#include #ifndef _WIN32 #include #include #include #include /* for aim_directim_initiate */ #include /* for inet_ntoa */ #endif /* aim_msgcookies.c is mostly new. just look at the diff and replace yours, easiest. */ /* function name where i had it aim_send_im_direct aim_im.c aim_directim_initiate aim_im.c aim_filetransfer_accept aim_im.c aim_getlisting aim_misc.c (?!) -- prototype function. can be ignored. establish aim_misc.c aim_get_command_rendezvous aim_r oft_getfh aim_rxqueue.c */ faim_export int aim_handlerendconnect(struct aim_session_t *sess, struct aim_conn_t *cur) { int acceptfd = 0; rxcallback_t userfunc; struct sockaddr cliaddr; socklen_t clilen = sizeof(cliaddr); int ret = 0; /* * Listener sockets only have incoming connections. No data. */ if( (acceptfd = accept(cur->fd, &cliaddr, &clilen)) == -1) return -1; if (cliaddr.sa_family != AF_INET) /* just in case IPv6 really is happening */ return -1; switch(cur->subtype) { case AIM_CONN_SUBTYPE_OFT_DIRECTIM: { struct aim_directim_priv *priv; priv = (struct aim_directim_priv *)calloc(1, sizeof(struct aim_directim_priv)); snprintf(priv->ip, sizeof(priv->ip), "%s:%u", inet_ntoa(((struct sockaddr_in *)&cliaddr)->sin_addr), ntohs(((struct sockaddr_in *)&cliaddr)->sin_port)); if(!cur->priv) cur->priv = priv; /* what happens if there is one?! -- mid */ cur->type = AIM_CONN_TYPE_RENDEZVOUS; close(cur->fd); /* should we really do this? seems like the client should decide. maybe clone the connection and keep the listener open. -- mid */ cur->fd = acceptfd; if ( (userfunc = aim_callhandler(cur, AIM_CB_FAM_OFT, AIM_CB_OFT_DIRECTIMINITIATE))) ret = userfunc(sess, NULL, cur); break; } case AIM_CONN_SUBTYPE_OFT_GETFILE: { struct aim_filetransfer_priv *priv; priv = (struct aim_filetransfer_priv *)calloc(1, sizeof(struct aim_filetransfer_priv)); snprintf(priv->ip, sizeof(priv->ip), "%s:%u", inet_ntoa(((struct sockaddr_in *)&cliaddr)->sin_addr), ntohs(((struct sockaddr_in *)&cliaddr)->sin_port)); if(!cur->priv) cur->priv = priv; if ( (userfunc = aim_callhandler(cur, AIM_CB_FAM_OFT, AIM_CB_OFT_GETFILEINITIATE))) ret = userfunc(sess, NULL, cur); break; } default: { /* XXX */ } } return ret; } /* * aim_send_im_direct: * sess - session * conn - directim connection * msg - null-terminated string to send */ faim_export int aim_send_im_direct(struct aim_session_t *sess, struct aim_conn_t *conn, char *msg) { struct command_tx_struct *newpacket , *newpacket2; /* newpacket contains a real header with data, newpacket2 is just a null packet, with a cookie and a lot of 0x00s. newpacket is the "i'm sending", newpacket2 is the "i'm typing".*/ /* uhm. the client should send those as two seperate things -- mid */ struct aim_directim_priv *priv = NULL; int i; if (!sess || !conn || !(conn->type) || (conn->type != AIM_CONN_TYPE_RENDEZVOUS) || !conn->priv || !msg) { printf("faim: directim: invalid arguments\n"); return -1; }; if (strlen(msg) >= MAXMSGLEN) return -1; priv = (struct aim_directim_priv *)conn->priv; /* NULLish Header */ if (!(newpacket2 = aim_tx_new(AIM_FRAMETYPE_OFT, 0x0001, conn, 0))) { printf("faim: directim: tx_new2 failed\n"); return -1; } newpacket2->lock = 1; /* lock struct */ memcpy(newpacket2->hdr.oft.magic, "ODC2", 4); newpacket2->hdr.oft.hdr2len = 0x44; if (!(newpacket2->hdr.oft.hdr2 = calloc(1,newpacket2->hdr.oft.hdr2len))) { free(newpacket2); return -1; } i = 0; i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0006); i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000); i += aimutil_putstr(newpacket2->hdr.oft.hdr2+i, (char *)priv->cookie, 8); i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000); i += aimutil_put32(newpacket2->hdr.oft.hdr2+i, 0x00000000); i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x000e); i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000); i += aimutil_putstr(newpacket2->hdr.oft.hdr2+i, sess->sn, strlen(sess->sn)); i = 52; /* 0x34 */ i += aimutil_put8(newpacket2->hdr.oft.hdr2+i, 0x00); /* 53 */ i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000); /* 55 */ i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000);/* 61 */ i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000);/* 65 */ i += aimutil_put16(newpacket2->hdr.oft.hdr2+i, 0x0000);/* end of hdr2 */ newpacket2->lock = 0; newpacket2->data = NULL; aim_tx_enqueue(sess, newpacket2); /* Header packet */ if (!(newpacket = aim_tx_new(AIM_FRAMETYPE_OFT, 0x0001, conn, strlen(msg)))) { printf("faim: directim: tx_new failed\n"); return -1; } newpacket->lock = 1; /* lock struct */ memcpy(newpacket->hdr.oft.magic, "ODC2", 4); newpacket->hdr.oft.hdr2len = 0x54; if (!(newpacket->hdr.oft.hdr2 = calloc(1,newpacket->hdr.oft.hdr2len))) { free(newpacket); return -1; } i = 0; i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0006); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); i += aimutil_putstr(newpacket->hdr.oft.hdr2+i, (char *)priv->cookie, 8); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); i += aimutil_put32(newpacket->hdr.oft.hdr2+i, strlen(msg)); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); i += aimutil_putstr(newpacket->hdr.oft.hdr2+i, sess->sn, strlen(sess->sn)); i = 52; /* 0x34 */ i += aimutil_put8(newpacket->hdr.oft.hdr2+i, 0x00); /* 53 */ i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); /* 55 */ i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000);/* 61 */ i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000);/* 65 */ i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000);/* end of hdr2 */ /* values grabbed from a dump */ i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0008); /* 69 */ i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x000c); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0000);/* 71 */ i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x1466);/* 73 */ i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x0001);/* 73 */ i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x2e0f); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0x393e); i += aimutil_put16(newpacket->hdr.oft.hdr2+i, 0xcac8); memcpy(newpacket->data, msg, strlen(msg)); newpacket->lock = 0; aim_tx_enqueue(sess, newpacket); return 0; } /* * aim_directim_intitiate: * For those times when we want to open up the directim channel ourselves. * sess is your session, * conn is the BOS conn, * priv is a dummy priv value (we'll let it get filled in later) (if * you pass a NULL, we alloc one) * destsn is the SN to connect to. */ faim_export struct aim_conn_t *aim_directim_initiate(struct aim_session_t *sess, struct aim_conn_t *conn, struct aim_directim_priv *priv, char *destsn) { struct command_tx_struct *newpacket; struct aim_conn_t *newconn; struct aim_msgcookie_t *cookie; int curbyte, i, listenfd; short port = 4443; struct hostent *hptr; char localhost[129]; unsigned char cap[16]; char d[4]; /* XXX: IPv6. *cough* */ /* * Open our socket */ if( (listenfd = aim_listenestablish(port)) == -1) return NULL; /* * get our local IP */ if(gethostname(localhost, 128) < 0) return NULL; if( (hptr = gethostbyname(localhost)) == NULL) return NULL; memcpy(&d, hptr->h_addr_list[0], 4); /* XXX: this probably isn't quite kosher, but it works */ aim_putcap(cap, 16, AIM_CAPS_IMIMAGE); /* * create the OSCAR packet */ if (!(newpacket = aim_tx_new(AIM_FRAMETYPE_OSCAR, 0x0002, conn, 10+8+2+1+strlen(destsn)+4+4+0x32))) return NULL; newpacket->lock = 1; /* lock struct */ curbyte = 0; curbyte += aim_putsnac(newpacket->data+curbyte, 0x0004, 0x0006, 0x0000, sess->snac_nextid); /* * Generate a random message cookie * This cookie needs to be alphanumeric and NULL-terminated to be TOC-compatible. */ for (i=0;i<7;i++) curbyte += aimutil_put8(newpacket->data+curbyte, 0x30 + ((u_char) rand() % 20)); curbyte += aimutil_put8(newpacket->data+curbyte, 0x00); /* * grab all the data for cookie caching. */ cookie = (struct aim_msgcookie_t *)calloc(1, sizeof(struct aim_msgcookie_t)); memcpy(cookie->cookie, newpacket->data+curbyte-8, 8); cookie->type = AIM_COOKIETYPE_OFTIM; if(!priv) priv = (struct aim_directim_priv *)calloc(1, sizeof(struct aim_directim_priv)); memcpy(priv->cookie, cookie, 8); memcpy(priv->sn, destsn, sizeof(priv->sn)); cookie->data = priv; aim_cachecookie(sess, cookie); /* cache da cookie */ /* * Channel ID */ curbyte += aimutil_put16(newpacket->data+curbyte,0x0002); /* * Destination SN (prepended with byte length) */ curbyte += aimutil_put8(newpacket->data+curbyte,strlen(destsn)); curbyte += aimutil_putstr(newpacket->data+curbyte, destsn, strlen(destsn)); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0003); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0000); /* * enTLV start */ curbyte += aimutil_put16(newpacket->data+curbyte, 0x0005); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0032); /* * Flag data / ICBM Parameters? */ curbyte += aimutil_put8(newpacket->data+curbyte, 0x00); curbyte += aimutil_put8(newpacket->data+curbyte, 0x00); /* * Cookie */ curbyte += aimutil_putstr(newpacket->data+curbyte, (char *)cookie, 8); /* * Capability String */ curbyte += aimutil_putstr(newpacket->data+curbyte, (char *)cap, 0x10); /* * 000a/0002 : 0001 */ curbyte += aimutil_put16(newpacket->data+curbyte, 0x000a); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0002); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0001); /* * 0003/0004: IP address */ curbyte += aimutil_put16(newpacket->data+curbyte, 0x0003); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0004); for(i = 0; i < 4; i++) curbyte += aimutil_put8(newpacket->data+curbyte, d[i]); /* already in network byte order */ /* * 0005/0002: Port */ curbyte += aimutil_put16(newpacket->data+curbyte, 0x0005); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0002); curbyte += aimutil_put16(newpacket->data+curbyte, port); /* * 000f/0000: umm.. dunno. Zigamorph[1]? * [1]: see esr's TNHD. */ curbyte += aimutil_put16(newpacket->data+curbyte, 0x000f); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0000); printf("curbyte: 0x%x\n",curbyte); newpacket->commandlen = curbyte; newpacket->lock = 0; aim_tx_enqueue(sess, newpacket); /* * allocate and set up our connection */ newconn = aim_newconn(sess, AIM_CONN_TYPE_RENDEZVOUS_OUT, NULL); if (!newconn) { perror("aim_newconn"); aim_conn_kill(sess, &newconn); return NULL; } newconn->fd = listenfd; newconn->subtype = AIM_CONN_SUBTYPE_OFT_DIRECTIM; newconn->priv = priv; printf("faim: listening (fd = %d, unconnected)\n", newconn->fd); /* * XXX We need some way of closing the listener socket after * n seconds of no connection. -- mid */ #ifdef USE_SNAC_FOR_IMS { struct aim_snac_t snac; snac.id = sess->snac_nextid; snac.family = 0x0004; snac.type = 0x0006; snac.flags = 0x0000; snac.data = malloc(strlen(destsn)+1); memcpy(snac.data, destsn, strlen(destsn)+1); aim_newsnac(sess, &snac); aim_cleansnacs(sess, 60); /* clean out all SNACs over 60sec old */ } #endif return (newconn); } /* * struct aim_conn_t *aim_directim_connect(struct aim_session_t *sess, struct aim_conn_t *conn, struct aim_directim_priv *priv) * sess is the session to append the conn to, * conn is the BOS connection, * priv is the filled-in priv data structure for the connection * returns conn if connected, NULL on error */ faim_export struct aim_conn_t *aim_directim_connect(struct aim_session_t *sess, struct aim_conn_t *conn, struct aim_directim_priv *priv ) { struct aim_conn_t *newconn = NULL;; newconn = aim_newconn(sess, AIM_CONN_TYPE_RENDEZVOUS, priv->ip); if (!newconn || (newconn->fd == -1)) { printf("could not connect to %s\n", priv->ip); perror("aim_newconn"); aim_conn_kill(sess, &newconn); return NULL; } else { newconn->subtype = AIM_CONN_SUBTYPE_OFT_DIRECTIM; newconn->priv = priv; printf("faim: connected to peer (fd = %d)\n", newconn->fd); return newconn; } return newconn; } /* * struct aim_conn_t *aim_directim_getconn(struct aim_session_t *sess, const char *name) * sess is your session, * name is the name to get, * returns conn for directim with name, NULL if none found. */ faim_export struct aim_conn_t *aim_directim_getconn(struct aim_session_t *sess, const char *name) { struct aim_conn_t *cur; struct aim_directim_priv *priv; faim_mutex_lock(&sess->connlistlock); for (cur = sess->connlist; cur; cur = cur->next) { if (cur->type != AIM_CONN_TYPE_RENDEZVOUS || cur->subtype != AIM_CONN_SUBTYPE_OFT_DIRECTIM) continue; priv = cur->priv; if (aim_sncmp(priv->sn, name) == 0) break; } faim_mutex_unlock(&sess->connlistlock); return cur; } /* * aim_accepttransfer: * accept a file transfer request. * sess is the session, * conn is the BOS conn for the CAP reply * sn is the screenname to send it to, * cookie is the cookie used * ip is the ip to connect to * file is the listing file to use * rendid is CAP type * * returns connection */ faim_export struct aim_conn_t *aim_accepttransfer(struct aim_session_t *sess, struct aim_conn_t *conn, char *sn, char *cookie, char *ip, FILE *file, unsigned short rendid) { struct command_tx_struct *newpacket, *newoft; struct aim_conn_t *newconn; struct aim_fileheader_t *listingfh; struct aim_filetransfer_priv *priv; struct aim_msgcookie_t *cachedcook; int curbyte, i; if(rendid == AIM_CAPS_GETFILE) { newconn = aim_newconn(sess, AIM_CONN_TYPE_RENDEZVOUS, ip); newconn->subtype = AIM_CONN_SUBTYPE_OFT_GETFILE; if (!newconn || (newconn->fd == -1)) { perror("aim_newconn"); faimdprintf(2, "could not connect to %s (fd: %i)\n", ip, newconn?newconn->fd:0); aim_conn_kill(sess, &newconn); return NULL; } else { priv = (struct aim_filetransfer_priv *)calloc(1, sizeof(struct aim_filetransfer_priv)); memcpy(priv->cookie, cookie, 8); strncpy(priv->sn, sn, MAXSNLEN); strncpy(priv->ip, ip, sizeof(priv->ip)); newconn->priv = (void *)priv; faimdprintf(2, "faim: connected to peer (fd = %d)\n", newconn->fd); } /* cache da cookie. COOOOOKIES! */ if(!(cachedcook = (struct aim_msgcookie_t *)calloc(1, sizeof(struct aim_msgcookie_t)))) { faimdprintf(1, "faim: accepttransfer: couldn't calloc cachedcook. yeep!\n"); /* XXX die here, or go on? search for cachedcook for future references */ } if(cachedcook) memcpy(cachedcook->cookie, cookie, 8); /* strncpy(ft->fh.name, miscinfo->value+8, sizeof(ft->fh.name)); */ if(cachedcook) { /* see above calloc of cachedcook */ cachedcook->type = AIM_COOKIETYPE_OFTGET; cachedcook->data = (void *)priv; if (aim_cachecookie(sess, cachedcook) != 0) faimdprintf(1, "faim: ERROR caching message cookie\n"); } if(rendid == AIM_CAPS_GETFILE) { faimdprintf(2, "faim: getfile request accept\n"); if(!(newoft = aim_tx_new(AIM_FRAMETYPE_OFT, 0x1108, newconn, 0))) { faimdprintf(2, "faim: aim_accepttransfer: tx_new OFT failed\n"); /* XXX: what else do we need to clean up here? */ return NULL; } newoft->lock = 1; memcpy(newoft->hdr.oft.magic, "OFT2", 4); newoft->hdr.oft.hdr2len = 0xf8; /* 0x100 - 8 */ if(!(listingfh = aim_getlisting(file))) { return NULL; } if (!(newoft->hdr.oft.hdr2 = (char *)calloc(1,newoft->hdr.oft.hdr2len))) { free(newoft); return NULL; } memcpy(listingfh->bcookie, cookie, 8); aim_oft_buildheader((void *)newoft->hdr.oft.hdr2, listingfh); free(listingfh); newoft->lock = 0; aim_tx_enqueue(sess, newoft); printf("faim: getfile: OFT listing enqueued.\n"); } /* OSCAR CAP accept packet */ if(!(newpacket = aim_tx_new(AIM_FRAMETYPE_OSCAR, 0x0002, conn, 10+8+2+1+strlen(sn)+4+2+8+16))) return NULL; newpacket->lock = 1; curbyte = aim_putsnac(newpacket->data, 0x0004, 0x0006, 0x0000, sess->snac_nextid); for (i = 0; i < 8; i++) curbyte += aimutil_put8(newpacket->data+curbyte, cookie[i]); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0002); curbyte += aimutil_put8(newpacket->data+curbyte, strlen(sn)); curbyte += aimutil_putstr(newpacket->data+curbyte, sn, strlen(sn)); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0005); curbyte += aimutil_put16(newpacket->data+curbyte, 0x001a); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0002 /* accept */); for (i = 0; i < 8; i++) curbyte += aimutil_put8(newpacket->data+curbyte, cookie[i]); curbyte += aim_putcap(newpacket->data+curbyte, 0x10, rendid); newpacket->lock = 0; aim_tx_enqueue(sess, newpacket); return newconn; } return NULL; } /* * aim_getlisting(FILE *file) * * file is an opened listing file * returns a pointer to the filled-in fileheader_t * * currently omits checksum. we'll fix this when AOL breaks us, i * guess. * */ faim_internal struct aim_fileheader_t *aim_getlisting(FILE *file) { struct aim_fileheader_t *fh; u_long totsize = 0, size = 0, checksum = 0xffff0000; short totfiles = 0; char *linebuf, sizebuf[9]; int linelength = 1024; /* XXX: if we have a line longer than 1024chars, God help us. */ if( (linebuf = (char *)calloc(1, linelength)) == NULL ) { faimdprintf(2, "linebuf calloc failed\n"); return NULL; } if(fseek(file, 0, SEEK_END) == -1) { /* use this for sanity check */ perror("getlisting END1 fseek:"); faimdprintf(2, "getlising fseek END1 error\n"); } if(fgetpos(file, &size) == -1) { perror("getlisting END1 getpos:"); faimdprintf(2, "getlising getpos END1 error\n"); } if(fseek(file, 0, SEEK_SET) != 0) { perror("getlesting fseek(SET):"); faimdprintf(2, "faim: getlisting: couldn't seek to beginning of listing file\n"); } bzero(linebuf, linelength); size = 0; while(fgets(linebuf, linelength, file)) { totfiles++; bzero(sizebuf, 9); size += strlen(linebuf); if(strlen(linebuf) < 23) { faimdprintf(2, "line \"%s\" too short. skipping\n", linebuf); continue; } if(linebuf[strlen(linebuf)-1] != '\n') { faimdprintf(2, "faim: OFT: getlisting -- hit EOF or line too long!