PreVerify/mqtt/paho.mqtt.c/MQTTProtocolClient.c

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2024-09-09 19:18:28 +08:00
/*******************************************************************************
* Copyright (c) 2009, 2022 IBM Corp. and Ian Craggs
*
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v2.0
* and Eclipse Distribution License v1.0 which accompany this distribution.
*
* The Eclipse Public License is available at
* https://www.eclipse.org/legal/epl-2.0/
* and the Eclipse Distribution License is available at
* http://www.eclipse.org/org/documents/edl-v10.php.
*
* Contributors:
* Ian Craggs - initial API and implementation and/or initial documentation
* Ian Craggs - fix for bug 413429 - connectionLost not called
* Ian Craggs - fix for bug 421103 - trying to write to same socket, in retry
* Rong Xiang, Ian Craggs - C++ compatibility
* Ian Craggs - turn off DUP flag for PUBREL - MQTT 3.1.1
* Ian Craggs - ensure that acks are not sent if write is outstanding on socket
* Ian Craggs - MQTT 5.0 support
*******************************************************************************/
/**
* @file
* \brief Functions dealing with the MQTT protocol exchanges
*
* Some other related functions are in the MQTTProtocolOut module
* */
#include <stdlib.h>
#include <string.h>
#include <stdint.h>
#include "MQTTProtocolClient.h"
#if !defined(NO_PERSISTENCE)
#include "MQTTPersistence.h"
#endif
#include "Socket.h"
#include "SocketBuffer.h"
#include "StackTrace.h"
#include "Heap.h"
#if !defined(min)
#define min(A,B) ( (A) < (B) ? (A):(B))
#endif
extern MQTTProtocol state;
extern ClientStates* bstate;
static void MQTTProtocol_storeQoS0(Clients* pubclient, Publish* publish);
static int MQTTProtocol_startPublishCommon(
Clients* pubclient,
Publish* publish,
int qos,
int retained);
static void MQTTProtocol_retries(START_TIME_TYPE now, Clients* client, int regardless);
static int MQTTProtocol_queueAck(Clients* client, int ackType, int msgId);
typedef struct {
int messageId;
int ackType;
} AckRequest;
/**
* List callback function for comparing Message structures by message id
* @param a first integer value
* @param b second integer value
* @return boolean indicating whether a and b are equal
*/
int messageIDCompare(void* a, void* b)
{
Messages* msg = (Messages*)a;
return msg->msgid == *(int*)b;
}
/**
* Assign a new message id for a client. Make sure it isn't already being used and does
* not exceed the maximum.
* @param client a client structure
* @return the next message id to use, or 0 if none available
*/
int MQTTProtocol_assignMsgId(Clients* client)
{
int start_msgid = client->msgID;
int msgid = start_msgid;
FUNC_ENTRY;
msgid = (msgid == MAX_MSG_ID) ? 1 : msgid + 1;
while (ListFindItem(client->outboundMsgs, &msgid, messageIDCompare) != NULL)
{
msgid = (msgid == MAX_MSG_ID) ? 1 : msgid + 1;
if (msgid == start_msgid)
{ /* we've tried them all - none free */
msgid = 0;
break;
}
}
if (msgid != 0)
client->msgID = msgid;
FUNC_EXIT_RC(msgid);
return msgid;
}
static void MQTTProtocol_storeQoS0(Clients* pubclient, Publish* publish)
{
int len;
pending_write* pw = NULL;
FUNC_ENTRY;
/* store the publication until the write is finished */
if ((pw = malloc(sizeof(pending_write))) == NULL)
goto exit;
Log(TRACE_MIN, 12, NULL);
if ((pw->p = MQTTProtocol_storePublication(publish, &len)) == NULL)
{
free(pw);
goto exit;
}
pw->socket = pubclient->net.socket;
if (!ListAppend(&(state.pending_writes), pw, sizeof(pending_write)+len))
{
free(pw->p);
free(pw);
goto exit;
}
/* we don't copy QoS 0 messages unless we have to, so now we have to tell the socket buffer where
the saved copy is */
if (SocketBuffer_updateWrite(pw->socket, pw->p->topic, pw->p->payload) == NULL)
Log(LOG_SEVERE, 0, "Error updating write");
publish->payload = publish->topic = NULL;
exit:
FUNC_EXIT;
}
/**
* Utility function to start a new publish exchange.
