242 lines
7.8 KiB
C
242 lines
7.8 KiB
C
#include "packet.h"
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int ap_exists(union abstract_packet* ap) {
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return ap->fmt.headers.cmd != 0;
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}
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int buffer_has_ap(struct buffer_packet* bp) {
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return ap_exists(buffer_first_ap (bp));
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}
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union abstract_packet* ap_next(union abstract_packet* ap) {
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if (ap_exists (ap) && ap->fmt.headers.flags & FLAG_READ_NEXT)
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return (union abstract_packet*)(&ap->raw + ap->fmt.headers.size);
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return NULL;
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}
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union abstract_packet* buffer_first_ap(struct buffer_packet* bp) {
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return (union abstract_packet*) &bp->ip;
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}
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union abstract_packet* buffer_last_ap(struct buffer_packet* bp) {
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union abstract_packet* ap = buffer_first_ap (bp), *apn = NULL;
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while ((apn = ap_next(ap)) != NULL) ap = apn;
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return ap;
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}
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union abstract_packet* buffer_free_ap(struct buffer_packet* bp) {
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union abstract_packet* ap = buffer_last_ap (bp);
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ap = (union abstract_packet*)(&ap->raw + ap->fmt.headers.size);
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return ap;
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}
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size_t buffer_count_ap(struct buffer_packet* bp) {
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size_t s = 1;
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union abstract_packet* ap = (union abstract_packet*) &bp->ip;
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while ((ap = ap_next(ap)) != NULL) s++;
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return s;
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}
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size_t buffer_full_size(struct buffer_packet* bp) {
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return &(buffer_free_ap (bp))->raw - &bp->ip[0];
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}
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union abstract_packet* buffer_append_ap(struct buffer_packet* bp, union abstract_packet* ap) {
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if (buffer_has_ap (bp))
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buffer_last_ap(bp)->fmt.headers.flags |= FLAG_READ_NEXT;
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union abstract_packet *new_ap = buffer_last_ap(bp);
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memcpy(new_ap, ap, ap->fmt.headers.size);
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bp->ap_count++;
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new_ap->fmt.headers.flags &= ~FLAG_READ_NEXT;
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return new_ap;
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}
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enum FD_STATE read_packet_from_tcp(struct evt_core_fdinfo* fdinfo, struct buffer_packet* bp) {
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ssize_t nread = 0, ap_aread = 0, cur_ap_aread = 0;
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union abstract_packet* ap = buffer_first_ap (bp);
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size_t pkt_size_size = sizeof(ap->fmt.headers.size);
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if (bp->mode != BP_READING) return FDS_ERR;
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//fprintf(stderr, "Entering read_packet_from_tcp\n");
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do {
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//fprintf(stderr, "bp->ap_count=%d\n", bp->ap_count);
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ap = buffer_first_ap (bp);
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ap_aread = 0;
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for (int i = 0; i < bp->ap_count; i++) {
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ap_aread += ap->fmt.headers.size;
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ap = ap_next (ap);
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}
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cur_ap_aread = bp->aread - ap_aread;
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//fprintf(stderr, "[size] bp_aread=%d, prev_ap_aread=%ld, cur_ap_aread=%ld\n", bp->aread, ap_aread, cur_ap_aread);
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while (cur_ap_aread < pkt_size_size) {
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nread = read(fdinfo->fd, &(ap->raw) + cur_ap_aread, pkt_size_size - cur_ap_aread);
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if (nread == 0) return FDS_AGAIN;
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if (nread == -1 && errno == EAGAIN) return FDS_AGAIN;
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if (nread == -1) return FDS_ERR;
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bp->aread += nread;
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cur_ap_aread += nread;
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}
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//fprintf(stderr, "[content] bp_aread=%d, prev_ap_aread=%ld, cur_ap_aread=%ld\n", bp->aread, ap_aread, cur_ap_aread);
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while (cur_ap_aread < ap->fmt.headers.size) {
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nread = read(fdinfo->fd, &(ap->raw) + cur_ap_aread, ap->fmt.headers.size - cur_ap_aread);
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if (nread == 0) return FDS_AGAIN;
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if (nread == -1 && errno == EAGAIN) return FDS_AGAIN;
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if (nread == -1) return FDS_ERR;
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bp->aread += nread;
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cur_ap_aread += nread;
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}
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bp->ap_count++;
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//fprintf(stderr, "bp->ap_count=%d, buffer_count_ap(bp)=%ld\n", bp->ap_count, buffer_count_ap (bp));
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//dump_buffer_packet (bp);
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} while (bp->ap_count != buffer_count_ap (bp));
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bp->mode = BP_WRITING;
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bp->awrite = 0;
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return FDS_READY;
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}
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enum FD_STATE write_packet_to_tcp(struct evt_core_fdinfo* fdinfo, struct buffer_packet* bp) {
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ssize_t nwrite;
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union abstract_packet* ap = (union abstract_packet*) &bp->ip;
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size_t buffs = buffer_full_size(bp);
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//dump_buffer_packet (bp);
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if (bp->mode != BP_WRITING) return FDS_ERR;
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nwrite = send(fdinfo->fd, &(ap->raw) + bp->awrite, buffs - bp->awrite, 0);
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if (nwrite == -1 && errno == EAGAIN) return FDS_AGAIN;
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if (nwrite == -1) return FDS_ERR;
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bp->awrite += nwrite;
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if (bp->awrite < buffs) return FDS_AGAIN;
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bp->mode = BP_READING;
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bp->aread = 0;
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bp->ap_count = 0;