\n"); } memcpy(sizebuf, linebuf+17, 8); totsize += strtol(sizebuf, NULL, 10); bzero(linebuf, linelength); } /* if(size != 0) { faimdprintf(2, "faim: getlisting: size != 0 after while.. %i\n", size); }*/ if(fseek(file, 0, SEEK_SET) == -1) { perror("getlisting END2 fseek:"); faimdprintf(2, "getlising fseek END2 error\n"); } free(linebuf); /* we're going to ignore checksumming the data for now -- that * requires walking the whole listing.txt. it should probably be * done at register time and cached, but, eh. */ if(!(fh = (struct aim_fileheader_t*)calloc(1, sizeof(struct aim_fileheader_t)))) return NULL; printf( "faim: OFT: getlisting: totfiles: %u, totsize: %lu, size: %lu\n", totfiles, totsize, size); fh->encrypt = 0x0000; fh->compress = 0x0000; fh->totfiles = totfiles; fh->filesleft = totfiles; /* is this right ?*/ fh->totparts = 0x0001; fh->partsleft = 0x0001; fh->totsize = totsize; fh->size = size; /* ls -l listing.txt */ fh->modtime = (int)time(NULL); /* we'll go with current time for now */ fh->checksum = checksum; /* XXX: checksum ! */ fh->rfcsum = 0x00000000; fh->rfsize = 0x00000000; fh->cretime = 0x00000000; fh->rfcsum = 0x00000000; fh->nrecvd = 0x00000000; fh->recvcsum = 0x00000000; /* memset(fh->idstring, 0, sizeof(fh->idstring)); */ memcpy(fh->idstring, "OFT_Windows ICBMFT V1.1 32", sizeof(fh->idstring)); memset(fh->idstring+strlen(fh->idstring), 0, sizeof(fh->idstring)-strlen(fh->idstring)); fh->flags = 0x02; fh->lnameoffset = 0x1a; fh->lsizeoffset = 0x10; /* memset(fh->dummy, 0, sizeof(fh->dummy)); */ memset(fh->macfileinfo, 0, sizeof(fh->macfileinfo)); fh->nencode = 0x0000; /* we need to figure out these encodings for filenames */ fh->nlanguage = 0x0000; /* memset(fh->name, 0, sizeof(fh->name)); */ memcpy(fh->name, "listing.txt", sizeof(fh->name)); memset(fh->name+strlen(fh->name), 0, 64-strlen(fh->name)); faimdprintf(2, "faim: OFT: listing fh name %s / %s\n", fh->name, (fh->name+(strlen(fh->name)))); return fh; } /* * establish: create a listening socket on a port. you need to call * accept() when it's connected. * portnum is the port number to bind to. * returns your fd */ faim_internal int aim_listenestablish(u_short portnum) { #if defined(__linux__) /* XXX what other OS's support getaddrinfo? */ int listenfd; const int on = 1; struct addrinfo hints, *res, *ressave; char serv[5]; sprintf(serv, "%d", portnum); memset(&hints, 0, sizeof(struct addrinfo)); hints.ai_flags = AI_PASSIVE; hints.ai_family = AF_UNSPEC; hints.ai_socktype = SOCK_STREAM; if (getaddrinfo(NULL/*any IP*/, serv, &hints, &res) != 0) { perror("getaddrinfo"); return -1; } ressave = res; do { listenfd = socket(res->ai_family, res->ai_socktype, res->ai_protocol); if (listenfd < 0) continue; setsockopt(listenfd, SOL_SOCKET, SO_REUSEADDR, &on, sizeof(on)); if (bind(listenfd, res->ai_addr, res->ai_addrlen) == 0) break; /* success */ close(listenfd); } while ( (res = res->ai_next) ); if (!res) return -1; if (listen(listenfd, 1024)!=0) { perror("listen"); return -1; } freeaddrinfo(ressave); return listenfd; #else int listenfd; const int on = 1; struct sockaddr_in sockin; if ((listenfd = socket(AF_INET, SOCK_STREAM, 0)) < 0) { perror("socket(listenfd)"); return -1; } if (setsockopt(listenfd, SOL_SOCKET, SO_REUSEADDR, (char *)&on, sizeof(on) != 0)) { perror("setsockopt(listenfd)"); close(listenfd); return -1; } memset(&sockin, 0, sizeof(struct sockaddr_in)); sockin.sin_family = AF_INET; sockin.sin_port = htons(portnum); if (bind(listenfd, (struct sockaddr *)&sockin, sizeof(struct sockaddr_in)) != 0) { perror("bind(listenfd)"); close(listenfd); return -1; } if (listen(listenfd, 4) != 0) { perror("listen(listenfd)"); close(listenfd); return -1; } return listenfd; #endif } faim_internal int aim_get_command_rendezvous(struct aim_session_t *sess, struct aim_conn_t *conn) { unsigned char hdrbuf1[6]; unsigned char *hdr = NULL; int hdrlen, hdrtype; int flags = 0; rxcallback_t userfunc = NULL; memset(hdrbuf1, 0, sizeof(hdrbuf1)); faim_mutex_lock(&conn->active); /* gets locked down for the entirety */ if ( (hdrlen = aim_recv(conn->fd, hdrbuf1, 6)) < 6) { faimdprintf(2, "faim: rend: read error (fd: %i) %02x%02x%02x%02x%02x%02x (%i)\n", conn->fd, hdrbuf1[0],hdrbuf1[1],hdrbuf1[0],hdrbuf1[0],hdrbuf1[0],hdrbuf1[0],hdrlen); faim_mutex_unlock(&conn->active); if(hdrlen < 0) perror("read"); else { /* disconnected */ switch(conn->subtype) { case AIM_CONN_SUBTYPE_OFT_DIRECTIM: { /* XXX: clean up cookies here ? */ struct aim_directim_priv *priv = NULL; if(!(priv = (struct aim_directim_priv *)conn->priv) ) return -1; /* not much we can do */ aim_uncachecookie(sess, priv->cookie, AIM_COOKIETYPE_OFTIM); if ( (userfunc = aim_callhandler(conn, AIM_CB_FAM_OFT, AIM_CB_OFT_DIRECTIMDISCONNECT)) ) { aim_conn_close(conn); return userfunc(sess, NULL, conn, priv->sn); } break; } case AIM_CONN_SUBTYPE_OFT_GETFILE: { struct aim_filetransfer_priv *priv; if(!(priv = (struct aim_filetransfer_priv *)conn->priv)) return -1; aim_uncachecookie(sess, priv->cookie, AIM_COOKIETYPE_OFTGET); if ( (userfunc = aim_callhandler(conn, AIM_CB_FAM_OFT, AIM_CB_OFT_GETFILEDISCONNECT)) ) { aim_conn_close(conn); return userfunc(sess, NULL, conn, priv->sn); } break; } case AIM_CONN_SUBTYPE_OFT_SENDFILE: { struct aim_filetransfer_priv *priv; if(!(priv = (struct aim_filetransfer_priv *)conn->priv)) return -1; aim_uncachecookie(sess, priv->cookie, AIM_COOKIETYPE_OFTSEND); if ( (userfunc = aim_callhandler(conn, AIM_CB_FAM_OFT, AIM_CB_OFT_SENDFILEDISCONNECT)) ) { aim_conn_close(conn); return userfunc(sess, NULL, conn, priv->sn); } break; } } aim_conn_close(conn); aim_conn_kill(sess, &conn); return -1; } } hdrlen = aimutil_get16(hdrbuf1+4); hdrlen -= 6; if (!