/********************************************************************\ * BitlBee -- An IRC to other IM-networks gateway * * * * Copyright 2002-2013 Wilmer van der Gaast and others * \********************************************************************/ /* HTTP(S) module */ /* This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License with the Debian GNU/Linux distribution in /usr/share/common-licenses/GPL; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include "http_client.h" #include "url.h" #include "sock.h" static gboolean http_connected( gpointer data, int source, b_input_condition cond ); static gboolean http_ssl_connected( gpointer data, int returncode, void *source, b_input_condition cond ); static gboolean http_incoming_data( gpointer data, int source, b_input_condition cond ); static void http_free( struct http_request *req ); struct http_request *http_dorequest( char *host, int port, int ssl, char *request, http_input_function func, gpointer data ) { struct http_request *req; int error = 0; req = g_new0( struct http_request, 1 ); if( ssl ) { req->ssl = ssl_connect( host, port, TRUE, http_ssl_connected, req ); if( req->ssl == NULL ) error = 1; } else { req->fd = proxy_connect( host, port, http_connected, req ); if( req->fd < 0 ) error = 1; } if( error ) { http_free( req ); return NULL; } req->func = func; req->data = data; req->request = g_strdup( request ); req->request_length = strlen( request ); req->redir_ttl = 3; req->content_length = -1; if( getenv( "BITLBEE_DEBUG" ) ) printf( "About to send HTTP request:\n%s\n", req->request ); return req; } struct http_request *http_dorequest_url( char *url_string, http_input_function func, gpointer data ) { url_t *url = g_new0( url_t, 1 ); char *request; void *ret; if( !url_set( url, url_string ) ) { g_free( url ); return NULL; } if( url->proto != PROTO_HTTP && url->proto != PROTO_HTTPS ) { g_free( url ); return NULL; } request = g_strdup_printf( "GET %s HTTP/1.0\r\n" "Host: %s\r\n" "User-Agent: BitlBee " BITLBEE_VERSION " " ARCH "/" CPU "\r\n" "\r\n", url->file, url->host ); ret = http_dorequest( url->host, url->port, url->proto == PROTO_HTTPS, request, func, data ); g_free( url ); g_free( request ); return ret; } /* This one is actually pretty simple... Might get more calls if we can't write the whole request at once. */ static gboolean http_connected( gpointer data, int source, b_input_condition cond ) { struct http_request *req = data; int st; if( source < 0 ) goto error; if( req->inpa > 0 ) b_event_remove( req->inpa ); sock_make_nonblocking( req->fd ); if( req->ssl ) { st = ssl_write( req->ssl, req->request + req->bytes_written, req->request_length - req->bytes_written ); if( st < 0 ) { if( ssl_errno != SSL_AGAIN ) { ssl_disconnect( req->ssl ); goto error; } } } else { st = write( source, req->request + req->bytes_written, req->request_length - req->bytes_written ); if( st < 0 ) { if( !sockerr_again() ) { closesocket( req->fd ); goto error; } } } if( st > 0 ) req->bytes_written += st; if( req->bytes_written < req->request_length ) req->inpa = b_input_add( source, req->ssl ? ssl_getdirection( req->ssl ) : B_EV_IO_WRITE, http_connected, req ); else req->inpa = b_input_add( source, B_EV_IO_READ, http_incoming_data, req ); return FALSE; error: if( req->status_string == NULL ) req->status_string = g_strdup( "Error while writing HTTP request" ); req->func( req ); http_free( req ); return FALSE; } static gboolean http_ssl_connected( gpointer data, int returncode, void *source, b_input_condition cond ) { struct http_request *req = data; if( source == NULL ) { if( returncode != 0 ) { char *err = ssl_verify_strerror( returncode ); req->status_string = g_strdup_printf( "Certificate verification problem 0x%x: %s", returncode, err ? err : "Unknown" ); g_free( err ); } return http_connected( data, -1, cond ); } req->fd = ssl_getfd( source ); return http_connected( data, req->fd, cond ); } typedef enum { CR_OK, CR_EOF, CR_ERROR, CR_ABORT, } http_ret_t; static gboolean http_handle_headers( struct http_request *req ); static http_ret_t http_process_chunked_data( struct http_request *req, const char *buffer, int len ); static http_ret_t http_process_data( struct http_request *req, const char *buffer, int len ); static gboolean http_incoming_data( gpointer data, int source, b_input_condition cond ) { struct http_request *req = data; char buffer[4096]; int st; if( req->inpa > 0 ) b_event_remove( req->inpa ); if( req->ssl ) { st = ssl_read( req->ssl, buffer, sizeof( buffer ) ); if( st < 0 ) { if( ssl_errno != SSL_AGAIN ) { /* goto cleanup; */ /* YAY! We have to deal with crappy Microsoft servers that LOVE to send invalid TLS packets that abort connections! \o/ */ goto eof; } } else if( st == 0 ) { goto eof; } } else { st = read( req->fd, buffer, sizeof( buffer ) ); if( st < 0 ) { if( !sockerr_again() ) { req->status_string = g_strdup( strerror( errno ) ); goto cleanup; } } else if( st == 0 ) { goto eof; } } if( st > 0 ) { http_ret_t c; if( req->flags & HTTPC_CHUNKED ) c = http_process_chunked_data( req, buffer, st ); else c = http_process_data( req, buffer, st ); if( c == CR_EOF ) goto eof; else if( c == CR_ERROR || c == CR_ABORT ) return FALSE; } if( req->content_length != -1 && req->body_size >= req->content_length ) goto eof; if( ssl_pending( req->ssl ) ) return http_incoming_data( data, source, cond ); /* There will be more! */ req->inpa = b_input_add( req->fd, req->ssl ? ssl_getdirection( req->ssl ) : B_EV_IO_READ, http_incoming_data, req ); return FALSE; eof: req->flags |= HTTPC_EOF; /* Maybe if the webserver is overloaded, or when there's bad SSL support... */ if( req->bytes_read == 0 ) { req->status_string = g_strdup( "Empty HTTP reply" ); goto cleanup; } cleanup: if( req->ssl ) ssl_disconnect( req->ssl ); else closesocket( req->fd ); if( req->body_size < req->content_length ) { req->status_code = -1; g_free( req->status_string ); req->status_string = g_strdup( "Response truncated" ); } if( getenv( "BITLBEE_DEBUG" ) && req ) printf( "Finishing HTTP request with status: %s\n", req->status_string ? req->status_string : "NULL" ); req->func( req ); http_free( req ); return FALSE; } static http_ret_t http_process_chunked_data( struct http_request *req, const char *buffer, int len ) { char *chunk, *eos, *s; if( len < 0 ) return TRUE; if( len > 0 ) { req->cbuf = g_realloc( req->cbuf, req->cblen + len + 1 ); memcpy( req->cbuf + req->cblen, buffer, len ); req->cblen += len; req->cbuf[req->cblen] = '\0'; } /* Turns out writing a proper chunked-encoding state machine is not that simple. :-( */ chunk = req->cbuf; eos = req->cbuf + req->cblen; while( TRUE ) { int clen = 0; /* Might be a \r\n from the last chunk. */ s = chunk; while( isspace( *s ) ) s ++; /* Chunk length. Might be incomplete. */ if( s < eos && sscanf( s, "%x", &clen ) != 1 ) return CR_ERROR; while( isxdigit( *s ) ) s ++; /* If we read anything here, it *must* be \r\n. */ if( strncmp( s, "\r\n", MIN( 2, eos - s ) ) != 0 ) return CR_ERROR; s += 2; if( s >= eos ) break; /* 0-length chunk means end of response. */ if( clen == 0 ) return CR_EOF; if( s + clen > eos ) break; if( http_process_data( req, s, clen ) != CR_OK ) return CR_ABORT; chunk = s + clen; } if( chunk != req->cbuf ) { req->cblen = eos - chunk; s = g_memdup( chunk, req->cblen + 1 ); g_free( req->cbuf ); req->cbuf = s; } return CR_OK; } static http_ret_t http_process_data( struct http_request *req, const char *buffer, int len ) { if( len <= 0 ) return CR_OK; if( !req->reply_body ) { req->reply_headers = g_realloc( req->reply_headers, req->bytes_read + len + 1 ); memcpy( req->reply_headers + req->bytes_read, buffer, len ); req->bytes_read += len; req->reply_headers[req->bytes_read] = '\0'; if( strstr( req->reply_headers, "\r\n\r\n" ) || strstr( req->reply_headers, "\n\n" ) ) { /* We've now received all headers. Look for something interesting. */ if( !http_handle_headers( req ) ) return CR_ABORT; /* Start parsing the body as chunked if required. */ if( req->flags & HTTPC_CHUNKED ) return http_process_chunked_data( req, NULL, 0 ); } } else { int pos = req->reply_body - req->sbuf; req->sbuf = g_realloc( req->sbuf, req->sblen + len + 1 ); memcpy( req->sbuf + req->sblen, buffer, len ); req->bytes_read += len; req->sblen += len; req->sbuf[req->sblen] = '\0'; req->reply_body = req->sbuf + pos; req->body_size = req->sblen - pos; } if( ( req->flags & HTTPC_STREAMING ) && req->reply_body ) req->func( req ); return CR_OK; } /* Splits headers and body. Checks result code, in case of 300s it'll handle redirects. If this returns FALSE, don't call any callbacks! */ static gboolean http_handle_headers( struct http_request *req ) { char *end1, *end2, *s; int evil_server = 0; /* Zero termination is very convenient. */ req->reply_headers[req->bytes_read] = '\0'; /* Find the separation between headers and body, and keep stupid webservers in mind. */ end1 = strstr( req->reply_headers, "\r\n\r\n" ); end2 = strstr( req->reply_headers, "\n\n" ); if( end2 && end2 < end1 ) { end1 = end2 + 1; evil_server = 1; } else if( end1 ) { end1 += 2; } else { req->status_string = g_strdup( "Malformed HTTP reply" ); return TRUE; } *end1 = '\0'; if( getenv( "BITLBEE_DEBUG" ) ) printf( "HTTP response headers:\n%s\n", req->reply_headers ); if( evil_server ) req->reply_body = end1 + 1; else req->reply_body = end1 + 2; /* Separately allocated space for headers and body. */ req->sblen = req->body_size = req->reply_headers + req->bytes_read - req->reply_body; req->sbuf = req->reply_body = g_memdup( req->reply_body, req->body_size + 1 ); req->reply_headers = g_realloc( req->reply_headers, end1 - req->reply_headers + 1 ); if( ( end1 = strchr( req->reply_headers, ' ' ) ) != NULL ) { if( sscanf( end1 + 1, "%hd", &req->status_code ) != 1 ) { req->status_string = g_strdup( "Can't parse status code" ); req->status_code = -1; } else { char *eol; if( evil_server ) eol = strchr( end1, '\n' ); else eol = strchr( end1, '\r' ); req->status_string = g_strndup( end1 + 1, eol - end1 - 1 ); /* Just to be sure... */ if( ( eol = strchr( req->status_string, '\r' ) ) ) *eol = 0; if( ( eol = strchr( req->status_string, '\n' ) ) ) *eol = 0; } } else { req->status_string = g_strdup( "Can't locate status code" ); req->status_code = -1; } if( ( ( req->status_code >= 301 && req->status_code <= 303 ) || req->status_code == 307 ) && req->redir_ttl-- > 0 ) { char *loc, *new_request, *new_host; int error = 0, new_port, new_proto; /* We might fill it again, so let's not leak any memory. */ g_free( req->status_string ); req->status_string = NULL; loc = strstr( req->reply_headers, "\nLocation: " ); if( loc == NULL ) /* We can't handle this redirect... */ { req->status_string = g_strdup( "Can't locate Location: header" ); return TRUE; } loc += 11; while( *loc == ' ' ) loc ++; /* TODO/FIXME: Possibly have to handle relative redirections, and rewrite Host: headers. Not necessary for now, it's enough for passport authentication like this. */ if( *loc == '/' ) { /* Just a different pathname... */ /* Since we don't cache the servername, and since we don't need this yet anyway, I won't implement it. */ req->status_string = g_strdup( "Can't handle relative redirects" ); return TRUE; } else { /* A whole URL */ url_t *url; char *s, *version, *headers; const char *new_method; s = strstr( loc, "\r\n" ); if( s == NULL ) return TRUE; url = g_new0( url_t, 1 ); *s = 0; if( !url_set( url, loc ) ) { req->status_string = g_strdup( "Malformed redirect URL" ); g_free( url ); return TRUE; } /* Find all headers and, if necessary, the POST request contents. Skip the old Host: header though. This crappy code here means anything using this http_client MUST put the Host: header at the top. */ if( !