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// pion: a Boost C++ framework for building lightweight HTTP interfaces
// ---------------------------------------------------------------------
// Copyright (C) 2007-2014 Splunk Inc. (https://github.com/splunk/pion)
//
// Distributed under the Boost Software License, Version 1.0.
// See http://www.boost.org/LICENSE_1_0.txt
//
#ifndef __PION_HTTP_PARSER_HEADER__
#define __PION_HTTP_PARSER_HEADER__
#include <string>
#include <boost/noncopyable.hpp>
#include <boost/function/function2.hpp>
#include <boost/logic/tribool.hpp>
#include <boost/system/error_code.hpp>
#include <boost/thread/once.hpp>
#include <pion/config.hpp>
#include <pion/logger.hpp>
#include <pion/http/message.hpp>
#ifndef BOOST_SYSTEM_NOEXCEPT
#define BOOST_SYSTEM_NOEXCEPT BOOST_NOEXCEPT
#endif
namespace pion { // begin namespace pion
namespace http { // begin namespace http
// forward declarations used for finishing HTTP messages
class request;
class response;
///
/// parser: parses HTTP messages
///
class PION_API parser :
private boost::noncopyable
{
public:
/// maximum length for HTTP payload content
static const std::size_t DEFAULT_CONTENT_MAX;
/// callback type used to consume payload content
typedef boost::function2<void, const char *, std::size_t> payload_handler_t;
/// class-specific error code values
enum error_value_t {
ERROR_METHOD_CHAR = 1,
ERROR_METHOD_SIZE,
ERROR_URI_CHAR,
ERROR_URI_SIZE,
ERROR_QUERY_CHAR,
ERROR_QUERY_SIZE,
ERROR_VERSION_EMPTY,
ERROR_VERSION_CHAR,
ERROR_STATUS_EMPTY,
ERROR_STATUS_CHAR,
ERROR_HEADER_CHAR,
ERROR_HEADER_NAME_SIZE,
ERROR_HEADER_VALUE_SIZE,
ERROR_INVALID_CONTENT_LENGTH,
ERROR_CHUNK_CHAR,
ERROR_MISSING_CHUNK_DATA,
ERROR_MISSING_HEADER_DATA,
ERROR_MISSING_TOO_MUCH_CONTENT,
};
/// class-specific error category
class error_category_t
: public boost::system::error_category
{
public:
const char *name() const BOOST_SYSTEM_NOEXCEPT { return "parser"; }
std::string message(int ev) const {
switch (ev) {
case ERROR_METHOD_CHAR:
return "invalid method character";
case ERROR_METHOD_SIZE:
return "method exceeds maximum size";
case ERROR_URI_CHAR:
return "invalid URI character";
case ERROR_URI_SIZE:
return "method exceeds maximum size";
case ERROR_QUERY_CHAR:
return "invalid query string character";
case ERROR_QUERY_SIZE:
return "query string exceeds maximum size";
case ERROR_VERSION_EMPTY:
return "HTTP version undefined";
case ERROR_VERSION_CHAR:
return "invalid version character";
case ERROR_STATUS_EMPTY:
return "HTTP status undefined";
case ERROR_STATUS_CHAR:
return "invalid status character";
case ERROR_HEADER_CHAR:
return "invalid header character";
case ERROR_HEADER_NAME_SIZE:
return "header name exceeds maximum size";
case ERROR_HEADER_VALUE_SIZE:
return "header value exceeds maximum size";
case ERROR_INVALID_CONTENT_LENGTH:
return "invalid Content-Length header";
case ERROR_CHUNK_CHAR:
return "invalid chunk character";
case ERROR_MISSING_HEADER_DATA:
return "missing header data";
case ERROR_MISSING_CHUNK_DATA:
return "missing chunk data";
case ERROR_MISSING_TOO_MUCH_CONTENT:
return "missing too much content";
}
return "parser error";
}
};
/**
* creates new parser objects
*
* @param is_request if true, the message is parsed as an HTTP request;
* if false, the message is parsed as an HTTP response
* @param max_content_length maximum length for HTTP payload content
*/
parser(const bool is_request, std::size_t max_content_length = DEFAULT_CONTENT_MAX)
: m_logger(PION_GET_LOGGER("pion.http.parser")), m_is_request(is_request),
m_read_ptr(NULL), m_read_end_ptr(NULL), m_message_parse_state(PARSE_START),
m_headers_parse_state(is_request ? PARSE_METHOD_START : PARSE_HTTP_VERSION_H),
m_chunked_content_parse_state(PARSE_CHUNK_SIZE_START), m_status_code(0),
m_bytes_content_remaining(0), m_bytes_content_read(0),
m_bytes_last_read(0), m_bytes_total_read(0),
