wolf SSL
MQTT and MQTTS with wolfSSL TSL library
MQTT is light weight publish/subscribe based messaging protocol for M2M, IoT. This library was forked from MQTT https://developer.mbed.org/teams/mqtt for adding MQTTS security layer on the protocol. TLS(SSL) part of the library is by wolfSSL.https://developer.mbed.org/users/wolfSSL/code/wolfSSL/
"connect" method was extended for TLS. Rest of API's stay compatible with MQTT.
connect methode
int connect(char* hostname, int port, const char *certName = NULL, int timeout=1000)
The 3rd argument certName can be following values.
- NULL: connecting with MQTT
- pointer to certificate file: connecting with MQTTS. PEM or DER for server verification.
- pointer to NULL string: connecting with MQTTS without server verification. This option is for prototyping only, not recommended in security perspective.
日本語:https://developer.mbed.org/users/wolfSSL/code/MQTTS/wiki/MQTTSライブラリ
Diff: MQTTClient.h
- Revision:
- 23:05fc7de97d4a
- Parent:
- 22:aadb79d29330
- Child:
- 25:d13a6c558164
- Child:
- 26:2658bb87c53d
--- a/MQTTClient.h Wed Apr 30 13:03:45 2014 +0000
+++ b/MQTTClient.h Tue May 06 09:44:23 2014 +0000
@@ -19,8 +19,13 @@
TODO:
log messages - use macros
+
define return code constants
+ call connectionLost at appropriate points - in sendPacket and readPacket
+
+ match wildcard topics
+
*/
#if !defined(MQTTCLIENT_H)
@@ -36,6 +41,8 @@
enum QoS { QOS0, QOS1, QOS2 };
+enum returnCode { BUFFER_OVERFLOW = -2, FAILURE = -1, SUCCESS = 0 };
+
struct Message
{
@@ -58,50 +65,36 @@
class PacketId
{
public:
- PacketId();
+ PacketId()
+ {
+ next = 0;
+ }
- int getNext();
+ int getNext()
+ {
+ return next = (next == MAX_PACKET_ID) ? 1 : ++next;
+ }
private:
static const int MAX_PACKET_ID = 65535;
int next;
};
-
-typedef void (*messageHandler)(Message*);
-
-typedef struct limits
-{
- int MAX_MQTT_PACKET_SIZE; //
- int MAX_MESSAGE_HANDLERS; // each subscription requires a message handler
- long command_timeout_ms;
-
- limits()
- {
- MAX_MQTT_PACKET_SIZE = 100;
- MAX_MESSAGE_HANDLERS = 5;
- command_timeout_ms = 30000;
- }
-} Limits;
/**
* @class Client
* @brief blocking, non-threaded MQTT client API
+ *
+ * This version of the API blocks on all method calls, until they are complete. This means that only one
+ * MQTT request can be in process at any one time.
* @param Network a network class which supports send, receive
* @param Timer a timer class with the methods:
*/
-template<class Network, class Timer> class Client
+template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE = 100, int MAX_MESSAGE_HANDLERS = 5> class Client
{
public:
- /** Construct the client
- * @param network - pointer to an instance of the Network class - must be connected to the endpoint
- * before calling MQTT connect
- * @param limits an instance of the Limit class - to alter limits as required
- */
- Client(Network* network, const Limits limits = Limits());
-
typedef struct
{
Client* client;
@@ -109,6 +102,14 @@
} connectionLostInfo;
typedef int (*connectionLostHandlers)(connectionLostInfo*);
+ typedef void (*messageHandler)(Message*);
+
+ /** Construct the client
+ * @param network - pointer to an instance of the Network class - must be connected to the endpoint
+ * before calling MQTT connect
+ * @param limits an instance of the Limit class - to alter limits as required
+ */
+ Client(Network& network, unsigned int command_timeout_ms = 30000);
/** Set the connection lost callback - called whenever the connection is lost and we should be connected
* @param clh - pointer to the callback function
@@ -162,8 +163,9 @@
/** A call to this API must be made within the keepAlive interval to keep the MQTT connection alive
* yield can be called if no other MQTT operation is needed. This will also allow messages to be
* received.
