int main(int argc, const char** argv) { int i; int ret; dtn_handle_t handle; dtn_endpoint_id_t source_eid; dtn_reg_info_t reginfo; dtn_reg_id_t regid; dtn_bundle_spec_t ping_spec; dtn_bundle_spec_t reply_spec; dtn_bundle_payload_t ping_payload; ping_payload_t payload_contents; ping_payload_t recv_contents; dtn_bundle_payload_t reply_payload; dtn_bundle_status_report_t* sr_data; dtn_bundle_id_t bundle_id; int debug = 1; char demux[64]; int dest_len = 0; struct timeval send_times[MAX_PINGS_IN_FLIGHT]; dtn_timestamp_t creation_times[MAX_PINGS_IN_FLIGHT]; struct timeval now, recv_start, recv_end; u_int32_t nonce; u_int32_t seqno = 0; int timeout; // force stdout to always be line buffered, even if output is // redirected to a pipe or file setvbuf(stdout, (char *)NULL, _IOLBF, 0); doOptions(argc, argv); memset(&ping_spec, 0, sizeof(ping_spec)); gettimeofday(&now, 0); srand(now.tv_sec); nonce = rand(); // open the ipc handle int err = dtn_open(&handle); if (err != DTN_SUCCESS) { fprintf(stderr, "fatal error opening dtn handle: %s\n", dtn_strerror(err)); exit(1); } // make sure they supplied a valid destination eid or // "localhost", in which case we just use the local daemon if (strcmp(dest_eid_str, "localhost") == 0) { dtn_build_local_eid(handle, &ping_spec.dest, "ping"); } else { if (dtn_parse_eid_string(&ping_spec.dest, dest_eid_str)) { fprintf(stderr, "invalid destination eid string '%s'\n", dest_eid_str); exit(1); } } dest_len = strlen(ping_spec.dest.uri); if ((dest_len < 4) || (strcmp(ping_spec.dest.uri + dest_len - 4, "ping") != 0)) { fprintf(stderr, "\nWARNING: ping destination does not end in \"ping\"\n\n"); } // if the user specified a source eid, register on it. // otherwise, build a local eid based on the configuration of // our dtn router plus the demux string snprintf(demux, sizeof(demux), "/ping.%d", getpid()); if (source_eid_str[0] != '\0') { if (dtn_parse_eid_string(&source_eid, source_eid_str)) { fprintf(stderr, "invalid source eid string '%s'\n", source_eid_str); exit(1); } } else { dtn_build_local_eid(handle, &source_eid, demux); } // set the source and replyto eids in the bundle spec if (debug) printf("source_eid [%s]\n", source_eid.uri); dtn_copy_eid(&ping_spec.source, &source_eid); dtn_copy_eid(&ping_spec.replyto, &source_eid); // now create a new registration based on the source memset(®info, 0, sizeof(reginfo)); dtn_copy_eid(®info.endpoint, &source_eid); reginfo.flags = DTN_REG_DEFER; reginfo.regid = DTN_REGID_NONE; reginfo.expiration = 0; if ((ret = dtn_register(handle, ®info, ®id)) != 0) { fprintf(stderr, "error creating registration: %d (%s)\n", ret, dtn_strerror(dtn_errno(handle))); exit(1); } if (debug) printf("dtn_register succeeded, regid %d\n", regid); // set the expiration time and request deletion status reports ping_spec.expiration = expiration; ping_spec.dopts = DOPTS_DELETE_RCPT; printf("PING [%s] (expiration %u)...\n", ping_spec.dest.uri, expiration); if (interval == 0) { printf("WARNING: zero second interval will result in flooding pings!!