buffet/http_transport_fake.cc - mirrors/cros/chromiumos/platform2 - Git at Google

 // Copyright 2014 The Chromium OS Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "buffet/http_transport_fake.h"

 #include <utility>

 #include <base/json/json_reader.h>
 #include <base/json/json_writer.h>
 #include <base/logging.h>

 #include "buffet/bind_lambda.h"
 #include "buffet/http_connection_fake.h"
 #include "buffet/http_request.h"
 #include "buffet/mime_utils.h"
 #include "buffet/url_utils.h"

 namespace buffet {

 using http::fake::Transport;
 using http::fake::ServerRequestResponseBase;
 using http::fake::ServerRequest;
 using http::fake::ServerResponse;

 Transport::Transport() {
   VLOG(1) << "fake::Transport created";
 }

 Transport::~Transport() {
   VLOG(1) << "fake::Transport destroyed";
 }

 std::unique_ptr<http::Connection> Transport::CreateConnection(
     std::shared_ptr<http::Transport> transport,
     const std::string& url,
     const std::string& method,
     const HeaderList& headers,
     const std::string& user_agent,
     const std::string& referer,
     ErrorPtr* error) {
   HeaderList headers_copy = headers;
   if (!user_agent.empty()) {
     headers_copy.push_back(std::make_pair(http::request_header::kUserAgent,
                                           user_agent));
   }
   if (!referer.empty()) {
     headers_copy.push_back(std::make_pair(http::request_header::kReferer,
                                           referer));
   }
   std::unique_ptr<http::Connection> connection(
       new http::fake::Connection(url, method, transport));
   CHECK(connection) << "Unable to create Connection object";
   if (!connection->SendHeaders(headers_copy, error))
     connection.reset();
   request_count_++;
   return connection;
 }

 static inline std::string GetHandlerMapKey(const std::string& url,
                                            const std::string& method) {
   return method + ":" + url;
 }

 void Transport::AddHandler(const std::string& url, const std::string& method,
                            const HandlerCallback& handler) {
   handlers_.insert(std::make_pair(GetHandlerMapKey(url, method), handler));
 }

 void Transport::AddSimpleReplyHandler(const std::string& url,
                                       const std::string& method,
                                       int status_code,
                                       const std::string& reply_text,
                                       const std::string& mime_type) {
   auto handler = [status_code, reply_text, mime_type](
       const ServerRequest& request, ServerResponse* response) {
     response->ReplyText(status_code, reply_text, mime_type.c_str());
   };
   AddHandler(url, method, base::Bind(handler));
 }

 Transport::HandlerCallback Transport::GetHandler(
     const std::string& url, const std::string& method) const {
   // First try the exact combination of URL/Method
   auto p = handlers_.find(GetHandlerMapKey(url, method));
   if (p != handlers_.end())
     return p->second;
   // If not found, try URL/*
   p = handlers_.find(GetHandlerMapKey(url, "*"));
   if (p != handlers_.end())
     return p->second;
   // If still not found, try */method
   p = handlers_.find(GetHandlerMapKey("*", method));
   if (p != handlers_.end())
     return p->second;
   // Finally, try */*
   p = handlers_.find(GetHandlerMapKey("*", "*"));
   return (p != handlers_.end()) ? p->second : HandlerCallback();
 }

 void ServerRequestResponseBase::AddData(const void* data, size_t data_size) {
   auto bytes = reinterpret_cast<const unsigned char*>(data);
   data_.insert(data_.end(), bytes, bytes + data_size);
 }

 std::string ServerRequestResponseBase::GetDataAsString() const {
   if (data_.empty())
     return std::string();
   auto chars = reinterpret_cast<const char*>(data_.data());
   return std::string(chars, data_.size());
 }

 std::unique_ptr<base::DictionaryValue>
     ServerRequestResponseBase::GetDataAsJson() const {
   if (mime::RemoveParameters(GetHeader(request_header::kContentType)) ==
       mime::application::kJson) {
     auto value = base::JSONReader::Read(GetDataAsString());
     if (value) {
       base::DictionaryValue* dict = nullptr;
       if (value->GetAsDictionary(&dict)) {
         return std::unique_ptr<base::DictionaryValue>(dict);
       } else {
         delete value;
       }
     }
   }
   return std::unique_ptr<base::DictionaryValue>();
 }

 void ServerRequestResponseBase::AddHeaders(const HeaderList& headers) {
   for (auto&& pair : headers) {
     if (pair.second.empty())
       headers_.erase(pair.first);
     else
       headers_.insert(pair);
   }
 }

 std::string ServerRequestResponseBase::GetHeader(
     const std::string& header_name) const {
   auto p = headers_.find(header_name);
   return p != headers_.end() ? p->second : std::string();
 }

