net/server/http_server.cc - platform/external/chromium - Git at Google

 // Copyright (c) 2011 The Chromium 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 "net/server/http_server.h"

 #include "base/compiler_specific.h"
 #include "base/logging.h"
 #include "base/md5.h"
 #include "base/string_number_conversions.h"
 #include "base/string_util.h"
 #include "base/stringprintf.h"
 #include "build/build_config.h"
 #include "net/server/http_server_request_info.h"

 #if defined(OS_WIN)
 #include <winsock2.h>
 #else
 #include <arpa/inet.h>
 #endif

 namespace net {

 int HttpServer::Connection::lastId_ = 0;

 HttpServer::HttpServer(const std::string& host,
                        int port,
                        HttpServer::Delegate* del)
     : delegate_(del) {
   server_ = ListenSocket::Listen(host, port, this);
 }

 HttpServer::~HttpServer() {
   IdToConnectionMap copy = id_to_connection_;
   for (IdToConnectionMap::iterator it = copy.begin(); it != copy.end(); ++it)
     delete it->second;

   server_ = NULL;
 }

 std::string GetHeaderValue(
     const HttpServerRequestInfo& request,
     const std::string& header_name) {
   HttpServerRequestInfo::HeadersMap::iterator it =
       request.headers.find(header_name);
   if (it != request.headers.end())
     return it->second;
   return "";
 }

 uint32 WebSocketKeyFingerprint(const std::string& str) {
   std::string result;
   const char* pChar = str.c_str();
   int length = str.length();
   int spaces = 0;
   for (int i = 0; i < length; ++i) {
     if (pChar[i] >= '0' && pChar[i] <= '9')
       result.append(&pChar[i], 1);
     else if (pChar[i] == ' ')
       spaces++;
   }
   if (spaces == 0)
     return 0;
   int64 number = 0;
   if (!base::StringToInt64(result, &number))
     return 0;
   return htonl(static_cast<uint32>(number / spaces));
 }

 void HttpServer::AcceptWebSocket(
     int connection_id,
     const HttpServerRequestInfo& request) {
   Connection* connection = FindConnection(connection_id);
   if (connection == NULL)
     return;

   std::string key1 = GetHeaderValue(request, "Sec-WebSocket-Key1");
   std::string key2 = GetHeaderValue(request, "Sec-WebSocket-Key2");

   uint32 fp1 = WebSocketKeyFingerprint(key1);
   uint32 fp2 = WebSocketKeyFingerprint(key2);

   char data[16];
   memcpy(data, &fp1, 4);
   memcpy(data + 4, &fp2, 4);
   memcpy(data + 8, &request.data[0], 8);

   MD5Digest digest;
   MD5Sum(data, 16, &digest);

   std::string origin = GetHeaderValue(request, "Origin");
   std::string host = GetHeaderValue(request, "Host");
   std::string location = "ws://" + host + request.path;
   connection->is_web_socket_ = true;
   connection->socket_->Send(base::StringPrintf(
       "HTTP/1.1 101 WebSocket Protocol Handshake\r\n"
       "Upgrade: WebSocket\r\n"
       "Connection: Upgrade\r\n"
       "Sec-WebSocket-Origin: %s\r\n"
       "Sec-WebSocket-Location: %s\r\n"
       "\r\n",
       origin.c_str(),
       location.c_str()));
   connection->socket_->Send(reinterpret_cast<char*>(digest.a), 16);
 }

 void HttpServer::SendOverWebSocket(int connection_id,
                                    const std::string& data) {
   Connection* connection = FindConnection(connection_id);
   if (connection == NULL)
     return;

   DCHECK(connection->is_web_socket_);
   char message_start = 0;
   char message_end = -1;
   connection->socket_->Send(&message_start, 1);
   connection->socket_->Send(data);
   connection->socket_->Send(&message_end, 1);
 }

 void HttpServer::Send(int connection_id, const std::string& data) {
   Connection* connection = FindConnection(connection_id);
   if (connection == NULL)
     return;

   connection->socket_->Send(data);
 }

 void HttpServer::Send(int connection_id, const char* bytes, int len) {
   Connection* connection = FindConnection(connection_id);
   if (connection == NULL)
     return;