\n"); } // loop, sending pings and polling for activity for (i = 0; count == 0 || i < count; ++i) { gettimeofday(&send_times[seqno], NULL); // fill in a short payload string, a nonce, and a sequence number // to verify the echo feature and make sure we're not getting // duplicate responses or ping responses from another app memcpy(&payload_contents.ping, PING_STR, 8); payload_contents.seqno = seqno; payload_contents.nonce = nonce; payload_contents.time = send_times[seqno].tv_sec; memset(&ping_payload, 0, sizeof(ping_payload)); dtn_set_payload(&ping_payload, DTN_PAYLOAD_MEM, (char*)&payload_contents, sizeof(payload_contents)); memset(&bundle_id, 0, sizeof(bundle_id)); if ((ret = dtn_send(handle, regid, &ping_spec, &ping_payload, &bundle_id)) != 0) { fprintf(stderr, "error sending bundle: %d (%s)\n", ret, dtn_strerror(dtn_errno(handle))); exit(1); } creation_times[seqno] = bundle_id.creation_ts; memset(&reply_spec, 0, sizeof(reply_spec)); memset(&reply_payload, 0, sizeof(reply_payload)); // now loop waiting for replies / status reports until it's // time to send again, adding twice the expiration time if we // just sent the last ping timeout = interval * 1000; if (i == count - 1) timeout += expiration * 2000; do { gettimeofday(&recv_start, 0); if ((ret = dtn_recv(handle, &reply_spec, DTN_PAYLOAD_MEM, &reply_payload, timeout)) < 0) { if (dtn_errno(handle) == DTN_ETIMEOUT) { break; // time to send again } fprintf(stderr, "error getting ping reply: %d (%s)\n", ret, dtn_strerror(dtn_errno(handle))); exit(1); } gettimeofday(&recv_end, 0); if (reply_payload.status_report != NULL) { sr_data = reply_payload.status_report; if (sr_data->flags != STATUS_DELETED) { fprintf(stderr, "(bad status report from %s: flags 0x%x)\n", reply_spec.source.uri, sr_data->flags); goto next; } // find the seqno corresponding to the original // transmission time in the status report int j = 0; for (j = 0; j < MAX_PINGS_IN_FLIGHT; ++j) { if (creation_times[j].secs == sr_data->bundle_id.creation_ts.secs && creation_times[j].seqno == sr_data->bundle_id.creation_ts.seqno) { printf("bundle deleted at [%s] (%s): seqno=%d, time=%ld ms\n", reply_spec.source.uri, dtn_status_report_reason_to_str(sr_data->reason), j, TIMEVAL_DIFF_MSEC(recv_end, send_times[j])); goto next; } } printf("bundle deleted at [%s] (%s): ERROR: can't find seqno\n", reply_spec.source.uri, dtn_status_report_reason_to_str(sr_data->reason)); } else { if (reply_payload.buf.buf_len != sizeof(ping_payload_t)) { printf("%d bytes from [%s]: ERROR: length != %zu\n", reply_payload.buf.buf_len, reply_spec.source.uri, sizeof(ping_payload_t)); goto next; } memcpy(&recv_contents, reply_payload.buf.buf_val, sizeof(recv_contents)); if (recv_contents.seqno > MAX_PINGS_IN_FLIGHT) { printf("%d bytes from [%s]: ERROR: invalid seqno %d\n", reply_payload.buf.buf_len, reply_spec.source.uri, recv_contents.seqno); goto next; } if (recv_contents.nonce != nonce) { printf("%d bytes from [%s]: ERROR: invalid nonce %u != %u\n", reply_payload.buf.buf_len, reply_spec.source.uri, recv_contents.nonce, nonce); goto next; } if (recv_contents.time != (u_int32_t)send_times[recv_contents.seqno].tv_sec) { printf("%d bytes from [%s]: ERROR: time mismatch -- " "seqno %u reply time %u != send time %lu\n", reply_payload.buf.buf_len, reply_spec.source.uri, recv_contents.seqno, recv_contents.time, (long unsigned int)send_times[recv_contents.seqno].tv_sec); goto next; } printf("%d bytes from [%s]: '%.*s' seqno=%d, time=%ld ms\n", reply_payload.buf.buf_len, reply_spec.source.uri, (u_int)strlen(PING_STR), reply_payload.buf.buf_val, recv_contents.seqno, TIMEVAL_DIFF_MSEC(recv_end, send_times[recv_contents.seqno])); fflush(stdout); } next: dtn_free_payload(&reply_payload); timeout -= TIMEVAL_DIFF_MSEC(recv_end, recv_start); // once we get status from all the pings we're supposed to // send, we're done reply_count++; if (count != 0 && reply_count == count) { break; } } while (timeout > 0); seqno++; seqno %= MAX_PINGS_IN_FLIGHT; } dtn_close(handle); return 0; }