( ( s = strstr( req->request, "\r\nHost: " ) ) && ( s = strstr( s + strlen( "\r\nHost: " ), "\r\n" ) ) ) ) { req->status_string = g_strdup( "Error while rebuilding request string" ); g_free( url ); return TRUE; } headers = s; /* More or less HTTP/1.0 compliant, from my reading of RFC 2616. Always perform a GET request unless we received a 301. 303 was meant for this but it's HTTP/1.1-only and we're specifically speaking HTTP/1.0. ... Well except someone at identi.ca's didn't bother reading any RFCs and just return HTTP/1.1-specific status codes to HTTP/1.0 requests. Fuckers. So here we are, handle 301..303,307. */ if( strncmp( req->request, "GET", 3 ) == 0 ) /* GETs never become POSTs. */ new_method = "GET"; else if( req->status_code == 302 || req->status_code == 303 ) /* 302 de-facto becomes GET, 303 as specified by RFC 2616#10.3.3 */ new_method = "GET"; else /* 301 de-facto should stay POST, 307 specifally RFC 2616#10.3.8 */ new_method = "POST"; if( ( version = strstr( req->request, " HTTP/" ) ) && ( s = strstr( version, "\r\n" ) ) ) { version ++; version = g_strndup( version, s - version ); } else version = g_strdup( "HTTP/1.0" ); /* Okay, this isn't fun! We have to rebuild the request... :-( */ new_request = g_strdup_printf( "%s %s %s\r\nHost: %s%s", new_method, url->file, version, url->host, headers ); new_host = g_strdup( url->host ); new_port = url->port; new_proto = url->proto; /* If we went from POST to GET, truncate the request content. */ if( new_request[0] != req->request[0] && new_request[0] == 'G' && ( s = strstr( new_request, "\r\n\r\n" ) ) ) s[4] = '\0'; g_free( url ); g_free( version ); } if( req->ssl ) ssl_disconnect( req->ssl ); else closesocket( req->fd ); req->fd = -1; req->ssl = NULL; if( getenv( "BITLBEE_DEBUG" ) ) printf( "New headers for redirected HTTP request:\n%s\n", new_request ); if( new_proto == PROTO_HTTPS ) { req->ssl = ssl_connect( new_host, new_port, TRUE, http_ssl_connected, req ); if( req->ssl == NULL ) error = 1; } else { req->fd = proxy_connect( new_host, new_port, http_connected, req ); if( req->fd < 0 ) error = 1; } g_free( new_host ); if( error ) { req->status_string = g_strdup( "Connection problem during redirect" ); g_free( new_request ); return TRUE; } g_free( req->request ); g_free( req->reply_headers ); req->request = new_request; req->request_length = strlen( new_request ); req->bytes_read = req->bytes_written = req->inpa = 0; req->reply_headers = req->reply_body = NULL; return FALSE; } if( ( s = get_rfc822_header( req->reply_headers, "Content-Length", 0 ) ) && sscanf( s, "%d", &req->content_length ) != 1 ) req->content_length = -1; g_free( s ); if( ( s = get_rfc822_header( req->reply_headers, "Transfer-Encoding", 0 ) ) ) { if( strcasestr( s, "chunked" ) ) { req->flags |= HTTPC_CHUNKED; req->cbuf = req->sbuf; req->cblen = req->sblen; req->reply_body = req->sbuf = g_strdup( "" ); req->body_size = req->sblen = 0; } g_free( s ); } return TRUE; } void http_flush_bytes( struct http_request *req, size_t len ) { if( len <= 0 || len > req->body_size || !( req->flags & HTTPC_STREAMING ) ) return; req->reply_body += len; req->body_size -= len; if( req->reply_body - req->sbuf >= 512 ) { char *new = g_memdup( req->reply_body, req->body_size + 1 ); g_free( req->sbuf ); req->reply_body = req->sbuf = new; req->sblen = req->body_size; } } void http_close( struct http_request *req ) { if( !req ) return; if( req->inpa > 0 ) b_event_remove( req->inpa ); if( req->ssl ) ssl_disconnect( req->ssl ); else closesocket( req->fd ); http_free( req ); } static void http_free( struct http_request *req ) { g_free( req->request ); g_free( req->reply_headers ); g_free( req->status_string ); g_free( req->sbuf ); g_free( req->cbuf ); g_free( req ); }