samples/process.cc - fp2-dev/platform/external/v8 - Gitiles

 // Copyright 2008 the V8 project authors. All rights reserved.
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are
 // met:
 //
 //     * Redistributions of source code must retain the above copyright
 //       notice, this list of conditions and the following disclaimer.
 //     * 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.
 //     * Neither the name of Google Inc. nor the names of its
 //       contributors may be used to endorse or promote products derived
 //       from this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND 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 THE COPYRIGHT
 // OWNER OR 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 <v8.h>

 #include <string>
 #include <map>

 #ifdef COMPRESS_STARTUP_DATA_BZ2
 #error Using compressed startup data is not supported for this sample
 #endif

 using namespace std;
 using namespace v8;

 // These interfaces represent an existing request processing interface.
 // The idea is to imagine a real application that uses these interfaces
 // and then add scripting capabilities that allow you to interact with
 // the objects through JavaScript.

 /**
  * A simplified http request.
  */
 class HttpRequest {
  public:
   virtual ~HttpRequest() { }
   virtual const string& Path() = 0;
   virtual const string& Referrer() = 0;
   virtual const string& Host() = 0;
   virtual const string& UserAgent() = 0;
 };

 /**
  * The abstract superclass of http request processors.
  */
 class HttpRequestProcessor {
  public:
   virtual ~HttpRequestProcessor() { }

   // Initialize this processor.  The map contains options that control
   // how requests should be processed.
   virtual bool Initialize(map<string, string>* options,
                           map<string, string>* output) = 0;

   // Process a single request.
   virtual bool Process(HttpRequest* req) = 0;

   static void Log(const char* event);
 };

 /**
  * An http request processor that is scriptable using JavaScript.
  */
 class JsHttpRequestProcessor : public HttpRequestProcessor {
  public:
   // Creates a new processor that processes requests by invoking the
   // Process function of the JavaScript script given as an argument.
   explicit JsHttpRequestProcessor(Handle<String> script) : script_(script) { }
   virtual ~JsHttpRequestProcessor();

   virtual bool Initialize(map<string, string>* opts,
                           map<string, string>* output);
   virtual bool Process(HttpRequest* req);

  private:
   // Execute the script associated with this processor and extract the
   // Process function.  Returns true if this succeeded, otherwise false.
   bool ExecuteScript(Handle<String> script);

   // Wrap the options and output map in a JavaScript objects and
   // install it in the global namespace as 'options' and 'output'.
   bool InstallMaps(map<string, string>* opts, map<string, string>* output);

   // Constructs the template that describes the JavaScript wrapper
   // type for requests.
   static Handle<ObjectTemplate> MakeRequestTemplate();
   static Handle<ObjectTemplate> MakeMapTemplate();

   // Callbacks that access the individual fields of request objects.
   static Handle<Value> GetPath(Local<String> name, const AccessorInfo& info);
   static Handle<Value> GetReferrer(Local<String> name,
                                    const AccessorInfo& info);
   static Handle<Value> GetHost(Local<String> name, const AccessorInfo& info);
   static Handle<Value> GetUserAgent(Local<String> name,
                                     const AccessorInfo& info);

   // Callbacks that access maps
   static Handle<Value> MapGet(Local<String> name, const AccessorInfo& info);
   static Handle<Value> MapSet(Local<String> name,
                               Local<Value> value,
                               const AccessorInfo& info);

   // Utility methods for wrapping C++ objects as JavaScript objects,
   // and going back again.
   static Handle<Object> WrapMap(map<string, string>* obj);
   static map<string, string>* UnwrapMap(Handle<Object> obj);
   static Handle<Object> WrapRequest(HttpRequest* obj);
   static HttpRequest* UnwrapRequest(Handle<Object> obj);

   Handle<String> script_;
   Persistent<Context> context_;
   Persistent<Function> process_;
   static Persistent<ObjectTemplate> request_template_;
   static Persistent<ObjectTemplate> map_template_;
 };

 // -------------------------
 // --- P r o c e s s o r ---
 // -------------------------


 static Handle<Value> LogCallback(const Arguments& args) {
   if (args.Length() < 1) return v8::Undefined();
   HandleScope scope;
   Handle<Value> arg = args[0];
   String::Utf8Value value(arg);
   HttpRequestProcessor::Log(*value);
   return v8::Undefined();
 }


 // Execute the script and fetch the Process method.
 bool JsHttpRequestProcessor::Initialize(map<string, string>* opts,
                                         map<string, string>* output) {
   // Create a handle scope to hold the temporary references.
   HandleScope handle_scope;

   // Create a template for the global object where we set the
   // built-in global functions.
   Handle<ObjectTemplate> global = ObjectTemplate::New();
   global->Set(String::New("log"), FunctionTemplate::New(LogCallback));

