytecodeInterpreter::actionsMatchingEverything()
 {
     Actions actions;

     // DFA header.
     uint32_t dfaBytecodeLength = getBits<uint32_t>(m_bytecode, m_bytecodeLength, 0);
     uint32_t programCounter = sizeof(uint32_t);

     while (programCounter < dfaBytecodeLength) {
         DFABytecodeInstruction instruction = getInstruction(m_bytecode, m_bytecodeLength, programCounter);
         if (instruction == DFABytecodeInstruction::AppendAction)
             interpretAppendAction(programCounter, actions, false);
         else if (instruction == DFABytecodeInstruction::AppendActionWithIfCondition)
             interpretAppendAction(programCounter, actions, true);
         else if (instruction == DFABytecodeInstruction::TestFlagsAndAppendAction)
             programCounter += instructionSizeWithArguments(DFABytecodeInstruction::TestFlagsAndAppendAction);
         else if (instruction == DFABytecodeInstruction::TestFlagsAndAppendActionWithIfCondition)
             programCounter += instructionSizeWithArguments(DFABytecodeInstruction::TestFlagsAndAppendActionWithIfCondition);
         else
             break;
     }
     return actions;
 }

 DFABytecodeInterpreter::Actions DFABytecodeInterpreter::interpretWithConditions(const CString& urlCString, uint16_t flags, const DFABytecodeInterpreter::Actions& topURLActions)
 {
     ASSERT(!m_topURLActions);
     m_topURLActions = &topURLActions;
     DFABytecodeInterpreter::Actions actions = interpret(urlCString, flags);
     m_topURLActions = nullptr;
     return actions;
 }

 DFABytecodeInterpreter::Actions DFABytecodeInterpreter::interpret(const CString& urlCString, uint16_t flags)
 {
     const char* url = urlCString.data();
     ASSERT(url);

     Actions actions;

     uint32_t programCounter = 0;
     while (programCounter < m_bytecodeLength) {

         // DFA header.
         uint32_t dfaStart = programCounter;
         uint32_t dfaBytecodeLength = getBits<uint32_t>(m_bytecode, m_bytecodeLength, programCounter);
         programCounter += sizeof(uint32_t);

         // Skip the actions without flags on the DFA root. These are accessed via actionsMatchingEverything.
         if (!dfaStart) {
             while (programCounter < dfaBytecodeLength) {
                 DFABytecodeInstruction instruction = getInstruction(m_bytecode, m_bytecodeLength, programCounter);
                 if (instruction == DFABytecodeInstruction::AppendAction)
                     programCounter += instructionSizeWithArguments(DFABytecodeInstruction::AppendAction);
                 else if (instruction == DFABytecodeInstruction::AppendActionWithIfCondition)
                     programCounter += instructionSizeWithArguments(DFABytecodeInstruction::AppendActionWithIfCondition);
                 else if (instruction == DFABytecodeInstruction::TestFlagsAndAppendAction)
                     interpretTestFlagsAndAppendAction(programCounter, flags, actions, false);
                 else if (instruction == DFABytecodeInstruction::TestFlagsAndAppendActionWithIfCondition)
                     interpretTestFlagsAndAppendAction(programCounter, flags, actions, true);
                 else
                     break;
             }
             if (programCounter >= m_bytecodeLength)
                 return actions;
         } else {
             ASSERT_WITH_MESSAGE(getInstruction(m_bytecode, m_bytecodeLength, programCounter) != DFABytecodeInstruction::AppendAction
                 && getInstruction(m_bytecode, m_bytecodeLength, programCounter) != DFABytecodeInstruction::AppendActionWithIfCondition
                 && getInstruction(m_bytecode, m_bytecodeLength, programCounter) != DFABytecodeInstruction::TestFlagsAndAppendAction
                 && getInstruction(m_bytecode, m_bytecodeLength, programCounter) != DFABytecodeInstruction::TestFlagsAndAppendActionWithIfCondition,
                 "Triggers that match everything should only be in the first DFA.");
         }