m_max_content_length(max_content_length),
m_parse_headers_only(false), m_save_raw_headers(false)
{}
/// default destructor
virtual ~parser() {}
/**
* parses an HTTP message including all payload content it might contain
*
* @param http_msg the HTTP message object to populate from parsing
* @param ec error_code contains additional information for parsing errors
*
* @return boost::tribool result of parsing:
* false = message has an error,
* true = finished parsing HTTP message,
* indeterminate = not yet finished parsing HTTP message
*/
boost::tribool parse(http::message& http_msg, boost::system::error_code& ec);
/**
* attempts to continue parsing despite having missed data (length is known but content is not)
*
* @param http_msg the HTTP message object to populate from parsing
* @param len the length in bytes of the missing data
* @param ec error_code contains additional information for parsing errors
*
* @return boost::tribool result of parsing:
* false = message has an error,
* true = finished parsing HTTP message,
* indeterminate = not yet finished parsing HTTP message
*/
boost::tribool parse_missing_data(http::message& http_msg, std::size_t len,
boost::system::error_code& ec);
/**
* finishes parsing an HTTP response message
*
* @param http_msg the HTTP message object to finish
*/
void finish(http::message& http_msg) const;
/**
* resets the location and size of the read buffer
*
* @param ptr pointer to the first bytes available to be read
* @param len number of bytes available to be read
*/
inline void set_read_buffer(const char *ptr, size_t len) {
m_read_ptr = ptr;
m_read_end_ptr = ptr + len;
}
/**
* loads a read position bookmark
*
* @param read_ptr points to the next character to be consumed in the read_buffer
* @param read_end_ptr points to the end of the read_buffer (last byte + 1)
*/
inline void load_read_pos(const char *&read_ptr, const char *&read_end_ptr) const {
read_ptr = m_read_ptr;
read_end_ptr = m_read_end_ptr;
}
/**
* checks to see if a premature EOF was encountered while parsing. This
* should be called if there is no more data to parse, and if the last
* call to the parse() function returned boost::indeterminate
*
* @param http_msg the HTTP message object being parsed
* @return true if premature EOF, false if message is OK & finished parsing
*/
inline bool check_premature_eof(http::message& http_msg) {
if (m_message_parse_state != PARSE_CONTENT_NO_LENGTH)
return true;
m_message_parse_state = PARSE_END;
http_msg.concatenate_chunks();
finish(http_msg);
return false;
}
/**
* controls headers-only parsing (default is disabled; content parsed also)
*
* @param b if true, then the parse() function returns true after headers
*/
inline void parse_headers_only(bool b = true) { m_parse_headers_only = b; }
/**
* skip parsing all headers and parse payload content only
*
* @param http_msg the HTTP message object being parsed
*/
inline void skip_header_parsing(http::message& http_msg) {
boost::system::error_code ec;
finish_header_parsing(http_msg, ec);
}
/// resets the parser to its initial state
inline void reset(void) {
m_message_parse_state = PARSE_START;
m_headers_parse_state = (m_is_request ? PARSE_METHOD_START : PARSE_HTTP_VERSION_H);
m_chunked_content_parse_state = PARSE_CHUNK_SIZE_START;
m_status_code = 0;
m_status_message.erase();
m_method.erase();
m_resource.erase();
m_query_string.erase();
m_raw_headers.erase();
m_bytes_content_read = m_bytes_last_read = m_bytes_total_read = 0;
}
/// returns true if there are no more bytes available in the read buffer
inline bool eof(void) const { return m_read_ptr == NULL || m_read_ptr >= m_read_end_ptr; }
/// returns the number of bytes available in the read buffer
inline std::size_t bytes_available(void) const { return (eof() ? 0 : (std::size_t)(m_read_end_ptr - m_read_ptr)); }
/// returns the number of bytes read during the last parse operation
inline std::size_t gcount(void) const { return m_bytes_last_read; }
