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// Copyright (c) 2006-2013, Andrey N. Sabelnikov, www.sabelnikov.net
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// All rights reserved.
//
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// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright
// notice, this list of conditions and the following disclaimer in the
// documentation and/or other materials provided with the distribution.
// * Neither the name of the Andrey N. Sabelnikov nor the
// names of its contributors may be used to endorse or promote products
// derived 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 "AS IS" AND
// ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER BE LIABLE FOR ANY
// DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
// ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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//
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# pragma once
# include <boost/shared_ptr.hpp>
# include <boost/regex.hpp>
# include <boost/lexical_cast.hpp>
//#include <mbstring.h>
# include <algorithm>
# include <cctype>
# include <functional>
# include "net_helper.h"
# include "http_client_base.h"
# ifdef HTTP_ENABLE_GZIP
# include "gzip_encoding.h"
# endif
# include "string_tools.h"
# include "reg_exp_definer.h"
# include "http_base.h"
# include "to_nonconst_iterator.h"
# include "net_parse_helpers.h"
//#include "shlwapi.h"
//#pragma comment(lib, "shlwapi.lib")
extern epee : : critical_section gregexp_lock ;
namespace epee
{
namespace net_utils
{
using namespace std ;
/*struct url
{
public :
void parse ( const std : : string & url_s )
{
const string prot_end ( " :// " ) ;
string : : const_iterator prot_i = search ( url_s . begin ( ) , url_s . end ( ) ,
prot_end . begin ( ) , prot_end . end ( ) ) ;
protocol_ . reserve ( distance ( url_s . begin ( ) , prot_i ) ) ;
transform ( url_s . begin ( ) , prot_i ,
back_inserter ( protocol_ ) ,
ptr_fun < int , int > ( tolower ) ) ; // protocol is icase
if ( prot_i = = url_s . end ( ) )
return ;
advance ( prot_i , prot_end . length ( ) ) ;
string : : const_iterator path_i = find ( prot_i , url_s . end ( ) , ' / ' ) ;
host_ . reserve ( distance ( prot_i , path_i ) ) ;
transform ( prot_i , path_i ,
back_inserter ( host_ ) ,
ptr_fun < int , int > ( tolower ) ) ; // host is icase
string : : const_iterator query_i = find ( path_i , url_s . end ( ) , ' ? ' ) ;
path_ . assign ( path_i , query_i ) ;
if ( query_i ! = url_s . end ( ) )
+ + query_i ;
query_ . assign ( query_i , url_s . end ( ) ) ;
}
std : : string protocol_ ;
std : : string host_ ;
std : : string path_ ;
std : : string query_ ;
} ; */
//---------------------------------------------------------------------------
static inline const char * get_hex_vals ( )
{
static char hexVals [ 16 ] = { ' 0 ' , ' 1 ' , ' 2 ' , ' 3 ' , ' 4 ' , ' 5 ' , ' 6 ' , ' 7 ' , ' 8 ' , ' 9 ' , ' A ' , ' B ' , ' C ' , ' D ' , ' E ' , ' F ' } ;
return hexVals ;
}
static inline const char * get_unsave_chars ( )
{
//static char unsave_chars[] = "\"<>%\\^[]`+$,@:;/!#?=&";
static char unsave_chars [ ] = " \" <>% \\ ^[]`+$,@:;!#& " ;
return unsave_chars ;
}
static inline bool is_unsafe ( unsigned char compare_char )
{
if ( compare_char < = 32 | | compare_char > = 123 )
return true ;
const char * punsave = get_unsave_chars ( ) ;
for ( int ichar_pos = 0 ; 0 ! = punsave [ ichar_pos ] ; ichar_pos + + )