   connection->socket_->Send(bytes, len);
 }

 void HttpServer::Send200(int connection_id,
                          const std::string& data,
                          const std::string& content_type) {
   Connection* connection = FindConnection(connection_id);
   if (connection == NULL)
     return;

   connection->socket_->Send(base::StringPrintf(
       "HTTP/1.1 200 OK\r\n"
       "Content-Type:%s\r\n"
       "Content-Length:%d\r\n"
       "\r\n",
       content_type.c_str(),
       static_cast<int>(data.length())));
   connection->socket_->Send(data);
 }

 void HttpServer::Send404(int connection_id) {
   Connection* connection = FindConnection(connection_id);
   if (connection == NULL)
     return;

   connection->socket_->Send(
       "HTTP/1.1 404 Not Found\r\n"
       "Content-Length: 0\r\n"
       "\r\n");
 }

 void HttpServer::Send500(int connection_id, const std::string& message) {
   Connection* connection = FindConnection(connection_id);
   if (connection == NULL)
     return;

   connection->socket_->Send(base::StringPrintf(
       "HTTP/1.1 500 Internal Error\r\n"
       "Content-Type:text/html\r\n"
       "Content-Length:%d\r\n"
       "\r\n"
       "%s",
       static_cast<int>(message.length()),
       message.c_str()));
 }

 void HttpServer::Close(int connection_id)
 {
   Connection* connection = FindConnection(connection_id);
   if (connection == NULL)
     return;

   connection->DetachSocket();
 }

 HttpServer::Connection::Connection(HttpServer* server, ListenSocket* sock)
     : server_(server),
       socket_(sock),
       is_web_socket_(false) {
   id_ = lastId_++;
 }

 HttpServer::Connection::~Connection() {
   DetachSocket();
   server_->delegate_->OnClose(id_);
 }

 void HttpServer::Connection::DetachSocket() {
   socket_ = NULL;
 }

 void HttpServer::Connection::Shift(int num_bytes) {
   recv_data_ = recv_data_.substr(num_bytes);
 }

 //
 // HTTP Request Parser
 // This HTTP request parser uses a simple state machine to quickly parse
 // through the headers.  The parser is not 100% complete, as it is designed
 // for use in this simple test driver.
 //
 // Known issues:
 //   - does not handle whitespace on first HTTP line correctly.  Expects
 //     a single space between the method/url and url/protocol.

 // Input character types.
 enum header_parse_inputs {
   INPUT_SPACE,
   INPUT_CR,
   INPUT_LF,
   INPUT_COLON,
   INPUT_00,
   INPUT_FF,
   INPUT_DEFAULT,
   MAX_INPUTS,
 };

 // Parser states.
 enum header_parse_states {
   ST_METHOD,     // Receiving the method
   ST_URL,        // Receiving the URL
   ST_PROTO,      // Receiving the protocol
   ST_HEADER,     // Starting a Request Header
   ST_NAME,       // Receiving a request header name
   ST_SEPARATOR,  // Receiving the separator between header name and value
   ST_VALUE,      // Receiving a request header value
   ST_WS_READY,   // Ready to receive web socket frame
   ST_WS_FRAME,   // Receiving WebSocket frame
   ST_WS_CLOSE,   // Closing the connection WebSocket connection
   ST_DONE,       // Parsing is complete and successful
   ST_ERR,        // Parsing encountered invalid syntax.
   MAX_STATES
 };