/// returns the total number of bytes read while parsing the HTTP message
inline std::size_t get_total_bytes_read(void) const { return m_bytes_total_read; }
/// returns the total number of bytes read while parsing the payload content
inline std::size_t get_content_bytes_read(void) const { return m_bytes_content_read; }
/// returns the maximum length for HTTP payload content
inline std::size_t get_max_content_length(void) const { return m_max_content_length; }
/// returns the raw HTTP headers saved by the parser
inline const std::string& get_raw_headers(void) const { return m_raw_headers; }
/// returns true if the parser is saving raw HTTP header contents
inline bool get_save_raw_headers(void) const { return m_save_raw_headers; }
/// returns true if parsing headers only
inline bool get_parse_headers_only(void) { return m_parse_headers_only; }
/// returns true if the parser is being used to parse an HTTP request
inline bool is_parsing_request(void) const { return m_is_request; }
/// returns true if the parser is being used to parse an HTTP response
inline bool is_parsing_response(void) const { return ! m_is_request; }
/// defines a callback function to be used for consuming payload content
inline void set_payload_handler(payload_handler_t& h) { m_payload_handler = h; }
/// sets the maximum length for HTTP payload content
inline void set_max_content_length(std::size_t n) { m_max_content_length = n; }
/// resets the maximum length for HTTP payload content to the default value
inline void reset_max_content_length(void) { m_max_content_length = DEFAULT_CONTENT_MAX; }
/// sets parameter for saving raw HTTP header content
inline void set_save_raw_headers(bool b) { m_save_raw_headers = b; }
/// sets the logger to be used
inline void set_logger(logger log_ptr) { m_logger = log_ptr; }
/// returns the logger currently in use
inline logger get_logger(void) { return m_logger; }
/**
* parses a URI string
*
* @param uri the string to parse
* @param proto will be set to the protocol (i.e. "http")
* @param host will be set to the hostname (i.e. "www.cloudmeter.com")
* @param port host port number to use for connection (i.e. 80)
* @param path uri stem or file path
* @param query uri query string
*
* @return true if the URI was successfully parsed, false if there was an error
*/
static bool parse_uri(const std::string& uri, std::string& proto,
std::string& host, boost::uint16_t& port, std::string& path,
std::string& query);
/**
* parse key-value pairs out of a url-encoded string
* (i.e. this=that&a=value)
*
* @param dict dictionary for key-values pairs
* @param ptr points to the start of the encoded string
* @param len length of the encoded string, in bytes
*
* @return bool true if successful
*/
static bool parse_url_encoded(ihash_multimap& dict,
const char *ptr, const std::size_t len);
/**
* parse key-value pairs out of a multipart/form-data payload content
* (http://www.ietf.org/rfc/rfc2388.txt)
*
* @param dict dictionary for key-values pairs
* @param content_type value of the content-type HTTP header
* @param ptr points to the start of the encoded data
* @param len length of the encoded data, in bytes
*
* @return bool true if successful
*/
static bool parse_multipart_form_data(ihash_multimap& dict,
const std::string& content_type,
const char *ptr, const std::size_t len);
/**
* parse key-value pairs out of a "Cookie" request header
* (i.e. this=that; a=value)
*
* @param dict dictionary for key-values pairs
* @param ptr points to the start of the header string to be parsed
* @param len length of the encoded string, in bytes
* @param set_cookie_header set true if parsing Set-Cookie response header
*
* @return bool true if successful
*/
static bool parse_cookie_header(ihash_multimap& dict,
const char *ptr, const std::size_t len,
bool set_cookie_header);
/**
* parse key-value pairs out of a "Cookie" request header