(hdr = malloc(hdrlen))) { faim_mutex_unlock(&conn->active); return -1; } if (aim_recv(conn->fd, hdr, hdrlen) < hdrlen) { perror("read"); faimdprintf(2,"faim: rend: read2 error\n"); free(hdr); faim_mutex_unlock(&conn->active); aim_conn_close(conn); return -1; } hdrtype = aimutil_get16(hdr); switch (hdrtype) { case 0x0001: { /* directim */ int payloadlength = 0; char *snptr = NULL; struct aim_directim_priv *priv; int i; priv = (struct aim_directim_priv *)calloc(1, sizeof(struct aim_directim_priv)); payloadlength = aimutil_get32(hdr+22); flags = aimutil_get16(hdr+32); snptr = (char *)hdr+38; strncpy(priv->sn, snptr, MAXSNLEN); faimdprintf(2, "faim: OFT frame: %04x / %04x / %04x / %s\n", hdrtype, payloadlength, flags, snptr); if (flags == 0x000e) { faim_mutex_unlock(&conn->active); if ( (userfunc = aim_callhandler(conn, AIM_CB_FAM_OFT, AIM_CB_OFT_DIRECTIMTYPING)) ) return userfunc(sess, NULL, snptr); } else if ((flags == 0x0000) && payloadlength) { unsigned char *msg; if(! (msg = calloc(1, payloadlength+1)) ) { faim_mutex_unlock(&conn->active); return -1; } if (aim_recv(conn->fd, msg, payloadlength) < payloadlength) { perror("read"); printf("faim: rend: read3 error\n"); free(msg); faim_mutex_unlock(&conn->active); aim_conn_close(conn); return -1; } faim_mutex_unlock(&conn->active); msg[payloadlength] = '\0'; faimdprintf(2, "faim: directim: %s/%04x/%04x/%s\n", snptr, payloadlength, flags, msg); if ( (userfunc = aim_callhandler(conn, AIM_CB_FAM_OFT, AIM_CB_OFT_DIRECTIMINCOMING)) ) i = userfunc(sess, NULL, conn, snptr, msg); free(msg); return i; } break; } #if 0 /* currently experimental to a non-compiling degree */ case 0x1108: { /* getfile listing.txt incoming tx->rx */ struct aim_filetransfer_priv *ft; struct aim_fileheader_t *fh; struct aim_msgcookie_t *cook; struct aim_conn_type *newoft; int commandlen; char *data; faimdprintf(2,"faim: rend: fileget 0x1108\n"); if(!(ft = (struct aim_filetransfer_priv *)calloc(1, sizeof(struct aim_filetransfer_priv)))) { faimdprintf(2, "faim: couldn't malloc ft. um. bad. bad bad. file transfer will likely fail, sorry.\n"); faim_mutex_unlock(&conn->active); return -1; } ft->state = 1; /* we're waaaaiiiting.. */ fh = aim_oft_getfh(hdr); memcpy(&(ft->fh), fh, sizeof(struct aim_fileheader_t)); if(!(cook = aim_checkcookie(sess, ft->fh.bcookie, AIM_COOKIETYPE_OFTGET))) { faim_mutex_unlock(&conn->active); return -1; } if(cook->data) free(cook->data); cook->data = ft; aim_cachecookie(sess, cook); if(!(newoft = aim_tx_new(AIM_FRAMETYPE_OFT, 0x1209, conn, 0))) { /* XXX: what else do we need to clean up here? */ faim_mutex_unlock(&conn->active); return -1; } aim_oft_buildheader((void *)newoft->hdr.oft.hdr2, ft->fh); /* no change */ newoft->lock = 0; aim_tx_enqueue(sess, newoft); break; } #endif case 0x1209: { /* get file listing ack rx->tx */ struct aim_filetransfer_priv *ft; struct aim_fileheader_t *fh; struct aim_msgcookie_t *cook; int commandlen; char *data; faimdprintf(2,"faim: rend: fileget 0x1209\n"); if(!(ft = (struct aim_filetransfer_priv *)calloc(1, sizeof(struct aim_filetransfer_priv)))) { faimdprintf(2, "faim: couldn't malloc ft. um. bad. bad bad. file transfer will likely fail, sorry.\n"); faim_mutex_unlock(&conn->active); return -1; } fh = aim_oft_getfh(hdr); memcpy(&(ft->fh), fh, sizeof(struct aim_fileheader_t)); cook = aim_checkcookie(sess, ft->fh.bcookie, AIM_COOKIETYPE_OFTGET); /* we currently trust the other client to be giving us Valid * Enough input, else this gets to be a messy function (and we * won't break like winaim does when it gets bad input =) */ if(cook->data) free(cook->data); /* XXX */ cook->data = ft; aim_cachecookie(sess, cook); /* XXX: have this send chunks of the file instead of the whole * file. requires rethinking some code. */ if(fseek(sess->oft.listing, 0, SEEK_SET) != 0) { perror("get_command_rendezvous 1209 fseek(SET):"); faimdprintf(2, "faim: getlisting: couldn't seek to beginning of listing file\n"); } commandlen = ft->fh.size; if((data = (char *)calloc(1, commandlen)) == NULL) { faimdprintf(2, "faim: get_command_rendezvous 1209: couldn't malloc data.\n"); faim_mutex_unlock(&conn->active); return -1; } for(commandlen = 0; commandlen < ft->fh.size; commandlen++) if( (data[commandlen] = (unsigned char)fgetc(sess->oft.listing)) == EOF) faimdprintf(2, "faim: get_command_rendezvous 1209: got early EOF (error?)\n"); commandlen = ft->fh.size; if (write(conn->fd, data, commandlen) != commandlen) { perror("listing write error"); } faim_mutex_unlock(&conn->active); faimdprintf(2, "faim: get_command_rendezvous: hit end of 1209\n"); free(data); break; } case 0x120b: { /* get file second */ struct aim_filetransfer_priv *ft; struct aim_msgcookie_t *cook; struct aim_fileheader_t *fh; faimdprintf(2, "faim: rend: fileget 120b\n"); if(!(ft = (struct aim_filetransfer_priv *)calloc(1, sizeof(struct aim_filetransfer_priv)))) { faimdprintf(2, "faim: couldn't malloc ft. um. bad. bad bad. file transfer will likely fail, sorry.\n"); faim_mutex_unlock(&conn->active); return -1; } fh = aim_oft_getfh(hdr); memcpy(&(ft->fh), fh, sizeof(struct aim_fileheader_t)); if(!(cook = aim_checkcookie(sess, ft->fh.bcookie, AIM_COOKIETYPE_OFTGET))) { faim_mutex_unlock(&conn->active); return -1; } if(cook->data) free(cook->data); /* XXX: integrate cookie caching */ cook->data = ft; aim_cachecookie(sess, cook); faim_mutex_unlock(&conn->active); /* call listing.txt rx confirm */ break; } case 0x120c: { /* yet more get file */ struct aim_filetransfer_priv *ft; struct aim_msgcookie_t *cook; struct aim_fileheader_t *listingfh; struct command_tx_struct *newoft; int i; rxcallback_t userfunc; printf("faim: rend: fileget 120c\n"); if(!(ft = (struct aim_filetransfer_priv *)calloc(1, sizeof(struct aim_filetransfer_priv)))) { printf("faim: couldn't malloc ft. um. bad. bad bad. file transfer will likely fail, sorry.\n"); faim_mutex_unlock(&conn->active); return -1; } if(hdrlen != 0x100) printf("faim: fileget_command(120c): um. hdrlen != 0x100..