+ * @param timeout_ms the time to wait, in milliseconds
*/
- void yield(int timeout);
+ void yield(int timeout_ms = 1000);
private:
@@ -176,12 +178,11 @@
int sendPacket(int length, Timer& timer);
int deliverMessage(MQTTString* topic, Message* message);
- Network* ipstack;
+ Network& ipstack;
+ unsigned int command_timeout_ms;
- Limits limits;
-
- char* buf;
- char* readbuf;
+ char buf[MAX_MQTT_PACKET_SIZE];
+ char readbuf[MAX_MQTT_PACKET_SIZE];
Timer ping_timer;
unsigned int keepAliveInterval;
@@ -194,12 +195,11 @@
{
const char* topic;
messageHandlerFP fp;
- } *messageHandlers; // Message handlers are indexed by subscription topic
+ } messageHandlers[MAX_MESSAGE_HANDLERS]; // Message handlers are indexed by subscription topic
messageHandlerFP defaultMessageHandler;
typedef FP<int, connectionLostInfo*> connectionLostFP;
-
connectionLostFP connectionLostHandler;
};
@@ -207,34 +207,46 @@
}
-template<class Network, class Timer> MQTT::Client<Network, Timer>::Client(Network* network, Limits limits) : limits(limits), packetid()
+template<class Network, class Timer, int a, int MAX_MESSAGE_HANDLERS>
+MQTT::Client<Network, Timer, a, MAX_MESSAGE_HANDLERS>::Client(Network& network, unsigned int command_timeout_ms) : ipstack(network), packetid()
{
- this->ipstack = network;
- this->ping_timer = Timer();
- this->ping_outstanding = 0;
-
- // How to make these memory allocations portable? I was hoping to avoid the heap
- buf = new char[limits.MAX_MQTT_PACKET_SIZE];
- readbuf = new char[limits.MAX_MQTT_PACKET_SIZE];
- this->messageHandlers = new struct MessageHandlers[limits.MAX_MESSAGE_HANDLERS];
- for (int i = 0; i < limits.MAX_MESSAGE_HANDLERS; ++i)
+ ping_timer = Timer();
+ ping_outstanding = 0;
+ for (int i = 0; i < MAX_MESSAGE_HANDLERS; ++i)
messageHandlers[i].topic = 0;
+ this->command_timeout_ms = command_timeout_ms;
}
-template<class Network, class Timer> int MQTT::Client<Network, Timer>::sendPacket(int length, Timer& timer)
+template<class Network, class Timer, int a, int b>
+int MQTT::Client<Network, Timer, a, b>::sendPacket(int length, Timer& timer)
{
- int sent = 0;
+ int rc = FAILURE,
+ sent = 0;
- while (sent < length)
- sent += ipstack->write(&buf[sent], length, timer.left_ms());
+ while (sent < length && !timer.expired())
+ {
+ rc = ipstack.write(&buf[sent], length, timer.left_ms());
+ if (rc == -1)
+ {
+ connectionLostInfo info = {this, &ipstack};
+ connectionLostHandler(&info);
+ }
+ else
+ sent += rc;
+ }
if (sent == length)
+ {
ping_timer.countdown(this->keepAliveInterval); // record the fact that we have successfully sent the packet
- return sent;
+ rc = SUCCESS;
+ }
+ else
+ rc = FAILURE;
+ return rc;
}
-template<class Network, class Timer> int MQTT::Client<Network, Timer>::decodePacket(int* value, int timeout)
+template<class Network, class Timer, int a, int b> int MQTT::Client<Network, Timer, a, b>::decodePacket(int* value, int timeout)
{
char c;
int multiplier = 1;
@@ -251,7 +263,7 @@
rc = MQTTPACKET_READ_ERROR; /* bad data */
goto exit;
}
- rc = ipstack->read(&c, 1, timeout);
+ rc = ipstack.read(&c, 1, timeout);
if (rc != 1)
goto exit;
*value += (c & 127) * multiplier;
@@ -268,7 +280,8 @@
* @param timeout the max time to wait for the packet read to complete, in milliseconds
* @return the MQTT packet type, or -1 if none
*/
-template<class Network, class Timer> int MQTT::Client<Network, Timer>::readPacket(Timer& timer)
+template<class Network, class Timer, int a, int b>
+int MQTT::Client<Network, Timer, a, b>::readPacket(Timer& timer)
{
int rc = -1;