if ( compare_char = = punsave [ ichar_pos ] )
return true ;
return false ;
}
static inline
std : : string dec_to_hex ( char num , int radix )
{
int temp = 0 ;
std : : string csTmp ;
int num_char ;
num_char = ( int ) num ;
if ( num_char < 0 )
num_char = 256 + num_char ;
while ( num_char > = radix )
{
temp = num_char % radix ;
num_char = ( int ) floor ( ( float ) num_char / ( float ) radix ) ;
csTmp = get_hex_vals ( ) [ temp ] ;
}
csTmp + = get_hex_vals ( ) [ num_char ] ;
if ( csTmp . size ( ) < 2 )
{
csTmp + = ' 0 ' ;
}
std : : reverse ( csTmp . begin ( ) , csTmp . end ( ) ) ;
//_mbsrev((unsigned char*)csTmp.data());
return csTmp ;
}
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static inline int get_index ( const char * s , char c ) { const char * ptr = ( const char * ) memchr ( s , c , 16 ) ; return ptr ? ptr - s : - 1 ; }
static inline
std : : string hex_to_dec_2bytes ( const char * s )
{
const char * hex = get_hex_vals ( ) ;
int i0 = get_index ( hex , toupper ( s [ 0 ] ) ) ;
int i1 = get_index ( hex , toupper ( s [ 1 ] ) ) ;
if ( i0 < 0 | | i1 < 0 )
return std : : string ( " % " ) + std : : string ( 1 , s [ 0 ] ) + std : : string ( 1 , s [ 1 ] ) ;
return std : : string ( 1 , i0 * 16 | i1 ) ;
}
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static inline std : : string convert ( char val )
{
std : : string csRet ;
csRet + = " % " ;
csRet + = dec_to_hex ( val , 16 ) ;
return csRet ;
}
static inline std : : string conver_to_url_format ( const std : : string & uri )
{
std : : string result ;
for ( size_t i = 0 ; i ! = uri . size ( ) ; i + + )
{
if ( is_unsafe ( uri [ i ] ) )
result + = convert ( uri [ i ] ) ;
else
result + = uri [ i ] ;
}
return result ;
}
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static inline std : : string convert_from_url_format ( const std : : string & uri )
{
std : : string result ;
for ( size_t i = 0 ; i ! = uri . size ( ) ; i + + )
{
if ( uri [ i ] = = ' % ' & & i + 2 < uri . size ( ) )
{
result + = hex_to_dec_2bytes ( uri . c_str ( ) + i + 1 ) ;
i + = 2 ;
}
else
result + = uri [ i ] ;
}
return result ;
}
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static inline std : : string convert_to_url_format_force_all ( const std : : string & uri )
{
std : : string result ;
for ( size_t i = 0 ; i ! = uri . size ( ) ; i + + )
{
result + = convert ( uri [ i ] ) ;
}
return result ;
}
namespace http
{
class http_simple_client : public i_target_handler
{
public :
private :
enum reciev_machine_state
{
reciev_machine_state_header ,
reciev_machine_state_body_content_len ,
reciev_machine_state_body_connection_close ,
reciev_machine_state_body_chunked ,
reciev_machine_state_done ,
reciev_machine_state_error
} ;
enum chunked_state {
http_chunked_state_chunk_head ,
http_chunked_state_chunk_body ,
http_chunked_state_done ,
http_chunked_state_undefined
} ;
blocked_mode_client m_net_client ;
std : : string m_host_buff ;
std : : string m_port ;
unsigned int m_timeout ;
std : : string m_header_cache ;
http_response_info m_response_info ;
size_t m_len_in_summary ;
size_t m_len_in_remain ;
//std::string* m_ptarget_buffer;
boost : : shared_ptr < i_sub_handler > m_pcontent_encoding_handler ;
reciev_machine_state m_state ;
chunked_state m_chunked_state ;
std : : string m_chunked_cache ;
critical_section m_lock ;
public :
void set_host_name ( const std : : string & name )
{
CRITICAL_REGION_LOCAL ( m_lock ) ;
m_host_buff = name ;
}