\n"); listingfh = aim_oft_getfh((char *)hdr); memcpy(&(ft->fh), listingfh, sizeof(struct aim_fileheader_t)); if(!(cook = aim_checkcookie(sess, ft->fh.bcookie, AIM_COOKIETYPE_OFTGET))) { faim_mutex_unlock(&conn->active); return -1; } if(cook->data) free(cook->data); /* XXX */ cook->data = ft; aim_cachecookie(sess, cook); faim_mutex_unlock(&conn->active); faimdprintf(2, "faim: fileget: %s seems to want %s\n", ft->sn, ft->fh.name); if( (userfunc = aim_callhandler(conn, AIM_CB_FAM_OFT, AIM_CB_OFT_GETFILEFILEREQ)) ) i = userfunc(sess, NULL, conn, &ft->fh, cook->cookie); if(i < 0) return -1; if(!(newoft = aim_tx_new(AIM_FRAMETYPE_OFT, 0x0101, conn, 0))) { faimdprintf(2, "faim: send_final_transfer: tx_new OFT failed\n"); return -1; } newoft->lock = 1; memcpy(newoft->hdr.oft.magic, "OFT2", 4); newoft->hdr.oft.hdr2len = 0xf8; /* 0x100 - 8 */ if (!(newoft->hdr.oft.hdr2 = calloc(1,newoft->hdr.oft.hdr2len))) { newoft->lock = 0; aim_tx_destroy(newoft); return -1; } /* memcpy(listingfh->bcookie, ft->fh.bcookie, 8); */ listingfh->nrecvd = 0; /* these need reset for protocol-correctness */ listingfh->recvcsum = 0; aim_oft_buildheader((void *)newoft->hdr.oft.hdr2, listingfh); newoft->lock = 0; aim_tx_enqueue(sess, newoft); faimdprintf(2, "faim: OFT: OFT file enqueued.\n"); if( (userfunc = aim_callhandler(conn, AIM_CB_FAM_OFT, AIM_CB_OFT_GETFILEFILEREQ)) == NULL) return 1; i = userfunc(sess, NULL, conn, listingfh, listingfh->bcookie); free(listingfh); return i; break; } case 0x0202: { /* get file: ready to recieve data */ struct aim_fileheader_t *fh; fh = aim_oft_getfh((char *)hdr); faimdprintf(2, "faim: get_rend: looks like we're ready to send data.(oft 0x0202)\n"); faim_mutex_unlock(&conn->active); if ( (userfunc = aim_callhandler(conn, AIM_CB_FAM_OFT, AIM_CB_OFT_GETFILEFILESEND)) == NULL) return 1; return userfunc(sess, NULL, conn, fh); free(fh); break; } case 0x0204: { /* get file: finished. close it up */ int i; struct aim_fileheader_t *fh; fh = aim_oft_getfh((char *)hdr); faimdprintf(2, "faim: get_rend: looks like we're done with a transfer (oft 0x0204)\n"); faim_mutex_unlock(&conn->active); if ( (userfunc = aim_callhandler(conn, AIM_CB_FAM_OFT, AIM_CB_OFT_GETFILECOMPLETE)) ) i = userfunc(sess, NULL, conn, fh); else i = 1; /* free(fh); */ /* not sure where to do this yet, as we need to keep it to allow multiple file sends... bleh */ return i; break; } default: { printf("OFT frame: type %04x\n", hdrtype); /* data connection may be unreliable here */ faim_mutex_unlock(&conn->active); break; } } /* switch */ free(hdr); return 0; } /* * aim_oft_registerlisting() * sess: aim session * file: opened FILE * * listingdir: the path to listing.txt * returns -1 on error, 0 on success. * * it's not my problem if the listing fd is already set. */ faim_export int aim_oft_registerlisting(struct aim_session_t *sess, FILE *file, char* listingdir) { if(!sess) return -1; /* XXX: checksum each file in the listing */ #if 0 if(sess->oft.listing) { faimdprintf(1, "We already have a file pointer. Closing and overwriting.\n"); fclose(sess->oft.listing); } #endif sess->oft.listing = file; #if 0 if(sess->oft.listingdir) { faimdprintf(1, "We already have a directory string. Freeing and overwriting\n"); free(sess->oft.listingdir); } #endif if( (sess->oft.listingdir = (char *)calloc(1, strlen(listingdir)+1)) ) memcpy(sess->oft.listingdir, listingdir, strlen(listingdir)); else return -1; return 0; } faim_internal struct aim_fileheader_t *aim_oft_getfh(unsigned char *hdr) { struct aim_fileheader_t *fh; int i, j; if(!(fh = calloc(1, sizeof(struct aim_fileheader_t)))) return NULL; /* [0] and [1] are the type. we can ignore those here. */ i = 2; for(j = 0; j < 8; j++, i++) fh->bcookie[j] = hdr[i]; fh->encrypt = aimutil_get16(hdr+i); i += 2; fh->compress = aimutil_get16(hdr+i); i += 2; fh->totfiles = aimutil_get16(hdr+i); i += 2; fh->filesleft = aimutil_get16(hdr+i); i += 2; fh->totparts = aimutil_get16(hdr+i); i += 2; fh->partsleft = aimutil_get16(hdr+i); i += 2; fh->totsize = aimutil_get32(hdr+i); i += 4; fh->size = aimutil_get32(hdr+i); i += 4; fh->modtime = aimutil_get32(hdr+i); i += 4; fh->checksum = aimutil_get32(hdr+i); i += 4; fh->rfrcsum = aimutil_get32(hdr+i); i += 4; fh->rfsize = aimutil_get32(hdr+i); i += 4; fh->cretime = aimutil_get32(hdr+i); i += 4; fh->rfcsum = aimutil_get32(hdr+i); i += 4; fh->nrecvd = aimutil_get32(hdr+i); i += 4; fh->recvcsum = aimutil_get32(hdr+i); i += 4; memcpy(fh->idstring, hdr+i, 32); i += 32; fh->flags = aimutil_get8(hdr+i); i += 1; fh->lnameoffset = aimutil_get8(hdr+i); i += 1; fh->lsizeoffset = aimutil_get8(hdr+i); i += 1; memcpy(fh->dummy, hdr+i, 69); i += 69; memcpy(fh->macfileinfo, hdr+i, 16); i += 16; fh->nencode = aimutil_get16(hdr+i); i += 2; fh->nlanguage = aimutil_get16(hdr+i); i += 2; memcpy(fh->name, hdr+i, 64); i += 64; return fh; } faim_export int aim_oft_checksum(char *buffer, int bufsize, int *checksum) { short check0, check1; int i; check0 = ((*checksum & 0xFF000000) >> 16); check1 = ((*checksum & 0x00ff0000) >> 16); for(i = 0; i < bufsize; i++) { if(i % 2) { /* use check1 -- second byte */ if ( (short)buffer[i] > check1 ) { /* wrapping */ check1 += 0x100; /* this is a cheap way to wrap */ /* if we're wrapping, decrement the other one */ if(check0 == 0) /* XXX: check this corner case */ check0 = 0x00ff; else check0--; } check1 -= buffer[i]; } else { /* use check0 -- first byte */ if ( (short)buffer[i] > check0 ) { /* wrapping */ check0 += 0x100; /* this is a cheap way to wrap */ /* if we're wrapping, decrement the other one */ if(check1 == 0) /* XXX: check this corner case */ check1 = 0x00ff; else check1--; } check0 -= buffer[i]; } } if(check0 > 0xff || check1 > 0xff) { /* they shouldn't be able to do this. error! */ faimdprintf(2, "check0 or check1 is too high: 0x%04x, 