int main(int argc, char** argv) { int ret; dtn_handle_t handle; dtn_reg_info_t reginfo; dtn_reg_id_t regid = DTN_REGID_NONE; dtn_bundle_spec_t bundle_spec; dtn_bundle_spec_t reply_spec; dtn_bundle_payload_t send_payload; dtn_bundle_payload_t reply_payload; dtn_bundle_id_t bundle_id; char demux[4096]; struct timeval start, end; /* FILE * file; */ /* //struct stat finfo; */ /* char buffer[4096]; // max filesize to send is 4096 (temp) */ /* int bufsize = 0; */ // force stdout to always be line buffered, even if output is // redirected to a pipe or file setvbuf(stdout, (char *)NULL, _IOLBF, 0); parse_options(argc, argv); // open the ipc handle if (verbose) fprintf(stdout, "Opening connection to local DTN daemon\n"); int err = 0; if (api_IP_set) err = dtn_open_with_IP(api_IP,api_port,&handle); else err = dtn_open(&handle); if (err != DTN_SUCCESS) { fprintf(stderr, "fatal error opening dtn handle: %s\n", dtn_strerror(err)); exit(1); } // ---------------------------------------------------- // initialize bundle spec with src/dest/replyto // ---------------------------------------------------- // initialize bundle spec memset(&bundle_spec, 0, sizeof(bundle_spec)); // destination host is specified at run time, demux is hardcoded sprintf(demux, "%s/dtncp/recv?file=%s", arg_dest, arg_target); parse_eid(handle, &bundle_spec.dest, demux); // source is local eid with file path as demux string sprintf(demux, "/dtncp/send?source=%s", data_source); parse_eid(handle, &bundle_spec.source, demux); if (verbose) { print_eid("source_eid", &bundle_spec.source); print_eid("dest_eid", &bundle_spec.dest); } // set the expiration time (one hour) bundle_spec.expiration = expiration_time; if (delivery_receipts) { // set the delivery receipt option bundle_spec.dopts |= DOPTS_DELIVERY_RCPT; } // fill in a payload memset(&send_payload, 0, sizeof(send_payload)); dtn_set_payload(&send_payload, DTN_PAYLOAD_FILE, data_source, strlen(data_source)); // send file and wait for reply // create a new dtn registration to receive bundle status reports memset(®info, 0, sizeof(reginfo)); dtn_copy_eid(®info.endpoint, &bundle_spec.source); reginfo.flags = DTN_REG_DEFER; reginfo.regid = regid; reginfo.expiration = 0; if ((ret = dtn_register(handle, ®info, ®id)) != 0) { fprintf(stderr, "error creating registration (id=%d): %d (%s)\n", regid, ret, dtn_strerror(dtn_errno(handle))); exit(1); } if (verbose) printf("dtn_register succeeded, regid 0x%x\n", regid); gettimeofday(&start, NULL); // timer memset(&bundle_id, 0, sizeof(bundle_id)); if ((ret = dtn_send(handle, regid, &bundle_spec, &send_payload, &bundle_id)) != 0) { fprintf(stderr, "error sending file bundle: %d (%s)\n", ret, dtn_strerror(dtn_errno(handle))); exit(1); } if (delivery_receipts) { memset(&reply_spec, 0, sizeof(reply_spec)); memset(&reply_payload, 0, sizeof(reply_payload)); // now we block waiting for the echo reply if ((ret = dtn_recv(handle, &reply_spec, DTN_PAYLOAD_MEM, &reply_payload, -1)) < 0) { fprintf(stderr, "error getting reply: %d (%s)\n", ret, dtn_strerror(dtn_errno(handle))); exit(1); } gettimeofday(&end, NULL); printf("file sent successfully to [%s]: time=%.1f ms\n", reply_spec.source.uri, ((double)(end.tv_sec - start.tv_sec) * 1000.0 + (double)(end.tv_usec - start.tv_usec)/1000.0)); dtn_free_payload(&reply_payload); } else { printf("file sent to [%s]\n", bundle_spec.dest.uri); } dtn_close(handle); return 0; }