   // Each processor gets its own context so different processors don't
   // affect each other. Context::New returns a persistent handle which
   // is what we need for the reference to remain after we return from
   // this method. That persistent handle has to be disposed in the
   // destructor.
   context_ = Context::New(NULL, global);

   // Enter the new context so all the following operations take place
   // within it.
   Context::Scope context_scope(context_);

   // Make the options mapping available within the context
   if (!InstallMaps(opts, output))
     return false;

   // Compile and run the script
   if (!ExecuteScript(script_))
     return false;

   // The script compiled and ran correctly.  Now we fetch out the
   // Process function from the global object.
   Handle<String> process_name = String::New("Process");
   Handle<Value> process_val = context_->Global()->Get(process_name);

   // If there is no Process function, or if it is not a function,
   // bail out
   if (!process_val->IsFunction()) return false;

   // It is a function; cast it to a Function
   Handle<Function> process_fun = Handle<Function>::Cast(process_val);

   // Store the function in a Persistent handle, since we also want
   // that to remain after this call returns
   process_ = Persistent<Function>::New(process_fun);

   // All done; all went well
   return true;
 }


 bool JsHttpRequestProcessor::ExecuteScript(Handle<String> script) {
   HandleScope handle_scope;

   // We're just about to compile the script; set up an error handler to
   // catch any exceptions the script might throw.
   TryCatch try_catch;

   // Compile the script and check for errors.
   Handle<Script> compiled_script = Script::Compile(script);
   if (compiled_script.IsEmpty()) {
     String::Utf8Value error(try_catch.Exception());
     Log(*error);
     // The script failed to compile; bail out.
     return false;
   }

   // Run the script!
   Handle<Value> result = compiled_script->Run();
   if (result.IsEmpty()) {
     // The TryCatch above is still in effect and will have caught the error.
     String::Utf8Value error(try_catch.Exception());
     Log(*error);
     // Running the script failed; bail out.
     return false;
   }
   return true;
 }


 bool JsHttpRequestProcessor::InstallMaps(map<string, string>* opts,
                                          map<string, string>* output) {
   HandleScope handle_scope;

   // Wrap the map object in a JavaScript wrapper
   Handle<Object> opts_obj = WrapMap(opts);

   // Set the options object as a property on the global object.
   context_->Global()->Set(String::New("options"), opts_obj);

   Handle<Object> output_obj = WrapMap(output);
   context_->Global()->Set(String::New("output"), output_obj);

   return true;
 }


 bool JsHttpRequestProcessor::Process(HttpRequest* request) {
   // Create a handle scope to keep the temporary object references.
   HandleScope handle_scope;

   // Enter this processor's context so all the remaining operations
   // take place there
   Context::Scope context_scope(context_);

   // Wrap the C++ request object in a JavaScript wrapper
   Handle<Object> request_obj = WrapRequest(request);

   // Set up an exception handler before calling the Process function
   TryCatch try_catch;

   // Invoke the process function, giving the global object as 'this'
   // and one argument, the request.
   const int argc = 1;
   Handle<Value> argv[argc] = { request_obj };
   Handle<Value> result = process_->Call(context_->Global(), argc, argv);
   if (result.IsEmpty()) {
     String::Utf8Value error(try_catch.Exception());
     Log(*error);
     return false;
   } else {
     return true;
   }
 }


 JsHttpRequestProcessor::~JsHttpRequestProcessor() {
   // Dispose the persistent handles.  When noone else has any
   // references to the objects stored in the handles they will be
   // automatically reclaimed.
   context_.Dispose();
   process_.Dispose();
 }


 Persistent<ObjectTemplate> JsHttpRequestProcessor::request_template_;
 Persistent<ObjectTemplate> JsHttpRequestProcessor::map_template_;


 // -----------------------------------
 // --- A c c e s s i n g   M a p s ---
 // -----------------------------------

 // Utility function that wraps a C++ http request object in a
 // JavaScript object.
 Handle<Object> JsHttpRequestProcessor::WrapMap(map<string, string>* obj) {
   // Handle scope for temporary handles.
   HandleScope handle_scope;

   // Fetch the template for creating JavaScript map wrappers.
   // It only has to be created once, which we do on demand.
   if (map_template_.IsEmpty()) {
     Handle<ObjectTemplate> raw_template = MakeMapTemplate();
     map_template_ = Persistent<ObjectTemplate>::New(raw_template);
   }
   Handle<ObjectTemplate> templ = map_template_;

   // Create an empty map wrapper.
   Handle<Object> result = templ->NewInstance();

   // Wrap the raw C++ pointer in an External so it can be referenced
   // from within JavaScript.
   Handle<External> map_ptr = External::New(obj);

   // Store the map pointer in the JavaScript wrapper.
   result->SetInternalField(0, map_ptr);