* (i.e. this=that; a=value)
*
* @param dict dictionary for key-values pairs
* @param cookie_header header string to be parsed
* @param set_cookie_header set true if parsing Set-Cookie response header
*
* @return bool true if successful
*/
static inline bool parse_cookie_header(ihash_multimap& dict,
const std::string& cookie_header, bool set_cookie_header)
{
return parse_cookie_header(dict, cookie_header.c_str(), cookie_header.size(), set_cookie_header);
}
/**
* parse key-value pairs out of a url-encoded string
* (i.e. this=that&a=value)
*
* @param dict dictionary for key-values pairs
* @param query the encoded query string to be parsed
*
* @return bool true if successful
*/
static inline bool parse_url_encoded(ihash_multimap& dict,
const std::string& query)
{
return parse_url_encoded(dict, query.c_str(), query.size());
}
/**
* parse key-value pairs out of a multipart/form-data payload content
* (http://www.ietf.org/rfc/rfc2388.txt)
*
* @param dict dictionary for key-values pairs
* @param content_type value of the content-type HTTP header
* @param form_data the encoded form data
*
* @return bool true if successful
*/
static inline bool parse_multipart_form_data(ihash_multimap& dict,
const std::string& content_type,
const std::string& form_data)
{
return parse_multipart_form_data(dict, content_type, form_data.c_str(), form_data.size());
}
/**
* should be called after parsing HTTP headers, to prepare for payload content parsing
* available in the read buffer
*
* @param http_msg the HTTP message object to populate from parsing
* @param ec error_code contains additional information for parsing errors
*
* @return boost::tribool result of parsing:
* false = message has an error,
* true = finished parsing HTTP message (no content),
* indeterminate = payload content is available to be parsed
*/
boost::tribool finish_header_parsing(http::message& http_msg,
boost::system::error_code& ec);
/**
* parses an X-Forwarded-For HTTP header, and extracts from it an IP
* address that best matches the client's public IP address (if any are found)
*
* @param header the X-Forwarded-For HTTP header to parse
* @param public_ip the extract IP address, if found
*
* @return bool true if a public IP address was found and extracted
*/
static bool parse_forwarded_for(const std::string& header, std::string& public_ip);
/// returns an instance of parser::error_category_t
static inline error_category_t& get_error_category(void) {
boost::call_once(parser::create_error_category, m_instance_flag);
return *m_error_category_ptr;
}
protected:
/// Called after we have finished parsing the HTTP message headers
virtual void finished_parsing_headers(const boost::system::error_code& ec) {}
/**
* parses an HTTP message up to the end of the headers using bytes
* available in the read buffer
*
* @param http_msg the HTTP message object to populate from parsing
* @param ec error_code contains additional information for parsing errors
*
* @return boost::tribool result of parsing:
* false = message has an error,
* true = finished parsing HTTP headers,
* indeterminate = not yet finished parsing HTTP headers
*/
boost::tribool parse_headers(http::message& http_msg, boost::system::error_code& ec);
/**
* updates an http::message object with data obtained from parsing headers
*
* @param http_msg the HTTP message object to populate from parsing
*/
void update_message_with_header_data(http::message& http_msg) const;
/**
* parses a chunked HTTP message-body using bytes available in the read buffer
*
* @param chunk_buffers buffers to be populated from parsing chunked content
* @param ec error_code contains additional information for parsing errors
*
* @return boost::tribool result of parsing:
* false = message has an error,
* true = finished parsing message,
* indeterminate = message is not yet finished
*/
boost::tribool parse_chunks(http::message::chunk_cache_t& chunk_buffers,