int main(int argc, char** argv) { int i, errs; int ret; dtn_handle_t handle; dtn_endpoint_id_t local_eid; dtn_reg_info_t reginfo; dtn_bundle_spec_t spec; dtn_bundle_payload_t payload; int call_bind; time_t now; // force stdout to always be line buffered, even if output is // redirected to a pipe or file setvbuf(stdout, (char *)NULL, _IOLBF, 0); progname = argv[0]; parse_options(argc, argv); printf("dtnsink starting up -- waiting for %u bundles\n", count); // open the ipc handle if (verbose) printf("opening connection to dtn router...\n"); int err = dtn_open(&handle); if (err != DTN_SUCCESS) { fprintf(stderr, "fatal error opening dtn handle: %s\n", dtn_strerror(err)); exit(1); } if (verbose) printf("opened connection to dtn router...\n"); // if we're not given a regid, or we're in change mode, we need to // build up the reginfo memset(®info, 0, sizeof(reginfo)); if ((regid == DTN_REGID_NONE) || change) { // if the specified eid starts with '/', then build a local // eid based on the configuration of our dtn router plus the // demux string. otherwise make sure it's a valid one if (endpoint[0] == '/') { if (verbose) printf("calling dtn_build_local_eid.\n"); dtn_build_local_eid(handle, &local_eid, (char *) endpoint); if (verbose) printf("local_eid [%s]\n", local_eid.uri); } else { if (verbose) printf("calling parse_eid_string\n"); if (dtn_parse_eid_string(&local_eid, endpoint)) { fprintf(stderr, "invalid destination endpoint '%s'\n", endpoint); goto err; } } // create a new registration based on this eid dtn_copy_eid(®info.endpoint, &local_eid); reginfo.regid = regid; reginfo.expiration = expiration; reginfo.flags = failure_action; reginfo.script.script_val = failure_script; reginfo.script.script_len = strlen(failure_script) + 1; } if (change) { if ((ret = dtn_change_registration(handle, regid, ®info)) != 0) { fprintf(stderr, "error changing registration: %d (%s)\n", ret, dtn_strerror(dtn_errno(handle))); goto err; } printf("change registration succeeded, regid %d\n", regid); goto done; } if (unregister) { if (dtn_unregister(handle, regid) != 0) { fprintf(stderr, "error in unregister regid %d: %s\n", regid, dtn_strerror(dtn_errno(handle))); goto err; } printf("unregister succeeded, regid %d\n", regid); goto done; } // try to see if there is an existing registration that matches // the given endpoint, in which case we'll use that one. if (regid == DTN_REGID_NONE && ! no_find_reg) { if (dtn_find_registration(handle, &local_eid, ®id) != 0) { if (dtn_errno(handle) != DTN_ENOTFOUND) { fprintf(stderr, "error in find_registration: %s\n", dtn_strerror(dtn_errno(handle))); goto err; } } printf("find registration succeeded, regid %d\n", regid); call_bind = 1; } // if the user didn't give us a registration to use, get a new one if (regid == DTN_REGID_NONE) { if ((ret = dtn_register(handle, ®info, ®id)) != 0) { fprintf(stderr, "error creating registration: %d (%s)\n", ret, dtn_strerror(dtn_errno(handle))); goto err; } printf("register succeeded, regid %d\n", regid); call_bind = 0; } else { call_bind = 1; } if (register_only) { goto done; } if (call_bind) { // bind the current handle to the found registration printf("binding to regid %d\n", regid); if (dtn_bind(handle, regid) != 0) { fprintf(stderr, "error binding to registration: %s\n", dtn_strerror(dtn_errno(handle))); goto err; } } // keep track of what we've seen char *received = (char *)malloc(count + 1); memset(received, '\0', count); // loop waiting for bundles fprintf(stderr, "waiting %d seconds for first bundle...