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return FDS_READY;
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}
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enum FD_STATE write_packet_to_udp(struct evt_core_fdinfo* fdinfo, struct buffer_packet* bp, struct udp_target* udp_t) {
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ssize_t nwrite;
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union abstract_packet* ap = (union abstract_packet*) (&bp->ip + bp->awrite);
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if (bp->mode != BP_WRITING) return FDS_ERR;
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do {
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if (ap->fmt.headers.cmd != CMD_UDP_ENCAPSULATED) continue;
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size_t bytes_to_send;
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size_t pkt_header_size = sizeof(ap->fmt.headers) + sizeof(ap->fmt.content.udp_encapsulated) - sizeof(ap->fmt.content.udp_encapsulated.payload);
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struct sockaddr* addr = NULL;
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socklen_t addrlen = 0;
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if (udp_t->set) {
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addr = (struct sockaddr*) &udp_t->addr;
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addrlen = sizeof(struct sockaddr_in);
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}
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bytes_to_send = ap->fmt.headers.size - pkt_header_size;
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nwrite = sendto(fdinfo->fd,
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&(ap->fmt.content.udp_encapsulated.payload),
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bytes_to_send,
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0,
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addr,
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addrlen);
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if (nwrite == -1 && errno == EAGAIN) return FDS_AGAIN;
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if (nwrite != bytes_to_send) return FDS_ERR;
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bp->awrite += nwrite;
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} while((ap = ap_next(ap)) != NULL);
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bp->mode = BP_READING;
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bp->aread = 0;
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bp->ap_count = 0;
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return FDS_READY;
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}
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enum FD_STATE read_packet_from_udp (struct evt_core_fdinfo* fdinfo, struct buffer_packet* bp, struct udp_target* udp_t) {
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ssize_t nread;
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union abstract_packet* ap = (union abstract_packet*) &bp->ip;
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if (bp->mode != BP_READING) {
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fprintf(stderr, "Buffer packet is not in reading mode (mode: %d)\n", bp->mode);
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return FDS_ERR;
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}
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size_t pkt_header_size = sizeof(ap->fmt.headers) + sizeof(ap->fmt.content.udp_encapsulated) - sizeof(ap->fmt.content.udp_encapsulated.payload);
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size_t udp_packet_size = sizeof(bp->ip) - pkt_header_size;
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socklen_t addrlen = sizeof(struct sockaddr_in);
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nread = recvfrom(fdinfo->fd,
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&(ap->fmt.content.udp_encapsulated.payload),
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udp_packet_size,
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MSG_TRUNC,
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(struct sockaddr*)&udp_t->addr,
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&addrlen);
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if ((int)nread > (int)udp_packet_size) {
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fprintf(stderr, "Packet has been truncated (%ld instead of %d)\n", nread, (int)udp_packet_size);
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return FDS_ERR;
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}
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if (nread == -1 && errno == EAGAIN) return FDS_AGAIN;
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if (nread == 0) return FDS_AGAIN;
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if (nread == -1) {
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fprintf(stderr, "A system error occurred\n");
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return FDS_ERR;
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}
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udp_t->set = 1;
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udp_t->addrlen = addrlen;
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ap->fmt.headers.size = nread + pkt_header_size;
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ap->fmt.headers.cmd = CMD_UDP_ENCAPSULATED;
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ap->fmt.content.udp_encapsulated.port = url_get_port_int (fdinfo->url);
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bp->mode = BP_WRITING;
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bp->awrite = 0;
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bp->ap_count = 1;
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return FDS_READY;
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}
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void dump_buffer_packet(struct buffer_packet* bp) {
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printf("<Buffer Packet>\n");
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printf(" mode=%d, aread=%d, awrite=%d, ap_count=%d, usage=%ld/%ld\n", bp->mode, bp->aread, bp->awrite, bp->ap_count, buffer_full_size (bp), sizeof(bp->ip));
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for (union abstract_packet* ap = buffer_first_ap (bp); ap != NULL; ap = ap_next (ap)) {
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dump_abstract_packet(ap);
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}
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printf("</Buffer Packet>\n");
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}
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void dump_abstract_packet(union abstract_packet* ap) {
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printf(" <Abstract Packet>\n");
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printf(" size=%d, cmd=%d\n", ap->fmt.headers.size, ap->fmt.headers.cmd);
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switch (ap->fmt.headers.cmd) {
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case CMD_LINK_MONITORING_THUNDER:
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printf(" <LinkMonitoringThunder></LinkMonitoringThunder>\n");
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break;
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case CMD_UDP_METADATA_THUNDER:
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printf(" <UdpMetadataThunder>id=%d</UdpMetadataThunder>\n",
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ap->fmt.content.udp_metadata_thunder.id);
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break;
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case CMD_UDP_ENCAPSULATED:
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printf(" <Payload>port=%d</Payload>\n", ap->fmt.content.udp_encapsulated.port);
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break;
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case CMD_LINK_MONITORING_LIGHTNING:
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printf(" <LinkMonitoringLightning>id=%ld</LinkMonitoringLightning>\n", ap->fmt.content.link_monitoring_lightning.id);
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break;
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default:
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printf(" <Unknown/>\n");
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break;
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}
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printf(" </Abstract Packet>\n");
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}
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