0x%04x\n", check0, check1); return -1; } check0 &= 0xff; /* grab just the lowest byte */ check1 &= 0xff; /* this should be clean, but just in case */ *checksum = ((check0 * 0x1000000) + (check1 * 0x10000)); return *checksum; } /* * aim_oft_buildheader: * fills a buffer with network-order fh data. * returns length written; -1 on error. * dest: buffer to fill -- pre-alloced * listingfh: fh to get data from * * DOES NOT DO BOUNDS CHECKING! */ faim_internal int aim_oft_buildheader(char *dest,struct aim_fileheader_t *listingfh) { int i, curbyte; if(!dest || !listingfh) return -1; curbyte = 0; for(i = 0; i < 8; i++) curbyte += aimutil_put8(dest+curbyte, listingfh->bcookie[i]); curbyte += aimutil_put16(dest+curbyte, listingfh->encrypt); curbyte += aimutil_put16(dest+curbyte, listingfh->compress); curbyte += aimutil_put16(dest+curbyte, listingfh->totfiles); curbyte += aimutil_put16(dest+curbyte, listingfh->filesleft); curbyte += aimutil_put16(dest+curbyte, listingfh->totparts); curbyte += aimutil_put16(dest+curbyte, listingfh->partsleft); curbyte += aimutil_put32(dest+curbyte, listingfh->totsize); curbyte += aimutil_put32(dest+curbyte, listingfh->size); curbyte += aimutil_put32(dest+curbyte, listingfh->modtime); curbyte += aimutil_put32(dest+curbyte, listingfh->checksum); curbyte += aimutil_put32(dest+curbyte, listingfh->rfrcsum); curbyte += aimutil_put32(dest+curbyte, listingfh->rfsize); curbyte += aimutil_put32(dest+curbyte, listingfh->cretime); curbyte += aimutil_put32(dest+curbyte, listingfh->rfcsum); curbyte += aimutil_put32(dest+curbyte, listingfh->nrecvd); curbyte += aimutil_put32(dest+curbyte, listingfh->recvcsum); memcpy(dest+curbyte, listingfh->idstring, 32); curbyte += 32; curbyte += aimutil_put8(dest+curbyte, listingfh->flags); curbyte += aimutil_put8(dest+curbyte, listingfh->lnameoffset); curbyte += aimutil_put8(dest+curbyte, listingfh->lsizeoffset); memcpy(dest+curbyte, listingfh->dummy, 69); curbyte += 69; memcpy(dest+curbyte, listingfh->macfileinfo, 16); curbyte += 16; curbyte += aimutil_put16(dest+curbyte, listingfh->nencode); curbyte += aimutil_put16(dest+curbyte, listingfh->nlanguage); memcpy(dest+curbyte, listingfh->name, 64); /* XXX: Filenames longer than 64B */ curbyte += 64; return curbyte; } /* * int aim_getfile_send(struct aim_conn_t *conn, FILE *tosend, struct aim_fileheader_t *fh) * conn is the OFT connection to shove the data down, * tosend is the FILE * for the file to send * fh is the filled-in fh value * returns -1 on error, 1 on success. */ faim_export int aim_getfile_send(struct aim_conn_t *conn, FILE *tosend, struct aim_fileheader_t *fh) { int pos, bufpos, i; const int bufsize = 4096; char *buf; /* sanity checks */ if(conn->type != AIM_CONN_TYPE_RENDEZVOUS || conn->subtype != AIM_CONN_SUBTYPE_OFT_GETFILE) { faimdprintf(1, "getfile_send: conn->type(0x%04x) != RENDEZVOUS or conn->subtype(0x%04x) != GETFILE\n", conn->type, conn->subtype); return -1; } if(!tosend) { faimdprintf(1, "getfile_send: file pointer isn't valid\n"); return -1; } if(!fh) { faimdprintf(1, "getfile_send: fh isn't valid\n"); return -1; } /* real code */ if(!(buf = (char *)calloc(1, bufsize))) { perror("faim: getfile_send: calloc:"); faimdprintf(2, "getfile_send calloc error\n"); return -1; } pos = 0; if( fseek(tosend, 0, SEEK_SET) == -1) { perror("faim: getfile_send: fseek:"); faimdprintf(2, "getfile_send fseek error\n"); } faimdprintf(2, "faim: getfile_send: using %i byte blocks\n", bufsize); for(pos = 0; pos < fh->size; pos++) { bufpos = pos % bufsize; if(bufpos == 0 && pos > 0) { /* filled our buffer. spit it across the wire */ if ( (i = write(conn->fd, buf, bufsize)) != bufsize ) { perror("faim: getfile_send: write1: "); faimdprintf(1, "faim: getfile_send: whoopsy, didn't write it all...\n"); free(buf); return -1; } } if( (buf[bufpos] = fgetc(tosend)) == EOF) { if(pos != fh->size) { printf("faim: getfile_send: hrm... apparent early EOF at pos 0x%x of 0x%lx\n", pos, fh->size); faimdprintf(1, "faim: getfile_send: hrm... apparent early EOF at pos 0x%lx of 0x%lx\n", pos, fh->size); free(buf); return -1; } } } if( (i = write(conn->fd, buf, bufpos+1)) != (bufpos+1)) { perror("faim: getfile_send: write2: "); faimdprintf(1, "faim: getfile_send cleanup: whoopsy, didn't write it all...\n"); free(buf); return -1; } free(buf); fclose(tosend); return 1; } /* * int aim_getfile_send_chunk(struct aim_conn_t *conn, FILE *tosend, struct aim_fileheader_t *fh, int pos, int bufsize) * conn is the OFT connection to shove the data down, * tosend is the FILE * for the file to send * fh is the filled-in fh value * pos is the position to start at (at beginning should be 0, after 5 * bytes are sent should be 5); -1 for "don't seek" * bufsize is the size of the chunk to send * * returns -1 on error, new pos on success. * * * Notes on usage: * You don't really have to keep track of pos if you don't want * to. just always call with -1 for pos, and it'll use the one * contained within the FILE *. * * if (pos + chunksize > fh->size), we only send as much data as we * can get (ie: up to fh->size. */ faim_export int aim_getfile_send_chunk(struct aim_conn_t *conn, FILE *tosend, struct aim_fileheader_t *fh, int pos, int bufsize) { int bufpos; char *buf; /* sanity checks */ if(conn->type != AIM_CONN_TYPE_RENDEZVOUS || conn->type != AIM_CONN_SUBTYPE_OFT_GETFILE) { faimdprintf(1, "faim: getfile_send_chunk: conn->type(0x%04x) != RENDEZVOUS or conn->subtype(0x%04x) != GETFILE\n", conn->type, conn->subtype); return -1; } if(!tosend) { faimdprintf(1, "faim: getfile_send_chunk: file pointer isn't valid\n"); return -1; } if(!fh) { faimdprintf(1, "faim: getfile_send_chunk: fh isn't valid\n"); return -1; } /* real code */ if(!