boost::system::error_code& ec);
/**
* consumes payload content in the parser's read buffer
*
* @param http_msg the HTTP message object to consume content for
* @param ec error_code contains additional information for parsing errors
*
* @return boost::tribool result of parsing:
* false = message has an error,
* true = finished parsing message,
* indeterminate = message is not yet finished
*/
boost::tribool consume_content(http::message& http_msg,
boost::system::error_code& ec);
/**
* consume the bytes available in the read buffer, converting them into
* the next chunk for the HTTP message
*
* @param chunk_buffers buffers to be populated from parsing chunked content
* @return std::size_t number of content bytes consumed, if any
*/
std::size_t consume_content_as_next_chunk(http::message::chunk_cache_t& chunk_buffers);
/**
* compute and sets a HTTP Message data integrity status
* @param http_msg target HTTP message
* @param msg_parsed_ok message parsing result
*/
static void compute_msg_status(http::message& http_msg, bool msg_parsed_ok);
/**
* sets an error code
*
* @param ec error code variable to define
* @param ev error value to raise
*/
static inline void set_error(boost::system::error_code& ec, error_value_t ev) {
ec = boost::system::error_code(static_cast<int>(ev), get_error_category());
}
/// creates the unique parser error_category_t
static void create_error_category(void);
// misc functions used by the parsing functions
inline static bool is_char(int c);
inline static bool is_control(int c);
inline static bool is_special(int c);
inline static bool is_digit(int c);
inline static bool is_hex_digit(int c);
inline static bool is_cookie_attribute(const std::string& name, bool set_cookie_header);
/// maximum length for response status message
static const boost::uint32_t STATUS_MESSAGE_MAX;
/// maximum length for the request method
static const boost::uint32_t METHOD_MAX;
/// maximum length for the resource requested
static const boost::uint32_t RESOURCE_MAX;
/// maximum length for the query string
static const boost::uint32_t QUERY_STRING_MAX;
/// maximum length for an HTTP header name
static const boost::uint32_t HEADER_NAME_MAX;
/// maximum length for an HTTP header value
static const boost::uint32_t HEADER_VALUE_MAX;
/// maximum length for the name of a query string variable
static const boost::uint32_t QUERY_NAME_MAX;
/// maximum length for the value of a query string variable
static const boost::uint32_t QUERY_VALUE_MAX;
/// maximum length for the name of a cookie name
static const boost::uint32_t COOKIE_NAME_MAX;
/// maximum length for the value of a cookie; also used for path and domain
static const boost::uint32_t COOKIE_VALUE_MAX;
/// primary logging interface used by this class
mutable logger m_logger;
/// true if the message is an HTTP request; false if it is an HTTP response
const bool m_is_request;
/// points to the next character to be consumed in the read_buffer
const char * m_read_ptr;
/// points to the end of the read_buffer (last byte + 1)
const char * m_read_end_ptr;
private:
/// state used to keep track of where we are in parsing the HTTP message
enum message_parse_state_t {
PARSE_START, PARSE_HEADERS, PARSE_FOOTERS, PARSE_CONTENT,
PARSE_CONTENT_NO_LENGTH, PARSE_CHUNKS, PARSE_END
};
/// state used to keep track of where we are in parsing the HTTP headers
/// (only used if message_parse_state_t == PARSE_HEADERS)
enum header_parse_state_t {
PARSE_METHOD_START, PARSE_METHOD, PARSE_URI_STEM, PARSE_URI_QUERY,
PARSE_HTTP_VERSION_H, PARSE_HTTP_VERSION_T_1, PARSE_HTTP_VERSION_T_2,
PARSE_HTTP_VERSION_P, PARSE_HTTP_VERSION_SLASH,
PARSE_HTTP_VERSION_MAJOR_START, PARSE_HTTP_VERSION_MAJOR,
PARSE_HTTP_VERSION_MINOR_START, PARSE_HTTP_VERSION_MINOR,
PARSE_STATUS_CODE_START, PARSE_STATUS_CODE, PARSE_STATUS_MESSAGE,
PARSE_EXPECTING_NEWLINE, PARSE_EXPECTING_CR,
PARSE_HEADER_WHITESPACE, PARSE_HEADER_START, PARSE_HEADER_NAME,
