Zoltan Hudak / Mbed OS MQTT_Hello

MQTT client to test the ENC28J60-EMAC on NUCLEO-F446RE.

Dependencies:   ENC28J60-EMAC

MQTT/MQTTPacket/MQTTConnectClient.c@5:d9570dbf2f82, 2021-03-29 (annotated)

Committer:
hudakz
Date:
Mon Mar 29 09:32:44 2021 +0000
Revision:
5:d9570dbf2f82
Parent:
0:238f0d0c0ba3 
MQTT client to test the ENC28J60-EMAC on NUCLEO-F446RE.

Who changed what in which revision?

UserRevisionLine numberNew contents of line
hudakz 0:238f0d0c0ba3 1 /*******************************************************************************
hudakz 0:238f0d0c0ba3 2 * Copyright (c) 2014 IBM Corp.
hudakz 0:238f0d0c0ba3 3 *
hudakz 0:238f0d0c0ba3 4 * All rights reserved. This program and the accompanying materials
hudakz 0:238f0d0c0ba3 5 * are made available under the terms of the Eclipse Public License v1.0
hudakz 0:238f0d0c0ba3 6 * and Eclipse Distribution License v1.0 which accompany this distribution.
hudakz 0:238f0d0c0ba3 7 *
hudakz 0:238f0d0c0ba3 8 * The Eclipse Public License is available at
hudakz 0:238f0d0c0ba3 9 * http://www.eclipse.org/legal/epl-v10.html
hudakz 0:238f0d0c0ba3 10 * and the Eclipse Distribution License is available at
hudakz 0:238f0d0c0ba3 11 * http://www.eclipse.org/org/documents/edl-v10.php.
hudakz 0:238f0d0c0ba3 12 *
hudakz 0:238f0d0c0ba3 13 * Contributors:
hudakz 0:238f0d0c0ba3 14 * Ian Craggs - initial API and implementation and/or initial documentation
hudakz 0:238f0d0c0ba3 15 *******************************************************************************/
hudakz 0:238f0d0c0ba3 16
hudakz 0:238f0d0c0ba3 17 #include "MQTTPacket.h"
hudakz 0:238f0d0c0ba3 18 #include "StackTrace.h"
hudakz 0:238f0d0c0ba3 19
hudakz 0:238f0d0c0ba3 20 #include <string.h>
hudakz 0:238f0d0c0ba3 21
hudakz 0:238f0d0c0ba3 22 /**
hudakz 0:238f0d0c0ba3 23 * Determines the length of the MQTT connect packet that would be produced using the supplied connect options.
hudakz 0:238f0d0c0ba3 24 * @param options the options to be used to build the connect packet
hudakz 0:238f0d0c0ba3 25 * @return the length of buffer needed to contain the serialized version of the packet
hudakz 0:238f0d0c0ba3 26 */
hudakz 0:238f0d0c0ba3 27 int MQTTSerialize_connectLength(MQTTPacket_connectData* options)
hudakz 0:238f0d0c0ba3 28 {
hudakz 0:238f0d0c0ba3 29 int len = 0;
hudakz 0:238f0d0c0ba3 30
hudakz 0:238f0d0c0ba3 31 FUNC_ENTRY;
hudakz 0:238f0d0c0ba3 32
hudakz 0:238f0d0c0ba3 33 if (options->MQTTVersion == 3)
hudakz 0:238f0d0c0ba3 34 len = 12; /* variable depending on MQTT or MQIsdp */
hudakz 0:238f0d0c0ba3 35 else if (options->MQTTVersion == 4)
hudakz 0:238f0d0c0ba3 36 len = 10;
hudakz 0:238f0d0c0ba3 37
hudakz 0:238f0d0c0ba3 38 len += MQTTstrlen(options->clientID)+2;
hudakz 0:238f0d0c0ba3 39 if (options->willFlag)
hudakz 0:238f0d0c0ba3 40 len += MQTTstrlen(options->will.topicName)+2 + MQTTstrlen(options->will.message)+2;
hudakz 0:238f0d0c0ba3 41 if (options->username.cstring || options->username.lenstring.data)
hudakz 0:238f0d0c0ba3 42 len += MQTTstrlen(options->username)+2;
hudakz 0:238f0d0c0ba3 43 if (options->password.cstring || options->password.lenstring.data)
hudakz 0:238f0d0c0ba3 44 len += MQTTstrlen(options->password)+2;
hudakz 0:238f0d0c0ba3 45
hudakz 0:238f0d0c0ba3 46 FUNC_EXIT_RC(len);
hudakz 0:238f0d0c0ba3 47 return len;
hudakz 0:238f0d0c0ba3 48 }
hudakz 0:238f0d0c0ba3 49
hudakz 0:238f0d0c0ba3 50
hudakz 0:238f0d0c0ba3 51 /**
hudakz 0:238f0d0c0ba3 52 * Serializes the connect options into the buffer.