 ServerRequest::ServerRequest(const std::string& url,
                              const std::string& method) : method_(method) {
   auto params = url::GetQueryStringParameters(url);
   url_ = url::RemoveQueryString(url, true);
   form_fields_.insert(params.begin(), params.end());
 }

 std::string ServerRequest::GetFormField(const std::string& field_name) const {
   if (!form_fields_parsed_) {
     std::string mime_type = mime::RemoveParameters(
         GetHeader(request_header::kContentType));
     if (mime_type == mime::application::kWwwFormUrlEncoded &&
         !GetData().empty()) {
       auto fields = data_encoding::WebParamsDecode(GetDataAsString());
       form_fields_.insert(fields.begin(), fields.end());
     }
     form_fields_parsed_ = true;
   }
   auto p = form_fields_.find(field_name);
   return p != form_fields_.end() ? p->second : std::string();
 }

 void ServerResponse::Reply(int status_code, const void* data, size_t data_size,
                            const char* mime_type) {
   data_.clear();
   status_code_ = status_code;
   AddData(data, data_size);
   AddHeaders({
     {response_header::kContentLength, std::to_string(data_size)},
     {response_header::kContentType, mime_type}
   });
 }

 void ServerResponse::ReplyText(int status_code, const std::string& text,
                                const char* mime_type) {
   Reply(status_code, text.data(), text.size(), mime_type);
 }

 void ServerResponse::ReplyJson(int status_code, const base::Value* json) {
   std::string text;
   base::JSONWriter::WriteWithOptions(json,
                                      base::JSONWriter::OPTIONS_PRETTY_PRINT,
                                      &text);
   std::string mime_type = mime::AppendParameter(mime::application::kJson,
                                                 mime::parameters::kCharset,
                                                 "utf-8");
   ReplyText(status_code, text, mime_type.c_str());
 }

 void ServerResponse::ReplyJson(int status_code,
                                const http::FormFieldList& fields) {
   base::DictionaryValue json;
   for (auto&& pair : fields) {
     json.SetString(pair.first, pair.second);
   }
   ReplyJson(status_code, &json);
 }

 std::string ServerResponse::GetStatusText() const {
   static std::vector<std::pair<int, const char*>> status_text_map = {
     {100, "Continue"},
     {101, "Switching Protocols"},
     {102, "Processing"},
     {200, "OK"},
     {201, "Created"},
     {202, "Accepted"},
     {203, "Non-Authoritative Information"},
     {204, "No Content"},
     {205, "Reset Content"},
     {206, "Partial Content"},
     {207, "Multi-Status"},
     {208, "Already Reported"},
     {226, "IM Used"},
     {300, "Multiple Choices"},
     {301, "Moved Permanently"},
     {302, "Found"},
     {303, "See Other"},
     {304, "Not Modified"},
     {305, "Use Proxy"},
     {306, "Switch Proxy"},
     {307, "Temporary Redirect"},
     {308, "Permanent Redirect"},
     {400, "Bad Request"},
     {401, "Unauthorized"},
     {402, "Payment Required"},
     {403, "Forbidden"},
     {404, "Not Found"},
     {405, "Method Not Allowed"},
     {406, "Not Acceptable"},
     {407, "Proxy Authentication Required"},
     {408, "Request Timeout"},
     {409, "Conflict"},
     {410, "Gone"},
     {411, "Length Required"},
     {412, "Precondition Failed"},
     {413, "Request Entity Too Large"},
     {414, "Request - URI Too Long"},
     {415, "Unsupported Media Type"},
     {429, "Too Many Requests"},
     {431, "Request Header Fields Too Large"},
     {500, "Internal Server Error"},
     {501, "Not Implemented"},
     {502, "Bad Gateway"},
     {503, "Service Unavailable"},
     {504, "Gateway Timeout"},
     {505, "HTTP Version Not Supported"},
   };

   for (auto&& pair : status_text_map) {
     if (pair.first == status_code_)
       return pair.second;
   }
   return std::string();
 }