         // Interpret the bytecode from this DFA.
         // This should always terminate if interpreting correctly compiled bytecode.
         uint32_t urlIndex = 0;
         bool urlIndexIsAfterEndOfString = false;
         while (true) {
             ASSERT(programCounter <= m_bytecodeLength);
             switch (getInstruction(m_bytecode, m_bytecodeLength, programCounter)) {

             case DFABytecodeInstruction::Terminate:
                 goto nextDFA;

             case DFABytecodeInstruction::CheckValueCaseSensitive: {
                 if (urlIndexIsAfterEndOfString)
                     goto nextDFA;

                 // Check to see if the next character in the url is the value stored with the bytecode.
                 char character = url[urlIndex];
                 DFABytecodeJumpSize jumpSize = getJumpSize(m_bytecode, m_bytecodeLength, programCounter);
                 if (character == getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction))) {
                     uint32_t jumpLocation = programCounter + sizeof(DFABytecodeInstruction) + sizeof(uint8_t);
                     programCounter += getJumpDistance(m_bytecode, m_bytecodeLength, jumpLocation, jumpSize);
                     if (!character)
                         urlIndexIsAfterEndOfString = true;
                     urlIndex++; // This represents an edge in the DFA.
                 } else
                     programCounter += sizeof(DFABytecodeInstruction) + sizeof(uint8_t) + jumpSizeInBytes(jumpSize);
                 break;
             }

             case DFABytecodeInstruction::CheckValueCaseInsensitive: {
                 if (urlIndexIsAfterEndOfString)
                     goto nextDFA;

                 // Check to see if the next character in the url is the value stored with the bytecode.
                 char character = toASCIILower(url[urlIndex]);
                 DFABytecodeJumpSize jumpSize = getJumpSize(m_bytecode, m_bytecodeLength, programCounter);
                 if (character == getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction))) {
                     uint32_t jumpLocation = programCounter + sizeof(DFABytecodeInstruction) + sizeof(uint8_t);
                     programCounter += getJumpDistance(m_bytecode, m_bytecodeLength, jumpLocation, jumpSize);
                     if (!character)
                         urlIndexIsAfterEndOfString = true;
                     urlIndex++; // This represents an edge in the DFA.
                 } else
                     programCounter += sizeof(DFABytecodeInstruction) + sizeof(uint8_t) + jumpSizeInBytes(jumpSize);
                 break;
             }

             case DFABytecodeInstruction::JumpTableCaseInsensitive:
                 if (urlIndexIsAfterEndOfString)
                     goto nextDFA;

                 interpetJumpTable<false>(url, urlIndex, programCounter, urlIndexIsAfterEndOfString);
                 break;
             case DFABytecodeInstruction::JumpTableCaseSensitive:
                 if (urlIndexIsAfterEndOfString)
                     goto nextDFA;

                 interpetJumpTable<true>(url, urlIndex, programCounter, urlIndexIsAfterEndOfString);
                 break;

             case DFABytecodeInstruction::CheckValueRangeCaseSensitive: {
                 if (urlIndexIsAfterEndOfString)
                     goto nextDFA;

                 char character = url[urlIndex];
                 DFABytecodeJumpSize jumpSize = getJumpSize(m_bytecode, m_bytecodeLength, programCounter);
                 if (character >= getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction))
                     && character <= getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction) + sizeof(uint8_t))) {
                     uint32_t jumpLocation = programCounter + sizeof(DFABytecodeInstruction) + 2 * sizeof(uint8_t);
                     programCounter += getJumpDistance(m_bytecode, m_bytecodeLength, jumpLocation, jumpSize);
                     if (!character)
                         urlIndexIsAfterEndOfString = true;
                     urlIndex++; // This represents an edge in the DFA.
                 } else
                     programCounter += sizeof(DFABytecodeInstruction) + 2 * sizeof(uint8_t) + jumpSizeInBytes(jumpSize);
                 break;
             }

             case DFABytecodeInstruction::CheckValueRangeCaseInsensitive: {
                 if (urlIndexIsAfterEndOfString)
                     goto nextDFA;