 // State transition table
 int parser_state[MAX_STATES][MAX_INPUTS] = {
 /* METHOD    */ { ST_URL,       ST_ERR,      ST_ERR,      ST_ERR,       ST_ERR,      ST_ERR,      ST_METHOD },
 /* URL       */ { ST_PROTO,     ST_ERR,      ST_ERR,      ST_URL,       ST_ERR,      ST_ERR,      ST_URL },
 /* PROTOCOL  */ { ST_ERR,       ST_HEADER,   ST_NAME,     ST_ERR,       ST_ERR,      ST_ERR,      ST_PROTO },
 /* HEADER    */ { ST_ERR,       ST_ERR,      ST_NAME,     ST_ERR,       ST_ERR,      ST_ERR,      ST_ERR },
 /* NAME      */ { ST_SEPARATOR, ST_DONE,     ST_ERR,      ST_SEPARATOR, ST_ERR,      ST_ERR,      ST_NAME },
 /* SEPARATOR */ { ST_SEPARATOR, ST_ERR,      ST_ERR,      ST_SEPARATOR, ST_ERR,      ST_ERR,      ST_VALUE },
 /* VALUE     */ { ST_VALUE,     ST_HEADER,   ST_NAME,     ST_VALUE,     ST_ERR,      ST_ERR,      ST_VALUE },
 /* WS_READY  */ { ST_ERR,       ST_ERR,      ST_ERR,      ST_ERR,       ST_WS_FRAME, ST_WS_CLOSE, ST_ERR},
 /* WS_FRAME  */ { ST_WS_FRAME,  ST_WS_FRAME, ST_WS_FRAME, ST_WS_FRAME,  ST_ERR,      ST_WS_READY, ST_WS_FRAME },
 /* WS_CLOSE  */ { ST_ERR,       ST_ERR,      ST_ERR,      ST_ERR,       ST_WS_CLOSE, ST_ERR,      ST_ERR },
 /* DONE      */ { ST_DONE,      ST_DONE,     ST_DONE,     ST_DONE,      ST_DONE,     ST_DONE,     ST_DONE },
 /* ERR       */ { ST_ERR,       ST_ERR,      ST_ERR,      ST_ERR,       ST_ERR,      ST_ERR,      ST_ERR }
 };

 // Convert an input character to the parser's input token.
 int charToInput(char ch) {
   switch(ch) {
     case ' ':
       return INPUT_SPACE;
     case '\r':
       return INPUT_CR;
     case '\n':
       return INPUT_LF;
     case ':':
       return INPUT_COLON;
     case 0x0:
       return INPUT_00;
     case static_cast<char>(-1):
       return INPUT_FF;
   }
   return INPUT_DEFAULT;
 }

 bool HttpServer::ParseHeaders(Connection* connection,
                               HttpServerRequestInfo* info,
                               int* ppos) {
   int& pos = *ppos;
   int data_len = connection->recv_data_.length();
   int state = connection->is_web_socket_ ? ST_WS_READY : ST_METHOD;
   std::string buffer;
   std::string header_name;
   std::string header_value;
   while (pos < data_len) {
     char ch = connection->recv_data_[pos++];
     int input = charToInput(ch);
     int next_state = parser_state[state][input];

     bool transition = (next_state != state);
     if (transition) {
       // Do any actions based on state transitions.
       switch (state) {
         case ST_METHOD:
           info->method = buffer;
           buffer.clear();
           break;
         case ST_URL:
           info->path = buffer;
           buffer.clear();
           break;
         case ST_PROTO:
           // TODO(mbelshe): Deal better with parsing protocol.
           DCHECK(buffer == "HTTP/1.1");
           buffer.clear();
           break;
         case ST_NAME:
           header_name = buffer;
           buffer.clear();
           break;
         case ST_VALUE:
           header_value = buffer;
           // TODO(mbelshe): Deal better with duplicate headers
           DCHECK(info->headers.find(header_name) == info->headers.end());
           info->headers[header_name] = header_value;
           buffer.clear();
           break;
         case ST_SEPARATOR:
           buffer.append(&ch, 1);
           break;
         case ST_WS_FRAME:
           info->data = buffer;
           buffer.clear();
           return true;
           break;
       }
       state = next_state;
     } else {
       // Do any actions based on current state
       switch (state) {
         case ST_METHOD:
         case ST_URL:
         case ST_PROTO:
         case ST_VALUE:
         case ST_NAME:
         case ST_WS_FRAME:
           buffer.append(&ch, 1);
           break;
         case ST_DONE:
           DCHECK(input == INPUT_LF);
           return true;
         case ST_WS_CLOSE:
           connection->is_web_socket_ = false;
           return false;
         case ST_ERR:
           return false;
       }
     }
   }
   // No more characters, but we haven't finished parsing yet.
   return false;
 }

 void HttpServer::DidAccept(ListenSocket* server,
                            ListenSocket* socket) {
   Connection* connection = new Connection(this, socket);
   id_to_connection_[connection->id_] = connection;
   socket_to_connection_[socket] = connection;
 }

 void HttpServer::DidRead(ListenSocket* socket,
                          const char* data,
                          int len) {
   Connection* connection = FindConnection(socket);
   DCHECK(connection != NULL);
   if (connection == NULL)
     return;