   // Return the result through the current handle scope.  Since each
   // of these handles will go away when the handle scope is deleted
   // we need to call Close to let one, the result, escape into the
   // outer handle scope.
   return handle_scope.Close(result);
 }


 // Utility function that extracts the C++ map pointer from a wrapper
 // object.
 map<string, string>* JsHttpRequestProcessor::UnwrapMap(Handle<Object> obj) {
   Handle<External> field = Handle<External>::Cast(obj->GetInternalField(0));
   void* ptr = field->Value();
   return static_cast<map<string, string>*>(ptr);
 }


 // Convert a JavaScript string to a std::string.  To not bother too
 // much with string encodings we just use ascii.
 string ObjectToString(Local<Value> value) {
   String::Utf8Value utf8_value(value);
   return string(*utf8_value);
 }


 Handle<Value> JsHttpRequestProcessor::MapGet(Local<String> name,
                                              const AccessorInfo& info) {
   // Fetch the map wrapped by this object.
   map<string, string>* obj = UnwrapMap(info.Holder());

   // Convert the JavaScript string to a std::string.
   string key = ObjectToString(name);

   // Look up the value if it exists using the standard STL ideom.
   map<string, string>::iterator iter = obj->find(key);

   // If the key is not present return an empty handle as signal
   if (iter == obj->end()) return Handle<Value>();

   // Otherwise fetch the value and wrap it in a JavaScript string
   const string& value = (*iter).second;
   return String::New(value.c_str(), value.length());
 }


 Handle<Value> JsHttpRequestProcessor::MapSet(Local<String> name,
                                              Local<Value> value_obj,
                                              const AccessorInfo& info) {
   // Fetch the map wrapped by this object.
   map<string, string>* obj = UnwrapMap(info.Holder());

   // Convert the key and value to std::strings.
   string key = ObjectToString(name);
   string value = ObjectToString(value_obj);

   // Update the map.
   (*obj)[key] = value;

   // Return the value; any non-empty handle will work.
   return value_obj;
 }


 Handle<ObjectTemplate> JsHttpRequestProcessor::MakeMapTemplate() {
   HandleScope handle_scope;

   Handle<ObjectTemplate> result = ObjectTemplate::New();
   result->SetInternalFieldCount(1);
   result->SetNamedPropertyHandler(MapGet, MapSet);

   // Again, return the result through the current handle scope.
   return handle_scope.Close(result);
 }


 // -------------------------------------------
 // --- A c c e s s i n g   R e q u e s t s ---
 // -------------------------------------------

 /**
  * Utility function that wraps a C++ http request object in a
  * JavaScript object.
  */
 Handle<Object> JsHttpRequestProcessor::WrapRequest(HttpRequest* request) {
   // Handle scope for temporary handles.
   HandleScope handle_scope;

   // Fetch the template for creating JavaScript http request wrappers.
   // It only has to be created once, which we do on demand.
   if (request_template_.IsEmpty()) {
     Handle<ObjectTemplate> raw_template = MakeRequestTemplate();
     request_template_ = Persistent<ObjectTemplate>::New(raw_template);
   }
   Handle<ObjectTemplate> templ = request_template_;

   // Create an empty http request wrapper.
   Handle<Object> result = templ->NewInstance();

   // Wrap the raw C++ pointer in an External so it can be referenced
   // from within JavaScript.
   Handle<External> request_ptr = External::New(request);

   // Store the request pointer in the JavaScript wrapper.
   result->SetInternalField(0, request_ptr);

   // Return the result through the current handle scope.  Since each
   // of these handles will go away when the handle scope is deleted
   // we need to call Close to let one, the result, escape into the
   // outer handle scope.
   return handle_scope.Close(result);
 }


 /**
  * Utility function that extracts the C++ http request object from a
  * wrapper object.
  */
 HttpRequest* JsHttpRequestProcessor::UnwrapRequest(Handle<Object> obj) {
   Handle<External> field = Handle<External>::Cast(obj->GetInternalField(0));
   void* ptr = field->Value();
   return static_cast<HttpRequest*>(ptr);
 }


 Handle<Value> JsHttpRequestProcessor::GetPath(Local<String> name,
                                               const AccessorInfo& info) {
   // Extract the C++ request object from the JavaScript wrapper.
   HttpRequest* request = UnwrapRequest(info.Holder());

   // Fetch the path.
   const string& path = request->Path();

   // Wrap the result in a JavaScript string and return it.
   return String::New(path.c_str(), path.length());
 }


 Handle<Value> JsHttpRequestProcessor::GetReferrer(Local<String> name,
                                                   const AccessorInfo& info) {
   HttpRequest* request = UnwrapRequest(info.Holder());
   const string& path = request->Referrer();
   return String::New(path.c_str(), path.length());
 }