MQTTHeader header = {0};
@@ -276,7 +289,7 @@
int rem_len = 0;
/* 1. read the header byte. This has the packet type in it */
- if (ipstack->read(readbuf, 1, timer.left_ms()) != 1)
+ if (ipstack.read(readbuf, 1, timer.left_ms()) != 1)
goto exit;
len = 1;
@@ -285,7 +298,7 @@
len += MQTTPacket_encode(readbuf + 1, rem_len); /* put the original remaining length back into the buffer */
/* 3. read the rest of the buffer using a callback to supply the rest of the data */
- if (ipstack->read(readbuf + len, rem_len, timer.left_ms()) != rem_len)
+ if (ipstack.read(readbuf + len, rem_len, timer.left_ms()) != rem_len)
goto exit;
header.byte = readbuf[0];
@@ -295,12 +308,13 @@
}
-template<class Network, class Timer> int MQTT::Client<Network, Timer>::deliverMessage(MQTTString* topic, Message* message)
+template<class Network, class Timer, int a, int MAX_MESSAGE_HANDLERS>
+int MQTT::Client<Network, Timer, a, MAX_MESSAGE_HANDLERS>::deliverMessage(MQTTString* topic, Message* message)
{
int rc = -1;
// we have to find the right message handler - indexed by topic
- for (int i = 0; i < limits.MAX_MESSAGE_HANDLERS; ++i)
+ for (int i = 0; i < MAX_MESSAGE_HANDLERS; ++i)
{
if (messageHandlers[i].topic != 0 && MQTTPacket_equals(topic, (char*)messageHandlers[i].topic))
{
@@ -317,17 +331,19 @@
-template<class Network, class Timer> void MQTT::Client<Network, Timer>::yield(int timeout)
+template<class Network, class Timer, int a, int b>
+void MQTT::Client<Network, Timer, a, b>::yield(int timeout_ms)
{
Timer timer = Timer();
- timer.countdown_ms(timeout);
+ timer.countdown_ms(timeout_ms);
while (!timer.expired())
cycle(timer);
}
-template<class Network, class Timer> int MQTT::Client<Network, Timer>::cycle(Timer& timer)
+template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
+int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::cycle(Timer& timer)
{
/* get one piece of work off the wire and one pass through */
@@ -345,26 +361,24 @@
MQTTString topicName;
Message msg;
rc = MQTTDeserialize_publish((int*)&msg.dup, (int*)&msg.qos, (int*)&msg.retained, (int*)&msg.id, &topicName,
- (char**)&msg.payload, (int*)&msg.payloadlen, readbuf, limits.MAX_MQTT_PACKET_SIZE);;
+ (char**)&msg.payload, (int*)&msg.payloadlen, readbuf, MAX_MQTT_PACKET_SIZE);;
deliverMessage(&topicName, &msg);
if (msg.qos != QOS0)
{
if (msg.qos == QOS1)
- len = MQTTSerialize_ack(buf, limits.MAX_MQTT_PACKET_SIZE, PUBACK, 0, msg.id);
+ len = MQTTSerialize_ack(buf, MAX_MQTT_PACKET_SIZE, PUBACK, 0, msg.id);
else if (msg.qos == QOS2)
- len = MQTTSerialize_ack(buf, limits.MAX_MQTT_PACKET_SIZE, PUBREC, 0, msg.id);
- rc = sendPacket(len, timer);
- if (rc != len)
+ len = MQTTSerialize_ack(buf, MAX_MQTT_PACKET_SIZE, PUBREC, 0, msg.id);
+ if ((rc = sendPacket(len, timer)) != SUCCESS)
goto exit; // there was a problem
}
break;
case PUBREC:
int type, dup, mypacketid;
- if (MQTTDeserialize_ack(&type, &dup, &mypacketid, readbuf, limits.MAX_MQTT_PACKET_SIZE) == 1)
+ if (MQTTDeserialize_ack(&type, &dup, &mypacketid, readbuf, MAX_MQTT_PACKET_SIZE) == 1)
;
- len = MQTTSerialize_ack(buf, limits.MAX_MQTT_PACKET_SIZE, PUBREL, 0, mypacketid);
- rc = sendPacket(len, timer); // send the PUBREL packet
- if (rc != len)
+ len = MQTTSerialize_ack(buf, MAX_MQTT_PACKET_SIZE, PUBREL, 0, mypacketid);
+ if ((rc = sendPacket(len, timer)) != SUCCESS) // send the PUBREL packet
goto exit; // there was a problem
break;
@@ -380,7 +394,8 @@
}
-template<class Network, class Timer> int MQTT::Client<Network, Timer>::keepalive()
+template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
