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Annotation of libaitmqtt/example/cmds.c, revision 1.2.2.1

1.1       misho       1: #include <stdio.h>
                      2: #include <stdlib.h>
                      3: #include <string.h>
                      4: #include <sys/types.h>
                      5: #include <aitmqtt.h>
                      6: 
                      7: 
                      8: int
                      9: main()
                     10: {
                     11:        mqtt_msg_t *m;
                     12:        mqtt_subscr_t s[4], *ss;
                     13:        mqtthdr_connflgs_t flg;
                     14:        mqtthdr_connack_t cack;
                     15:        u_short ka, msgID;
                     16:        int i, len;
1.2       misho      17:        char cid[BUFSIZ], user[BUFSIZ], pass[BUFSIZ], topic[BUFSIZ], *t, *msg, *pub;
1.1       misho      18:        struct mqtthdr *hdr;
                     19:        u_char *qoses;
                     20: 
                     21:        m = mqtt_msgAlloc(0);
                     22:        /* conn* */
                     23:        printf("connect=%d/%d\n", m->msg_len, mqtt_msgCONNECT(m, "MRYN", 0, "aaaaa", NULL, "bbb", NULL, 0, 0, 0));
                     24:        for (i = 0; i < m->msg_len; i++)
                     25:                printf("%d\n", ((u_char*) m->msg_base)[i]);
                     26:        t = msg = NULL;
                     27:        cack = mqtt_readCONNECT(m, &ka, cid, sizeof cid, user, sizeof user, pass, sizeof pass, &t, &msg);
                     28:        flg.flags = cack.reserved;
                     29:        printf("read connect %d flags:: clean=%d will=%d qos=%d retain=%d pass=%d user=%d\n", cack.retcode, 
                     30:                        flg.clean_sess, flg.will_flg, flg.will_qos, flg.will_retain, flg.password, flg.username);
                     31:        if (flg.reserved) {
                     32:                printf("Error:: mqtt_readCONNECT() #%d - %s\n", mqtt_GetErrno(), mqtt_GetError());
                     33:                return 1;
                     34:        }
                     35:        printf("++> KA=%d sec, ConnID=%s User=%s Pass=%s Will_Topic=%s Will_Message=%s\n", ka, 
                     36:                        cid, user, pass, t, msg);
                     37:        if (t)
                     38:                free(t);
                     39:        if (msg)
                     40:                free(msg);
                     41:        printf("connack=%d/%d\n", m->msg_len, mqtt_msgCONNACK(m, 1));
                     42:        for (i = 0; i < m->msg_len; i++)
                     43:                printf("%d\n", ((u_char*) m->msg_base)[i]);
                     44:        printf("read connack=%d\n", mqtt_readCONNACK(m));
                     45:        getchar();
                     46: 
                     47:        /* pub* */
                     48:        printf("publish=%d/%d\n", m->msg_len, mqtt_msgPUBLISH(m, "AAA/bbb/CCC/ddd", 7, 0, 2, 0, "OLE!!!", 7));
                     49:        for (i = 0; i < m->msg_len; i++)
                     50:                printf("%d\n", ((u_char*) m->msg_base)[i]);
1.2       misho      51:        if (!(len = mqtt_readPUBLISH(m, topic, sizeof topic, &msgID, (void**) &pub))) {
1.1       misho      52:                printf("Error:: mqtt_readPUBLISH() #%d - %s\n", mqtt_GetErrno(), mqtt_GetError());
                     53:                return 2;
1.2.2.1 ! misho      54:        } else
        !            55:                hdr = (struct mqtthdr*) m->msg_base;
1.1       misho      56:        printf("read publish: dup=%d qos=%d retain=%d\n", hdr->mqtt_msg.dup, hdr->mqtt_msg.qos, hdr->mqtt_msg.retain);
1.2       misho      57:        printf("++> topic=%s MessageID=%d DATA=(%d)%s\n", topic, msgID, len, pub);
                     58:        free(pub);
1.1       misho      59:        printf("puback=%d/%d\n", m->msg_len, mqtt_msgPUBACK(m, 10));
                     60:        for (i = 0; i < m->msg_len; i++)
                     61:                printf("%d\n", ((u_char*) m->msg_base)[i]);
                     62:        printf("read puback=%d\n", mqtt_readPUBACK(m));
                     63:        printf("pubrec=%d/%d\n", m->msg_len, mqtt_msgPUBREC(m, 11));
                     64:        for (i = 0; i < m->msg_len; i++)
                     65:                printf("%d\n", ((u_char*) m->msg_base)[i]);
                     66:        printf("read pubrec=%d\n", mqtt_readPUBREC(m));
                     67:        printf("pubrel=%d/%d\n", m->msg_len, mqtt_msgPUBREL(m, 12));
                     68:        for (i = 0; i < m->msg_len; i++)
                     69:                printf("%d\n", ((u_char*) m->msg_base)[i]);
                     70:        printf("read pubrel=%d\n", mqtt_readPUBREL(m));
                     71:        printf("pubcomp=%d/%d\n", m->msg_len, mqtt_msgPUBCOMP(m, 13));
                     72:        for (i = 0; i < m->msg_len; i++)