                 char character = toASCIILower(url[urlIndex]);
                 DFABytecodeJumpSize jumpSize = getJumpSize(m_bytecode, m_bytecodeLength, programCounter);
                 if (character >= getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction))
                     && character <= getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction) + sizeof(uint8_t))) {
                     uint32_t jumpLocation = programCounter + sizeof(DFABytecodeInstruction) + 2 * sizeof(uint8_t);
                     programCounter += getJumpDistance(m_bytecode, m_bytecodeLength, jumpLocation, jumpSize);
                     if (!character)
                         urlIndexIsAfterEndOfString = true;
                     urlIndex++; // This represents an edge in the DFA.
                 } else
                     programCounter += sizeof(DFABytecodeInstruction) + 2 * sizeof(uint8_t) + jumpSizeInBytes(jumpSize);
                 break;
             }

             case DFABytecodeInstruction::Jump: {
                 if (!url[urlIndex] || urlIndexIsAfterEndOfString)
                     goto nextDFA;

                 uint32_t jumpLocation = programCounter + sizeof(DFABytecodeInstruction);
                 DFABytecodeJumpSize jumpSize = getJumpSize(m_bytecode, m_bytecodeLength, programCounter);
                 programCounter += getJumpDistance(m_bytecode, m_bytecodeLength, jumpLocation, jumpSize);
                 urlIndex++; // This represents an edge in the DFA.
                 break;
             }

             case DFABytecodeInstruction::AppendAction:
                 interpretAppendAction(programCounter, actions, false);
                 break;

             case DFABytecodeInstruction::AppendActionWithIfCondition:
                 interpretAppendAction(programCounter, actions, true);
                 break;

             case DFABytecodeInstruction::TestFlagsAndAppendAction:
                 interpretTestFlagsAndAppendAction(programCounter, flags, actions, false);
                 break;

             case DFABytecodeInstruction::TestFlagsAndAppendActionWithIfCondition:
                 interpretTestFlagsAndAppendAction(programCounter, flags, actions, true);
                 break;

             default:
                 RELEASE_ASSERT_NOT_REACHED(); // Invalid bytecode.
             }
             // We should always terminate before or at a null character at the end of a String.
             ASSERT(urlIndex <= urlCString.length() || (urlIndexIsAfterEndOfString && urlIndex <= urlCString.length() + 1));
         }
         RELEASE_ASSERT_NOT_REACHED(); // The while loop can only be exited using goto nextDFA.
         nextDFA:
         ASSERT(dfaBytecodeLength);
         programCounter = dfaStart + dfaBytecodeLength;
     }
     return actions;
 }

 } // namespace ContentExtensions

 } // namespace WebCore

 #endif // ENABLE(CONTENT_EXTENSIONS)
	/*
	* Copyright (C) 2015 Apple Inc. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
	* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
	* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
	* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
	* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
	* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
	* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
	* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
	* THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#include "config.h"
	#include "DFABytecodeInterpreter.h"

	#include "ContentExtensionsDebugging.h"
	#include <wtf/text/CString.h>

	#if ENABLE(CONTENT_EXTENSIONS)

	namespace WebCore {

	namespace ContentExtensions {

	template <typename IntType>
	static inline IntType getBits(const DFABytecode* bytecode, uint32_t bytecodeLength, uint32_t index)
	{
	ASSERT_UNUSED(bytecodeLength, index + sizeof(IntType) <= bytecodeLength);
	return reinterpret_cast<const IntType>(&bytecode[index]);
	}

	static inline DFABytecodeInstruction getInstruction(const DFABytecode* bytecode, uint32_t bytecodeLength, uint32_t index)
	{
	return static_cast<DFABytecodeInstruction>(getBits<uint8_t>(bytecode, bytecodeLength, index) & DFABytecodeInstructionMask);
	}

	static inline size_t jumpSizeInBytes(DFABytecodeJumpSize jumpSize)
	{
	switch (jumpSize) {
	case Int8:
	return sizeof(int8_t);
	case Int16:
	return sizeof(int16_t);
	case Int24:
	return sizeof(uint16_t) + sizeof(int8_t);
	case Int32:
	return sizeof(int32_t);
	default:
	RELEASE_ASSERT_NOT_REACHED();
	}
	}