* @param pubclient the client to send the publication to
* @param publish the publication data
* @param qos the MQTT QoS to use
* @param retained boolean - whether to set the MQTT retained flag
* @return the completion code
*/
static int MQTTProtocol_startPublishCommon(Clients* pubclient, Publish* publish, int qos, int retained)
{
int rc = TCPSOCKET_COMPLETE;
FUNC_ENTRY;
rc = MQTTPacket_send_publish(publish, 0, qos, retained, &pubclient->net, pubclient->clientID);
if (qos == 0 && rc == TCPSOCKET_INTERRUPTED)
MQTTProtocol_storeQoS0(pubclient, publish);
FUNC_EXIT_RC(rc);
return rc;
}
/**
* Start a new publish exchange. Store any state necessary and try to send the packet
* @param pubclient the client to send the publication to
* @param publish the publication data
* @param qos the MQTT QoS to use
* @param retained boolean - whether to set the MQTT retained flag
* @param mm - pointer to the message to send
* @return the completion code
*/
int MQTTProtocol_startPublish(Clients* pubclient, Publish* publish, int qos, int retained, Messages** mm)
{
Publish qos12pub = *publish;
int rc = 0;
FUNC_ENTRY;
if (qos > 0)
{
*mm = MQTTProtocol_createMessage(publish, mm, qos, retained, 0);
ListAppend(pubclient->outboundMsgs, *mm, (*mm)->len);
/* we change these pointers to the saved message location just in case the packet could not be written
entirely; the socket buffer will use these locations to finish writing the packet */
qos12pub.payload = (*mm)->publish->payload;
qos12pub.topic = (*mm)->publish->topic;
qos12pub.properties = (*mm)->properties;
qos12pub.MQTTVersion = (*mm)->MQTTVersion;
publish = &qos12pub;
}
rc = MQTTProtocol_startPublishCommon(pubclient, publish, qos, retained);
if (qos > 0)
memcpy((*mm)->publish->mask, publish->mask, sizeof((*mm)->publish->mask));
FUNC_EXIT_RC(rc);
return rc;
}
/**
* Copy and store message data for retries
* @param publish the publication data
* @param mm - pointer to the message data to store
* @param qos the MQTT QoS to use
* @param retained boolean - whether to set the MQTT retained flag
* @param allocatePayload boolean - whether or not to malloc payload
* @return pointer to the message data stored
*/
Messages* MQTTProtocol_createMessage(Publish* publish, Messages **mm, int qos, int retained, int allocatePayload)
{
Messages* m = malloc(sizeof(Messages));
FUNC_ENTRY;
if (!m)
goto exit;
m->len = sizeof(Messages);
if (*mm == NULL || (*mm)->publish == NULL)
{
int len1;
*mm = m;
if ((m->publish = MQTTProtocol_storePublication(publish, &len1)) == NULL)
{
free(m);
goto exit;
}
m->len += len1;
if (allocatePayload)
{
char *temp = m->publish->payload;
if ((m->publish->payload = malloc(m->publish->payloadlen)) == NULL)
{
free(m);
goto exit;
}
memcpy(m->publish->payload, temp, m->publish->payloadlen);
}
}
else /* this is now never used, I think */
{
++(((*mm)->publish)->refcount);
m->publish = (*mm)->publish;
}
m->msgid = publish->msgId;
m->qos = qos;
m->retain = retained;
m->MQTTVersion = publish->MQTTVersion;
if (m->MQTTVersion >= 5)
m->properties = MQTTProperties_copy(&publish->properties);
m->lastTouch = MQTTTime_now();
if (qos == 2)
m->nextMessageType = PUBREC;
exit:
FUNC_EXIT;
return m;
}
/**
* Store message data for possible retry
* @param publish the publication data
* @param len returned length of the data stored
* @return the publication stored
*/
Publications* MQTTProtocol_storePublication(Publish* publish, int* len)
{
Publications* p = malloc(sizeof(Publications));
FUNC_ENTRY;
if (!p)
goto exit;
p->refcount = 1;
*len = (int)strlen(publish->topic)+1;
p->topic = publish->topic;
publish->topic = NULL;
*len += sizeof(Publications);
p->topiclen = publish->topiclen;
p->payloadlen = publish->payloadlen;
p->payload = publish->payload;
publish->payload = NULL;
*len += publish->payloadlen;
memcpy(p->mask, publish->mask, sizeof(p->mask));
if ((ListAppend(&(state.publications), p, *len)) == NULL)
{
free(p);
p = NULL;
}
exit:
FUNC_EXIT;
return p;
}
/**
* Remove stored message data. Opposite of storePublication
* @param p stored publication to remove
*/
void MQTTProtocol_removePublication(Publications* p)
{
FUNC_ENTRY;
if (p && --(p->refcount) == 0)
{
if (p->payload)
{
free(p->payload);
p->payload = NULL;
}
if (p->topic)
{
free(p->topic);
p->topic = NULL;
}
ListRemove(&(state.publications), p);
}
FUNC_EXIT;
}
/**
* Process an incoming publish packet for a socket
* The payload field of the packet has not been transferred to another buffer at this point.
* If it's needed beyond the scope of this function, it has to be copied.