 Handle<Value> JsHttpRequestProcessor::GetHost(Local<String> name,
                                               const AccessorInfo& info) {
   HttpRequest* request = UnwrapRequest(info.Holder());
   const string& path = request->Host();
   return String::New(path.c_str(), path.length());
 }


 Handle<Value> JsHttpRequestProcessor::GetUserAgent(Local<String> name,
                                                    const AccessorInfo& info) {
   HttpRequest* request = UnwrapRequest(info.Holder());
   const string& path = request->UserAgent();
   return String::New(path.c_str(), path.length());
 }


 Handle<ObjectTemplate> JsHttpRequestProcessor::MakeRequestTemplate() {
   HandleScope handle_scope;

   Handle<ObjectTemplate> result = ObjectTemplate::New();
   result->SetInternalFieldCount(1);

   // Add accessors for each of the fields of the request.
   result->SetAccessor(String::NewSymbol("path"), GetPath);
   result->SetAccessor(String::NewSymbol("referrer"), GetReferrer);
   result->SetAccessor(String::NewSymbol("host"), GetHost);
   result->SetAccessor(String::NewSymbol("userAgent"), GetUserAgent);

   // Again, return the result through the current handle scope.
   return handle_scope.Close(result);
 }


 // --- Test ---


 void HttpRequestProcessor::Log(const char* event) {
   printf("Logged: %s\n", event);
 }


 /**
  * A simplified http request.
  */
 class StringHttpRequest : public HttpRequest {
  public:
   StringHttpRequest(const string& path,
                     const string& referrer,
                     const string& host,
                     const string& user_agent);
   virtual const string& Path() { return path_; }
   virtual const string& Referrer() { return referrer_; }
   virtual const string& Host() { return host_; }
   virtual const string& UserAgent() { return user_agent_; }
  private:
   string path_;
   string referrer_;
   string host_;
   string user_agent_;
 };


 StringHttpRequest::StringHttpRequest(const string& path,
                                      const string& referrer,
                                      const string& host,
                                      const string& user_agent)
     : path_(path),
       referrer_(referrer),
       host_(host),
       user_agent_(user_agent) { }


 void ParseOptions(int argc,
                   char* argv[],
                   map<string, string>& options,
                   string* file) {
   for (int i = 1; i < argc; i++) {
     string arg = argv[i];
     size_t index = arg.find('=', 0);
     if (index == string::npos) {
       *file = arg;
     } else {
       string key = arg.substr(0, index);
       string value = arg.substr(index+1);
       options[key] = value;
     }
   }
 }


 // Reads a file into a v8 string.
 Handle<String> ReadFile(const string& name) {
   FILE* file = fopen(name.c_str(), "rb");
   if (file == NULL) return Handle<String>();

   fseek(file, 0, SEEK_END);
   int size = ftell(file);
   rewind(file);

   char* chars = new char[size + 1];
   chars[size] = '\0';
   for (int i = 0; i < size;) {
     int read = fread(&chars[i], 1, size - i, file);
     i += read;
   }
   fclose(file);
   Handle<String> result = String::New(chars, size);
   delete[] chars;
   return result;
 }


 const int kSampleSize = 6;
 StringHttpRequest kSampleRequests[kSampleSize] = {
   StringHttpRequest("/process.cc", "localhost", "google.com", "firefox"),
   StringHttpRequest("/", "localhost", "google.net", "firefox"),
   StringHttpRequest("/", "localhost", "google.org", "safari"),
   StringHttpRequest("/", "localhost", "yahoo.com", "ie"),
   StringHttpRequest("/", "localhost", "yahoo.com", "safari"),
   StringHttpRequest("/", "localhost", "yahoo.com", "firefox")
 };


 bool ProcessEntries(HttpRequestProcessor* processor, int count,
                     StringHttpRequest* reqs) {
   for (int i = 0; i < count; i++) {
     if (!processor->Process(&reqs[i]))
       return false;
   }
   return true;
 }


 void PrintMap(map<string, string>* m) {
   for (map<string, string>::iterator i = m->begin(); i != m->end(); i++) {
     pair<string, string> entry = *i;
     printf("%s: %s\n", entry.first.c_str(), entry.second.c_str());
   }
 }


 int main(int argc, char* argv[]) {
   map<string, string> options;
   string file;
   ParseOptions(argc, argv, options, &file);
   if (file.empty()) {
     fprintf(stderr, "No script was specified.\n");
     return 1;
   }
   HandleScope scope;
   Handle<String> source = ReadFile(file);
   if (source.IsEmpty()) {
     fprintf(stderr, "Error reading '%s'.\n", file.c_str());
     return 1;
   }
   JsHttpRequestProcessor processor(source);
   map<string, string> output;
   if (!processor.Initialize(&options, &output)) {
     fprintf(stderr, "Error initializing processor.\n");
     return 1;
   }
   if (!ProcessEntries(&processor, kSampleSize, kSampleRequests))
     return 1;
   PrintMap(&output);
 }
	// Copyright 2008 the V8 project authors. All rights reserved.
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are
	// met:
	//
	// * Redistributions of source code must retain the above copyright
	// notice, this list of conditions and the following disclaimer.
	// * 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.
	// * Neither the name of Google Inc. nor the names of its
	// contributors may be used to endorse or promote products derived
	// from this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND 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 THE COPYRIGHT
	// OWNER OR 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 <v8.h>