hudakz 0:238f0d0c0ba3 53 * @param buf the buffer into which the packet will be serialized
hudakz 0:238f0d0c0ba3 54 * @param len the length in bytes of the supplied buffer
hudakz 0:238f0d0c0ba3 55 * @param options the options to be used to build the connect packet
hudakz 0:238f0d0c0ba3 56 * @return serialized length, or error if 0
hudakz 0:238f0d0c0ba3 57 */
hudakz 0:238f0d0c0ba3 58 int MQTTSerialize_connect(unsigned char* buf, int buflen, MQTTPacket_connectData* options)
hudakz 0:238f0d0c0ba3 59 {
hudakz 0:238f0d0c0ba3 60 unsigned char *ptr = buf;
hudakz 0:238f0d0c0ba3 61 MQTTHeader header = {0};
hudakz 0:238f0d0c0ba3 62 MQTTConnectFlags flags = {0};
hudakz 0:238f0d0c0ba3 63 int len = 0;
hudakz 0:238f0d0c0ba3 64 int rc = -1;
hudakz 0:238f0d0c0ba3 65
hudakz 0:238f0d0c0ba3 66 FUNC_ENTRY;
hudakz 0:238f0d0c0ba3 67 if (MQTTPacket_len(len = MQTTSerialize_connectLength(options)) > buflen)
hudakz 0:238f0d0c0ba3 68 {
hudakz 0:238f0d0c0ba3 69 rc = MQTTPACKET_BUFFER_TOO_SHORT;
hudakz 0:238f0d0c0ba3 70 goto exit;
hudakz 0:238f0d0c0ba3 71 }
hudakz 0:238f0d0c0ba3 72
hudakz 0:238f0d0c0ba3 73 header.byte = 0;
hudakz 0:238f0d0c0ba3 74 header.bits.type = CONNECT;
hudakz 0:238f0d0c0ba3 75 writeChar(&ptr, header.byte); /* write header */
hudakz 0:238f0d0c0ba3 76
hudakz 0:238f0d0c0ba3 77 ptr += MQTTPacket_encode(ptr, len); /* write remaining length */
hudakz 0:238f0d0c0ba3 78
hudakz 0:238f0d0c0ba3 79 if (options->MQTTVersion == 4)
hudakz 0:238f0d0c0ba3 80 {
hudakz 0:238f0d0c0ba3 81 writeCString(&ptr, "MQTT");
hudakz 0:238f0d0c0ba3 82 writeChar(&ptr, (char) 4);
hudakz 0:238f0d0c0ba3 83 }
hudakz 0:238f0d0c0ba3 84 else
hudakz 0:238f0d0c0ba3 85 {
hudakz 0:238f0d0c0ba3 86 writeCString(&ptr, "MQIsdp");
hudakz 0:238f0d0c0ba3 87 writeChar(&ptr, (char) 3);
hudakz 0:238f0d0c0ba3 88 }
hudakz 0:238f0d0c0ba3 89
hudakz 0:238f0d0c0ba3 90 flags.all = 0;
hudakz 0:238f0d0c0ba3 91 flags.bits.cleansession = options->cleansession;
hudakz 0:238f0d0c0ba3 92 flags.bits.will = (options->willFlag) ? 1 : 0;
hudakz 0:238f0d0c0ba3 93 if (flags.bits.will)
hudakz 0:238f0d0c0ba3 94 {
hudakz 0:238f0d0c0ba3 95 flags.bits.willQoS = options->will.qos;
hudakz 0:238f0d0c0ba3 96 flags.bits.willRetain = options->will.retained;
hudakz 0:238f0d0c0ba3 97 }
hudakz 0:238f0d0c0ba3 98
hudakz 0:238f0d0c0ba3 99 if (options->username.cstring || options->username.lenstring.data)
hudakz 0:238f0d0c0ba3 100 flags.bits.username = 1;
hudakz 0:238f0d0c0ba3 101 if (options->password.cstring || options->password.lenstring.data)
hudakz 0:238f0d0c0ba3 102 flags.bits.password = 1;
hudakz 0:238f0d0c0ba3 103
hudakz 0:238f0d0c0ba3 104 writeChar(&ptr, flags.all);
hudakz 0:238f0d0c0ba3 105 writeInt(&ptr, options->keepAliveInterval);
hudakz 0:238f0d0c0ba3 106 writeMQTTString(&ptr, options->clientID);
hudakz 0:238f0d0c0ba3 107 if (options->willFlag)
hudakz 0:238f0d0c0ba3 108 {