+int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::keepalive()
{
int rc = 0;
@@ -394,9 +409,9 @@
else
{
Timer timer = Timer(1000);
- int len = MQTTSerialize_pingreq(buf, limits.MAX_MQTT_PACKET_SIZE);
+ int len = MQTTSerialize_pingreq(buf, MAX_MQTT_PACKET_SIZE);
rc = sendPacket(len, timer); // send the ping packet
- if (rc != len)
+ if (rc != SUCCESS)
rc = -1; // indicate there's a problem
else
ping_outstanding = true;
@@ -409,7 +424,8 @@
// only used in single-threaded mode where one command at a time is in process
-template<class Network, class Timer> int MQTT::Client<Network, Timer>::waitfor(int packet_type, Timer& timer)
+template<class Network, class Timer, int a, int b>
+int MQTT::Client<Network, Timer, a, b>::waitfor(int packet_type, Timer& timer)
{
int rc = -1;
@@ -424,9 +440,10 @@
}
-template<class Network, class Timer> int MQTT::Client<Network, Timer>::connect(MQTTPacket_connectData* options)
+template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
+int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::connect(MQTTPacket_connectData* options)
{
- Timer connect_timer = Timer(limits.command_timeout_ms);
+ Timer connect_timer = Timer(command_timeout_ms);
MQTTPacket_connectData default_options = MQTTPacket_connectData_initializer;
if (options == 0)
@@ -434,16 +451,16 @@
this->keepAliveInterval = options->keepAliveInterval;
ping_timer.countdown(this->keepAliveInterval);
- int len = MQTTSerialize_connect(buf, limits.MAX_MQTT_PACKET_SIZE, options);
+ int len = MQTTSerialize_connect(buf, MAX_MQTT_PACKET_SIZE, options);
int rc = sendPacket(len, connect_timer); // send the connect packet
- if (rc != len)
+ if (rc != SUCCESS)
goto exit; // there was a problem
// this will be a blocking call, wait for the connack
if (waitfor(CONNACK, connect_timer) == CONNACK)
{
int connack_rc = -1;
- if (MQTTDeserialize_connack(&connack_rc, readbuf, limits.MAX_MQTT_PACKET_SIZE) == 1)
+ if (MQTTDeserialize_connack(&connack_rc, readbuf, MAX_MQTT_PACKET_SIZE) == 1)
rc = connack_rc;
}
@@ -452,28 +469,29 @@
}
-template<class Network, class Timer> int MQTT::Client<Network, Timer>::subscribe(const char* topicFilter, enum QoS qos, messageHandler messageHandler)
+template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int MAX_MESSAGE_HANDLERS>
+int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, MAX_MESSAGE_HANDLERS>::subscribe(const char* topicFilter, enum QoS qos, messageHandler messageHandler)
{
int len = -1;
- Timer timer = Timer(limits.command_timeout_ms);
+ Timer timer = Timer(command_timeout_ms);
MQTTString topic = {(char*)topicFilter, 0, 0};
- int rc = MQTTSerialize_subscribe(buf, limits.MAX_MQTT_PACKET_SIZE, 0, packetid.getNext(), 1, &topic, (int*)&qos);
+ int rc = MQTTSerialize_subscribe(buf, MAX_MQTT_PACKET_SIZE, 0, packetid.getNext(), 1, &topic, (int*)&qos);
if (rc <= 0)
goto exit;
len = rc;
- if ((rc = sendPacket(len, timer)) != len) // send the subscribe packet
+ if ((rc = sendPacket(len, timer)) != SUCCESS) // send the subscribe packet
goto exit; // there was a problem
if (waitfor(SUBACK, timer) == SUBACK) // wait for suback
{
int count = 0, grantedQoS = -1, mypacketid;
- if (MQTTDeserialize_suback(&mypacketid, 1, &count, &grantedQoS, readbuf, limits.MAX_MQTT_PACKET_SIZE) == 1)
+ if (MQTTDeserialize_suback(&mypacketid, 1, &count, &grantedQoS, readbuf, MAX_MQTT_PACKET_SIZE) == 1)
rc = grantedQoS; // 0, 1, 2 or 0x80
if (rc != 0x80)
{
- for (int i = 0; i < limits.MAX_MESSAGE_HANDLERS; ++i)
+ for (int i = 0; i < MAX_MESSAGE_HANDLERS; ++i)