bool connect ( const std : : string & host , int port , unsigned int timeout )
{
return connect ( host , std : : to_string ( port ) , timeout ) ;
}
bool connect ( const std : : string & host , const std : : string & port , unsigned int timeout )
{
CRITICAL_REGION_LOCAL ( m_lock ) ;
m_host_buff = host ;
m_port = port ;
m_timeout = timeout ;
return m_net_client . connect ( host , port , timeout , timeout ) ;
}
//---------------------------------------------------------------------------
bool disconnect ( )
{
CRITICAL_REGION_LOCAL ( m_lock ) ;
return m_net_client . disconnect ( ) ;
}
//---------------------------------------------------------------------------
bool is_connected ( )
{
CRITICAL_REGION_LOCAL ( m_lock ) ;
return m_net_client . is_connected ( ) ;
}
//---------------------------------------------------------------------------
virtual bool handle_target_data ( std : : string & piece_of_transfer )
{
CRITICAL_REGION_LOCAL ( m_lock ) ;
m_response_info . m_body + = piece_of_transfer ;
piece_of_transfer . clear ( ) ;
return true ;
}
//---------------------------------------------------------------------------
inline
bool invoke_get ( const std : : string & uri , const std : : string & body = std : : string ( ) , const http_response_info * * ppresponse_info = NULL , const fields_list & additional_params = fields_list ( ) )
{
CRITICAL_REGION_LOCAL ( m_lock ) ;
return invoke ( uri , " GET " , body , ppresponse_info , additional_params ) ;
}
//---------------------------------------------------------------------------
inline bool invoke ( const std : : string & uri , const std : : string & method , const std : : string & body , const http_response_info * * ppresponse_info = NULL , const fields_list & additional_params = fields_list ( ) )
{
CRITICAL_REGION_LOCAL ( m_lock ) ;
if ( ! is_connected ( ) )
{
LOG_PRINT ( " Reconnecting... " , LOG_LEVEL_3 ) ;
if ( ! connect ( m_host_buff , m_port , m_timeout ) )
{
LOG_PRINT ( " Failed to connect to " < < m_host_buff < < " : " < < m_port , LOG_LEVEL_3 ) ;
return false ;
}
}
m_response_info . clear ( ) ;
std : : string req_buff = method + " " ;
req_buff + = uri + " HTTP/1.1 \r \n " +
" Host: " + m_host_buff + " \r \n " + " Content-Length: " + boost : : lexical_cast < std : : string > ( body . size ( ) ) + " \r \n " ;
//handle "additional_params"
for ( fields_list : : const_iterator it = additional_params . begin ( ) ; it ! = additional_params . end ( ) ; it + + )
req_buff + = it - > first + " : " + it - > second + " \r \n " ;
req_buff + = " \r \n " ;
//--
bool res = m_net_client . send ( req_buff ) ;
CHECK_AND_ASSERT_MES ( res , false , " HTTP_CLIENT: Failed to SEND " ) ;
if ( body . size ( ) )
res = m_net_client . send ( body ) ;
CHECK_AND_ASSERT_MES ( res , false , " HTTP_CLIENT: Failed to SEND " ) ;
if ( ppresponse_info )
* ppresponse_info = & m_response_info ;
m_state = reciev_machine_state_header ;
return handle_reciev ( ) ;
}
//---------------------------------------------------------------------------
inline bool invoke_post ( const std : : string & uri , const std : : string & body , const http_response_info * * ppresponse_info = NULL , const fields_list & additional_params = fields_list ( ) )
{
CRITICAL_REGION_LOCAL ( m_lock ) ;
return invoke ( uri , " POST " , body , ppresponse_info , additional_params ) ;
}
private :
//---------------------------------------------------------------------------
inline bool handle_reciev ( )
{
CRITICAL_REGION_LOCAL ( m_lock ) ;