                     73:                printf("%d\n", ((u_char*) m->msg_base)[i]);
                     74:        printf("read pubcomp=%d\n", mqtt_readPUBCOMP(m));
                     75:        getchar();
                     76: 
                     77:        /* sub* */
                     78:        memset(s, 0, sizeof s);
                     79:        s[0].sub_topic.msg_len = 3;
                     80:        s[0].sub_topic.msg_base = "a/b";
                     81:        s[0].sub_ret = MQTT_QOS_ACK;
                     82:        s[1].sub_topic.msg_len = 3;
                     83:        s[1].sub_topic.msg_base = "c/d";
                     84:        s[1].sub_ret = MQTT_QOS_ONCE;
                     85:        s[2].sub_topic.msg_len = 7;
                     86:        s[2].sub_topic.msg_base = "x/y/z/Q";
                     87:        s[2].sub_ret = MQTT_QOS_EXACTLY;
                     88:        printf("subscribe=%d/%d\n", m->msg_len, mqtt_msgSUBSCRIBE(m, s, 10, 0, 0));
                     89:        for (i = 0; i < m->msg_len; i++)
                     90:                printf("%d\n", ((u_char*) m->msg_base)[i]);
1.2       misho      91:        if (mqtt_readSUBSCRIBE(m, &msgID, &ss) == -1) {
1.1       misho      92:                printf("Error:: mqtt_readSUBSCRIBE() #%d - %s\n", mqtt_GetErrno(), mqtt_GetError());
                     93:                return 3;
                     94:        }
                     95:        printf("read subscribe: dup=%d qos=%d retain=%d\n", hdr->mqtt_msg.dup, hdr->mqtt_msg.qos, hdr->mqtt_msg.retain);
                     96:        printf("++> MessageID=%d\n", msgID);
                     97:        for (i = 0; ss[i].sub_topic.msg_base; i++)
                     98:                printf(" >>> QoS=%d Topic(%d)=%s\n", ss[i].sub_ret, ss[i].sub_topic.msg_len, 
                     99:                                (char*) ss[i].sub_topic.msg_base);
                    100:        mqtt_subFree(&ss);
                    101:        printf("suback=%d/%d\n", m->msg_len, mqtt_msgSUBACK(m, s, 10));
                    102:        for (i = 0; i < m->msg_len; i++)
                    103:                printf("%d\n", ((u_char*) m->msg_base)[i]);
                    104:        printf("read suback=%d\n", (len = mqtt_readSUBACK(m, &msgID, &qoses)));
                    105:        for (i = 0; i < len; i++)
                    106:                printf(" >>> QoS=%d\n", qoses[i]);
                    107:        free(qoses);
                    108:        printf("unsubscribe=%d/%d\n", m->msg_len, mqtt_msgUNSUBSCRIBE(m, s, 10, 0, 1));
                    109:        for (i = 0; i < m->msg_len; i++)
                    110:                printf("%d\n", ((u_char*) m->msg_base)[i]);
1.2       misho     111:        if (mqtt_readUNSUBSCRIBE(m, &msgID, &ss) == -1) {
1.1       misho     112:                printf("Error:: mqtt_readUNSUBSCRIBE() #%d - %s\n", mqtt_GetErrno(), mqtt_GetError());
                    113:                return 3;
                    114:        }
                    115:        printf("read unsubscribe: dup=%d qos=%d retain=%d\n", hdr->mqtt_msg.dup, hdr->mqtt_msg.qos, hdr->mqtt_msg.retain);
                    116:        printf("++> MessageID=%d\n", msgID);
                    117:        for (i = 0; ss[i].sub_topic.msg_base; i++)
                    118:                printf(" >>> Topic(%d)=%s\n", ss[i].sub_topic.msg_len, (char*) ss[i].sub_topic.msg_base);
                    119:        mqtt_subFree(&ss);
                    120:        printf("unsuback=%d/%d\n", m->msg_len, mqtt_msgUNSUBACK(m, 10));
                    121:        for (i = 0; i < m->msg_len; i++)
                    122:                printf("%d\n", ((u_char*) m->msg_base)[i]);
                    123:        printf("read unsuback=%d\n", mqtt_readUNSUBACK(m));
                    124:        getchar();
                    125: 
                    126:        /* ping* */
                    127:        printf("pingreq=%d/%d\n", m->msg_len, mqtt_msgPINGREQ(m));
                    128:        for (i = 0; i < m->msg_len; i++)
                    129:                printf("%d\n", ((u_char*) m->msg_base)[i]);
                    130:        printf("read pingreq=%d\n", mqtt_readPINGREQ(m));
                    131:        printf("pingresp=%d/%d\n", m->msg_len, mqtt_msgPINGRESP(m));
                    132:        for (i = 0; i < m->msg_len; i++)
                    133:                printf("%d\n", ((u_char*) m->msg_base)[i]);
                    134:        printf("read pingresp=%d\n", mqtt_readPINGRESP(m));
                    135: 
                    136:        printf("disconnect=%d/%d\n", m->msg_len, mqtt_msgDISCONNECT(m));
                    137:        for (i = 0; i < m->msg_len; i++)
                    138:                printf("%d\n", ((u_char*) m->msg_base)[i]);
                    139:        printf("read disconnect=%d\n", mqtt_readDISCONNECT(m));
                    140: 
                    141:        mqtt_msgFree(&m, 42);
                    142:        return 0;
                    143: }