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477 lines
18 KiB
C
477 lines
18 KiB
C
/* This software was written by Dirk Engling <erdgeist@erdgeist.org>
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It is considered beerware. Prost. Skol. Cheers or whatever.
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$id$ */
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/* System */
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#include <sys/types.h>
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#include <arpa/inet.h>
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#include <stdlib.h>
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#include <stdio.h>
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#include <string.h>
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#include <unistd.h>
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/* Libowfat */
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#include "byte.h"
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#include "array.h"
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#include "iob.h"
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#include "ip6.h"
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/* Opentracker */
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#include "trackerlogic.h"
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#include "ot_mutex.h"
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#include "ot_http.h"
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#include "ot_iovec.h"
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#include "scan_urlencoded_query.h"
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#include "ot_fullscrape.h"
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#include "ot_stats.h"
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#include "ot_accesslist.h"
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#define OT_MAXMULTISCRAPE_COUNT 64
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extern char *g_redirecturl;
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enum {
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SUCCESS_HTTP_HEADER_LENGTH = 80,
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SUCCESS_HTTP_HEADER_LENGTH_CONTENT_ENCODING = 32,
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SUCCESS_HTTP_SIZE_OFF = 17 };
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static void http_senddata( const int64 sock, struct ot_workstruct *ws ) {
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struct http_data *cookie = io_getcookie( sock );
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ssize_t written_size;
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/* whoever sends data is not interested in its input-array */
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if( cookie && ( cookie->flag & STRUCT_HTTP_FLAG_ARRAY_USED ) ) {
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cookie->flag &= ~STRUCT_HTTP_FLAG_ARRAY_USED;
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array_reset( &cookie->data.request );
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}
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written_size = write( sock, ws->reply, ws->reply_size );
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if( ( written_size < 0 ) || ( written_size == ws->reply_size ) ) {
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free( cookie ); io_close( sock );
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} else {
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char * outbuf;
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tai6464 t;
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if( !cookie ) return;
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if( !( outbuf = malloc( ws->reply_size - written_size ) ) ) {
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free(cookie); io_close( sock );
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return;
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}
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iob_reset( &cookie->data.batch );
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memcpy( outbuf, ws->reply + written_size, ws->reply_size - written_size );
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iob_addbuf_free( &cookie->data.batch, outbuf, ws->reply_size - written_size );
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cookie->flag |= STRUCT_HTTP_FLAG_IOB_USED;
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/* writeable short data sockets just have a tcp timeout */
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taia_uint( &t, 0 ); io_timeout( sock, t );
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io_dontwantread( sock );
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io_wantwrite( sock );
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}
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}
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#define HTTPERROR_302 return http_issue_error( sock, ws, CODE_HTTPERROR_302 )
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#define HTTPERROR_400 return http_issue_error( sock, ws, CODE_HTTPERROR_400 )
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#define HTTPERROR_400_PARAM return http_issue_error( sock, ws, CODE_HTTPERROR_400_PARAM )
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#define HTTPERROR_400_COMPACT return http_issue_error( sock, ws, CODE_HTTPERROR_400_COMPACT )
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#define HTTPERROR_400_DOUBLEHASH return http_issue_error( sock, ws, CODE_HTTPERROR_400_PARAM )
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#define HTTPERROR_403_IP return http_issue_error( sock, ws, CODE_HTTPERROR_403_IP )
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#define HTTPERROR_404 return http_issue_error( sock, ws, CODE_HTTPERROR_404 )
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#define HTTPERROR_500 return http_issue_error( sock, ws, CODE_HTTPERROR_500 )
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ssize_t http_issue_error( const int64 sock, struct ot_workstruct *ws, int code ) {
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char *error_code[] = { "302 Found", "400 Invalid Request", "400 Invalid Request", "400 Invalid Request",
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"403 Access Denied", "404 Not Found", "500 Internal Server Error" };
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char *title = error_code[code];
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ws->reply = ws->outbuf;