	#include <string>
	#include <map>

	#ifdef COMPRESS_STARTUP_DATA_BZ2
	#error Using compressed startup data is not supported for this sample
	#endif

	using namespace std;
	using namespace v8;

	// These interfaces represent an existing request processing interface.
	// The idea is to imagine a real application that uses these interfaces
	// and then add scripting capabilities that allow you to interact with
	// the objects through JavaScript.

	/**
	* A simplified http request.
	*/
	class HttpRequest {
	public:
	virtual ~HttpRequest() { }
	virtual const string& Path() = 0;
	virtual const string& Referrer() = 0;
	virtual const string& Host() = 0;
	virtual const string& UserAgent() = 0;
	};

	/**
	* The abstract superclass of http request processors.
	*/
	class HttpRequestProcessor {
	public:
	virtual ~HttpRequestProcessor() { }

	// Initialize this processor. The map contains options that control
	// how requests should be processed.
	virtual bool Initialize(map<string, string>* options,
	map<string, string>* output) = 0;

	// Process a single request.
	virtual bool Process(HttpRequest* req) = 0;

	static void Log(const char* event);
	};

	/**
	* An http request processor that is scriptable using JavaScript.
	*/
	class JsHttpRequestProcessor : public HttpRequestProcessor {
	public:
	// Creates a new processor that processes requests by invoking the
	// Process function of the JavaScript script given as an argument.
	explicit JsHttpRequestProcessor(Handle<String> script) : script_(script) { }
	virtual ~JsHttpRequestProcessor();

	virtual bool Initialize(map<string, string>* opts,
	map<string, string>* output);
	virtual bool Process(HttpRequest* req);

	private:
	// Execute the script associated with this processor and extract the
	// Process function. Returns true if this succeeded, otherwise false.
	bool ExecuteScript(Handle<String> script);

	// Wrap the options and output map in a JavaScript objects and
	// install it in the global namespace as 'options' and 'output'.
	bool InstallMaps(map<string, string>* opts, map<string, string>* output);

	// Constructs the template that describes the JavaScript wrapper
	// type for requests.
	static Handle<ObjectTemplate> MakeRequestTemplate();
	static Handle<ObjectTemplate> MakeMapTemplate();

	// Callbacks that access the individual fields of request objects.
	static Handle<Value> GetPath(Local<String> name, const AccessorInfo& info);
	static Handle<Value> GetReferrer(Local<String> name,
	const AccessorInfo& info);
	static Handle<Value> GetHost(Local<String> name, const AccessorInfo& info);
	static Handle<Value> GetUserAgent(Local<String> name,
	const AccessorInfo& info);

	// Callbacks that access maps
	static Handle<Value> MapGet(Local<String> name, const AccessorInfo& info);
	static Handle<Value> MapSet(Local<String> name,
	Local<Value> value,
	const AccessorInfo& info);

	// Utility methods for wrapping C++ objects as JavaScript objects,
	// and going back again.
	static Handle<Object> WrapMap(map<string, string>* obj);
	static map<string, string>* UnwrapMap(Handle<Object> obj);
	static Handle<Object> WrapRequest(HttpRequest* obj);
	static HttpRequest* UnwrapRequest(Handle<Object> obj);

	Handle<String> script_;
	Persistent<Context> context_;
	Persistent<Function> process_;
	static Persistent<ObjectTemplate> request_template_;
	static Persistent<ObjectTemplate> map_template_;
	};

	// -------------------------
	// --- P r o c e s s o r ---
	// -------------------------


	static Handle<Value> LogCallback(const Arguments& args) {
	if (args.Length() < 1) return v8::Undefined();
	HandleScope scope;
	Handle<Value> arg = args[0];
	String::Utf8Value value(arg);
	HttpRequestProcessor::Log(*value);
	return v8::Undefined();
	}


	// Execute the script and fetch the Process method.
	bool JsHttpRequestProcessor::Initialize(map<string, string>* opts,
	map<string, string>* output) {
	// Create a handle scope to hold the temporary references.
	HandleScope handle_scope;

	// Create a template for the global object where we set the
	// built-in global functions.
	Handle<ObjectTemplate> global = ObjectTemplate::New();
	global->Set(String::New("log"), FunctionTemplate::New(LogCallback));

