/* * OpenGGSN - Gateway GPRS Support Node * Copyright (C) 2002, 2003, 2004 Mondru AB. * Copyright (C) 2011 Harald Welte * * The contents of this file may be used under the terms of the GNU * General Public License Version 2, provided that the above copyright * notice and this permission notice is included in all copies or * substantial portions of the software. * */ /* * Queue.c * Reliable delivery of signalling messages */ #include <../config.h> #ifdef HAVE_STDINT_H #include #endif #include #include #include #include #include #include #include "pdp.h" #include "gtp.h" #include "queue.h" /*! \brief dump a queue_t to stdout */ static int queue_print(struct queue_t *queue) { int n; printf("Queue: %p Next: %d First: %d Last: %d\n", queue, queue->next, queue->first, queue->last); printf("# State seq next prev timeout retrans\n"); for (n = 0; n < QUEUE_SIZE; n++) { printf("%d %d %d %d %d %d %d\n", n, queue->qmsga[n].state, queue->qmsga[n].seq, queue->qmsga[n].next, queue->qmsga[n].prev, (int)queue->qmsga[n].timeout, queue->qmsga[n].retrans); } return 0; } /*! \brief compute the hash function */ static int queue_seqhash(struct sockaddr_in *peer, uint16_t seq) { /* With QUEUE_HASH_SIZE = 2^16 this describes all possible seq values. Thus we have perfect hash for the request queue. For the response queue we might have collisions, but not very often. For performance optimisation we should remove the modulus operator, but this is only valid for QUEUE_HASH_SIZE = 2^16 */ return seq % QUEUE_HASH_SIZE; } /*! \brief Insert a message with given sequence number into the hash * * This function sets the peer and the seq of the qmsg and then inserts * the qmsg into the queue hash. To do so, it does a hashtable lookup * and appends the new entry as the last into the double-linked list of * entries for this sequence number. */ static int queue_seqset(struct queue_t *queue, struct qmsg_t *qmsg, struct sockaddr_in *peer, uint16_t seq) { int hash = queue_seqhash(peer, seq); struct qmsg_t *qmsg2; struct qmsg_t *qmsg_prev = NULL; if (QUEUE_DEBUG) printf("Begin queue_seqset seq = %d\n", (int)seq); if (QUEUE_DEBUG) printf("SIZEOF PEER %d, *PEER %d\n", sizeof(peer), sizeof(*peer)); qmsg->seq = seq; memcpy(&qmsg->peer, peer, sizeof(*peer)); for (qmsg2 = queue->hashseq[hash]; qmsg2; qmsg2 = qmsg2->seqnext) qmsg_prev = qmsg2; if (!qmsg_prev) queue->hashseq[hash] = qmsg; else qmsg_prev->seqnext = qmsg; if (QUEUE_DEBUG) printf("End queue_seqset\n"); return 0; } /*! \brief Remove a given qmsg_t from the queue hash */ static int queue_seqdel(struct queue_t *queue, struct qmsg_t *qmsg) { int hash = queue_seqhash(&qmsg->peer, qmsg->seq); struct qmsg_t *qmsg2; struct qmsg_t *qmsg_prev = NULL; if (QUEUE_DEBUG) printf("Begin queue_seqdel seq = %d\n", (int)qmsg->seq); for (qmsg2 = queue->hashseq[hash]; qmsg2; qmsg2 = qmsg2->seqnext) { if (qmsg == qmsg2) { if (!qmsg_prev) queue->hashseq[hash] = qmsg2->seqnext; else qmsg_prev->seqnext = qmsg2->seqnext; if (QUEUE_DEBUG) printf("End queue_seqdel: SEQ found\n"); return 0; } qmsg_prev = qmsg2; } printf("End queue_seqdel: SEQ not found\n"); return EOF; /* End of linked list and not found */ } /*! \brief Allocates and initialises new queue structure */ int queue_new(struct queue_t **queue) { if (QUEUE_DEBUG) printf("queue_new\n"); *queue = calloc(1, sizeof(struct queue_t)); if (!