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if( code == CODE_HTTPERROR_302 )
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ws->reply_size = snprintf( ws->reply, G_OUTBUF_SIZE, "HTTP/1.0 302 Found\r\nContent-Length: 0\r\nLocation: %s\r\n\r\n", g_redirecturl );
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else
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ws->reply_size = snprintf( ws->reply, G_OUTBUF_SIZE, "HTTP/1.0 %s\r\nContent-Type: text/html\r\nConnection: close\r\nContent-Length: %zd\r\n\r\n<title>%s</title>\n", title, strlen(title)+16-4,title+4);
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#ifdef _DEBUG_HTTPERROR
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fprintf( stderr, "DEBUG: invalid request was: %s\n", ws->debugbuf );
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#endif
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stats_issue_event( EVENT_FAILED, FLAG_TCP, code );
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http_senddata( sock, ws );
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return ws->reply_size = -2;
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}
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ssize_t http_sendiovecdata( const int64 sock, struct ot_workstruct *ws, int iovec_entries, struct iovec *iovector ) {
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struct http_data *cookie = io_getcookie( sock );
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char *header;
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int i;
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size_t header_size, size = iovec_length( &iovec_entries, &iovector );
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tai6464 t;
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/* No cookie? Bad socket. Leave. */
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if( !cookie ) {
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iovec_free( &iovec_entries, &iovector );
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HTTPERROR_500;
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}
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/* If this socket collected request in a buffer,
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free it now */
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if( cookie->flag & STRUCT_HTTP_FLAG_ARRAY_USED ) {
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cookie->flag &= ~STRUCT_HTTP_FLAG_ARRAY_USED;
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array_reset( &cookie->data.request );
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}
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/* If we came here, wait for the answer is over */
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cookie->flag &= ~STRUCT_HTTP_FLAG_WAITINGFORTASK;
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/* Our answers never are 0 vectors. Return an error. */
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if( !iovec_entries ) {
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HTTPERROR_500;
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}
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/* Prepare space for http header */
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header = malloc( SUCCESS_HTTP_HEADER_LENGTH + SUCCESS_HTTP_HEADER_LENGTH_CONTENT_ENCODING );
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if( !header ) {
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iovec_free( &iovec_entries, &iovector );
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HTTPERROR_500;
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}
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if( cookie->flag & STRUCT_HTTP_FLAG_GZIP )
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header_size = sprintf( header, "HTTP/1.0 200 OK\r\nContent-Type: text/plain\r\nContent-Encoding: gzip\r\nContent-Length: %zd\r\n\r\n", size );
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else if( cookie->flag & STRUCT_HTTP_FLAG_BZIP2 )
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header_size = sprintf( header, "HTTP/1.0 200 OK\r\nContent-Type: text/plain\r\nContent-Encoding: bzip2\r\nContent-Length: %zd\r\n\r\n", size );
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else
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header_size = sprintf( header, "HTTP/1.0 200 OK\r\nContent-Type: text/plain\r\nContent-Length: %zd\r\n\r\n", size );
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iob_reset( &cookie->data.batch );
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iob_addbuf_free( &cookie->data.batch, header, header_size );
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/* Will move to ot_iovec.c */
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for( i=0; i<iovec_entries; ++i )
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iob_addbuf_munmap( &cookie->data.batch, iovector[i].iov_base, iovector[i].iov_len );
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free( iovector );
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cookie->flag |= STRUCT_HTTP_FLAG_IOB_USED;
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/* writeable sockets timeout after 10 minutes */
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taia_now( &t ); taia_addsec( &t, &t, OT_CLIENT_TIMEOUT_SEND );
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io_timeout( sock, t );
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io_dontwantread( sock );
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io_wantwrite( sock );
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return 0;
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}
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static ssize_t http_handle_stats( const int64 sock, struct ot_workstruct *ws, char *read_ptr ) {
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static const ot_keywords keywords_main[] =
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{ { "mode", 1 }, {"format", 2 }, { NULL, -3 } };
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static const ot_keywords keywords_mode[] =
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{ { "peer", TASK_STATS_PEERS }, { "conn", TASK_STATS_CONNS }, { "scrp", TASK_STATS_SCRAPE }, { "udp4", TASK_STATS_UDP }, { "tcp4", TASK_STATS_TCP },
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{ "busy", TASK_STATS_BUSY_NETWORKS }, { "torr", TASK_STATS_TORRENTS }, { "fscr", TASK_STATS_FULLSCRAPE },
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{ "s24s", TASK_STATS_SLASH24S }, { "tpbs", TASK_STATS_TPB }, { "herr", TASK_STATS_HTTPERRORS },