bool keep_handling = true ;
bool need_more_data = true ;
std : : string recv_buffer ;
while ( keep_handling )
{
if ( need_more_data )
{
if ( ! m_net_client . recv ( recv_buffer ) )
{
LOG_PRINT ( " Unexpected reciec fail " , LOG_LEVEL_3 ) ;
m_state = reciev_machine_state_error ;
}
if ( ! recv_buffer . size ( ) )
{
//connection is going to be closed
if ( reciev_machine_state_body_connection_close ! = m_state )
{
m_state = reciev_machine_state_error ;
}
}
need_more_data = false ;
}
switch ( m_state )
{
case reciev_machine_state_header :
keep_handling = handle_header ( recv_buffer , need_more_data ) ;
break ;
case reciev_machine_state_body_content_len :
keep_handling = handle_body_content_len ( recv_buffer , need_more_data ) ;
break ;
case reciev_machine_state_body_connection_close :
keep_handling = handle_body_connection_close ( recv_buffer , need_more_data ) ;
break ;
case reciev_machine_state_body_chunked :
keep_handling = handle_body_body_chunked ( recv_buffer , need_more_data ) ;
break ;
case reciev_machine_state_done :
keep_handling = false ;
break ;
case reciev_machine_state_error :
keep_handling = false ;
break ;
}
}
m_header_cache . clear ( ) ;
if ( m_state ! = reciev_machine_state_error )
{
if ( m_response_info . m_header_info . m_connection . size ( ) & & ! string_tools : : compare_no_case ( " close " , m_response_info . m_header_info . m_connection ) )
disconnect ( ) ;
return true ;
}
else
{
LOG_PRINT_L3 ( " Returning false because of wrong state machine. state: " < < m_state ) ;
return false ;
}
}
//---------------------------------------------------------------------------
inline
bool handle_header ( std : : string & recv_buff , bool & need_more_data )
{
CRITICAL_REGION_LOCAL ( m_lock ) ;
if ( ! recv_buff . size ( ) )
{
LOG_ERROR ( " Connection closed at handle_header " ) ;
m_state = reciev_machine_state_error ;
return false ;
}
m_header_cache + = recv_buff ;
recv_buff . clear ( ) ;
std : : string : : size_type pos = m_header_cache . find ( " \r \n \r \n " ) ;
if ( pos ! = std : : string : : npos )
{
recv_buff . assign ( m_header_cache . begin ( ) + pos + 4 , m_header_cache . end ( ) ) ;
m_header_cache . erase ( m_header_cache . begin ( ) + pos + 4 , m_header_cache . end ( ) ) ;
analize_cached_header_and_invoke_state ( ) ;
m_header_cache . clear ( ) ;
if ( ! recv_buff . size ( ) & & ( m_state ! = reciev_machine_state_error & & m_state ! = reciev_machine_state_done ) )
need_more_data = true ;
return true ;
} else
need_more_data = true ;
return true ;
}
//---------------------------------------------------------------------------
inline
bool handle_body_content_len ( std : : string & recv_buff , bool & need_more_data )
{
CRITICAL_REGION_LOCAL ( m_lock ) ;
if ( ! recv_buff . size ( ) )
{
LOG_PRINT ( " Warning: Content-Len mode, but connection unexpectedly closed " , LOG_LEVEL_3 ) ;
m_state = reciev_machine_state_done ;
return true ;
}
CHECK_AND_ASSERT_MES ( m_len_in_remain > = recv_buff . size ( ) , false , " m_len_in_remain >= recv_buff.size() " ) ;
m_len_in_remain - = recv_buff . size ( ) ;
m_pcontent_encoding_handler - > update_in ( recv_buff ) ;
if ( m_len_in_remain = = 0 )
m_state = reciev_machine_state_done ;
else
need_more_data = true ;
return true ;
}
//---------------------------------------------------------------------------
inline
bool handle_body_connection_close ( std : : string & recv_buff , bool & need_more_data )
{
CRITICAL_REGION_LOCAL ( m_lock ) ;
