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498 lines
14 KiB
C++
498 lines
14 KiB
C++
// Copyright 2008 the V8 project authors. All rights reserved.
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following
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// disclaimer in the documentation and/or other materials provided
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// with the distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived
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// from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#include <v8.h>
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// To avoid warnings from <map> on windows we disable exceptions.
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#define _HAS_EXCEPTIONS 0
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#include <string>
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#include <map>
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#include "js_http_request_processor.h"
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using namespace std;
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using namespace v8;
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static Handle<Value> LogCallback
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( const Arguments& args
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)
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{
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if (args.Length() < 1) return v8::Undefined();
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HandleScope scope;
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Handle<Value> arg = args[0];
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String::Utf8Value value(arg);
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HttpRequestProcessor::Log(*value);
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return v8::Undefined();
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}
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// Execute the script and fetch the Process method.
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bool JsHttpRequestProcessor::Initialize
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( map<string, string>* opts
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, map<string, string>* output
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)
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{
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// Create a handle scope to hold the temporary references.
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HandleScope handle_scope;
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// Create a template for the global object where we set the
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// built-in global functions.
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Handle<ObjectTemplate> global = ObjectTemplate::New();
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global->Set(String::New("log"), FunctionTemplate::New(LogCallback));
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// Each processor gets its own context so different processors
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// don't affect each other (ignore the first three lines).
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Handle<Context> context = Context::New(NULL, global);
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// Store the context in the processor object in a persistent handle,
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// since we want the reference to remain after we return from this
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// method.
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context_ = Persistent<Context>::New(context);
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// Enter the new context so all the following operations take place
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// within it.
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Context::Scope context_scope(context);
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// Make the options mapping available within the context
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if (!InstallMaps(opts, output))
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return false;
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// Compile and run the script
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if (!ExecuteScript(script_))
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return false;
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// The script compiled and ran correctly. Now we fetch out the
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// Process function from the global object.
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Handle<String> process_name = String::New("Process");
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Handle<Value> process_val = context->Global()->Get(process_name);
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// If there is no Process function, or if it is not a function,
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// bail out
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if (!process_val->IsFunction()) return false;
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// It is a function; cast it to a Function
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Handle<Function> process_fun = Handle<Function>::Cast(process_val);
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// Store the function in a Persistent handle, since we also want
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// that to remain after this call returns
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process_ = Persistent<Function>::New(process_fun);
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// All done; all went well
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return true;
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}
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bool JsHttpRequestProcessor::ExecuteScript
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( Handle<String> script
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)
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{
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HandleScope handle_scope;
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// We're just about to compile the script; set up an error handler to
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// catch any exceptions the script might throw.
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TryCatch try_catch;
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// Compile the script and check for errors.
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Handle<Script> compiled_script = Script::Compile(script);
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if (compiled_script.IsEmpty()) {
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String::Utf8Value error(try_catch.Exception());
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Log(*error);
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// The script failed to compile; bail out.
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return false;
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}
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// Run the script!
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Handle<Value> result = compiled_script->Run();
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if (result.IsEmpty()) {
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// The TryCatch above is still in effect and will have caught the error.
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String::Utf8Value error(try_catch.Exception());
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Log(*error);
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// Running the script failed; bail out.
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return false;
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}
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return true;
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}
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bool JsHttpRequestProcessor::InstallMaps
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( map<string, string>* opts
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, map<string, string>* output
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)
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{
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HandleScope handle_scope;
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// Wrap the map object in a JavaScript wrapper
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Handle<Object> opts_obj = WrapMap(opts);
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// Set the options object as a property on the global object.
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context_->Global()->Set(String::New("options"), opts_obj);
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Handle<Object> output_obj = WrapMap(output);
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context_->Global()->Set(String::New("output"), output_obj);
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return true;
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}
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bool JsHttpRequestProcessor::Process
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( HttpRequest* request
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)
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{
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// Create a handle scope to keep the temporary object references.
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HandleScope handle_scope;
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// Enter this processor's context so all the remaining operations
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// take place there
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Context::Scope context_scope(context_);
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// Wrap the C++ request object in a JavaScript wrapper
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Handle<Object> request_obj = WrapRequest(request);
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// Set up an exception handler before calling the Process function
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TryCatch try_catch;
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// Invoke the process function, giving the global object as 'this'
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// and one argument, the request.