	// Each processor gets its own context so different processors don't
	// affect each other. Context::New returns a persistent handle which
	// is what we need for the reference to remain after we return from
	// this method. That persistent handle has to be disposed in the
	// destructor.
	context_ = Context::New(NULL, global);

	// Enter the new context so all the following operations take place
	// within it.
	Context::Scope context_scope(context_);

	// Make the options mapping available within the context
	if (!InstallMaps(opts, output))
	return false;

	// Compile and run the script
	if (!ExecuteScript(script_))
	return false;

	// The script compiled and ran correctly. Now we fetch out the
	// Process function from the global object.
	Handle<String> process_name = String::New("Process");
	Handle<Value> process_val = context_->Global()->Get(process_name);

	// If there is no Process function, or if it is not a function,
	// bail out
	if (!process_val->IsFunction()) return false;

	// It is a function; cast it to a Function
	Handle<Function> process_fun = Handle<Function>::Cast(process_val);

	// Store the function in a Persistent handle, since we also want
	// that to remain after this call returns
	process_ = Persistent<Function>::New(process_fun);

	// All done; all went well
	return true;
	}


	bool JsHttpRequestProcessor::ExecuteScript(Handle<String> script) {
	HandleScope handle_scope;

	// We're just about to compile the script; set up an error handler to
	// catch any exceptions the script might throw.
	TryCatch try_catch;

	// Compile the script and check for errors.
	Handle<Script> compiled_script = Script::Compile(script);
	if (compiled_script.IsEmpty()) {
	String::Utf8Value error(try_catch.Exception());
	Log(*error);
	// The script failed to compile; bail out.
	return false;
	}

	// Run the script!
	Handle<Value> result = compiled_script->Run();
	if (result.IsEmpty()) {
	// The TryCatch above is still in effect and will have caught the error.
	String::Utf8Value error(try_catch.Exception());
	Log(*error);
	// Running the script failed; bail out.
	return false;
	}
	return true;
	}


	bool JsHttpRequestProcessor::InstallMaps(map<string, string>* opts,
	map<string, string>* output) {
	HandleScope handle_scope;

	// Wrap the map object in a JavaScript wrapper
	Handle<Object> opts_obj = WrapMap(opts);

	// Set the options object as a property on the global object.
	context_->Global()->Set(String::New("options"), opts_obj);

	Handle<Object> output_obj = WrapMap(output);
	context_->Global()->Set(String::New("output"), output_obj);

	return true;
	}


	bool JsHttpRequestProcessor::Process(HttpRequest* request) {
	// Create a handle scope to keep the temporary object references.
	HandleScope handle_scope;

	// Enter this processor's context so all the remaining operations
	// take place there
	Context::Scope context_scope(context_);

	// Wrap the C++ request object in a JavaScript wrapper
	Handle<Object> request_obj = WrapRequest(request);

	// Set up an exception handler before calling the Process function
	TryCatch try_catch;

	// Invoke the process function, giving the global object as 'this'
	// and one argument, the request.
	const int argc = 1;
	Handle<Value> argv[argc] = { request_obj };
	Handle<Value> result = process_->Call(context_->Global(), argc, argv);
	if (result.IsEmpty()) {
	String::Utf8Value error(try_catch.Exception());
	Log(*error);
	return false;
	} else {
	return true;
	}
	}


	JsHttpRequestProcessor::~JsHttpRequestProcessor() {
	// Dispose the persistent handles. When noone else has any
	// references to the objects stored in the handles they will be
	// automatically reclaimed.
	context_.Dispose();
	process_.Dispose();
	}


	Persistent<ObjectTemplate> JsHttpRequestProcessor::request_template_;
	Persistent<ObjectTemplate> JsHttpRequestProcessor::map_template_;


	// -----------------------------------
	// --- A c c e s s i n g M a p s ---
	// -----------------------------------

	// Utility function that wraps a C++ http request object in a
	// JavaScript object.
	Handle<Object> JsHttpRequestProcessor::WrapMap(map<string, string>* obj) {
	// Handle scope for temporary handles.
	HandleScope handle_scope;

	// Fetch the template for creating JavaScript map wrappers.
	// It only has to be created once, which we do on demand.
	if (map_template_.IsEmpty()) {
	Handle<ObjectTemplate> raw_template = MakeMapTemplate();
	map_template_ = Persistent<ObjectTemplate>::New(raw_template);
	}
	Handle<ObjectTemplate> templ = map_template_;

	// Create an empty map wrapper.
	Handle<Object> result = templ->NewInstance();

	// Wrap the raw C++ pointer in an External so it can be referenced
	// from within JavaScript.
	Handle<External> map_ptr = External::New(obj);

	// Store the map pointer in the JavaScript wrapper.
	result->SetInternalField(0, map_ptr);