if ( ! recv_buff . size ( ) )
{
m_state = reciev_machine_state_done ;
return true ;
}
need_more_data = true ;
m_pcontent_encoding_handler - > update_in ( recv_buff ) ;
return true ;
}
//---------------------------------------------------------------------------
inline bool is_hex_symbol ( char ch )
{
if ( ( ch > = ' 0 ' & & ch < = ' 9 ' ) | | ( ch > = ' A ' & & ch < = ' F ' ) | | ( ch > = ' a ' & & ch < = ' f ' ) )
return true ;
else
return false ;
}
//---------------------------------------------------------------------------
inline
bool get_len_from_chunk_head ( const std : : string & chunk_head , size_t & result_size )
{
std : : stringstream str_stream ;
str_stream < < std : : hex ;
if ( ! ( str_stream < < chunk_head & & str_stream > > result_size ) )
return false ;
return true ;
}
//---------------------------------------------------------------------------
inline
bool get_chunk_head ( std : : string & buff , size_t & chunk_size , bool & is_matched )
{
is_matched = false ;
size_t offset = 0 ;
for ( std : : string : : iterator it = buff . begin ( ) ; it ! = buff . end ( ) ; it + + , offset + + )
{
if ( ! is_hex_symbol ( * it ) )
{
if ( * it = = ' \r ' | | * it = = ' ' )
{
offset - - ;
continue ;
}
else if ( * it = = ' \n ' )
{
std : : string chunk_head = buff . substr ( 0 , offset ) ;
if ( ! get_len_from_chunk_head ( chunk_head , chunk_size ) )
return false ;
if ( 0 = = chunk_size )
{
//Here is a small confusion
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//In brief - if the chunk is the last one we need to get terminating sequence
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//along with the cipher, generally in the "ddd\r\n\r\n" form
for ( it + + ; it ! = buff . end ( ) ; it + + )
{
if ( ' \r ' = = * it )
continue ;
else if ( ' \n ' = = * it )
break ;
else
{
LOG_ERROR ( " http_stream_filter: Wrong last chunk terminator " ) ;
return false ;
}
}
if ( it = = buff . end ( ) )
return true ;
}
buff . erase ( buff . begin ( ) , + + it ) ;
is_matched = true ;
return true ;
}
else
return false ;
}
}
return true ;
}
//---------------------------------------------------------------------------
inline
bool handle_body_body_chunked ( std : : string & recv_buff , bool & need_more_data )
{
CRITICAL_REGION_LOCAL ( m_lock ) ;
if ( ! recv_buff . size ( ) )
{
LOG_PRINT ( " Warning: CHUNKED mode, but connection unexpectedly closed " , LOG_LEVEL_3 ) ;
m_state = reciev_machine_state_done ;
return true ;
}
m_chunked_cache + = recv_buff ;
recv_buff . clear ( ) ;
bool is_matched = false ;
while ( true )
{
if ( ! m_chunked_cache . size ( ) )
{
need_more_data = true ;
break ;
}
switch ( m_chunked_state )
{
case http_chunked_state_chunk_head :
if ( m_chunked_cache [ 0 ] = = ' \n ' | | m_chunked_cache [ 0 ] = = ' \r ' )
{
//optimize a bit
if ( m_chunked_cache [ 0 ] = = ' \r ' & & m_chunked_cache . size ( ) > 1 & & m_chunked_cache [ 1 ] = = ' \n ' )
m_chunked_cache . erase ( 0 , 2 ) ;
else
m_chunked_cache . erase ( 0 , 1 ) ;
break ;
}
if ( ! get_chunk_head ( m_chunked_cache , m_len_in_remain , is_matched ) )
{
LOG_ERROR ( " http_stream_filter::handle_chunked(*) Failed to get length from chunked head: " < < m_chunked_cache ) ;
m_state = reciev_machine_state_error ;
return false ;
}
if ( ! is_matched )
{
need_more_data = true ;
return true ;
} else
{
m_chunked_state = http_chunked_state_chunk_body ;
if ( m_len_in_remain = = 0 )
{ //last chunk, let stop the stream and fix the chunk queue.