hudakz 0:238f0d0c0ba3 109 writeMQTTString(&ptr, options->will.topicName);
hudakz 0:238f0d0c0ba3 110 writeMQTTString(&ptr, options->will.message);
hudakz 0:238f0d0c0ba3 111 }
hudakz 0:238f0d0c0ba3 112 if (flags.bits.username)
hudakz 0:238f0d0c0ba3 113 writeMQTTString(&ptr, options->username);
hudakz 0:238f0d0c0ba3 114 if (flags.bits.password)
hudakz 0:238f0d0c0ba3 115 writeMQTTString(&ptr, options->password);
hudakz 0:238f0d0c0ba3 116
hudakz 0:238f0d0c0ba3 117 rc = ptr - buf;
hudakz 0:238f0d0c0ba3 118
hudakz 0:238f0d0c0ba3 119 exit: FUNC_EXIT_RC(rc);
hudakz 0:238f0d0c0ba3 120 return rc;
hudakz 0:238f0d0c0ba3 121 }
hudakz 0:238f0d0c0ba3 122
hudakz 0:238f0d0c0ba3 123
hudakz 0:238f0d0c0ba3 124 /**
hudakz 0:238f0d0c0ba3 125 * Deserializes the supplied (wire) buffer into connack data - return code
hudakz 0:238f0d0c0ba3 126 * @param sessionPresent the session present flag returned (only for MQTT 3.1.1)
hudakz 0:238f0d0c0ba3 127 * @param connack_rc returned integer value of the connack return code
hudakz 0:238f0d0c0ba3 128 * @param buf the raw buffer data, of the correct length determined by the remaining length field
hudakz 0:238f0d0c0ba3 129 * @param len the length in bytes of the data in the supplied buffer
hudakz 0:238f0d0c0ba3 130 * @return error code. 1 is success, 0 is failure
hudakz 0:238f0d0c0ba3 131 */
hudakz 0:238f0d0c0ba3 132 int MQTTDeserialize_connack(unsigned char* sessionPresent, unsigned char* connack_rc, unsigned char* buf, int buflen)
hudakz 0:238f0d0c0ba3 133 {
hudakz 0:238f0d0c0ba3 134 MQTTHeader header = {0};
hudakz 0:238f0d0c0ba3 135 unsigned char* curdata = buf;
hudakz 0:238f0d0c0ba3 136 unsigned char* enddata = NULL;
hudakz 0:238f0d0c0ba3 137 int rc = 0;
hudakz 0:238f0d0c0ba3 138 int mylen;
hudakz 0:238f0d0c0ba3 139 MQTTConnackFlags flags = {0};
hudakz 0:238f0d0c0ba3 140
hudakz 0:238f0d0c0ba3 141 FUNC_ENTRY;
hudakz 0:238f0d0c0ba3 142 header.byte = readChar(&curdata);
hudakz 0:238f0d0c0ba3 143 if (header.bits.type != CONNACK)
hudakz 0:238f0d0c0ba3 144 goto exit;
hudakz 0:238f0d0c0ba3 145
hudakz 0:238f0d0c0ba3 146 curdata += (rc = MQTTPacket_decodeBuf(curdata, &mylen)); /* read remaining length */
hudakz 0:238f0d0c0ba3 147 enddata = curdata + mylen;
hudakz 0:238f0d0c0ba3 148 if (enddata - curdata < 2)
hudakz 0:238f0d0c0ba3 149 goto exit;
hudakz 0:238f0d0c0ba3 150
hudakz 0:238f0d0c0ba3 151 flags.all = readChar(&curdata);
hudakz 0:238f0d0c0ba3 152 *sessionPresent = flags.bits.sessionpresent;
hudakz 0:238f0d0c0ba3 153 *connack_rc = readChar(&curdata);
hudakz 0:238f0d0c0ba3 154
hudakz 0:238f0d0c0ba3 155 rc = 1;
hudakz 0:238f0d0c0ba3 156 exit:
hudakz 0:238f0d0c0ba3 157 FUNC_EXIT_RC(rc);
hudakz 0:238f0d0c0ba3 158 return rc;
hudakz 0:238f0d0c0ba3 159 }
hudakz 0:238f0d0c0ba3 160
hudakz 0:238f0d0c0ba3 161
hudakz 0:238f0d0c0ba3 162
hudakz 0:238f0d0c0ba3 163 /**