\n", (MAX_STARTUP_TRIES)*RECV_TIMEOUT/1000); for (i = 1; i <= count; ++i) { int tries; uint32_t which; uint32_t size; memset(&spec, 0, sizeof(spec)); memset(&payload, 0, sizeof(payload)); /* * this is a little tricky. We want dtn_recv to time out after * RECV_TIMEOUT ms, so we don't wait a long time for a bundle * if something is broken and no bundle is coming. But we * want to be friendly and wait patiently for the first * bundle, in case dtnsource is slow in getting off the mark. * * So we loop at most MAX_STARTUP_TRIES times */ tries = 0; while ((ret = dtn_recv(handle, &spec, bundletype, &payload, RECV_TIMEOUT)) < 0) { /* if waiting for the first bundle and we timed out be patient */ if (dtn_errno(handle) == DTN_ETIMEOUT) { if (i == 1 && ++tries < MAX_STARTUP_TRIES) { fprintf(stderr, "waiting %d seconds for first bundle...\n", (MAX_STARTUP_TRIES-tries)*RECV_TIMEOUT/1000); } else { /* timed out waiting, something got dropped */ fprintf(stderr, "timeout waiting for bundle %d\n", i); goto bail; } } else { /* a bad thing has happend in recv, or we've lost patience */ fprintf(stderr, "error in dtn_recv: %d (%d, %s)\n", ret, dtn_errno(handle), dtn_strerror(dtn_errno(handle))); goto bail; } } if (i == 1) { now = time(0); printf("received first bundle at %s\n", ctime(&now)); } if (verbose) { printf("bundle %d received successfully: id %s,%llu.%llu\n", i, spec.source.uri, spec.creation_ts.secs, spec.creation_ts.seqno); } if (!promiscuous) { /* check to see which bundle this is */ // Files need to be handled differently than memory transfers if (payload.location == DTN_PAYLOAD_FILE) { if (handle_file_transfer(payload, &size, &which) < 0) { dtn_free_payload(&payload); continue; } } else { which = ntohl(*(uint32_t *)payload.buf.buf_val); size = payload.buf.buf_len; } if (which > (uint32_t) count) { // note that the above cast is safe as count always >= 0 fprintf(stderr, "-- expecting %d bundles, saw bundle %u\n", count, which); } else if (which <= 0) { /* because I am paranoid -DJE */ fprintf(stderr, "-- didn't expect bundle %u\n", which); } else { ++received[which]; } } // XXX should verify size here... /* all done, get next one */ dtn_free_payload(&payload); } bail: for (i = 1; i <= count; ++i) { if (received[i] == 0) { int j = i + 1; while (j <= count && received[j] == 0) ++j; if (j == i + 1) printf("bundle %d: dropped\n", i); else printf("bundles %d-%d dropped\n", i, j - 1); errs += (j - i); i += (j - i - 1); } else if (received[i] > 1) { printf("bundle %d: received %d copies\n", i, received[i]); ++errs; } } if (errs == 0) { printf("all %d bundles received correctly\n", count); } free(received); now = time(0); printf("terminating at %s\n", ctime(&now)); done: dtn_close(handle); return 0; err: dtn_close(handle); return 1; }