m_state = reciev_machine_state_done ;
return true ;
}
m_chunked_state = http_chunked_state_chunk_body ;
break ;
}
break ;
case http_chunked_state_chunk_body :
{
std : : string chunk_body ;
if ( m_len_in_remain > = m_chunked_cache . size ( ) )
{
m_len_in_remain - = m_chunked_cache . size ( ) ;
chunk_body . swap ( m_chunked_cache ) ;
} else
{
chunk_body . assign ( m_chunked_cache , 0 , m_len_in_remain ) ;
m_chunked_cache . erase ( 0 , m_len_in_remain ) ;
m_len_in_remain = 0 ;
}
m_pcontent_encoding_handler - > update_in ( chunk_body ) ;
if ( ! m_len_in_remain )
m_chunked_state = http_chunked_state_chunk_head ;
}
break ;
case http_chunked_state_done :
m_state = reciev_machine_state_done ;
return true ;
case http_chunked_state_undefined :
default :
LOG_ERROR ( " http_stream_filter::handle_chunked(): Wrong state " < < m_chunked_state ) ;
return false ;
}
}
return true ;
}
//---------------------------------------------------------------------------
inline
bool parse_header ( http_header_info & body_info , const std : : string & m_cache_to_process )
{
LOG_FRAME ( " http_stream_filter::parse_cached_header(*) " , LOG_LEVEL_4 ) ;
STATIC_REGEXP_EXPR_1 ( rexp_mach_field ,
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" \n ?((Connection)|(Referer)|(Content-Length)|(Content-Type)|(Transfer-Encoding)|(Content-Encoding)|(Host)|(Cookie)|(User-Agent) "
// 12 3 4 5 6 7 8 9 10
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" |([ \\ w-]+?)) ?: ?((.*?)( \r ? \n ))[^ \t ] " ,
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//11 1213 14
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boost : : regex : : icase | boost : : regex : : normal ) ;
boost : : smatch result ;
std : : string : : const_iterator it_current_bound = m_cache_to_process . begin ( ) ;
std : : string : : const_iterator it_end_bound = m_cache_to_process . end ( ) ;
//lookup all fields and fill well-known fields
while ( boost : : regex_search ( it_current_bound , it_end_bound , result , rexp_mach_field , boost : : match_default ) & & result [ 0 ] . matched )
{
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const size_t field_val = 13 ;
//const size_t field_etc_name = 11;
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int i = 2 ; //start position = 2
if ( result [ i + + ] . matched ) //"Connection"
body_info . m_connection = result [ field_val ] ;
else if ( result [ i + + ] . matched ) //"Referrer"
body_info . m_referer = result [ field_val ] ;
else if ( result [ i + + ] . matched ) //"Content-Length"
body_info . m_content_length = result [ field_val ] ;
else if ( result [ i + + ] . matched ) //"Content-Type"
body_info . m_content_type = result [ field_val ] ;
else if ( result [ i + + ] . matched ) //"Transfer-Encoding"
body_info . m_transfer_encoding = result [ field_val ] ;
else if ( result [ i + + ] . matched ) //"Content-Encoding"
body_info . m_content_encoding = result [ field_val ] ;
else if ( result [ i + + ] . matched ) //"Host"
{ body_info . m_host = result [ field_val ] ;
string_tools : : trim ( body_info . m_host ) ;
}
else if ( result [ i + + ] . matched ) //"Cookie"
body_info . m_cookie = result [ field_val ] ;
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else if ( result [ i + + ] . matched ) //"User-Agent"
body_info . m_user_agent = result [ field_val ] ;
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else if ( result [ i + + ] . matched ) //e.t.c (HAVE TO BE MATCHED!)