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{ "top10", TASK_STATS_TOP10 }, { "renew", TASK_STATS_RENEW }, { "syncs", TASK_STATS_SYNCS }, { "version", TASK_STATS_VERSION },
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{ "startstop", TASK_STATS_STARTSTOP }, { "toraddrem", TASK_STATS_TORADDREM }, { NULL, -3 } };
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static const ot_keywords keywords_format[] =
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{ { "bin", TASK_FULLSCRAPE_TPB_BINARY }, { "ben", TASK_FULLSCRAPE }, { "url", TASK_FULLSCRAPE_TPB_URLENCODED },
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{ "txt", TASK_FULLSCRAPE_TPB_ASCII }, { NULL, -3 } };
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int mode = TASK_STATS_PEERS, scanon = 1, format = 0;
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#ifdef WANT_RESTRICT_STATS
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struct http_data *cookie = io_getcookie( sock );
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if( !cookie || !accesslist_isblessed( cookie->ip, OT_PERMISSION_MAY_STAT ) )
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HTTPERROR_403_IP;
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#endif
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while( scanon ) {
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switch( scan_find_keywords( keywords_main, &read_ptr, SCAN_SEARCHPATH_PARAM ) ) {
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case -2: scanon = 0; break; /* TERMINATOR */
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case -1: HTTPERROR_400_PARAM; /* PARSE ERROR */
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case -3: scan_urlencoded_skipvalue( &read_ptr ); break;
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case 1: /* matched "mode" */
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if( ( mode = scan_find_keywords( keywords_mode, &read_ptr, SCAN_SEARCHPATH_VALUE ) ) <= 0 ) HTTPERROR_400_PARAM;
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break;
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case 2: /* matched "format" */
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if( ( format = scan_find_keywords( keywords_format, &read_ptr, SCAN_SEARCHPATH_VALUE ) ) <= 0 ) HTTPERROR_400_PARAM;
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break;
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}
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}
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#ifdef WANT_FULLSCRAPE
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if( mode == TASK_STATS_TPB ) {
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struct http_data* cookie = io_getcookie( sock );
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tai6464 t;
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#ifdef WANT_COMPRESSION_GZIP
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ws->request[ws->request_size] = 0;
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if( strstr( read_ptr - 1, "gzip" ) ) {
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cookie->flag |= STRUCT_HTTP_FLAG_GZIP;
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format |= TASK_FLAG_GZIP;
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}
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#endif
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/* Pass this task to the worker thread */
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cookie->flag |= STRUCT_HTTP_FLAG_WAITINGFORTASK;
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/* Clients waiting for us should not easily timeout */
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taia_uint( &t, 0 ); io_timeout( sock, t );
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fullscrape_deliver( sock, format );
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io_dontwantread( sock );
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return ws->reply_size = -2;
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}
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#endif
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/* default format for now */
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if( ( mode & TASK_CLASS_MASK ) == TASK_STATS ) {
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tai6464 t;
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/* Complex stats also include expensive memory debugging tools */
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taia_uint( &t, 0 ); io_timeout( sock, t );
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stats_deliver( sock, mode );
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return ws->reply_size = -2;
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}
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/* Simple stats can be answerred immediately */
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if( !( ws->reply_size = return_stats_for_tracker( ws->reply, mode, 0 ) ) ) HTTPERROR_500;
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return ws->reply_size;
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}
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#ifdef WANT_FULLSCRAPE
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static ssize_t http_handle_fullscrape( const int64 sock, struct ot_workstruct *ws ) {
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struct http_data* cookie = io_getcookie( sock );
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int format = 0;
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tai6464 t;
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#ifdef WANT_COMPRESSION_GZIP
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ws->request[ws->request_size-1] = 0;
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if( strstr( ws->request, "gzip" ) ) {
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cookie->flag |= STRUCT_HTTP_FLAG_GZIP;
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format = TASK_FLAG_GZIP;
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stats_issue_event( EVENT_FULLSCRAPE_REQUEST_GZIP, 0, (uintptr_t)cookie->ip );
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} else
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#endif
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stats_issue_event( EVENT_FULLSCRAPE_REQUEST, 0, (uintptr_t)cookie->ip );
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#ifdef _DEBUG_HTTPERROR
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fprintf( stderr, "%s", ws->debugbuf );
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#endif
