static char*
announce_url_new (const tr_session * session, const tr_announce_request * req)
{
    const char * str;
    const unsigned char * ipv6;
    struct evbuffer * buf = evbuffer_new ();
    char escaped_info_hash[SHA_DIGEST_LENGTH*3 + 1];

    tr_http_escape_sha1 (escaped_info_hash, req->info_hash);

    evbuffer_expand (buf, 1024);

    evbuffer_add_printf (buf, "%s"
                              "%c"
                              "info_hash=%s"
                              "&peer_id=%*.*s"
                              "&port=%d"
                              "&uploaded=%" PRIu64
                              "&downloaded=%" PRIu64
                              "&left=%" PRIu64
                              "&numwant=%d"
                              "&key=%x"
                              "&compact=1"
                              "&supportcrypto=1",
                              req->url,
                              strchr (req->url, '?') ? '&' : '?',
                              escaped_info_hash,
                              PEER_ID_LEN, PEER_ID_LEN, req->peer_id,
                              req->port,
                              req->up,
                              req->down,
                              req->leftUntilComplete,
                              req->numwant,
                              req->key);

    if (session->encryptionMode == TR_ENCRYPTION_REQUIRED)
        evbuffer_add_printf (buf, "&requirecrypto=1");

    if (req->corrupt)
        evbuffer_add_printf (buf, "&corrupt=%" PRIu64, req->corrupt);

    str = get_event_string (req);
    if (str && *str)
        evbuffer_add_printf (buf, "&event=%s", str);

    str = req->tracker_id_str;
    if (str && *str)
        evbuffer_add_printf (buf, "&trackerid=%s", str);

    /* There are two incompatible techniques for announcing an IPv6 address.
       BEP-7 suggests adding an "ipv6=" parameter to the announce URL,
       while OpenTracker requires that peers announce twice, once over IPv4
       and once over IPv6.

       To be safe, we should do both: add the "ipv6=" parameter and
       announce twice. At any rate, we're already computing our IPv6
       address (for the LTEP handshake), so this comes for free. */

    ipv6 = tr_globalIPv6 ();
    if (ipv6) {
        char ipv6_readable[INET6_ADDRSTRLEN];
        evutil_inet_ntop (AF_INET6, ipv6, ipv6_readable, INET6_ADDRSTRLEN);
        evbuffer_add_printf (buf, "&ipv6=");
        tr_http_escape (buf, ipv6_readable, -1, true);
    }

    return evbuffer_free_to_str (buf);
}
Beispiel #2
0
int write_chunk(Stream *st, struct image *i, struct hdfile *hdfile,
                int include_peaks, int include_reflections, struct event* ev)
{
	int j;
	char *indexer;
	int ret = 0;

	fprintf(st->fh, CHUNK_START_MARKER"\n");

	fprintf(st->fh, "Image filename: %s\n", i->filename);
	if ( i->event != NULL ) {
		fprintf(st->fh, "Event: %s\n", get_event_string(i->event));
	}

	fprintf(st->fh, "Image serial number: %i\n", i->serial);

	indexer = indexer_str(i->indexed_by);
	fprintf(st->fh, "indexed_by = %s\n", indexer);
	free(indexer);

	fprintf(st->fh, "photon_energy_eV = %f\n",
	        J_to_eV(ph_lambda_to_en(i->lambda)));

	fprintf(st->fh, "beam_divergence = %.2e rad\n", i->div);
	fprintf(st->fh, "beam_bandwidth = %.2e (fraction)\n", i->bw);

	copy_hdf5_fields(hdfile, i->copyme, st->fh, ev);

	if ( i->det != NULL ) {

		int j;
		double tclen = 0.0;

		for ( j=0; j<i->det->n_panels; j++ ) {
			tclen += i->det->panels[j].clen;
		}
		fprintf(st->fh, "average_camera_length = %f m\n",
		        tclen / i->det->n_panels);

		for ( j=0; j<i->det->n_rigid_groups; j++ ) {

			struct rigid_group *rg = i->det->rigid_groups[j];

			if ( !rg->have_deltas ) continue;

			fprintf(st->fh, "rg_delta_%s_fsx = %f\n",
			        rg->name, rg->d_fsx);
			fprintf(st->fh, "rg_delta_%s_ssx = %f\n",
			        rg->name, rg->d_ssx);
			fprintf(st->fh, "rg_delta_%s_cnx = %f\n",
			        rg->name, rg->d_cnx);

			fprintf(st->fh, "rg_delta_%s_fsy = %f\n",
			        rg->name, rg->d_fsy);
			fprintf(st->fh, "rg_delta_%s_ssy = %f\n",
			        rg->name, rg->d_ssy);
			fprintf(st->fh, "rg_delta_%s_cny = %f\n",
			        rg->name, rg->d_cny);

		}

	}

	fprintf(st->fh, "num_peaks = %lli\n", i->num_peaks);
	fprintf(st->fh, "num_saturated_peaks = %lli\n", i->num_saturated_peaks);
	if ( include_peaks ) {
		if ( AT_LEAST_VERSION(st, 2, 3) ) {
			ret = write_peaks_2_3(i, st->fh);
		} else {
			ret = write_peaks(i, st->fh);
		}
	}

	for ( j=0; j<i->n_crystals; j++ ) {
		if ( crystal_get_user_flag(i->crystals[j]) == 0 ) {
			ret = write_crystal(st, i->crystals[j],
			                    include_reflections);
		}
	}

	fprintf(st->fh, CHUNK_END_MARKER"\n");

	fflush(st->fh);

	return ret;
}