   connection->recv_data_.append(data, len);
   while (connection->recv_data_.length()) {
     int pos = 0;
     HttpServerRequestInfo request;
     if (!ParseHeaders(connection, &request, &pos))
       break;

     if (connection->is_web_socket_) {
       delegate_->OnWebSocketMessage(connection->id_, request.data);
       connection->Shift(pos);
       continue;
     }

     std::string connection_header = GetHeaderValue(request, "Connection");
     if (connection_header == "Upgrade") {
       // Is this WebSocket and if yes, upgrade the connection.
       std::string key1 = GetHeaderValue(request, "Sec-WebSocket-Key1");
       std::string key2 = GetHeaderValue(request, "Sec-WebSocket-Key2");

       const int websocket_handshake_body_len = 8;
       if (pos + websocket_handshake_body_len >
               static_cast<int>(connection->recv_data_.length())) {
         // We haven't received websocket handshake body yet. Wait.
         break;
       }

       if (!key1.empty() && !key2.empty()) {
         request.data = connection->recv_data_.substr(
             pos,
             pos + websocket_handshake_body_len);
         pos += websocket_handshake_body_len;
         delegate_->OnWebSocketRequest(connection->id_, request);
         connection->Shift(pos);
         continue;
       }
     }
     // Request body is not supported. It is always empty.
     delegate_->OnHttpRequest(connection->id_, request);
     connection->Shift(pos);
   }
 }

 void HttpServer::DidClose(ListenSocket* socket) {
   Connection* connection = FindConnection(socket);
   DCHECK(connection != NULL);
   id_to_connection_.erase(connection->id_);
   socket_to_connection_.erase(connection->socket_);
   delete connection;
 }

 HttpServer::Connection* HttpServer::FindConnection(int connection_id) {
   IdToConnectionMap::iterator it = id_to_connection_.find(connection_id);
   if (it == id_to_connection_.end())
     return NULL;
   return it->second;
 }

 HttpServer::Connection* HttpServer::FindConnection(ListenSocket* socket) {
   SocketToConnectionMap::iterator it = socket_to_connection_.find(socket);
   if (it == socket_to_connection_.end())
     return NULL;
   return it->second;
 }

 }  // namespace net
	// Copyright (c) 2011 The Chromium 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 "net/server/http_server.h"

	#include "base/compiler_specific.h"
	#include "base/logging.h"
	#include "base/md5.h"
	#include "base/string_number_conversions.h"
	#include "base/string_util.h"
	#include "base/stringprintf.h"
	#include "build/build_config.h"
	#include "net/server/http_server_request_info.h"

	#if defined(OS_WIN)
	#include <winsock2.h>
	#else
	#include <arpa/inet.h>
	#endif

	namespace net {

	int HttpServer::Connection::lastId_ = 0;

	HttpServer::HttpServer(const std::string& host,
	int port,
	HttpServer::Delegate* del)
	: delegate_(del) {
	server_ = ListenSocket::Listen(host, port, this);
	}

	HttpServer::~HttpServer() {
	IdToConnectionMap copy = id_to_connection_;
	for (IdToConnectionMap::iterator it = copy.begin(); it != copy.end(); ++it)
	delete it->second;

	server_ = NULL;
	}

	std::string GetHeaderValue(
	const HttpServerRequestInfo& request,
	const std::string& header_name) {
	HttpServerRequestInfo::HeadersMap::iterator it =
	request.headers.find(header_name);
	if (it != request.headers.end())
	return it->second;
	return "";
	}

	uint32 WebSocketKeyFingerprint(const std::string& str) {
	std::string result;
	const char* pChar = str.c_str();
	int length = str.length();
	int spaces = 0;
	for (int i = 0; i < length; ++i) {
	if (pChar[i] >= '0' && pChar[i] <= '9')
	result.append(&pChar[i], 1);
	else if (pChar[i] == ' ')
	spaces++;
	}
	if (spaces == 0)
	return 0;
	int64 number = 0;
	if (!base::StringToInt64(result, &number))
	return 0;
	return htonl(static_cast<uint32>(number / spaces));
	}

	void HttpServer::AcceptWebSocket(
	int connection_id,
	const HttpServerRequestInfo& request) {
	Connection* connection = FindConnection(connection_id);
	if (connection == NULL)
	return;

	std::string key1 = GetHeaderValue(request, "Sec-WebSocket-Key1");
	std::string key2 = GetHeaderValue(request, "Sec-WebSocket-Key2");

	uint32 fp1 = WebSocketKeyFingerprint(key1);
	uint32 fp2 = WebSocketKeyFingerprint(key2);

	char data[16];
	memcpy(data, &fp1, 4);
	memcpy(data + 4, &fp2, 4);
	memcpy(data + 8, &request.data[0], 8);