	// Return the result through the current handle scope. Since each
	// of these handles will go away when the handle scope is deleted
	// we need to call Close to let one, the result, escape into the
	// outer handle scope.
	return handle_scope.Close(result);
	}


	// Utility function that extracts the C++ map pointer from a wrapper
	// object.
	map<string, string>* JsHttpRequestProcessor::UnwrapMap(Handle<Object> obj) {
	Handle<External> field = Handle<External>::Cast(obj->GetInternalField(0));
	void* ptr = field->Value();
	return static_cast<map<string, string>*>(ptr);
	}


	// Convert a JavaScript string to a std::string. To not bother too
	// much with string encodings we just use ascii.
	string ObjectToString(Local<Value> value) {
	String::Utf8Value utf8_value(value);
	return string(*utf8_value);
	}


	Handle<Value> JsHttpRequestProcessor::MapGet(Local<String> name,
	const AccessorInfo& info) {
	// Fetch the map wrapped by this object.
	map<string, string>* obj = UnwrapMap(info.Holder());

	// Convert the JavaScript string to a std::string.
	string key = ObjectToString(name);

	// Look up the value if it exists using the standard STL ideom.
	map<string, string>::iterator iter = obj->find(key);

	// If the key is not present return an empty handle as signal
	if (iter == obj->end()) return Handle<Value>();

	// Otherwise fetch the value and wrap it in a JavaScript string
	const string& value = (*iter).second;
	return String::New(value.c_str(), value.length());
	}


	Handle<Value> JsHttpRequestProcessor::MapSet(Local<String> name,
	Local<Value> value_obj,
	const AccessorInfo& info) {
	// Fetch the map wrapped by this object.
	map<string, string>* obj = UnwrapMap(info.Holder());

	// Convert the key and value to std::strings.
	string key = ObjectToString(name);
	string value = ObjectToString(value_obj);

	// Update the map.
	(*obj)[key] = value;

	// Return the value; any non-empty handle will work.
	return value_obj;
	}


	Handle<ObjectTemplate> JsHttpRequestProcessor::MakeMapTemplate() {
	HandleScope handle_scope;

	Handle<ObjectTemplate> result = ObjectTemplate::New();
	result->SetInternalFieldCount(1);
	result->SetNamedPropertyHandler(MapGet, MapSet);

	// Again, return the result through the current handle scope.
	return handle_scope.Close(result);
	}


	// -------------------------------------------
	// --- A c c e s s i n g R e q u e s t s ---
	// -------------------------------------------

	/**
	* Utility function that wraps a C++ http request object in a
	* JavaScript object.
	*/
	Handle<Object> JsHttpRequestProcessor::WrapRequest(HttpRequest* request) {
	// Handle scope for temporary handles.
	HandleScope handle_scope;

	// Fetch the template for creating JavaScript http request wrappers.
	// It only has to be created once, which we do on demand.
	if (request_template_.IsEmpty()) {
	Handle<ObjectTemplate> raw_template = MakeRequestTemplate();
	request_template_ = Persistent<ObjectTemplate>::New(raw_template);
	}
	Handle<ObjectTemplate> templ = request_template_;

	// Create an empty http request wrapper.
	Handle<Object> result = templ->NewInstance();

	// Wrap the raw C++ pointer in an External so it can be referenced
	// from within JavaScript.
	Handle<External> request_ptr = External::New(request);

	// Store the request pointer in the JavaScript wrapper.
	result->SetInternalField(0, request_ptr);

	// Return the result through the current handle scope. Since each
	// of these handles will go away when the handle scope is deleted
	// we need to call Close to let one, the result, escape into the
	// outer handle scope.
	return handle_scope.Close(result);
	}


	/**
	* Utility function that extracts the C++ http request object from a
	* wrapper object.
	*/
	HttpRequest* JsHttpRequestProcessor::UnwrapRequest(Handle<Object> obj) {
	Handle<External> field = Handle<External>::Cast(obj->GetInternalField(0));
	void* ptr = field->Value();
	return static_cast<HttpRequest*>(ptr);
	}


	Handle<Value> JsHttpRequestProcessor::GetPath(Local<String> name,
	const AccessorInfo& info) {
	// Extract the C++ request object from the JavaScript wrapper.
	HttpRequest* request = UnwrapRequest(info.Holder());

	// Fetch the path.
	const string& path = request->Path();

	// Wrap the result in a JavaScript string and return it.
	return String::New(path.c_str(), path.length());
	}


	Handle<Value> JsHttpRequestProcessor::GetReferrer(Local<String> name,
	const AccessorInfo& info) {
	HttpRequest* request = UnwrapRequest(info.Holder());
	const string& path = request->Referrer();
	return String::New(path.c_str(), path.length());
	}