	static inline DFABytecodeJumpSize getJumpSize(const DFABytecode* bytecode, uint32_t bytecodeLength, uint32_t index)
	{
	DFABytecodeJumpSize jumpSize = static_cast<DFABytecodeJumpSize>(getBits<uint8_t>(bytecode, bytecodeLength, index) & DFABytecodeJumpSizeMask);
	ASSERT(jumpSize == DFABytecodeJumpSize::Int32 \|\| jumpSize == DFABytecodeJumpSize::Int24 \|\| jumpSize == DFABytecodeJumpSize::Int16 \|\| jumpSize == DFABytecodeJumpSize::Int8);
	return jumpSize;
	}

	static inline int32_t getJumpDistance(const DFABytecode* bytecode, uint32_t bytecodeLength, uint32_t index, DFABytecodeJumpSize jumpSize)
	{
	switch (jumpSize) {
	case Int8:
	return getBits<int8_t>(bytecode, bytecodeLength, index);
	case Int16:
	return getBits<int16_t>(bytecode, bytecodeLength, index);
	case Int24:
	return getBits<uint16_t>(bytecode, bytecodeLength, index) \| (static_cast<int32_t>(getBits<int8_t>(bytecode, bytecodeLength, index + sizeof(uint16_t))) << 16);
	case Int32:
	return getBits<int32_t>(bytecode, bytecodeLength, index);
	default:
	RELEASE_ASSERT_NOT_REACHED();
	}
	}

	static inline bool matchesCondition(uint64_t actionAndFlags, const DFABytecodeInterpreter::Actions& conditionActions)
	{
	bool ifCondition = actionAndFlags & IfConditionFlag;
	bool condition = conditionActions.contains(actionAndFlags);
	return ifCondition == condition;
	}

	void DFABytecodeInterpreter::interpretAppendAction(uint32_t& programCounter, Actions& actions, bool ifCondition)
	{
	ASSERT(getInstruction(m_bytecode, m_bytecodeLength, programCounter) == DFABytecodeInstruction::AppendAction
	\|\| getInstruction(m_bytecode, m_bytecodeLength, programCounter) == DFABytecodeInstruction::AppendActionWithIfCondition);
	uint64_t action = (ifCondition ? IfConditionFlag : 0) \| static_cast<uint64_t>(getBits<uint32_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction)));
	if (!m_topURLActions \|\| matchesCondition(action, *m_topURLActions))
	actions.add(action);

	programCounter += instructionSizeWithArguments(DFABytecodeInstruction::AppendAction);
	ASSERT(instructionSizeWithArguments(DFABytecodeInstruction::AppendAction) == instructionSizeWithArguments(DFABytecodeInstruction::AppendActionWithIfCondition));
	}

	void DFABytecodeInterpreter::interpretTestFlagsAndAppendAction(uint32_t& programCounter, uint16_t flags, Actions& actions, bool ifCondition)
	{
	ASSERT(getInstruction(m_bytecode, m_bytecodeLength, programCounter) == DFABytecodeInstruction::TestFlagsAndAppendAction
	\|\| getInstruction(m_bytecode, m_bytecodeLength, programCounter) == DFABytecodeInstruction::TestFlagsAndAppendActionWithIfCondition);
	uint16_t flagsToCheck = getBits<uint16_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction));

	uint16_t loadTypeFlags = flagsToCheck & LoadTypeMask;
	uint16_t resourceTypeFlags = flagsToCheck & ResourceTypeMask;

	bool loadTypeMatches = loadTypeFlags ? (loadTypeFlags & flags) : true;
	bool resourceTypeMatches = resourceTypeFlags ? (resourceTypeFlags & flags) : true;

	if (loadTypeMatches && resourceTypeMatches) {
	uint64_t actionAndFlags = (ifCondition ? IfConditionFlag : 0) \| (static_cast<uint64_t>(flagsToCheck) << 32) \| static_cast<uint64_t>(getBits<uint32_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction) + sizeof(uint16_t)));
	if (!m_topURLActions \|\| matchesCondition(actionAndFlags, *m_topURLActions))
	actions.add(actionAndFlags);
	}
	programCounter += instructionSizeWithArguments(DFABytecodeInstruction::TestFlagsAndAppendAction);
	ASSERT(instructionSizeWithArguments(DFABytecodeInstruction::TestFlagsAndAppendAction) == instructionSizeWithArguments(DFABytecodeInstruction::TestFlagsAndAppendActionWithIfCondition));
	}