(buf = (char *)calloc(1, bufsize))) { perror("faim: getfile_send_chunk: calloc:"); faimdprintf(2, "faim: getfile_send_chunk calloc error\n"); return -1; } if(pos != -1) { if( fseek(tosend, pos, SEEK_SET) == -1) { perror("faim: getfile_send_chunk: fseek:"); faimdprintf(2, "faim: getfile_send_chunk fseek error\n"); } } faimdprintf(2, "faim: getfile_send_chunk: using %i byte blocks\n", bufsize); for(bufpos = 0; pos < fh->size; bufpos++, pos++) { if( (buf[bufpos] = fgetc(tosend)) == EOF) { if(pos != fh->size) { faimdprintf(1, "faim: getfile_send_chunk: hrm... apparent early EOF at pos 0x%x of 0x%x\n", pos, fh->size); free(buf); return -1; } } } if( write(conn->fd, buf, bufpos+1) != (bufpos+1)) { faimdprintf(1, "faim: getfile_send_chunk cleanup: whoopsy, didn't write it all...\n"); free(buf); return -1; } free(buf); return (pos + bufpos); } /* * aim_tx_destroy: * free's tx_command_t's. if command is locked, doesn't free. * returns -1 on error (locked struct); 0 on success. * command is the command to free */ faim_internal int aim_tx_destroy(struct command_tx_struct *command) { if(command->lock) return -1; if(command->data) free(command->data); free(command); return 0; } #if 0 /* * aim_getfile_intitiate: * For those times when we want to open up the directim channel ourselves. * sess is your session, * conn is the BOS conn, * priv is a dummy priv value (we'll let it get filled in later) (if * you pass a NULL, we alloc one) * destsn is the SN to connect to. */ faim_export struct aim_conn_t *aim_getfile_initiate(struct aim_session_t *sess, struct aim_conn_t *conn, struct aim_getfile_priv *priv, char *destsn) { struct command_tx_struct *newpacket; struct aim_conn_t *newconn; struct aim_msgcookie_t *cookie; int curbyte, i, listenfd; short port = 4443; struct hostent *hptr; struct utsname myname; char cap[16]; char d[4]; /* XXX: IPv6. *cough* */ /* * Open our socket */ if( (listenfd = aim_listenestablish(port)) == -1) return NULL; /* * get our local IP */ if(uname(&myname) < 0) return NULL; if( (hptr = gethostbyname(myname.nodename)) == NULL) return NULL; memcpy(&d, hptr->h_addr_list[0], 4); /* XXX: this probably isn't quite kosher, but it works */ aim_putcap(cap, 16, AIM_CAPS_IMIMAGE); /* * create the OSCAR packet */ if (!(newpacket = aim_tx_new(AIM_FRAMETYPE_OSCAR, 0x0002, conn, 10+8+2+1+strlen(destsn)+4+4+0x32))) return NULL; newpacket->lock = 1; /* lock struct */ curbyte = 0; curbyte += aim_putsnac(newpacket->data+curbyte, 0x0004, 0x0006, 0x0000, sess->snac_nextid); /* * Generate a random message cookie * This cookie needs to be alphanumeric and NULL-terminated to be TOC-compatible. */ for (i=0;i<7;i++) curbyte += aimutil_put8(newpacket->data+curbyte, 0x30 + ((u_char) random() % 20)); curbyte += aimutil_put8(newpacket->data+curbyte, 0x00); /* * grab all the data for cookie caching. */ cookie = (struct aim_msgcookie_t *)calloc(1, sizeof(struct aim_msgcookie_t)); memcpy(cookie->cookie, newpacket->data+curbyte-8, 8); cookie->type = AIM_COOKIETYPE_OFTIM; if(!priv) priv = (struct aim_directim_priv *)calloc(1, sizeof(struct aim_directim_priv)); memcpy(priv->cookie, cookie, 8); memcpy(priv->sn, destsn, sizeof(priv->sn)); cookie->data = priv; aim_cachecookie(sess, cookie); /* cache da cookie */ /* * Channel ID */ curbyte += aimutil_put16(newpacket->data+curbyte,0x0002); /* * Destination SN (prepended with byte length) */ curbyte += aimutil_put8(newpacket->data+curbyte,strlen(destsn)); curbyte += aimutil_putstr(newpacket->data+curbyte, destsn, strlen(destsn)); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0003); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0000); /* * enTLV start */ curbyte += aimutil_put16(newpacket->data+curbyte, 0x0005); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0032); /* * Flag data / ICBM Parameters? */ curbyte += aimutil_put8(newpacket->data+curbyte, 0x00); curbyte += aimutil_put8(newpacket->data+curbyte, 0x00); /* * Cookie */ curbyte += aimutil_putstr(newpacket->data+curbyte, (char *)cookie, 8); /* * Capability String */ curbyte += aimutil_putstr(newpacket->data+curbyte, (char *)cap, 0x10); /* * 000a/0002 : 0001 */ curbyte += aimutil_put16(newpacket->data+curbyte, 0x000a); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0002); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0001); /* * 0003/0004: IP address */ curbyte += aimutil_put16(newpacket->data+curbyte, 0x0003); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0004); for(i = 0; i < 4; i++) curbyte += aimutil_put8(newpacket->data+curbyte, d[i]); /* already in network byte order */ /* * 0005/0002: Port */ curbyte += aimutil_put16(newpacket->data+curbyte, 0x0005); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0002); curbyte += aimutil_put16(newpacket->data+curbyte, port); /* * 000f/0000: umm.. dunno. Zigamorph[1]? * [1]: see esr's TNHD. */ curbyte += aimutil_put16(newpacket->data+curbyte, 0x000f); curbyte += aimutil_put16(newpacket->data+curbyte, 0x0000); printf("curbyte: 0x%x\n",curbyte); newpacket->commandlen = curbyte; newpacket->lock = 0; aim_tx_enqueue(sess, newpacket); /* * allocate and set up our connection */ i = fcntl(listenfd, F_GETFL, 0); fcntl(listenfd, F_SETFL, i | O_NONBLOCK); newconn = aim_newconn(sess, AIM_CONN_TYPE_RENDEZVOUS_OUT, NULL); if (!newconn) { perror("aim_newconn"); aim_conn_kill(sess, &newconn); return NULL; } newconn->fd = listenfd; newconn->subtype = AIM_CONN_SUBTYPE_OFT_DIRECTIM; newconn->priv = priv; printf("faim: listening (fd = %d, unconnected)\n", newconn->fd); /* * XXX We need some way of closing the listener socket after * n seconds of no connection. -- mid */ #ifdef USE_SNAC_FOR_IMS { struct aim_snac_t snac; snac.id = sess->snac_nextid; snac.family = 0x0004; snac.type = 0x0006; snac.flags = 0x0000; snac.data = malloc(strlen(destsn)+1); memcpy(snac.data, destsn, strlen(destsn)+1); aim_newsnac(sess, &snac); aim_cleansnacs(sess, 60); /* clean out all SNACs over 60sec old */ } #endif return newconn; } #endif