{ ; }
else
{ CHECK_AND_ASSERT_MES ( false , false , " http_stream_filter::parse_cached_header() not matched last entry in: " < < m_cache_to_process ) ; }
it_current_bound = result [ ( int ) result . size ( ) - 1 ] . first ;
}
return true ;
}
inline
bool analize_first_response_line ( )
{
//First line response, look like this: "HTTP/1.1 200 OK"
STATIC_REGEXP_EXPR_1 ( rexp_match_first_response_line , " ^HTTP/( \\ d+).( \\ d+) (( \\ d) \\ d{2})( [^ \n ]*)? \r ? \n " , boost : : regex : : icase | boost : : regex : : normal ) ;
// 1 2 34 5
//size_t match_len = 0;
boost : : smatch result ;
if ( boost : : regex_search ( m_header_cache , result , rexp_match_first_response_line , boost : : match_default ) & & result [ 0 ] . matched )
{
CHECK_AND_ASSERT_MES ( result [ 1 ] . matched & & result [ 2 ] . matched , false , " http_stream_filter::handle_invoke_reply_line() assert failed... " ) ;
m_response_info . m_http_ver_hi = boost : : lexical_cast < int > ( result [ 1 ] ) ;
m_response_info . m_http_ver_lo = boost : : lexical_cast < int > ( result [ 2 ] ) ;
m_response_info . m_response_code = boost : : lexical_cast < int > ( result [ 3 ] ) ;
m_header_cache . erase ( to_nonsonst_iterator ( m_header_cache , result [ 0 ] . first ) , to_nonsonst_iterator ( m_header_cache , result [ 0 ] . second ) ) ;
return true ;
} else
{
LOG_ERROR ( " http_stream_filter::handle_invoke_reply_line(): Failed to match first response line: " < < m_header_cache ) ;
return false ;
}
}
inline
bool set_reply_content_encoder ( )
{
STATIC_REGEXP_EXPR_1 ( rexp_match_gzip , " ^.*?((gzip)|(deflate)) " , boost : : regex : : icase | boost : : regex : : normal ) ;
boost : : smatch result ; // 12 3
if ( boost : : regex_search ( m_response_info . m_header_info . m_content_encoding , result , rexp_match_gzip , boost : : match_default ) & & result [ 0 ] . matched )
{
# ifdef HTTP_ENABLE_GZIP
m_pcontent_encoding_handler . reset ( new content_encoding_gzip ( this , result [ 3 ] . matched ) ) ;
# else
m_pcontent_encoding_handler . reset ( new do_nothing_sub_handler ( this ) ) ;
LOG_ERROR ( " GZIP encoding not supported in this build, please add zlib to your project and define HTTP_ENABLE_GZIP " ) ;
return false ;
# endif
}
else
{
m_pcontent_encoding_handler . reset ( new do_nothing_sub_handler ( this ) ) ;
}
return true ;
}
inline
bool analize_cached_header_and_invoke_state ( )
{
m_response_info . clear ( ) ;
analize_first_response_line ( ) ;
std : : string fake_str ; //gcc error workaround
bool res = parse_header ( m_response_info . m_header_info , m_header_cache ) ;
CHECK_AND_ASSERT_MES ( res , false , " http_stream_filter::analize_cached_reply_header_and_invoke_state(): failed to anilize reply header: " < < m_header_cache ) ;
set_reply_content_encoder ( ) ;
m_len_in_summary = 0 ;
bool content_len_valid = false ;
if ( m_response_info . m_header_info . m_content_length . size ( ) )
content_len_valid = string_tools : : get_xtype_from_string ( m_len_in_summary , m_response_info . m_header_info . m_content_length ) ;
if ( ! m_len_in_summary & & ( ( m_response_info . m_response_code > = 100 & & m_response_info . m_response_code < 200 )
| | 204 = = m_response_info . m_response_code
| | 304 = = m_response_info . m_response_code ) )
{ //There will be no response body, server will display the local page with error
m_state = reciev_machine_state_done ;
return true ;
} else if ( m_response_info . m_header_info . m_transfer_encoding . size ( ) )
{
string_tools : : trim ( m_response_info . m_header_info . m_transfer_encoding ) ;
if ( string_tools : : compare_no_case ( m_response_info . m_header_info . m_transfer_encoding , " chunked " ) )
{
LOG_ERROR ( " Wrong Transfer-Encoding: " < < m_response_info . m_header_info . m_transfer_encoding ) ;
m_state = reciev_machine_state_error ;
return false ;
}
m_state = reciev_machine_state_body_chunked ;
m_chunked_state = http_chunked_state_chunk_head ;
return true ;
}
else if ( ! m_response_info . m_header_info . m_content_length . empty ( ) )