 }  // namespace buffet
	// Copyright 2014 The Chromium OS Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "buffet/http_transport_fake.h"

	#include <utility>

	#include <base/json/json_reader.h>
	#include <base/json/json_writer.h>
	#include <base/logging.h>

	#include "buffet/bind_lambda.h"
	#include "buffet/http_connection_fake.h"
	#include "buffet/http_request.h"
	#include "buffet/mime_utils.h"
	#include "buffet/url_utils.h"

	namespace buffet {

	using http::fake::Transport;
	using http::fake::ServerRequestResponseBase;
	using http::fake::ServerRequest;
	using http::fake::ServerResponse;

	Transport::Transport() {
	VLOG(1) << "fake::Transport created";
	}

	Transport::~Transport() {
	VLOG(1) << "fake::Transport destroyed";
	}

	std::unique_ptr<http::Connection> Transport::CreateConnection(
	std::shared_ptr<http::Transport> transport,
	const std::string& url,
	const std::string& method,
	const HeaderList& headers,
	const std::string& user_agent,
	const std::string& referer,
	ErrorPtr* error) {
	HeaderList headers_copy = headers;
	if (!user_agent.empty()) {
	headers_copy.push_back(std::make_pair(http::request_header::kUserAgent,
	user_agent));
	}
	if (!referer.empty()) {
	headers_copy.push_back(std::make_pair(http::request_header::kReferer,
	referer));
	}
	std::unique_ptr<http::Connection> connection(
	new http::fake::Connection(url, method, transport));
	CHECK(connection) << "Unable to create Connection object";
	if (!connection->SendHeaders(headers_copy, error))
	connection.reset();
	request_count_++;
	return connection;
	}

	static inline std::string GetHandlerMapKey(const std::string& url,
	const std::string& method) {
	return method + ":" + url;
	}

	void Transport::AddHandler(const std::string& url, const std::string& method,
	const HandlerCallback& handler) {
	handlers_.insert(std::make_pair(GetHandlerMapKey(url, method), handler));
	}

	void Transport::AddSimpleReplyHandler(const std::string& url,
	const std::string& method,
	int status_code,
	const std::string& reply_text,
	const std::string& mime_type) {
	auto handler = [status_code, reply_text, mime_type](
	const ServerRequest& request, ServerResponse* response) {
	response->ReplyText(status_code, reply_text, mime_type.c_str());
	};
	AddHandler(url, method, base::Bind(handler));
	}

	Transport::HandlerCallback Transport::GetHandler(
	const std::string& url, const std::string& method) const {
	// First try the exact combination of URL/Method
	auto p = handlers_.find(GetHandlerMapKey(url, method));
	if (p != handlers_.end())
	return p->second;
	// If not found, try URL/*
	p = handlers_.find(GetHandlerMapKey(url, "*"));
	if (p != handlers_.end())
	return p->second;
	// If still not found, try */method
	p = handlers_.find(GetHandlerMapKey("*", method));
	if (p != handlers_.end())
	return p->second;
	// Finally, try /
	p = handlers_.find(GetHandlerMapKey("", ""));
	return (p != handlers_.end()) ? p->second : HandlerCallback();
	}

	void ServerRequestResponseBase::AddData(const void* data, size_t data_size) {
	auto bytes = reinterpret_cast<const unsigned char*>(data);
	data_.insert(data_.end(), bytes, bytes + data_size);
	}

	std::string ServerRequestResponseBase::GetDataAsString() const {
	if (data_.empty())
	return std::string();
	auto chars = reinterpret_cast<const char*>(data_.data());
	return std::string(chars, data_.size());
	}

	std::unique_ptr<base::DictionaryValue>
	ServerRequestResponseBase::GetDataAsJson() const {
	if (mime::RemoveParameters(GetHeader(request_header::kContentType)) ==
	mime::application::kJson) {
	auto value = base::JSONReader::Read(GetDataAsString());
	if (value) {
	base::DictionaryValue* dict = nullptr;
	if (value->GetAsDictionary(&dict)) {
	return std::unique_ptr<base::DictionaryValue>(dict);
	} else {
	delete value;
	}
	}
	}
	return std::unique_ptr<base::DictionaryValue>();
	}

	void ServerRequestResponseBase::AddHeaders(const HeaderList& headers) {
	for (auto&& pair : headers) {
	if (pair.second.empty())
	headers_.erase(pair.first);
	else
	headers_.insert(pair);
	}
	}

	std::string ServerRequestResponseBase::GetHeader(
	const std::string& header_name) const {
	auto p = headers_.find(header_name);
	return p != headers_.end() ? p->second : std::string();
	}