	Handle<Value> JsHttpRequestProcessor::GetHost(Local<String> name,
	const AccessorInfo& info) {
	HttpRequest* request = UnwrapRequest(info.Holder());
	const string& path = request->Host();
	return String::New(path.c_str(), path.length());
	}


	Handle<Value> JsHttpRequestProcessor::GetUserAgent(Local<String> name,
	const AccessorInfo& info) {
	HttpRequest* request = UnwrapRequest(info.Holder());
	const string& path = request->UserAgent();
	return String::New(path.c_str(), path.length());
	}


	Handle<ObjectTemplate> JsHttpRequestProcessor::MakeRequestTemplate() {
	HandleScope handle_scope;

	Handle<ObjectTemplate> result = ObjectTemplate::New();
	result->SetInternalFieldCount(1);

	// Add accessors for each of the fields of the request.
	result->SetAccessor(String::NewSymbol("path"), GetPath);
	result->SetAccessor(String::NewSymbol("referrer"), GetReferrer);
	result->SetAccessor(String::NewSymbol("host"), GetHost);
	result->SetAccessor(String::NewSymbol("userAgent"), GetUserAgent);

	// Again, return the result through the current handle scope.
	return handle_scope.Close(result);
	}


	// --- Test ---


	void HttpRequestProcessor::Log(const char* event) {
	printf("Logged: %s\n", event);
	}


	/**
	* A simplified http request.
	*/
	class StringHttpRequest : public HttpRequest {
	public:
	StringHttpRequest(const string& path,
	const string& referrer,
	const string& host,
	const string& user_agent);
	virtual const string& Path() { return path_; }
	virtual const string& Referrer() { return referrer_; }
	virtual const string& Host() { return host_; }
	virtual const string& UserAgent() { return user_agent_; }
	private:
	string path_;
	string referrer_;
	string host_;
	string user_agent_;
	};


	StringHttpRequest::StringHttpRequest(const string& path,
	const string& referrer,
	const string& host,
	const string& user_agent)
	: path_(path),
	referrer_(referrer),
	host_(host),
	user_agent_(user_agent) { }


	void ParseOptions(int argc,
	char* argv[],
	map<string, string>& options,
	string* file) {
	for (int i = 1; i < argc; i++) {
	string arg = argv[i];
	size_t index = arg.find('=', 0);
	if (index == string::npos) {
	*file = arg;
	} else {
	string key = arg.substr(0, index);
	string value = arg.substr(index+1);
	options[key] = value;
	}
	}
	}


	// Reads a file into a v8 string.
	Handle<String> ReadFile(const string& name) {
	FILE* file = fopen(name.c_str(), "rb");
	if (file == NULL) return Handle<String>();

	fseek(file, 0, SEEK_END);
	int size = ftell(file);
	rewind(file);

	char* chars = new char[size + 1];
	chars[size] = '\0';
	for (int i = 0; i < size;) {
	int read = fread(&chars[i], 1, size - i, file);
	i += read;
	}
	fclose(file);
	Handle<String> result = String::New(chars, size);
	delete[] chars;
	return result;
	}


	const int kSampleSize = 6;
	StringHttpRequest kSampleRequests[kSampleSize] = {
	StringHttpRequest("/process.cc", "localhost", "google.com", "firefox"),
	StringHttpRequest("/", "localhost", "google.net", "firefox"),
	StringHttpRequest("/", "localhost", "google.org", "safari"),
	StringHttpRequest("/", "localhost", "yahoo.com", "ie"),
	StringHttpRequest("/", "localhost", "yahoo.com", "safari"),
	StringHttpRequest("/", "localhost", "yahoo.com", "firefox")
	};


	bool ProcessEntries(HttpRequestProcessor* processor, int count,
	StringHttpRequest* reqs) {
	for (int i = 0; i < count; i++) {
	if (!processor->Process(&reqs[i]))
	return false;
	}
	return true;
	}


	void PrintMap(map<string, string>* m) {
	for (map<string, string>::iterator i = m->begin(); i != m->end(); i++) {
	pair<string, string> entry = *i;
	printf("%s: %s\n", entry.first.c_str(), entry.second.c_str());
	}
	}


	int main(int argc, char* argv[]) {
	map<string, string> options;
	string file;
	ParseOptions(argc, argv, options, &file);
	if (file.empty()) {
	fprintf(stderr, "No script was specified.\n");
	return 1;
	}
	HandleScope scope;
	Handle<String> source = ReadFile(file);
	if (source.IsEmpty()) {
	fprintf(stderr, "Error reading '%s'.\n", file.c_str());
	return 1;
	}
	JsHttpRequestProcessor processor(source);
	map<string, string> output;
	if (!processor.Initialize(&options, &output)) {
	fprintf(stderr, "Error initializing processor.\n");
	return 1;
	}
	if (!ProcessEntries(&processor, kSampleSize, kSampleRequests))
	return 1;
	PrintMap(&output);
	}