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const int argc = 1;
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Handle<Value> argv[argc] = { request_obj };
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Handle<Value> result = process_->Call(context_->Global(), argc, argv);
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if (result.IsEmpty()) {
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String::Utf8Value error(try_catch.Exception());
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Log(*error);
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return false;
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} else {
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return true;
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}
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}
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JsHttpRequestProcessor::~JsHttpRequestProcessor
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(
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)
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{
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// Dispose the persistent handles. When noone else has any
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// references to the objects stored in the handles they will be
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// automatically reclaimed.
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context_.Dispose();
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process_.Dispose();
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}
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Persistent<ObjectTemplate> JsHttpRequestProcessor::request_template_;
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Persistent<ObjectTemplate> JsHttpRequestProcessor::map_template_;
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// -----------------------------------
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// --- A c c e s s i n g M a p s ---
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// -----------------------------------
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// Utility function that wraps a C++ http request object in a
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// JavaScript object.
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Handle<Object> JsHttpRequestProcessor::WrapMap
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( map<string, string>* obj
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)
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{
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// Handle scope for temporary handles.
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HandleScope handle_scope;
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// Fetch the template for creating JavaScript map wrappers.
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// It only has to be created once, which we do on demand.
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if (request_template_.IsEmpty()) {
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Handle<ObjectTemplate> raw_template = MakeMapTemplate();
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map_template_ = Persistent<ObjectTemplate>::New(raw_template);
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}
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Handle<ObjectTemplate> templ = map_template_;
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// Create an empty map wrapper.
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Handle<Object> result = templ->NewInstance();
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// Wrap the raw C++ pointer in an External so it can be referenced
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// from within JavaScript.
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Handle<External> map_ptr = External::New(obj);
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// Store the map pointer in the JavaScript wrapper.
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result->SetInternalField(0, map_ptr);
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// Return the result through the current handle scope. Since each
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// of these handles will go away when the handle scope is deleted
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// we need to call Close to let one, the result, escape into the
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// outer handle scope.
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return handle_scope.Close(result);
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}
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// Utility function that extracts the C++ map pointer from a wrapper
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// object.
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map<string, string>* JsHttpRequestProcessor::UnwrapMap
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( Handle<Object> obj
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)
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{
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Handle<External> field = Handle<External>::Cast(obj->GetInternalField(0));
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void* ptr = field->Value();
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return static_cast<map<string, string>*>(ptr);
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}
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// Convert a JavaScript string to a std::string. To not bother too
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// much with string encodings we just use ascii.
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string ObjectToString
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( Local<Value> value
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)
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{
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String::Utf8Value utf8_value(value);
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return string(*utf8_value);
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}
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Handle<Value> JsHttpRequestProcessor::MapGet
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( Local<String> name
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, const AccessorInfo& info
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)
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{
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// Fetch the map wrapped by this object.
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map<string, string>* obj = UnwrapMap(info.Holder());
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// Convert the JavaScript string to a std::string.
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string key = ObjectToString(name);
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// Look up the value if it exists using the standard STL ideom.
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map<string, string>::iterator iter = obj->find(key);
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// If the key is not present return an empty handle as signal
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if (iter == obj->end()) return Handle<Value>();
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// Otherwise fetch the value and wrap it in a JavaScript string
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const string& value = (*iter).second;
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return String::New(value.c_str(), value.length());
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}
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Handle<Value> JsHttpRequestProcessor::MapSet
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( Local<String> name
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, Local<Value> value_obj
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, const AccessorInfo& info
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)
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{
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// Fetch the map wrapped by this object.
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map<string, string>* obj = UnwrapMap(info.Holder());
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// Convert the key and value to std::strings.
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string key = ObjectToString(name);
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string value = ObjectToString(value_obj);
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// Update the map.
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(*obj)[key] = value;
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// Return the value; any non-empty handle will work.
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return value_obj;
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}
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Handle<ObjectTemplate> JsHttpRequestProcessor::MakeMapTemplate
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(
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)
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{
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HandleScope handle_scope;
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Handle<ObjectTemplate> result = ObjectTemplate::New();
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result->SetInternalFieldCount(1);
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result->SetNamedPropertyHandler(MapGet, MapSet);
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// Again, return the result through the current handle scope.
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return handle_scope.Close(result);
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}
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// -------------------------------------------
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// --- A c c e s s i n g R e q u e s t s ---
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// -------------------------------------------
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/**
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* Utility function that wraps a C++ http request object in a
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* JavaScript object.
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*/
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Handle<Object> JsHttpRequestProcessor::WrapRequest
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( HttpRequest* request
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)
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{
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// Handle scope for temporary handles.
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HandleScope handle_scope;
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// Fetch the template for creating JavaScript http request wrappers.