	ServerRequest::ServerRequest(const std::string& url,
	const std::string& method) : method_(method) {
	auto params = url::GetQueryStringParameters(url);
	url_ = url::RemoveQueryString(url, true);
	form_fields_.insert(params.begin(), params.end());
	}

	std::string ServerRequest::GetFormField(const std::string& field_name) const {
	if (!form_fields_parsed_) {
	std::string mime_type = mime::RemoveParameters(
	GetHeader(request_header::kContentType));
	if (mime_type == mime::application::kWwwFormUrlEncoded &&
	!GetData().empty()) {
	auto fields = data_encoding::WebParamsDecode(GetDataAsString());
	form_fields_.insert(fields.begin(), fields.end());
	}
	form_fields_parsed_ = true;
	}
	auto p = form_fields_.find(field_name);
	return p != form_fields_.end() ? p->second : std::string();
	}

	void ServerResponse::Reply(int status_code, const void* data, size_t data_size,
	const char* mime_type) {
	data_.clear();
	status_code_ = status_code;
	AddData(data, data_size);
	AddHeaders({
	{response_header::kContentLength, std::to_string(data_size)},
	{response_header::kContentType, mime_type}
	});
	}

	void ServerResponse::ReplyText(int status_code, const std::string& text,
	const char* mime_type) {
	Reply(status_code, text.data(), text.size(), mime_type);
	}

	void ServerResponse::ReplyJson(int status_code, const base::Value* json) {
	std::string text;
	base::JSONWriter::WriteWithOptions(json,
	base::JSONWriter::OPTIONS_PRETTY_PRINT,
	&text);
	std::string mime_type = mime::AppendParameter(mime::application::kJson,
	mime::parameters::kCharset,
	"utf-8");
	ReplyText(status_code, text, mime_type.c_str());
	}

	void ServerResponse::ReplyJson(int status_code,
	const http::FormFieldList& fields) {
	base::DictionaryValue json;
	for (auto&& pair : fields) {
	json.SetString(pair.first, pair.second);
	}
	ReplyJson(status_code, &json);
	}

	std::string ServerResponse::GetStatusText() const {
	static std::vector<std::pair<int, const char*>> status_text_map = {
	{100, "Continue"},
	{101, "Switching Protocols"},
	{102, "Processing"},
	{200, "OK"},
	{201, "Created"},
	{202, "Accepted"},
	{203, "Non-Authoritative Information"},
	{204, "No Content"},
	{205, "Reset Content"},
	{206, "Partial Content"},
	{207, "Multi-Status"},
	{208, "Already Reported"},
	{226, "IM Used"},
	{300, "Multiple Choices"},
	{301, "Moved Permanently"},
	{302, "Found"},
	{303, "See Other"},
	{304, "Not Modified"},
	{305, "Use Proxy"},
	{306, "Switch Proxy"},
	{307, "Temporary Redirect"},
	{308, "Permanent Redirect"},
	{400, "Bad Request"},
	{401, "Unauthorized"},
	{402, "Payment Required"},
	{403, "Forbidden"},
	{404, "Not Found"},
	{405, "Method Not Allowed"},
	{406, "Not Acceptable"},
	{407, "Proxy Authentication Required"},
	{408, "Request Timeout"},
	{409, "Conflict"},
	{410, "Gone"},
	{411, "Length Required"},
	{412, "Precondition Failed"},
	{413, "Request Entity Too Large"},
	{414, "Request - URI Too Long"},
	{415, "Unsupported Media Type"},
	{429, "Too Many Requests"},
	{431, "Request Header Fields Too Large"},
	{500, "Internal Server Error"},
	{501, "Not Implemented"},
	{502, "Bad Gateway"},
	{503, "Service Unavailable"},
	{504, "Gateway Timeout"},
	{505, "HTTP Version Not Supported"},
	};

	for (auto&& pair : status_text_map) {
	if (pair.first == status_code_)
	return pair.second;
	}
	return std::string();
	}

	} // namespace buffet