	MD5Digest digest;
	MD5Sum(data, 16, &digest);

	std::string origin = GetHeaderValue(request, "Origin");
	std::string host = GetHeaderValue(request, "Host");
	std::string location = "ws://" + host + request.path;
	connection->is_web_socket_ = true;
	connection->socket_->Send(base::StringPrintf(
	"HTTP/1.1 101 WebSocket Protocol Handshake\r\n"
	"Upgrade: WebSocket\r\n"
	"Connection: Upgrade\r\n"
	"Sec-WebSocket-Origin: %s\r\n"
	"Sec-WebSocket-Location: %s\r\n"
	"\r\n",
	origin.c_str(),
	location.c_str()));
	connection->socket_->Send(reinterpret_cast<char*>(digest.a), 16);
	}

	void HttpServer::SendOverWebSocket(int connection_id,
	const std::string& data) {
	Connection* connection = FindConnection(connection_id);
	if (connection == NULL)
	return;

	DCHECK(connection->is_web_socket_);
	char message_start = 0;
	char message_end = -1;
	connection->socket_->Send(&message_start, 1);
	connection->socket_->Send(data);
	connection->socket_->Send(&message_end, 1);
	}

	void HttpServer::Send(int connection_id, const std::string& data) {
	Connection* connection = FindConnection(connection_id);
	if (connection == NULL)
	return;

	connection->socket_->Send(data);
	}

	void HttpServer::Send(int connection_id, const char* bytes, int len) {
	Connection* connection = FindConnection(connection_id);
	if (connection == NULL)
	return;

	connection->socket_->Send(bytes, len);
	}

	void HttpServer::Send200(int connection_id,
	const std::string& data,
	const std::string& content_type) {
	Connection* connection = FindConnection(connection_id);
	if (connection == NULL)
	return;

	connection->socket_->Send(base::StringPrintf(
	"HTTP/1.1 200 OK\r\n"
	"Content-Type:%s\r\n"
	"Content-Length:%d\r\n"
	"\r\n",
	content_type.c_str(),
	static_cast<int>(data.length())));
	connection->socket_->Send(data);
	}

	void HttpServer::Send404(int connection_id) {
	Connection* connection = FindConnection(connection_id);
	if (connection == NULL)
	return;

	connection->socket_->Send(
	"HTTP/1.1 404 Not Found\r\n"
	"Content-Length: 0\r\n"
	"\r\n");
	}

	void HttpServer::Send500(int connection_id, const std::string& message) {
	Connection* connection = FindConnection(connection_id);
	if (connection == NULL)
	return;

	connection->socket_->Send(base::StringPrintf(
	"HTTP/1.1 500 Internal Error\r\n"
	"Content-Type:text/html\r\n"
	"Content-Length:%d\r\n"
	"\r\n"
	"%s",
	static_cast<int>(message.length()),
	message.c_str()));
	}

	void HttpServer::Close(int connection_id)
	{
	Connection* connection = FindConnection(connection_id);
	if (connection == NULL)
	return;

	connection->DetachSocket();
	}

	HttpServer::Connection::Connection(HttpServer* server, ListenSocket* sock)
	: server_(server),
	socket_(sock),
	is_web_socket_(false) {
	id_ = lastId_++;
	}

	HttpServer::Connection::~Connection() {
	DetachSocket();
	server_->delegate_->OnClose(id_);
	}

	void HttpServer::Connection::DetachSocket() {
	socket_ = NULL;
	}

	void HttpServer::Connection::Shift(int num_bytes) {
	recv_data_ = recv_data_.substr(num_bytes);
	}

	//
	// HTTP Request Parser
	// This HTTP request parser uses a simple state machine to quickly parse
	// through the headers. The parser is not 100% complete, as it is designed
	// for use in this simple test driver.
	//
	// Known issues:
	// - does not handle whitespace on first HTTP line correctly. Expects
	// a single space between the method/url and url/protocol.