	template<bool caseSensitive>
	inline void DFABytecodeInterpreter::interpetJumpTable(const char* url, uint32_t& urlIndex, uint32_t& programCounter, bool& urlIndexIsAfterEndOfString)
	{
	DFABytecodeJumpSize jumpSize = getJumpSize(m_bytecode, m_bytecodeLength, programCounter);

	char character = caseSensitive ? url[urlIndex] : toASCIILower(url[urlIndex]);
	uint8_t firstCharacter = getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction));
	uint8_t lastCharacter = getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction) + sizeof(uint8_t));
	if (character >= firstCharacter && character <= lastCharacter) {
	uint32_t startOffset = programCounter + sizeof(DFABytecodeInstruction) + 2 * sizeof(uint8_t);
	uint32_t jumpLocation = startOffset + (character - firstCharacter) * jumpSizeInBytes(jumpSize);
	programCounter += getJumpDistance(m_bytecode, m_bytecodeLength, jumpLocation, jumpSize);
	if (!character)
	urlIndexIsAfterEndOfString = true;
	urlIndex++; // This represents an edge in the DFA.
	} else
	programCounter += sizeof(DFABytecodeInstruction) + 2 * sizeof(uint8_t) + jumpSizeInBytes(jumpSize) * (lastCharacter - firstCharacter + 1);
	}

	DFABytecodeInterpreter::Actions DFABytecodeInterpreter::actionsMatchingEverything()
	{
	Actions actions;

	// DFA header.
	uint32_t dfaBytecodeLength = getBits<uint32_t>(m_bytecode, m_bytecodeLength, 0);
	uint32_t programCounter = sizeof(uint32_t);

	while (programCounter < dfaBytecodeLength) {
	DFABytecodeInstruction instruction = getInstruction(m_bytecode, m_bytecodeLength, programCounter);
	if (instruction == DFABytecodeInstruction::AppendAction)
	interpretAppendAction(programCounter, actions, false);
	else if (instruction == DFABytecodeInstruction::AppendActionWithIfCondition)
	interpretAppendAction(programCounter, actions, true);
	else if (instruction == DFABytecodeInstruction::TestFlagsAndAppendAction)
	programCounter += instructionSizeWithArguments(DFABytecodeInstruction::TestFlagsAndAppendAction);
	else if (instruction == DFABytecodeInstruction::TestFlagsAndAppendActionWithIfCondition)
	programCounter += instructionSizeWithArguments(DFABytecodeInstruction::TestFlagsAndAppendActionWithIfCondition);
	else
	break;
	}
	return actions;
	}

	DFABytecodeInterpreter::Actions DFABytecodeInterpreter::interpretWithConditions(const CString& urlCString, uint16_t flags, const DFABytecodeInterpreter::Actions& topURLActions)
	{
	ASSERT(!m_topURLActions);
	m_topURLActions = &topURLActions;
	DFABytecodeInterpreter::Actions actions = interpret(urlCString, flags);
	m_topURLActions = nullptr;
	return actions;
	}

	DFABytecodeInterpreter::Actions DFABytecodeInterpreter::interpret(const CString& urlCString, uint16_t flags)
	{
	const char* url = urlCString.data();
	ASSERT(url);

	Actions actions;

	uint32_t programCounter = 0;
	while (programCounter < m_bytecodeLength) {

	// DFA header.
	uint32_t dfaStart = programCounter;
	uint32_t dfaBytecodeLength = getBits<uint32_t>(m_bytecode, m_bytecodeLength, programCounter);
	programCounter += sizeof(uint32_t);