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/* Pass this task to the worker thread */
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cookie->flag |= STRUCT_HTTP_FLAG_WAITINGFORTASK;
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/* Clients waiting for us should not easily timeout */
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taia_uint( &t, 0 ); io_timeout( sock, t );
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fullscrape_deliver( sock, TASK_FULLSCRAPE | format );
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io_dontwantread( sock );
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return ws->reply_size = -2;
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}
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#endif
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static ssize_t http_handle_scrape( const int64 sock, struct ot_workstruct *ws, char *read_ptr ) {
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static const ot_keywords keywords_scrape[] = { { "info_hash", 1 }, { NULL, -3 } };
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ot_hash * multiscrape_buf = (ot_hash*)ws->request;
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int scanon = 1, numwant = 0;
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/* This is to hack around stupid clients that send "scrape ?info_hash" */
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if( read_ptr[-1] != '?' ) {
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while( ( *read_ptr != '?' ) && ( *read_ptr != '\n' ) ) ++read_ptr;
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if( *read_ptr == '\n' ) HTTPERROR_400_PARAM;
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++read_ptr;
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}
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while( scanon ) {
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switch( scan_find_keywords( keywords_scrape, &read_ptr, SCAN_SEARCHPATH_PARAM ) ) {
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case -2: scanon = 0; break; /* TERMINATOR */
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default: HTTPERROR_400_PARAM; /* PARSE ERROR */
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case -3: scan_urlencoded_skipvalue( &read_ptr ); break;
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case 1: /* matched "info_hash" */
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/* ignore this, when we have less than 20 bytes */
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if( scan_urlencoded_query( &read_ptr, (char*)(multiscrape_buf + numwant++), SCAN_SEARCHPATH_VALUE ) != (ssize_t)sizeof(ot_hash) )
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HTTPERROR_400_PARAM;
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break;
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}
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}
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/* No info_hash found? Inform user */
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if( !numwant ) HTTPERROR_400_PARAM;
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/* Limit number of hashes to process */
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if( numwant > OT_MAXMULTISCRAPE_COUNT )
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numwant = OT_MAXMULTISCRAPE_COUNT;
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/* Enough for http header + whole scrape string */
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if( !( ws->reply_size = return_tcp_scrape_for_torrent( multiscrape_buf, numwant, ws->reply ) ) ) HTTPERROR_500;
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stats_issue_event( EVENT_SCRAPE, FLAG_TCP, ws->reply_size );
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return ws->reply_size;
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}
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static ot_keywords keywords_announce[] = { { "port", 1 }, { "left", 2 }, { "event", 3 }, { "numwant", 4 }, { "compact", 5 }, { "compact6", 5 }, { "info_hash", 6 },
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#ifdef WANT_IP_FROM_QUERY_STRING
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{ "ip", 7 },
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#endif
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{ NULL, -3 } };
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static ot_keywords keywords_announce_event[] = { { "completed", 1 }, { "stopped", 2 }, { NULL, -3 } };
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static ssize_t http_handle_announce( const int64 sock, struct ot_workstruct *ws, char *read_ptr ) {
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int numwant, tmp, scanon;
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ot_peer peer;
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ot_hash *hash = NULL;
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unsigned short port = htons(6881);
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char *write_ptr;
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ssize_t len;
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/* This is to hack around stupid clients that send "announce ?info_hash" */
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if( read_ptr[-1] != '?' ) {
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while( ( *read_ptr != '?' ) && ( *read_ptr != '\n' ) ) ++read_ptr;
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if( *read_ptr == '\n' ) HTTPERROR_400_PARAM;
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++read_ptr;
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}
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OT_SETIP( &peer, ((struct http_data*)io_getcookie( sock ) )->ip );
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OT_SETPORT( &peer, &port );
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OT_PEERFLAG( &peer ) = 0;
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numwant = 50;
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scanon = 1;
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while( scanon ) {
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switch( scan_find_keywords(keywords_announce, &read_ptr, SCAN_SEARCHPATH_PARAM ) ) {
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case -2: scanon = 0; break; /* TERMINATOR */
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case -1: HTTPERROR_400_PARAM; /* PARSE ERROR */
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case -3: scan_urlencoded_skipvalue( &read_ptr ); break;
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case 1: /* matched "port" */