{
if (messageHandlers[i].topic == 0)
{
@@ -491,24 +509,25 @@
}
-template<class Network, class Timer> int MQTT::Client<Network, Timer>::unsubscribe(const char* topicFilter)
+template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int MAX_MESSAGE_HANDLERS>
+int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, MAX_MESSAGE_HANDLERS>::unsubscribe(const char* topicFilter)
{
int len = -1;
- Timer timer = Timer(limits.command_timeout_ms);
+ Timer timer = Timer(command_timeout_ms);
MQTTString topic = {(char*)topicFilter, 0, 0};
- int rc = MQTTSerialize_unsubscribe(buf, limits.MAX_MQTT_PACKET_SIZE, 0, packetid.getNext(), 1, &topic);
+ int rc = MQTTSerialize_unsubscribe(buf, MAX_MQTT_PACKET_SIZE, 0, packetid.getNext(), 1, &topic);
if (rc <= 0)
goto exit;
len = rc;
- if ((rc = sendPacket(len, timer)) != len) // send the subscribe packet
+ if ((rc = sendPacket(len, timer)) != SUCCESS) // send the subscribe packet
goto exit; // there was a problem
if (waitfor(UNSUBACK, timer) == UNSUBACK)
{
int mypacketid; // should be the same as the packetid above
- if (MQTTDeserialize_unsuback(&mypacketid, readbuf, limits.MAX_MQTT_PACKET_SIZE) == 1)
+ if (MQTTDeserialize_unsuback(&mypacketid, readbuf, MAX_MQTT_PACKET_SIZE) == 1)
rc = 0;
}
@@ -518,19 +537,20 @@
-template<class Network, class Timer> int MQTT::Client<Network, Timer>::publish(const char* topicName, Message* message)
+template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
+int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::publish(const char* topicName, Message* message)
{
- Timer timer = Timer(limits.command_timeout_ms);
+ Timer timer = Timer(command_timeout_ms);
MQTTString topicString = {(char*)topicName, 0, 0};
if (message->qos == QOS1 || message->qos == QOS2)
message->id = packetid.getNext();
- int len = MQTTSerialize_publish(buf, limits.MAX_MQTT_PACKET_SIZE, 0, message->qos, message->retained, message->id,
+ int len = MQTTSerialize_publish(buf, MAX_MQTT_PACKET_SIZE, 0, message->qos, message->retained, message->id,
topicString, (char*)message->payload, message->payloadlen);
int rc = sendPacket(len, timer); // send the subscribe packet
- if (rc != len)
+ if (rc != SUCCESS)
goto exit; // there was a problem
if (message->qos == QOS1)
@@ -538,7 +558,7 @@
if (waitfor(PUBACK, timer) == PUBACK)
{
int type, dup, mypacketid;
- if (MQTTDeserialize_ack(&type, &dup, &mypacketid, readbuf, limits.MAX_MQTT_PACKET_SIZE) == 1)
+ if (MQTTDeserialize_ack(&type, &dup, &mypacketid, readbuf, MAX_MQTT_PACKET_SIZE) == 1)
rc = 0;
}
}
@@ -547,7 +567,7 @@
if (waitfor(PUBCOMP, timer) == PUBCOMP)
{
int type, dup, mypacketid;
- if (MQTTDeserialize_ack(&type, &dup, &mypacketid, readbuf, limits.MAX_MQTT_PACKET_SIZE) == 1)
+ if (MQTTDeserialize_ack(&type, &dup, &mypacketid, readbuf, MAX_MQTT_PACKET_SIZE) == 1)
rc = 0;
}
}
@@ -557,13 +577,14 @@
}
-template<class Network, class Timer> int MQTT::Client<Network, Timer>::disconnect()
+template<class Network, class Timer, int MAX_MQTT_PACKET_SIZE, int b>
+int MQTT::Client<Network, Timer, MAX_MQTT_PACKET_SIZE, b>::disconnect()
{
- Timer timer = Timer(limits.command_timeout_ms); // we might wait for incomplete incoming publishes to complete
- int len = MQTTSerialize_disconnect(buf, limits.MAX_MQTT_PACKET_SIZE);
+ Timer timer = Timer(command_timeout_ms); // we might wait for incomplete incoming publishes to complete
+ int len = MQTTSerialize_disconnect(buf, MAX_MQTT_PACKET_SIZE);
int rc = sendPacket(len, timer); // send the disconnect packet
- return (rc == len) ? 0 : -1;
+ return rc;
}