void zuuid_test (bool verbose) { printf (" * zuuid: "); // @selftest // Simple create/destroy test assert (ZUUID_LEN == 16); assert (ZUUID_STR_LEN == 32); zuuid_t *uuid = zuuid_new (); assert (uuid); assert (zuuid_size (uuid) == ZUUID_LEN); assert (strlen (zuuid_str (uuid)) == ZUUID_STR_LEN); zuuid_t *copy = zuuid_dup (uuid); assert (streq (zuuid_str (uuid), zuuid_str (copy))); // Check set/set_str/export methods const char *myuuid = "8CB3E9A9649B4BEF8DE225E9C2CEBB38"; const char *myuuid2 = "8CB3E9A9-649B-4BEF-8DE2-25E9C2CEBB38"; const char *myuuid3 = "{8CB3E9A9-649B-4BEF-8DE2-25E9C2CEBB38}"; const char *myuuid4 = "8CB3E9A9649B4BEF8DE225E9C2CEBB3838"; int rc = zuuid_set_str (uuid, myuuid); assert (rc == 0); assert (streq (zuuid_str (uuid), myuuid)); rc = zuuid_set_str (uuid, myuuid2); assert (rc == 0); assert (streq (zuuid_str (uuid), myuuid)); rc = zuuid_set_str (uuid, myuuid3); assert (rc == 0); assert (streq (zuuid_str (uuid), myuuid)); rc = zuuid_set_str (uuid, myuuid4); assert (rc == -1); byte copy_uuid [ZUUID_LEN]; zuuid_export (uuid, copy_uuid); zuuid_set (uuid, copy_uuid); assert (streq (zuuid_str (uuid), myuuid)); // Check the canonical string format assert (streq (zuuid_str_canonical (uuid), "8cb3e9a9-649b-4bef-8de2-25e9c2cebb38")); zuuid_destroy (&uuid); zuuid_destroy (©); // @end printf ("OK\n"); }
/// // Return UUID in the canonical string format: 8-4-4-4-12, in lower // case. Caller does not modify or free returned value. See // http://en.wikipedia.org/wiki/Universally_unique_identifier const QString QZuuid::strCanonical () { const QString rv = QString (zuuid_str_canonical (self)); return rv; }
/// // Return UUID in the canonical string format: 8-4-4-4-12, in lower // case. Caller does not modify or free returned value. See // http://en.wikipedia.org/wiki/Universally_unique_identifier const QString QmlZuuid::strCanonical () { return QString (zuuid_str_canonical (self)); };
void zuuid_print (zuuid_t *self) { printf ("%s", zuuid_str_canonical (self)); }
void zproto_example_print (zproto_example_t *self) { assert (self); switch (self->id) { case ZPROTO_EXAMPLE_LOG: zsys_debug ("ZPROTO_EXAMPLE_LOG:"); zsys_debug (" sequence=%ld", (long) self->sequence); zsys_debug (" version=3"); zsys_debug (" level=%ld", (long) self->level); zsys_debug (" event=%ld", (long) self->event); zsys_debug (" node=%ld", (long) self->node); zsys_debug (" peer=%ld", (long) self->peer); zsys_debug (" time=%ld", (long) self->time); zsys_debug (" host='%s'", self->host); if (self->data) zsys_debug (" data='%s'", self->data); else zsys_debug (" data="); break; case ZPROTO_EXAMPLE_STRUCTURES: zsys_debug ("ZPROTO_EXAMPLE_STRUCTURES:"); zsys_debug (" sequence=%ld", (long) self->sequence); zsys_debug (" aliases="); if (self->aliases) { char *aliases = (char *) zlist_first (self->aliases); while (aliases) { zsys_debug (" '%s'", aliases); aliases = (char *) zlist_next (self->aliases); } } zsys_debug (" headers="); if (self->headers) { char *item = (char *) zhash_first (self->headers); while (item) { zsys_debug (" %s=%s", zhash_cursor (self->headers), item); item = (char *) zhash_next (self->headers); } } else zsys_debug ("(NULL)"); break; case ZPROTO_EXAMPLE_BINARY: zsys_debug ("ZPROTO_EXAMPLE_BINARY:"); zsys_debug (" sequence=%ld", (long) self->sequence); zsys_debug (" flags=[ ... ]"); zsys_debug (" public_key=[ ... ]"); zsys_debug (" identifier="); if (self->identifier) zsys_debug (" %s", zuuid_str_canonical (self->identifier)); else zsys_debug (" (NULL)"); zsys_debug (" address="); if (self->address) zframe_print (self->address, NULL); else zsys_debug ("(NULL)"); zsys_debug (" content="); if (self->content) zmsg_print (self->content); else zsys_debug ("(NULL)"); break; case ZPROTO_EXAMPLE_TYPES: zsys_debug ("ZPROTO_EXAMPLE_TYPES:"); zsys_debug (" sequence=%ld", (long) self->sequence); zsys_debug (" client_forename='%s'", self->client_forename); zsys_debug (" client_surname='%s'", self->client_surname); zsys_debug (" client_mobile='%s'", self->client_mobile); zsys_debug (" client_email='%s'", self->client_email); zsys_debug (" supplier_forename='%s'", self->supplier_forename); zsys_debug (" supplier_surname='%s'", self->supplier_surname); zsys_debug (" supplier_mobile='%s'", self->supplier_mobile); zsys_debug (" supplier_email='%s'", self->supplier_email); break; } }
void xrap_traffic_print (xrap_traffic_t *self) { assert (self); switch (self->id) { case XRAP_TRAFFIC_CONNECTION_OPEN: zsys_debug ("XRAP_TRAFFIC_CONNECTION_OPEN:"); zsys_debug (" protocol=malamute"); zsys_debug (" version=1"); zsys_debug (" address='%s'", self->address); break; case XRAP_TRAFFIC_CONNECTION_PING: zsys_debug ("XRAP_TRAFFIC_CONNECTION_PING:"); break; case XRAP_TRAFFIC_CONNECTION_PONG: zsys_debug ("XRAP_TRAFFIC_CONNECTION_PONG:"); break; case XRAP_TRAFFIC_CONNECTION_CLOSE: zsys_debug ("XRAP_TRAFFIC_CONNECTION_CLOSE:"); break; case XRAP_TRAFFIC_XRAP_SEND: zsys_debug ("XRAP_TRAFFIC_XRAP_SEND:"); zsys_debug (" timeout=%ld", (long) self->timeout); zsys_debug (" content="); if (self->content) zmsg_print (self->content); else zsys_debug ("(NULL)"); break; case XRAP_TRAFFIC_XRAP_OFFER: zsys_debug ("XRAP_TRAFFIC_XRAP_OFFER:"); zsys_debug (" route='%s'", self->route); zsys_debug (" method='%s'", self->method); break; case XRAP_TRAFFIC_XRAP_DELIVER: zsys_debug ("XRAP_TRAFFIC_XRAP_DELIVER:"); zsys_debug (" sender="); if (self->sender) zsys_debug (" %s", zuuid_str_canonical (self->sender)); else zsys_debug (" (NULL)"); zsys_debug (" content="); if (self->content) zmsg_print (self->content); else zsys_debug ("(NULL)"); break; case XRAP_TRAFFIC_OK: zsys_debug ("XRAP_TRAFFIC_OK:"); zsys_debug (" status_code=%ld", (long) self->status_code); zsys_debug (" status_reason='%s'", self->status_reason); break; case XRAP_TRAFFIC_FAIL: zsys_debug ("XRAP_TRAFFIC_FAIL:"); zsys_debug (" status_code=%ld", (long) self->status_code); zsys_debug (" status_reason='%s'", self->status_reason); break; case XRAP_TRAFFIC_ERROR: zsys_debug ("XRAP_TRAFFIC_ERROR:"); zsys_debug (" status_code=%ld", (long) self->status_code); zsys_debug (" status_reason='%s'", self->status_reason); break; } }