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len = scan_urlencoded_query( &read_ptr, write_ptr = read_ptr, SCAN_SEARCHPATH_VALUE );
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if( ( len <= 0 ) || scan_fixed_int( write_ptr, len, &tmp ) || ( tmp > 0xffff ) ) HTTPERROR_400_PARAM;
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port = htons( tmp ); OT_SETPORT( &peer, &port );
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break;
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case 2: /* matched "left" */
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if( ( len = scan_urlencoded_query( &read_ptr, write_ptr = read_ptr, SCAN_SEARCHPATH_VALUE ) ) <= 0 ) HTTPERROR_400_PARAM;
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if( scan_fixed_int( write_ptr, len, &tmp ) ) tmp = 0;
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if( !tmp ) OT_PEERFLAG( &peer ) |= PEER_FLAG_SEEDING;
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break;
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case 3: /* matched "event" */
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switch( scan_find_keywords( keywords_announce_event, &read_ptr, SCAN_SEARCHPATH_VALUE ) ) {
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case -1: HTTPERROR_400_PARAM;
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case 1: /* matched "completed" */
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OT_PEERFLAG( &peer ) |= PEER_FLAG_COMPLETED;
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break;
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case 2: /* matched "stopped" */
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OT_PEERFLAG( &peer ) |= PEER_FLAG_STOPPED;
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break;
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default:
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break;
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}
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break;
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case 4: /* matched "numwant" */
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len = scan_urlencoded_query( &read_ptr, write_ptr = read_ptr, SCAN_SEARCHPATH_VALUE );
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if( ( len <= 0 ) || scan_fixed_int( write_ptr, len, &numwant ) ) HTTPERROR_400_PARAM;
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if( numwant < 0 ) numwant = 50;
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if( numwant > 200 ) numwant = 200;
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break;
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case 5: /* matched "compact" */
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len = scan_urlencoded_query( &read_ptr, write_ptr = read_ptr, SCAN_SEARCHPATH_VALUE );
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if( ( len <= 0 ) || scan_fixed_int( write_ptr, len, &tmp ) ) HTTPERROR_400_PARAM;
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if( !tmp ) HTTPERROR_400_COMPACT;
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break;
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case 6: /* matched "info_hash" */
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if( hash ) HTTPERROR_400_DOUBLEHASH;
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/* ignore this, when we have less than 20 bytes */
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if( scan_urlencoded_query( &read_ptr, write_ptr = read_ptr, SCAN_SEARCHPATH_VALUE ) != 20 ) HTTPERROR_400_PARAM;
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hash = (ot_hash*)write_ptr;
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break;
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#ifdef WANT_IP_FROM_QUERY_STRING
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case 7: /* matched "ip" */
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{
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char *tmp_buf1 = ws->reply, *tmp_buf2 = ws->reply+16;
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len = scan_urlencoded_query( &read_ptr, tmp_buf2, SCAN_SEARCHPATH_VALUE );
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tmp_buf2[len] = 0;
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if( ( len <= 0 ) || scan_ip6( tmp_buf2, tmp_buf1 ) ) HTTPERROR_400_PARAM;
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OT_SETIP( &peer, tmp_buf1 );
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}
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break;
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#endif
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}
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}
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/* Scanned whole query string */
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if( !hash )
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return ws->reply_size = sprintf( ws->reply, "d14:failure reason80:Your client forgot to send your torrent's info_hash. Please upgrade your client.e" );
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if( OT_PEERFLAG( &peer ) & PEER_FLAG_STOPPED )
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ws->reply_size = remove_peer_from_torrent( *hash, &peer, ws->reply, FLAG_TCP );
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else
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ws->reply_size = add_peer_to_torrent_and_return_peers( *hash, &peer, FLAG_TCP, numwant, ws->reply );
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if( !ws->reply_size ) HTTPERROR_500;
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stats_issue_event( EVENT_ANNOUNCE, FLAG_TCP, ws->reply_size);
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return ws->reply_size;
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|
}
|
|
|
|
ssize_t http_handle_request( const int64 sock, struct ot_workstruct *ws ) {
|
|
ssize_t reply_off, len;
|
|
char *read_ptr = ws->request, *write_ptr;
|
|
|
|
#ifdef _DEBUG_HTTPERROR
|
|
reply_off = ws->request_size;
|
|
if( ws->request_size >= G_DEBUGBUF_SIZE )
|
|
reply_off = G_DEBUGBUF_SIZE - 1;
|
|
memcpy( ws->debugbuf, ws->request, reply_off );
|
|
ws->debugbuf[ reply_off ] = 0;
|
|
#endif
|
|
|
|
/* Tell subroutines where to put reply data */
|
|
ws->reply = ws->outbuf + SUCCESS_HTTP_HEADER_LENGTH;
|
|
|
|
/* This one implicitely tests strlen < 5, too -- remember, it is \n terminated */
|
|
if( memcmp( read_ptr, "GET /", 5) ) HTTPERROR_400;
|
|
|
|
/* Skip leading '/' */
|
|
for( read_ptr+=4; *read_ptr == '/'; ++read_ptr);
|
|
|
|
/* Try to parse the request.