PARSE_SPACE_BEFORE_HEADER_VALUE, PARSE_HEADER_VALUE,
PARSE_EXPECTING_FINAL_NEWLINE, PARSE_EXPECTING_FINAL_CR
};
/// state used to keep track of where we are in parsing chunked content
/// (only used if message_parse_state_t == PARSE_CHUNKS)
enum chunk_parse_state_t {
PARSE_CHUNK_SIZE_START, PARSE_CHUNK_SIZE,
PARSE_EXPECTING_IGNORED_TEXT_AFTER_CHUNK_SIZE,
PARSE_EXPECTING_CR_AFTER_CHUNK_SIZE,
PARSE_EXPECTING_LF_AFTER_CHUNK_SIZE, PARSE_CHUNK,
PARSE_EXPECTING_CR_AFTER_CHUNK, PARSE_EXPECTING_LF_AFTER_CHUNK,
PARSE_EXPECTING_FINAL_CR_OR_FOOTERS_AFTER_LAST_CHUNK,
PARSE_EXPECTING_FINAL_LF_AFTER_LAST_CHUNK
};
/// the current state of parsing HTTP headers
message_parse_state_t m_message_parse_state;
/// the current state of parsing HTTP headers
header_parse_state_t m_headers_parse_state;
/// the current state of parsing chunked content
chunk_parse_state_t m_chunked_content_parse_state;
/// if defined, this function is used to consume payload content
payload_handler_t m_payload_handler;
/// Used for parsing the HTTP response status code
boost::uint16_t m_status_code;
/// Used for parsing the HTTP response status message
std::string m_status_message;
/// Used for parsing the request method
std::string m_method;
/// Used for parsing the name of resource requested
std::string m_resource;
/// Used for parsing the query string portion of a URI
std::string m_query_string;
/// Used to store the raw contents of HTTP headers when m_save_raw_headers is true
std::string m_raw_headers;
/// Used for parsing the name of HTTP headers
std::string m_header_name;
/// Used for parsing the value of HTTP headers
std::string m_header_value;
/// Used for parsing the chunk size
std::string m_chunk_size_str;
/// number of bytes in the chunk currently being parsed
std::size_t m_size_of_current_chunk;
/// number of bytes read so far in the chunk currently being parsed
std::size_t m_bytes_read_in_current_chunk;
/// number of payload content bytes that have not yet been read
std::size_t m_bytes_content_remaining;
/// number of bytes read so far into the message's payload content
std::size_t m_bytes_content_read;
/// number of bytes read during last parse operation
std::size_t m_bytes_last_read;
/// total number of bytes read while parsing the HTTP message
std::size_t m_bytes_total_read;
/// maximum length for HTTP payload content
std::size_t m_max_content_length;
/// if true, then only HTTP headers will be parsed (no content parsing)
bool m_parse_headers_only;
/// if true, the raw contents of HTTP headers are stored into m_raw_headers
bool m_save_raw_headers;
/// points to a single and unique instance of the parser error_category_t
static error_category_t * m_error_category_ptr;
/// used to ensure thread safety of the parser error_category_t
static boost::once_flag m_instance_flag;
};
// inline functions for parser
inline bool parser::is_char(int c)
{
return(c >= 0 && c <= 127);
}
inline bool parser::is_control(int c)
{
return( (c >= 0 && c <= 31) || c == 127);
}
inline bool parser::is_special(int c)
{
switch (c) {
case '(': case ')': case '<': case '>': case '@':
case ',': case ';': case ':': case '\\': case '"':
case '/': case '[': case ']': case '?': case '=':
case '{': case '}': case ' ': case '\t':
return true;
default:
return false;
}
}
inline bool parser::is_digit(int c)
{
return(c >= '0' && c <= '9');
}
inline bool parser::is_hex_digit(int c)
{
return((c >= '0' && c <= '9') || (c >= 'a' && c <= 'f') || (c >= 'A' && c <= 'F'));
}
inline bool parser::is_cookie_attribute(const std::string& name, bool set_cookie_header)
{
return (name.empty() || name[0] == '$' || (set_cookie_header &&
(name=="Comment" || name=="Domain" || name=="Max-Age" || name=="Path" || name=="Secure" || name=="Version" || name=="Expires")
) );
}
} // end namespace http
} // end namespace pion
#endif
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