	// Input character types.
	enum header_parse_inputs {
	INPUT_SPACE,
	INPUT_CR,
	INPUT_LF,
	INPUT_COLON,
	INPUT_00,
	INPUT_FF,
	INPUT_DEFAULT,
	MAX_INPUTS,
	};

	// Parser states.
	enum header_parse_states {
	ST_METHOD, // Receiving the method
	ST_URL, // Receiving the URL
	ST_PROTO, // Receiving the protocol
	ST_HEADER, // Starting a Request Header
	ST_NAME, // Receiving a request header name
	ST_SEPARATOR, // Receiving the separator between header name and value
	ST_VALUE, // Receiving a request header value
	ST_WS_READY, // Ready to receive web socket frame
	ST_WS_FRAME, // Receiving WebSocket frame
	ST_WS_CLOSE, // Closing the connection WebSocket connection
	ST_DONE, // Parsing is complete and successful
	ST_ERR, // Parsing encountered invalid syntax.
	MAX_STATES
	};

	// State transition table
	int parser_state[MAX_STATES][MAX_INPUTS] = {
	/* METHOD */ { ST_URL, ST_ERR, ST_ERR, ST_ERR, ST_ERR, ST_ERR, ST_METHOD },
	/* URL */ { ST_PROTO, ST_ERR, ST_ERR, ST_URL, ST_ERR, ST_ERR, ST_URL },
	/* PROTOCOL */ { ST_ERR, ST_HEADER, ST_NAME, ST_ERR, ST_ERR, ST_ERR, ST_PROTO },
	/* HEADER */ { ST_ERR, ST_ERR, ST_NAME, ST_ERR, ST_ERR, ST_ERR, ST_ERR },
	/* NAME */ { ST_SEPARATOR, ST_DONE, ST_ERR, ST_SEPARATOR, ST_ERR, ST_ERR, ST_NAME },
	/* SEPARATOR */ { ST_SEPARATOR, ST_ERR, ST_ERR, ST_SEPARATOR, ST_ERR, ST_ERR, ST_VALUE },
	/* VALUE */ { ST_VALUE, ST_HEADER, ST_NAME, ST_VALUE, ST_ERR, ST_ERR, ST_VALUE },
	/* WS_READY */ { ST_ERR, ST_ERR, ST_ERR, ST_ERR, ST_WS_FRAME, ST_WS_CLOSE, ST_ERR},
	/* WS_FRAME */ { ST_WS_FRAME, ST_WS_FRAME, ST_WS_FRAME, ST_WS_FRAME, ST_ERR, ST_WS_READY, ST_WS_FRAME },
	/* WS_CLOSE */ { ST_ERR, ST_ERR, ST_ERR, ST_ERR, ST_WS_CLOSE, ST_ERR, ST_ERR },
	/* DONE */ { ST_DONE, ST_DONE, ST_DONE, ST_DONE, ST_DONE, ST_DONE, ST_DONE },
	/* ERR */ { ST_ERR, ST_ERR, ST_ERR, ST_ERR, ST_ERR, ST_ERR, ST_ERR }
	};

	// Convert an input character to the parser's input token.
	int charToInput(char ch) {
	switch(ch) {
	case ' ':
	return INPUT_SPACE;
	case '\r':
	return INPUT_CR;
	case '\n':
	return INPUT_LF;
	case ':':
	return INPUT_COLON;
	case 0x0:
	return INPUT_00;
	case static_cast<char>(-1):
	return INPUT_FF;
	}
	return INPUT_DEFAULT;
	}

	bool HttpServer::ParseHeaders(Connection* connection,
	HttpServerRequestInfo* info,
	int* ppos) {
	int& pos = *ppos;
	int data_len = connection->recv_data_.length();
	int state = connection->is_web_socket_ ? ST_WS_READY : ST_METHOD;
	std::string buffer;
	std::string header_name;
	std::string header_value;
	while (pos < data_len) {
	char ch = connection->recv_data_[pos++];
	int input = charToInput(ch);
	int next_state = parser_state[state][input];