	// Skip the actions without flags on the DFA root. These are accessed via actionsMatchingEverything.
	if (!dfaStart) {
	while (programCounter < dfaBytecodeLength) {
	DFABytecodeInstruction instruction = getInstruction(m_bytecode, m_bytecodeLength, programCounter);
	if (instruction == DFABytecodeInstruction::AppendAction)
	programCounter += instructionSizeWithArguments(DFABytecodeInstruction::AppendAction);
	else if (instruction == DFABytecodeInstruction::AppendActionWithIfCondition)
	programCounter += instructionSizeWithArguments(DFABytecodeInstruction::AppendActionWithIfCondition);
	else if (instruction == DFABytecodeInstruction::TestFlagsAndAppendAction)
	interpretTestFlagsAndAppendAction(programCounter, flags, actions, false);
	else if (instruction == DFABytecodeInstruction::TestFlagsAndAppendActionWithIfCondition)
	interpretTestFlagsAndAppendAction(programCounter, flags, actions, true);
	else
	break;
	}
	if (programCounter >= m_bytecodeLength)
	return actions;
	} else {
	ASSERT_WITH_MESSAGE(getInstruction(m_bytecode, m_bytecodeLength, programCounter) != DFABytecodeInstruction::AppendAction
	&& getInstruction(m_bytecode, m_bytecodeLength, programCounter) != DFABytecodeInstruction::AppendActionWithIfCondition
	&& getInstruction(m_bytecode, m_bytecodeLength, programCounter) != DFABytecodeInstruction::TestFlagsAndAppendAction
	&& getInstruction(m_bytecode, m_bytecodeLength, programCounter) != DFABytecodeInstruction::TestFlagsAndAppendActionWithIfCondition,
	"Triggers that match everything should only be in the first DFA.");
	}

	// Interpret the bytecode from this DFA.
	// This should always terminate if interpreting correctly compiled bytecode.
	uint32_t urlIndex = 0;
	bool urlIndexIsAfterEndOfString = false;
	while (true) {
	ASSERT(programCounter <= m_bytecodeLength);
	switch (getInstruction(m_bytecode, m_bytecodeLength, programCounter)) {

	case DFABytecodeInstruction::Terminate:
	goto nextDFA;

	case DFABytecodeInstruction::CheckValueCaseSensitive: {
	if (urlIndexIsAfterEndOfString)
	goto nextDFA;

	// Check to see if the next character in the url is the value stored with the bytecode.
	char character = url[urlIndex];
	DFABytecodeJumpSize jumpSize = getJumpSize(m_bytecode, m_bytecodeLength, programCounter);
	if (character == getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction))) {
	uint32_t jumpLocation = programCounter + sizeof(DFABytecodeInstruction) + sizeof(uint8_t);
	programCounter += getJumpDistance(m_bytecode, m_bytecodeLength, jumpLocation, jumpSize);
	if (!character)
	urlIndexIsAfterEndOfString = true;
	urlIndex++; // This represents an edge in the DFA.
	} else
	programCounter += sizeof(DFABytecodeInstruction) + sizeof(uint8_t) + jumpSizeInBytes(jumpSize);
	break;
	}

	case DFABytecodeInstruction::CheckValueCaseInsensitive: {
	if (urlIndexIsAfterEndOfString)
	goto nextDFA;

	// Check to see if the next character in the url is the value stored with the bytecode.
	char character = toASCIILower(url[urlIndex]);
	DFABytecodeJumpSize jumpSize = getJumpSize(m_bytecode, m_bytecodeLength, programCounter);
	if (character == getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction))) {
	uint32_t jumpLocation = programCounter + sizeof(DFABytecodeInstruction) + sizeof(uint8_t);
	programCounter += getJumpDistance(m_bytecode, m_bytecodeLength, jumpLocation, jumpSize);
	if (!character)
	urlIndexIsAfterEndOfString = true;
	urlIndex++; // This represents an edge in the DFA.
	} else
	programCounter += sizeof(DFABytecodeInstruction) + sizeof(uint8_t) + jumpSizeInBytes(jumpSize);
	break;
	}

	case DFABytecodeInstruction::JumpTableCaseInsensitive:
	if (urlIndexIsAfterEndOfString)
	goto nextDFA;

	interpetJumpTable<false>(url, urlIndex, programCounter, urlIndexIsAfterEndOfString);
	break;
	case DFABytecodeInstruction::JumpTableCaseSensitive:
	if (urlIndexIsAfterEndOfString)
	goto nextDFA;

