/* * aim_txqueue.c * * Herein lies all the mangement routines for the transmit (Tx) queue. * */ #include #ifndef _WIN32 #include #endif /* * Allocate a new tx frame. * * This is more for looks than anything else. * * Right now, that is. If/when we implement a pool of transmit * frames, this will become the request-an-unused-frame part. * * framing = AIM_FRAMETYPE_OFT/OSCAR * chan = channel for OSCAR, hdrtype for OFT * */ faim_internal struct command_tx_struct *aim_tx_new(unsigned char framing, int chan, struct aim_conn_t *conn, int datalen) { struct command_tx_struct *newtx; if (!conn) { printf("aim_tx_new: ERROR: no connection specified\n"); return NULL; } newtx = (struct command_tx_struct *)malloc(sizeof(struct command_tx_struct)); if (!newtx) return NULL; memset(newtx, 0, sizeof(struct command_tx_struct)); newtx->conn = conn; if(datalen) { newtx->data = (unsigned char *)malloc(datalen); newtx->commandlen = datalen; } else newtx->data = NULL; newtx->hdrtype = framing; if (newtx->hdrtype == AIM_FRAMETYPE_OSCAR) { newtx->hdr.oscar.type = chan; } else if (newtx->hdrtype == AIM_FRAMETYPE_OFT) { newtx->hdr.oft.type = chan; newtx->hdr.oft.hdr2len = 0; /* this will get setup by caller */ } else { printf("tx_new: unknown framing\n"); } return newtx; } /* * aim_tx_enqeue__queuebased() * * The overall purpose here is to enqueue the passed in command struct * into the outgoing (tx) queue. Basically... * 1) Make a scope-irrelevent copy of the struct * 2) Lock the struct * 3) Mark as not-sent-yet * 4) Enqueue the struct into the list * 5) Unlock the struct once it's linked in * 6) Return * * Note that this is only used when doing queue-based transmitting; * that is, when sess->tx_enqueue is set to &aim_tx_enqueue__queuebased. * */ faim_internal int aim_tx_enqueue__queuebased(struct aim_session_t *sess, struct command_tx_struct *newpacket) { struct command_tx_struct *cur; if (newpacket->conn == NULL) { faimdprintf(1, "aim_tx_enqueue: WARNING: enqueueing packet with no connecetion\n"); newpacket->conn = aim_getconn_type(sess, AIM_CONN_TYPE_BOS); } if (newpacket->hdrtype == AIM_FRAMETYPE_OSCAR) { /* assign seqnum */ newpacket->hdr.oscar.seqnum = aim_get_next_txseqnum(newpacket->conn); } /* set some more fields */ newpacket->lock = 1; /* lock */ newpacket->sent = 0; /* not sent yet */ newpacket->next = NULL; /* always last */ /* see overhead note in aim_rxqueue counterpart */ if (sess->queue_outgoing == NULL) { sess->queue_outgoing = newpacket; } else { for (cur = sess->queue_outgoing; cur->next; cur = cur->next) ; cur->next = newpacket; } newpacket->lock = 0; /* unlock so it can be sent */ #if debug == 2 faimdprintf(2, "calling aim_tx_printqueue()\n"); aim_tx_printqueue(sess); faimdprintf(2, "back from aim_tx_printqueue()\n"); #endif return 0; } /* * aim_tx_enqueue__immediate() * * Parallel to aim_tx_enqueue__queuebased, however, this bypasses * the whole queue mess when you want immediate writes to happen. * * Basically the same as its __queuebased couterpart, however * instead of doing a list append, it just calls aim_tx_sendframe() * right here. * */ faim_internal int aim_tx_enqueue__immediate(struct aim_session_t *sess, struct command_tx_struct *newpacket) { if (newpacket->conn == NULL) { faimdprintf(1, "aim_tx_enqueue: ERROR: packet has no connection\n"); if (newpacket->data) free(newpacket->data); free(newpacket); return -1; } if (newpacket->hdrtype == AIM_FRAMETYPE_OSCAR) newpacket->hdr.oscar.seqnum = aim_get_next_txseqnum(newpacket->conn); newpacket->lock = 1; /* lock */ newpacket->sent = 0; /* not sent yet */ aim_tx_sendframe(sess, newpacket); if (newpacket->data) free(newpacket->data); free(newpacket); return 0; } faim_internal int aim_tx_enqueue(struct aim_session_t *sess, struct command_tx_struct *command) { /* * If we want to send a connection thats inprogress, we have to force * them to use the queue based version. Otherwise, use whatever they * want. */ if (command && command->conn && (command->conn->status & AIM_CONN_STATUS_INPROGRESS)) { return aim_tx_enqueue__queuebased(sess, command); } return (*sess->tx_enqueue)(sess, command); } /* * aim_get_next_txseqnum() * * This increments the tx command count, and returns the seqnum * that should be stamped on the next FLAP packet sent. This is * normally called during the final step of packet preparation * before enqueuement (in aim_tx_enqueue()). * */ faim_internal unsigned int aim_get_next_txseqnum(struct aim_conn_t *conn) { u_int ret; faim_mutex_lock(&conn->seqnum_lock); ret = ++conn->seqnum; faim_mutex_unlock(&conn->seqnum_lock); return ret; } /* * aim_tx_printqueue() * * This is basically for debuging purposes only. It dumps all the * records in the tx queue and their current status. Very helpful * if the queue isn't working quite right. * */ #if debug == 2 faim_internal int aim_tx_printqueue(struct aim_session_t *sess) { struct command_tx_struct *cur; faimdprintf(2, "\ncurrent aim_queue_outgoing...\n"); faimdprintf(2, "\ttype seqnum len lock sent\n"); if (sess->queue_outgoing == NULL) faimdprintf(2, "aim_tx_flushqueue(): queue empty"); else { for (cur = sess->queue_outgoing; cur; cur = cur->next) { faimdprintf(2, "\t %2x %2x %4x %4x %1d %1d\n", cur->hdrtype, (cur->hdrtype==AIM_FRAMETYPE_OFT)?cur->hdr.oft.type:cur->hdr.oscar.type, (cur->hdrtype==AIM_FRAMETYPE_OSCAR)?cur->seqnum:0, cur->commandlen, cur->lock, cur->sent); } } faimdprintf(2, "\n(done printing queue)\n"); return 0; } #endif /* * aim_tx_flushqueue() * * This the function is responsable for putting the queued commands * onto the wire. This function is critical to the operation of * the queue and therefore is the most prone to brokenness. It * seems to be working quite well at this point. * * Procedure: * 1) Traverse the list, only operate on commands that are unlocked * and haven't been sent yet. * 2) Lock the struct * 3) Allocate a temporary buffer to store the finished, fully * processed packet in. * 4) Build the packet from the command_tx_struct data. * 5) Write the packet to the socket. * 6) If success, mark the packet sent, if fail report failure, do NOT * mark the packet sent (so it will not get purged and therefore * be attempted again on next call). * 7) Unlock the struct. * 8) Free the temp buffer * 9) Step to next struct in list and go back to 1. * */ faim_internal int aim_tx_sendframe(struct aim_session_t *sess, struct command_tx_struct *cur) { int buflen = 0; unsigned char *curPacket; if (!cur) return -1; /* fatal */ cur->lock = 1; /* lock the struct */ if (cur->hdrtype == AIM_FRAMETYPE_OSCAR) buflen = cur->commandlen + 6; else if (cur->hdrtype == AIM_FRAMETYPE_OFT) buflen = cur->hdr.oft.hdr2len + 8; else { cur->lock = 0; return -1; } /* allocate full-packet buffer */ if (!