hudakz 0:238f0d0c0ba3 164 * Serializes a 0-length packet into the supplied buffer, ready for writing to a socket
hudakz 0:238f0d0c0ba3 165 * @param buf the buffer into which the packet will be serialized
hudakz 0:238f0d0c0ba3 166 * @param buflen the length in bytes of the supplied buffer, to avoid overruns
hudakz 0:238f0d0c0ba3 167 * @param packettype the message type
hudakz 0:238f0d0c0ba3 168 * @return serialized length, or error if 0
hudakz 0:238f0d0c0ba3 169 */
hudakz 0:238f0d0c0ba3 170 int MQTTSerialize_zero(unsigned char* buf, int buflen, unsigned char packettype)
hudakz 0:238f0d0c0ba3 171 {
hudakz 0:238f0d0c0ba3 172 MQTTHeader header = {0};
hudakz 0:238f0d0c0ba3 173 int rc = -1;
hudakz 0:238f0d0c0ba3 174 unsigned char *ptr = buf;
hudakz 0:238f0d0c0ba3 175
hudakz 0:238f0d0c0ba3 176 FUNC_ENTRY;
hudakz 0:238f0d0c0ba3 177 if (buflen < 2)
hudakz 0:238f0d0c0ba3 178 {
hudakz 0:238f0d0c0ba3 179 rc = MQTTPACKET_BUFFER_TOO_SHORT;
hudakz 0:238f0d0c0ba3 180 goto exit;
hudakz 0:238f0d0c0ba3 181 }
hudakz 0:238f0d0c0ba3 182 header.byte = 0;
hudakz 0:238f0d0c0ba3 183 header.bits.type = packettype;
hudakz 0:238f0d0c0ba3 184 writeChar(&ptr, header.byte); /* write header */
hudakz 0:238f0d0c0ba3 185
hudakz 0:238f0d0c0ba3 186 ptr += MQTTPacket_encode(ptr, 0); /* write remaining length */
hudakz 0:238f0d0c0ba3 187 rc = ptr - buf;
hudakz 0:238f0d0c0ba3 188 exit:
hudakz 0:238f0d0c0ba3 189 FUNC_EXIT_RC(rc);
hudakz 0:238f0d0c0ba3 190 return rc;
hudakz 0:238f0d0c0ba3 191 }
hudakz 0:238f0d0c0ba3 192
hudakz 0:238f0d0c0ba3 193
hudakz 0:238f0d0c0ba3 194 /**
hudakz 0:238f0d0c0ba3 195 * Serializes a disconnect packet into the supplied buffer, ready for writing to a socket
hudakz 0:238f0d0c0ba3 196 * @param buf the buffer into which the packet will be serialized
hudakz 0:238f0d0c0ba3 197 * @param buflen the length in bytes of the supplied buffer, to avoid overruns
hudakz 0:238f0d0c0ba3 198 * @return serialized length, or error if 0
hudakz 0:238f0d0c0ba3 199 */
hudakz 0:238f0d0c0ba3 200 int MQTTSerialize_disconnect(unsigned char* buf, int buflen)
hudakz 0:238f0d0c0ba3 201 {
hudakz 0:238f0d0c0ba3 202 return MQTTSerialize_zero(buf, buflen, DISCONNECT);
hudakz 0:238f0d0c0ba3 203 }
hudakz 0:238f0d0c0ba3 204
hudakz 0:238f0d0c0ba3 205
hudakz 0:238f0d0c0ba3 206 /**
hudakz 0:238f0d0c0ba3 207 * Serializes a disconnect packet into the supplied buffer, ready for writing to a socket
hudakz 0:238f0d0c0ba3 208 * @param buf the buffer into which the packet will be serialized
hudakz 0:238f0d0c0ba3 209 * @param buflen the length in bytes of the supplied buffer, to avoid overruns
hudakz 0:238f0d0c0ba3 210 * @return serialized length, or error if 0
hudakz 0:238f0d0c0ba3 211 */
hudakz 0:238f0d0c0ba3 212 int MQTTSerialize_pingreq(unsigned char* buf, int buflen)
hudakz 0:238f0d0c0ba3 213 {
hudakz 0:238f0d0c0ba3 214 return MQTTSerialize_zero(buf, buflen, PINGREQ);
hudakz 0:238f0d0c0ba3 215 }