	interpetJumpTable<true>(url, urlIndex, programCounter, urlIndexIsAfterEndOfString);
	break;

	case DFABytecodeInstruction::CheckValueRangeCaseSensitive: {
	if (urlIndexIsAfterEndOfString)
	goto nextDFA;

	char character = url[urlIndex];
	DFABytecodeJumpSize jumpSize = getJumpSize(m_bytecode, m_bytecodeLength, programCounter);
	if (character >= getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction))
	&& character <= getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction) + sizeof(uint8_t))) {
	uint32_t jumpLocation = programCounter + sizeof(DFABytecodeInstruction) + 2 * sizeof(uint8_t);
	programCounter += getJumpDistance(m_bytecode, m_bytecodeLength, jumpLocation, jumpSize);
	if (!character)
	urlIndexIsAfterEndOfString = true;
	urlIndex++; // This represents an edge in the DFA.
	} else
	programCounter += sizeof(DFABytecodeInstruction) + 2 * sizeof(uint8_t) + jumpSizeInBytes(jumpSize);
	break;
	}

	case DFABytecodeInstruction::CheckValueRangeCaseInsensitive: {
	if (urlIndexIsAfterEndOfString)
	goto nextDFA;

	char character = toASCIILower(url[urlIndex]);
	DFABytecodeJumpSize jumpSize = getJumpSize(m_bytecode, m_bytecodeLength, programCounter);
	if (character >= getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction))
	&& character <= getBits<uint8_t>(m_bytecode, m_bytecodeLength, programCounter + sizeof(DFABytecodeInstruction) + sizeof(uint8_t))) {
	uint32_t jumpLocation = programCounter + sizeof(DFABytecodeInstruction) + 2 * sizeof(uint8_t);
	programCounter += getJumpDistance(m_bytecode, m_bytecodeLength, jumpLocation, jumpSize);
	if (!character)
	urlIndexIsAfterEndOfString = true;
	urlIndex++; // This represents an edge in the DFA.
	} else
	programCounter += sizeof(DFABytecodeInstruction) + 2 * sizeof(uint8_t) + jumpSizeInBytes(jumpSize);
	break;
	}

	case DFABytecodeInstruction::Jump: {
	if (!url[urlIndex] \|\| urlIndexIsAfterEndOfString)
	goto nextDFA;

	uint32_t jumpLocation = programCounter + sizeof(DFABytecodeInstruction);
	DFABytecodeJumpSize jumpSize = getJumpSize(m_bytecode, m_bytecodeLength, programCounter);
	programCounter += getJumpDistance(m_bytecode, m_bytecodeLength, jumpLocation, jumpSize);
	urlIndex++; // This represents an edge in the DFA.
	break;
	}

	case DFABytecodeInstruction::AppendAction:
	interpretAppendAction(programCounter, actions, false);
	break;

	case DFABytecodeInstruction::AppendActionWithIfCondition:
	interpretAppendAction(programCounter, actions, true);
	break;

	case DFABytecodeInstruction::TestFlagsAndAppendAction:
	interpretTestFlagsAndAppendAction(programCounter, flags, actions, false);
	break;

	case DFABytecodeInstruction::TestFlagsAndAppendActionWithIfCondition:
	interpretTestFlagsAndAppendAction(programCounter, flags, actions, true);
	break;

	default:
	RELEASE_ASSERT_NOT_REACHED(); // Invalid bytecode.
	}
	// We should always terminate before or at a null character at the end of a String.
	ASSERT(urlIndex <= urlCString.length() \|\| (urlIndexIsAfterEndOfString && urlIndex <= urlCString.length() + 1));
	}
	RELEASE_ASSERT_NOT_REACHED(); // The while loop can only be exited using goto nextDFA.
	nextDFA:
	ASSERT(dfaBytecodeLength);
	programCounter = dfaStart + dfaBytecodeLength;
	}
	return actions;
	}

	} // namespace ContentExtensions

	} // namespace WebCore

	#endif // ENABLE(CONTENT_EXTENSIONS)