|
|
In reality we abandoned requiring the url to be correct. This now
|
|
only decodes url encoded characters, we check for announces and
|
|
scrapes by looking for "a*" or "sc" */
|
|
len = scan_urlencoded_query( &read_ptr, write_ptr = read_ptr, SCAN_PATH );
|
|
|
|
/* If parsing returned an error, leave with not found */
|
|
if( g_redirecturl && ( len == -2 ) ) HTTPERROR_302;
|
|
if( len <= 0 ) HTTPERROR_404;
|
|
|
|
/* This is the hardcore match for announce*/
|
|
if( ( *write_ptr == 'a' ) || ( *write_ptr == '?' ) )
|
|
http_handle_announce( sock, ws, read_ptr );
|
|
#ifdef WANT_FULLSCRAPE
|
|
else if( !memcmp( write_ptr, "scrape HTTP/", 12 ) )
|
|
http_handle_fullscrape( sock, ws );
|
|
#endif
|
|
/* This is the hardcore match for scrape */
|
|
else if( !memcmp( write_ptr, "sc", 2 ) )
|
|
http_handle_scrape( sock, ws, read_ptr );
|
|
/* All the rest is matched the standard way */
|
|
else if( !memcmp( write_ptr, "stats", 5) )
|
|
http_handle_stats( sock, ws, read_ptr );
|
|
else
|
|
HTTPERROR_404;
|
|
|
|
/* If routines handled sending themselves, just return */
|
|
if( ws->reply_size == -2 ) return 0;
|
|
/* If routine failed, let http error take over */
|
|
if( ws->reply_size == -1 ) HTTPERROR_500;
|
|
|
|
/* This one is rather ugly, so I take you step by step through it.
|
|
|
|
1. In order to avoid having two buffers, one for header and one for content, we allow all above functions from trackerlogic to
|
|
write to a fixed location, leaving SUCCESS_HTTP_HEADER_LENGTH bytes in our work buffer, which is enough for the static string
|
|
plus dynamic space needed to expand our Content-Length value. We reserve SUCCESS_HTTP_SIZE_OFF for its expansion and calculate
|
|
the space NOT needed to expand in reply_off
|
|
*/
|
|
reply_off = SUCCESS_HTTP_SIZE_OFF - snprintf( ws->outbuf, 0, "%zd", ws->reply_size );
|
|
ws->reply = ws->outbuf + reply_off;
|
|
|
|
/* 2. Now we sprintf our header so that sprintf writes its terminating '\0' exactly one byte before content starts. Complete
|
|
packet size is increased by size of header plus one byte '\n', we will copy over '\0' in next step */
|
|
ws->reply_size += 1 + sprintf( ws->reply, "HTTP/1.0 200 OK\r\nContent-Type: text/plain\r\nContent-Length: %zd\r\n\r", ws->reply_size );
|
|
|
|
/* 3. Finally we join both blocks neatly */
|
|
ws->outbuf[ SUCCESS_HTTP_HEADER_LENGTH - 1 ] = '\n';
|
|
|
|
http_senddata( sock, ws );
|
|
return ws->reply_size;
|
|
}
|
|
|
|
const char *g_version_http_c = "$Source$: $Revision$\n";
|