int main(int argc, const char** argv) { int ret; dtn_handle_t handle; dtn_endpoint_id_t source_eid; dtn_endpoint_id_t replyto_eid; dtn_reg_info_t reginfo; dtn_reg_id_t regid; dtn_bundle_spec_t ping_spec; dtn_bundle_spec_t reply_spec; dtn_bundle_payload_t ping_payload; ping_payload_t payload_contents; ping_payload_t recv_contents; dtn_bundle_payload_t reply_payload; dtn_bundle_status_report_t* sr_data; dtn_bundle_id_t bundle_id; int debug = 1; char demux[64]; int dest_len = 0; struct timeval send_time, now; u_int32_t nonce; int done; time_t clock; struct tm* tm_buf; // force stdout to always be line buffered, even if output is // redirected to a pipe or file setvbuf(stdout, (char *)NULL, _IOLBF, 0); doOptions(argc, argv); memset(&ping_spec, 0, sizeof(ping_spec)); gettimeofday(&now, 0); srand(now.tv_sec); nonce = rand(); // open the ipc handle int err = 0; if (api_IP_set) err = dtn_open_with_IP(api_IP,api_port,&handle); else err = dtn_open(&handle); if (err != DTN_SUCCESS) { fprintf(stderr, "fatal error opening dtn handle: %s\n", dtn_strerror(err)); exit(1); } // make sure they supplied a valid destination eid or // "localhost", in which case we just use the local daemon if (strcmp(dest_eid_str, "localhost") == 0) { dtn_build_local_eid(handle, &ping_spec.dest, "ping"); } else { if (dtn_parse_eid_string(&ping_spec.dest, dest_eid_str)) { fprintf(stderr, "invalid destination eid string '%s'\n", dest_eid_str); exit(1); } } dest_len = strlen(ping_spec.dest.uri); if ((dest_len < 4) || (strcmp(ping_spec.dest.uri + dest_len - 4, "ping") != 0)) { fprintf(stderr, "\nWARNING: ping destination does not end in \"ping\"\n\n"); } // if the user specified a source eid, register on it. // otherwise, build a local eid based on the configuration of // our dtn router plus the demux string snprintf(demux, sizeof(demux), "/traceroute.%d", getpid()); if (source_eid_str[0] != '\0') { if (dtn_parse_eid_string(&source_eid, source_eid_str)) { fprintf(stderr, "invalid source eid string '%s'\n", source_eid_str); exit(1); } } else { dtn_build_local_eid(handle, &source_eid, demux); } if (debug) printf("source_eid [%s]\n", source_eid.uri); dtn_copy_eid(&ping_spec.source, &source_eid); // Make the replyto EID if ( replyto_eid_str[0]!=0 ) { if (dtn_parse_eid_string(&replyto_eid, replyto_eid_str)) { fprintf(stderr, "invalid replyto eid string '%s'\n", replyto_eid_str); exit(1); } dtn_copy_eid(&ping_spec.replyto, &replyto_eid); printf("using user-supplied replyto\n"); } else { dtn_copy_eid(&ping_spec.replyto, &source_eid); printf("using default replyto\n"); } // now create a new registration based on the source // if the replyto EID is unspecified or the same as the // source EID then we'll get status reports, otherwise // they'll go somewhere else. memset(®info, 0, sizeof(reginfo)); dtn_copy_eid(®info.endpoint, &source_eid); reginfo.flags = DTN_REG_DROP; reginfo.regid = DTN_REGID_NONE; reginfo.expiration = 0; if ((ret = dtn_register(handle, ®info, ®id)) != 0) { fprintf(stderr, "error creating registration: %d (%s)\n", ret, dtn_strerror(dtn_errno(handle))); exit(1); } if (debug) printf("dtn_register succeeded, regid %d\n", regid); // set the expiration time and request a bunch of status reports ping_spec.expiration = expiration; ping_spec.dopts = DOPTS_DELETE_RCPT | DOPTS_RECEIVE_RCPT | DOPTS_FORWARD_RCPT | DOPTS_DELIVERY_RCPT; // loop, sending pings and polling for activity gettimeofday(&send_time, NULL); // fill in a short payload string, a nonce, and a sequence number // to verify the echo feature and make sure we're not getting // duplicate responses or ping responses from another app memcpy(&payload_contents.ping, PING_STR, 