	bool transition = (next_state != state);
	if (transition) {
	// Do any actions based on state transitions.
	switch (state) {
	case ST_METHOD:
	info->method = buffer;
	buffer.clear();
	break;
	case ST_URL:
	info->path = buffer;
	buffer.clear();
	break;
	case ST_PROTO:
	// TODO(mbelshe): Deal better with parsing protocol.
	DCHECK(buffer == "HTTP/1.1");
	buffer.clear();
	break;
	case ST_NAME:
	header_name = buffer;
	buffer.clear();
	break;
	case ST_VALUE:
	header_value = buffer;
	// TODO(mbelshe): Deal better with duplicate headers
	DCHECK(info->headers.find(header_name) == info->headers.end());
	info->headers[header_name] = header_value;
	buffer.clear();
	break;
	case ST_SEPARATOR:
	buffer.append(&ch, 1);
	break;
	case ST_WS_FRAME:
	info->data = buffer;
	buffer.clear();
	return true;
	break;
	}
	state = next_state;
	} else {
	// Do any actions based on current state
	switch (state) {
	case ST_METHOD:
	case ST_URL:
	case ST_PROTO:
	case ST_VALUE:
	case ST_NAME:
	case ST_WS_FRAME:
	buffer.append(&ch, 1);
	break;
	case ST_DONE:
	DCHECK(input == INPUT_LF);
	return true;
	case ST_WS_CLOSE:
	connection->is_web_socket_ = false;
	return false;
	case ST_ERR:
	return false;
	}
	}
	}
	// No more characters, but we haven't finished parsing yet.
	return false;
	}

	void HttpServer::DidAccept(ListenSocket* server,
	ListenSocket* socket) {
	Connection* connection = new Connection(this, socket);
	id_to_connection_[connection->id_] = connection;
	socket_to_connection_[socket] = connection;
	}

	void HttpServer::DidRead(ListenSocket* socket,
	const char* data,
	int len) {
	Connection* connection = FindConnection(socket);
	DCHECK(connection != NULL);
	if (connection == NULL)
	return;

	connection->recv_data_.append(data, len);
	while (connection->recv_data_.length()) {
	int pos = 0;
	HttpServerRequestInfo request;
	if (!ParseHeaders(connection, &request, &pos))
	break;

	if (connection->is_web_socket_) {
	delegate_->OnWebSocketMessage(connection->id_, request.data);
	connection->Shift(pos);
	continue;
	}

	std::string connection_header = GetHeaderValue(request, "Connection");
	if (connection_header == "Upgrade") {
	// Is this WebSocket and if yes, upgrade the connection.
	std::string key1 = GetHeaderValue(request, "Sec-WebSocket-Key1");
	std::string key2 = GetHeaderValue(request, "Sec-WebSocket-Key2");

	const int websocket_handshake_body_len = 8;
	if (pos + websocket_handshake_body_len >
	static_cast<int>(connection->recv_data_.length())) {
	// We haven't received websocket handshake body yet. Wait.
	break;
	}

	if (!key1.empty() && !key2.empty()) {
	request.data = connection->recv_data_.substr(
	pos,
	pos + websocket_handshake_body_len);
	pos += websocket_handshake_body_len;
	delegate_->OnWebSocketRequest(connection->id_, request);
	connection->Shift(pos);
	continue;
	}
	}
	// Request body is not supported. It is always empty.
	delegate_->OnHttpRequest(connection->id_, request);
	connection->Shift(pos);
	}
	}

	void HttpServer::DidClose(ListenSocket* socket) {
	Connection* connection = FindConnection(socket);
	DCHECK(connection != NULL);
	id_to_connection_.erase(connection->id_);
	socket_to_connection_.erase(connection->socket_);
	delete connection;
	}

	HttpServer::Connection* HttpServer::FindConnection(int connection_id) {
	IdToConnectionMap::iterator it = id_to_connection_.find(connection_id);
	if (it == id_to_connection_.end())
	return NULL;
	return it->second;
	}

	HttpServer::Connection* HttpServer::FindConnection(ListenSocket* socket) {
	SocketToConnectionMap::iterator it = socket_to_connection_.find(socket);
	if (it == socket_to_connection_.end())
	return NULL;
	return it->second;
	}

	} // namespace net