(*queue)) return EOF; (*queue)->next = 0; (*queue)->first = -1; (*queue)->last = -1; if (QUEUE_DEBUG) queue_print(*queue); return 0; } /*! \brief Deallocates queue structure */ int queue_free(struct queue_t *queue) { if (QUEUE_DEBUG) printf("queue_free\n"); if (QUEUE_DEBUG) queue_print(queue); free(queue); return 0; } /*! \brief Add a new message to the queue */ int queue_newmsg(struct queue_t *queue, struct qmsg_t **qmsg, struct sockaddr_in *peer, uint16_t seq) { if (QUEUE_DEBUG) printf("queue_newmsg %d\n", (int)seq); if (queue->qmsga[queue->next].state == 1) { return EOF; /* Queue is full */ } else { *qmsg = &queue->qmsga[queue->next]; queue_seqset(queue, *qmsg, peer, seq); (*qmsg)->state = 1; /* Space taken */ (*qmsg)->this = queue->next; (*qmsg)->next = -1; /* End of the queue */ (*qmsg)->prev = queue->last; /* Link to the previous */ if (queue->last != -1) queue->qmsga[queue->last].next = queue->next; /* Link previous to us */ queue->last = queue->next; /* End of queue */ if (queue->first == -1) queue->first = queue->next; queue->next = (queue->next + 1) % QUEUE_SIZE; /* Increment */ if (QUEUE_DEBUG) queue_print(queue); return 0; } } /*! \brief Simply remoev a given qmsg_t from the queue * * Internally, we first delete the entry from the queue, and then update * up our global queue->first / queue->last pointers. Finally, * the qmsg_t is re-initialized with zero bytes. No memory is released. */ int queue_freemsg(struct queue_t *queue, struct qmsg_t *qmsg) { if (QUEUE_DEBUG) printf("queue_freemsg\n"); if (qmsg->state != 1) { return EOF; /* Not in queue */ } queue_seqdel(queue, qmsg); if (qmsg->next == -1) /* Are we the last in queue? */ queue->last = qmsg->prev; else queue->qmsga[qmsg->next].prev = qmsg->prev; if (qmsg->prev == -1) /* Are we the first in queue? */ queue->first = qmsg->next; else queue->qmsga[qmsg->prev].next = qmsg->next; memset(qmsg, 0, sizeof(struct qmsg_t)); /* Just to be safe */ if (QUEUE_DEBUG) queue_print(queue); return 0; } /*! \brief Move a given qmsg_t to the end of the queue ?!? */ int queue_back(struct queue_t *queue, struct qmsg_t *qmsg) { if (QUEUE_DEBUG) printf("queue_back\n"); if (qmsg->state != 1) { return EOF; /* Not in queue */ } /* Insert stuff to maintain hash table */ if (qmsg->next != -1) { /* Only swop if there are others */ queue->qmsga[qmsg->next].prev = qmsg->prev; queue->first = qmsg->next; qmsg->next = -1; qmsg->prev = queue->last; if (queue->last != -1) queue->qmsga[queue->last].next = qmsg->this; queue->last = qmsg->this; } if (QUEUE_DEBUG) queue_print(queue); return 0; } /*! \brief Get the first element in the entire queue */ int queue_getfirst(struct queue_t *queue, struct qmsg_t **qmsg) { /*printf("queue_getfirst\n"); */ if (queue->first == -1) { *qmsg = NULL; return EOF; /* End of queue = queue is empty. */ } *qmsg = &queue->qmsga[queue->first]; if (QUEUE_DEBUG) queue_print(queue); return 0; } /*! \brief Get a queue entry for a given peer + seq */ int queue_seqget(struct queue_t *queue, struct qmsg_t **qmsg, struct sockaddr_in *peer, uint16_t seq) { int hash = queue_seqhash(peer, seq); struct qmsg_t *qmsg2; if (QUEUE_DEBUG) printf("Begin queue_seqget seq = %d\n", (int)seq); for (qmsg2 = queue->hashseq[hash]; qmsg2; qmsg2 = qmsg2->seqnext) { if ((qmsg2->seq == seq) && (!memcmp(&qmsg2->peer, peer, sizeof(*peer)))) { *qmsg = qmsg2; if (QUEUE_DEBUG) printf("End queue_seqget. Found\n"); return 0; } } if (QUEUE_DEBUG) printf("End queue_seqget. Not found\n"); return EOF; /* End of linked list and not found */ } /*! \brief look-up a given seq/peer, return cbp + type and free entry */ int queue_freemsg_seq(struct queue_t *queue, struct sockaddr_in *peer, uint16_t seq, uint8_t * type, void **cbp) { struct qmsg_t *qmsg; if (queue_seqget(queue, &qmsg, peer, seq)) { *cbp = NULL; *type = 0; return EOF; } *cbp = qmsg->cbp; *type = qmsg->type; if (queue_freemsg(queue, qmsg)) { return EOF; } return 0; }