(curPacket = (unsigned char *) malloc(buflen))) { cur->lock = 0; return -1; } if (cur->hdrtype == AIM_FRAMETYPE_OSCAR) { /* command byte */ curPacket[0] = 0x2a; /* type/family byte */ curPacket[1] = cur->hdr.oscar.type; /* bytes 3+4: word: FLAP sequence number */ aimutil_put16(curPacket+2, cur->hdr.oscar.seqnum); /* bytes 5+6: word: SNAC len */ aimutil_put16(curPacket+4, cur->commandlen); /* bytes 7 and on: raw: SNAC data */ /* XXX: ye gods! get rid of this! */ memcpy(&(curPacket[6]), cur->data, cur->commandlen); } else if (cur->hdrtype == AIM_FRAMETYPE_OFT) { int z = 0; z += aimutil_put8(curPacket+z, cur->hdr.oft.magic[0]); z += aimutil_put8(curPacket+z, cur->hdr.oft.magic[1]); z += aimutil_put8(curPacket+z, cur->hdr.oft.magic[2]); z += aimutil_put8(curPacket+z, cur->hdr.oft.magic[3]); z += aimutil_put16(curPacket+z, cur->hdr.oft.hdr2len + 8); z += aimutil_put16(curPacket+z, cur->hdr.oft.type); memcpy(curPacket+z, cur->hdr.oft.hdr2, cur->hdr.oft.hdr2len); } /* * For OSCAR, a full image of the raw packet data now in curPacket. * For OFT, an image of just the bloated header is in curPacket, * since OFT allows us to do the data in a different write (yay!). */ faim_mutex_lock(&cur->conn->active); if (send(cur->conn->fd, curPacket, buflen, 0) != buflen) { faim_mutex_unlock(&cur->conn->active); cur->sent = 1; aim_conn_close(cur->conn); return 0; /* bail out */ } if ((cur->hdrtype == AIM_FRAMETYPE_OFT) && cur->commandlen) { if (send(cur->conn->fd, cur->data, cur->commandlen, 0) != (int)cur->commandlen) { /* * Theres nothing we can do about this since we've already sent the * header! The connection is unstable. */ } } cur->sent = 1; /* mark the struct as sent */ cur->conn->lastactivity = time(NULL); faim_mutex_unlock(&cur->conn->active); #if debug > 2 faimdprintf(2, "\nPacket:"); for (i = 0; i < (cur->commandlen + 6); i++) { if ((i % 8) == 0) { faimdprintf(2, "\n\t"); } if (curPacket[i] >= ' ' && curPacket[i]<127) { faimdprintf(2, "%c=%02x ", curPacket[i], curPacket[i]); } else { faimdprintf(2, "0x%2x ", curPacket[i]); } } faimdprintf(2, "\n"); #endif cur->lock = 0; /* unlock the struct */ free(curPacket); /* free up full-packet buffer */ return 1; /* success */ } faim_export int aim_tx_flushqueue(struct aim_session_t *sess) { struct command_tx_struct *cur; #if debug > 1 int i = 0; #endif if (sess->queue_outgoing == NULL) return 0; faimdprintf(2, "beginning txflush...\n"); for (cur = sess->queue_outgoing; cur; cur = cur->next) { /* only process if its unlocked and unsent */ if (!cur->lock && !cur->sent) { if (cur->conn && (cur->conn->status & AIM_CONN_STATUS_INPROGRESS)) continue; /* * And now for the meager attempt to force transmit * latency and avoid missed messages. */ if ((cur->conn->lastactivity + cur->conn->forcedlatency) >= time(NULL)) { /* FIXME FIXME -- should be a break! we dont want to block the upper layers */ sleep((cur->conn->lastactivity + cur->conn->forcedlatency) - time(NULL)); } if (aim_tx_sendframe(sess, cur) == -1) break; } } /* purge sent commands from queue */ aim_tx_purgequeue(sess); return 0; } /* * aim_tx_purgequeue() * * This is responsable for removing sent commands from the transmit * queue. This is not a required operation, but it of course helps * reduce memory footprint at run time! * */ faim_export void aim_tx_purgequeue(struct aim_session_t *sess) { struct command_tx_struct *cur = NULL; struct command_tx_struct *tmp; if (sess->queue_outgoing == NULL) return; if (sess->queue_outgoing->next == NULL) { if (!sess->queue_outgoing->lock && sess->queue_outgoing->sent) { tmp = sess->queue_outgoing; sess->queue_outgoing = NULL; if (tmp->hdrtype == AIM_FRAMETYPE_OFT) free(tmp->hdr.oft.hdr2); free(tmp->data); free(tmp); } return; } for(cur = sess->queue_outgoing; cur->next != NULL; ) { if (!cur->next->lock && cur->next->sent) { tmp = cur->next; cur->next = tmp->next; if (tmp->hdrtype == AIM_FRAMETYPE_OFT) free(tmp->hdr.oft.hdr2); free(tmp->data); free(tmp); } cur = cur->next; /* * Be careful here. Because of the way we just * manipulated the pointer, cur may be NULL and * the for() will segfault doing the check unless * we find this case first. */ if (cur == NULL) break; } return; }