8); payload_contents.seqno = 0; payload_contents.nonce = nonce; payload_contents.time = send_time.tv_sec; memset(&ping_payload, 0, sizeof(ping_payload)); dtn_set_payload(&ping_payload, DTN_PAYLOAD_MEM, (char*)&payload_contents, sizeof(payload_contents)); memset(&bundle_id, 0, sizeof(bundle_id)); if ((ret = dtn_send(handle, regid, &ping_spec, &ping_payload, &bundle_id)) != 0) { fprintf(stderr, "error sending bundle: %d (%s)\n", ret, dtn_strerror(dtn_errno(handle))); exit(1); } memset(&reply_spec, 0, sizeof(reply_spec)); memset(&reply_payload, 0, sizeof(reply_payload)); clock = time(&clock); tm_buf = gmtime(&clock); printf("%s: sent at %.*s UTC\n", ping_spec.source.uri, 24, asctime(tm_buf)); // now loop waiting for replies / status reports until we're done done = 0; while (1) { int timeout = done ? wait_after_done * 1000 : -1; if ((ret = dtn_recv(handle, &reply_spec, DTN_PAYLOAD_MEM, &reply_payload, timeout)) < 0) { if (done && dtn_errno(handle) == DTN_ETIMEOUT) { break; } fprintf(stderr, "error getting ping reply: %d (%s)\n", ret, dtn_strerror(dtn_errno(handle))); exit(1); } gettimeofday(&now, 0); if (reply_payload.status_report != NULL) { sr_data = reply_payload.status_report; if (sr_data->flags & STATUS_RECEIVED) { clock = sr_data->receipt_ts.secs + DTNTIME_OFFSET; tm_buf = gmtime(&clock); printf("%s: received at %.*s UTC (%ld ms rtt)\n", reply_spec.source.uri, 24, asctime(tm_buf), TIMEVAL_DIFF_MSEC(now, send_time)); } if (sr_data->flags & STATUS_FORWARDED) { clock = sr_data->forwarding_ts.secs + DTNTIME_OFFSET; tm_buf = gmtime(&clock); printf("%s: forwarded at %.*s UTC (%ld ms rtt)\n", reply_spec.source.uri, 24, asctime(tm_buf), TIMEVAL_DIFF_MSEC(now, send_time)); } if (sr_data->flags & STATUS_DELIVERED) { clock = sr_data->delivery_ts.secs + DTNTIME_OFFSET; tm_buf = gmtime(&clock); printf("%s: delivered at %.*s UTC (%ld ms rtt)\n", reply_spec.source.uri, 24, asctime(tm_buf), TIMEVAL_DIFF_MSEC(now, send_time)); } if (sr_data->flags & STATUS_DELETED) { clock = sr_data->deletion_ts.secs + DTNTIME_OFFSET; tm_buf = gmtime(&clock); printf("%s: deleted at %.*s UTC (%s) (%ld ms rtt)\n", reply_spec.source.uri, 24, asctime(tm_buf), dtn_status_report_reason_to_str(sr_data->reason), TIMEVAL_DIFF_MSEC(now, send_time)); break; } } else { if (reply_payload.buf.buf_len != sizeof(ping_payload_t)) { printf("%d bytes from [%s]: ERROR: length != %zu\n", reply_payload.buf.buf_len, reply_spec.source.uri, sizeof(ping_payload_t)); break; } memcpy(&recv_contents, reply_payload.buf.buf_val, sizeof(recv_contents)); if (recv_contents.seqno != 0) { printf("%d bytes from [%s]: ERROR: invalid seqno %d\n", reply_payload.buf.buf_len, reply_spec.source.uri, recv_contents.seqno); break; } if (recv_contents.nonce != nonce) { printf("%d bytes from [%s]: ERROR: invalid nonce %u != %u\n", reply_payload.buf.buf_len, reply_spec.source.uri, recv_contents.nonce, nonce); break; } if ((int)recv_contents.time != (int)send_time.tv_sec) { printf("%d bytes from [%s]: ERROR: time mismatch %u != %lu\n", reply_payload.buf.buf_len, reply_spec.source.uri, recv_contents.time, (long unsigned int)send_time.tv_sec); } clock = reply_spec.creation_ts.secs + DTNTIME_OFFSET; tm_buf = gmtime(&clock); printf("%s: echo reply at %.*s UTC (%ld ms rtt)\n", reply_spec.source.uri, 24, asctime(tm_buf), TIMEVAL_DIFF_MSEC(now, send_time)); done = 1; } dtn_free_payload(&reply_payload); } dtn_close(handle); return 0; }