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// It only has to be created once, which we do on demand.
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if (request_template_.IsEmpty()) {
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Handle<ObjectTemplate> raw_template = MakeRequestTemplate();
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request_template_ = Persistent<ObjectTemplate>::New(raw_template);
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}
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Handle<ObjectTemplate> templ = request_template_;
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// Create an empty http request wrapper.
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Handle<Object> result = templ->NewInstance();
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// Wrap the raw C++ pointer in an External so it can be referenced
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// from within JavaScript.
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Handle<External> request_ptr = External::New(request);
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// Store the request pointer in the JavaScript wrapper.
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result->SetInternalField(0, request_ptr);
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// Return the result through the current handle scope. Since each
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// of these handles will go away when the handle scope is deleted
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// we need to call Close to let one, the result, escape into the
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// outer handle scope.
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return handle_scope.Close(result);
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}
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/**
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* Utility function that extracts the C++ http request object from a
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* wrapper object.
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*/
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HttpRequest* JsHttpRequestProcessor::UnwrapRequest
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( Handle<Object> obj
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)
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{
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Handle<External> field = Handle<External>::Cast(obj->GetInternalField(0));
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void* ptr = field->Value();
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return static_cast<HttpRequest*>(ptr);
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}
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Handle<Value> JsHttpRequestProcessor::GetPath
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( Local<String> name
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, const AccessorInfo& info
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)
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{
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// Extract the C++ request object from the JavaScript wrapper.
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HttpRequest* request = UnwrapRequest(info.Holder());
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// Fetch the path.
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const string& path = request->Path();
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// Wrap the result in a JavaScript string and return it.
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return String::New(path.c_str(), path.length());
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}
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Handle<Value> JsHttpRequestProcessor::GetReferrer
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( Local<String> name
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, const AccessorInfo& info
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)
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{
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HttpRequest* request = UnwrapRequest(info.Holder());
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const string& path = request->Referrer();
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return String::New(path.c_str(), path.length());
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}
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Handle<Value> JsHttpRequestProcessor::GetHost
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( Local<String> name
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, const AccessorInfo& info
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)
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{
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HttpRequest* request = UnwrapRequest(info.Holder());
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const string& path = request->Host();
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return String::New(path.c_str(), path.length());
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}
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Handle<Value> JsHttpRequestProcessor::GetUserAgent
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( Local<String> name
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, const AccessorInfo& info
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)
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{
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HttpRequest* request = UnwrapRequest(info.Holder());
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const string& path = request->UserAgent();
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return String::New(path.c_str(), path.length());
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}
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Handle<ObjectTemplate> JsHttpRequestProcessor::MakeRequestTemplate
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(
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)
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{
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HandleScope handle_scope;
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Handle<ObjectTemplate> result = ObjectTemplate::New();
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result->SetInternalFieldCount(1);
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// Add accessors for each of the fields of the request.
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result->SetAccessor(String::NewSymbol("path"), GetPath);
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result->SetAccessor(String::NewSymbol("referrer"), GetReferrer);
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result->SetAccessor(String::NewSymbol("host"), GetHost);
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result->SetAccessor(String::NewSymbol("userAgent"), GetUserAgent);
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// Again, return the result through the current handle scope.
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return handle_scope.Close(result);
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}
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// --- Test ---
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void HttpRequestProcessor::Log
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( const char* event
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)
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{
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printf("Logged: %s\n", event);
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}
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void PrintMap
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( map<string, string>* m
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)
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{
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for (map<string, string>::iterator i = m->begin(); i != m->end(); i++) {
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pair<string, string> entry = *i;
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printf("%s: %s\n", entry.first.c_str(), entry.second.c_str());
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}
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}
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#if 0
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int main(int argc, char* argv[]) {
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map<string, string> options;
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string file;
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ParseOptions(argc, argv, options, &file);
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if (file.empty()) {
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fprintf(stderr, "No script was specified.\n");
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return 1;
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}
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HandleScope scope;
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Handle<String> source = ReadFile(file);
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if (source.IsEmpty()) {
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fprintf(stderr, "Error reading '%s'.\n", file.c_str());
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return 1;
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}
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JsHttpRequestProcessor processor(source);
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map<string, string> output;
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if (!processor.Initialize(&options, &output)) {
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fprintf(stderr, "Error initializing processor.\n");
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return 1;
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}
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if (!ProcessEntries(&processor, kSampleSize, kSampleRequests))
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return 1;
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PrintMap(&output);
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}
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#endif
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