{
//In the response header the length was specified
if ( ! content_len_valid )
{
LOG_ERROR ( " http_stream_filter::analize_cached_reply_header_and_invoke_state(): Failed to get_len_from_content_lenght();, m_query_info.m_content_length= " < < m_response_info . m_header_info . m_content_length ) ;
m_state = reciev_machine_state_error ;
return false ;
}
if ( ! m_len_in_summary )
{
m_state = reciev_machine_state_done ;
return true ;
}
else
{
m_len_in_remain = m_len_in_summary ;
m_state = reciev_machine_state_body_content_len ;
return true ;
}
} else if ( ! m_response_info . m_header_info . m_connection . empty ( ) & & is_connection_close_field ( m_response_info . m_header_info . m_connection ) )
{ //By indirect signs we suspect that data transfer will end with a connection break
m_state = reciev_machine_state_body_connection_close ;
} else if ( is_multipart_body ( m_response_info . m_header_info , fake_str ) )
{
m_state = reciev_machine_state_error ;
LOG_ERROR ( " Unsupported MULTIPART BODY. " ) ;
return false ;
} else
{ //Apparently there are no signs of the form of transfer, will receive data until the connection is closed
m_state = reciev_machine_state_error ;
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LOG_PRINT ( " Undefinded transfer type, consider http_body_transfer_connection_close method. header: " < < m_header_cache , LOG_LEVEL_2 ) ;
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return false ;
}
return false ;
}
inline
bool is_connection_close_field ( const std : : string & str )
{
STATIC_REGEXP_EXPR_1 ( rexp_match_close , " ^ \\ s*close " , boost : : regex : : icase | boost : : regex : : normal ) ;
boost : : smatch result ;
if ( boost : : regex_search ( str , result , rexp_match_close , boost : : match_default ) & & result [ 0 ] . matched )
return true ;
else
return false ;
}
inline
bool is_multipart_body ( const http_header_info & head_info , OUT std : : string & boundary )
{
//Check whether this is multi part - if yes, capture boundary immediately
STATIC_REGEXP_EXPR_1 ( rexp_match_multipart_type , " ^ \\ s*multipart/([ \\ w \\ -]+); boundary=(( \" (.*?) \" )|( \\ \\ \" (.*?) \\ \\ \" )|([^ \\ s;]*)) " , boost : : regex : : icase | boost : : regex : : normal ) ;
boost : : smatch result ;
if ( boost : : regex_search ( head_info . m_content_type , result , rexp_match_multipart_type , boost : : match_default ) & & result [ 0 ] . matched )
{
if ( result [ 4 ] . matched )
boundary = result [ 4 ] ;
else if ( result [ 6 ] . matched )
boundary = result [ 6 ] ;
else if ( result [ 7 ] . matched )
boundary = result [ 7 ] ;
else
{
LOG_ERROR ( " Failed to match boundary in content-type= " < < head_info . m_content_type ) ;
return false ;
}
return true ;
}
else
return false ;
return true ;
}
} ;
/************************************************************************/
/* */
/************************************************************************/
//inline
template < class t_transport >
bool invoke_request ( const std : : string & url , t_transport & tr , unsigned int timeout , const http_response_info * * ppresponse_info , const std : : string & method = " GET " , const std : : string & body = std : : string ( ) , const fields_list & additional_params = fields_list ( ) )
{
http : : url_content u_c ;
bool res = parse_url ( url , u_c ) ;
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if ( ! tr . is_connected ( ) & & ! u_c . host . empty ( ) )
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{
CHECK_AND_ASSERT_MES ( res , false , " failed to parse url: " < < url ) ;
if ( ! u_c . port )
u_c . port = 80 ; //default for http
res = tr . connect ( u_c . host , static_cast < int > ( u_c . port ) , timeout ) ;
CHECK_AND_ASSERT_MES ( res , false , " failed to connect " < < u_c . host < < " : " < < u_c . port ) ;
}
return tr . invoke ( u_c . uri , method , body , ppresponse_info , additional_params ) ;
}
}
}
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}