* @param pack pointer to the publish packet
* @param sock the socket on which the packet was received
* @return completion code
*/
int MQTTProtocol_handlePublishes(void* pack, SOCKET sock)
{
Publish* publish = (Publish*)pack;
Clients* client = NULL;
char* clientid = NULL;
int rc = TCPSOCKET_COMPLETE;
int socketHasPendingWrites = 0;
FUNC_ENTRY;
client = (Clients*)(ListFindItem(bstate->clients, &sock, clientSocketCompare)->content);
clientid = client->clientID;
Log(LOG_PROTOCOL, 11, NULL, sock, clientid, publish->msgId, publish->header.bits.qos,
publish->header.bits.retain, publish->payloadlen, min(20, publish->payloadlen), publish->payload);
if (publish->header.bits.qos == 0)
{
Protocol_processPublication(publish, client, 1);
goto exit;
}
socketHasPendingWrites = !Socket_noPendingWrites(sock);
if (publish->header.bits.qos == 1)
{
Protocol_processPublication(publish, client, 1);
if (socketHasPendingWrites)
rc = MQTTProtocol_queueAck(client, PUBACK, publish->msgId);
else
rc = MQTTPacket_send_puback(publish->MQTTVersion, publish->msgId, &client->net, client->clientID);
}
else if (publish->header.bits.qos == 2)
{
/* store publication in inbound list */
int len;
int already_received = 0;
ListElement* listElem = NULL;
Messages* m = malloc(sizeof(Messages));
Publications* p = NULL;
if (!m)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
p = MQTTProtocol_storePublication(publish, &len);
m->publish = p;
m->msgid = publish->msgId;
m->qos = publish->header.bits.qos;
m->retain = publish->header.bits.retain;
m->MQTTVersion = publish->MQTTVersion;
if (m->MQTTVersion >= MQTTVERSION_5)
m->properties = MQTTProperties_copy(&publish->properties);
m->nextMessageType = PUBREL;
if ((listElem = ListFindItem(client->inboundMsgs, &(m->msgid), messageIDCompare)) != NULL)
{ /* discard queued publication with same msgID that the current incoming message */
Messages* msg = (Messages*)(listElem->content);
MQTTProtocol_removePublication(msg->publish);
if (msg->MQTTVersion >= MQTTVERSION_5)
MQTTProperties_free(&msg->properties);
ListInsert(client->inboundMsgs, m, sizeof(Messages) + len, listElem);
ListRemove(client->inboundMsgs, msg);
already_received = 1;
} else
ListAppend(client->inboundMsgs, m, sizeof(Messages) + len);
if (m->MQTTVersion >= MQTTVERSION_5 && already_received == 0)
{
Publish publish1;
publish1.header.bits.qos = m->qos;
publish1.header.bits.retain = m->retain;
publish1.msgId = m->msgid;
publish1.topic = m->publish->topic;
publish1.topiclen = m->publish->topiclen;
publish1.payload = m->publish->payload;
publish1.payloadlen = m->publish->payloadlen;
publish1.MQTTVersion = m->MQTTVersion;
publish1.properties = m->properties;
Protocol_processPublication(&publish1, client, 1);
ListRemove(&(state.publications), m->publish);
m->publish = NULL;
} else
{ /* allocate and copy payload data as it's needed for pubrel.
For other cases, it's done in Protocol_processPublication */
char *temp = m->publish->payload;
if ((m->publish->payload = malloc(m->publish->payloadlen)) == NULL)
{
rc = PAHO_MEMORY_ERROR;
goto exit;
}
memcpy(m->publish->payload, temp, m->publish->payloadlen);
}
if (socketHasPendingWrites)
rc = MQTTProtocol_queueAck(client, PUBREC, publish->msgId);
else
rc = MQTTPacket_send_pubrec(publish->MQTTVersion, publish->msgId, &client->net, client->clientID);
publish->topic = NULL;
}
exit:
MQTTPacket_freePublish(publish);
FUNC_EXIT_RC(rc);
return rc;
}
/**
* Process an incoming puback packet for a socket
* @param pack pointer to the publish packet
* @param sock the socket on which the packet was received
* @return completion code
*/
int MQTTProtocol_handlePubacks(void* pack, SOCKET sock, Publications** pubToRemove)
{
Puback* puback = (Puback*)pack;
Clients* client = NULL;
int rc = TCPSOCKET_COMPLETE;
FUNC_ENTRY;
client = (Clients*)(ListFindItem(bstate->clients, &sock, clientSocketCompare)->content);
Log(LOG_PROTOCOL, 14, NULL, sock, client->clientID, puback->msgId);
/* look for the message by message id in the records of outbound messages for this client */
if (ListFindItem(client->outboundMsgs, &(puback->msgId), messageIDCompare) == NULL)
Log(TRACE_MIN, 3, NULL, "PUBACK", client->clientID, puback->msgId);
else
{
Messages* m = (Messages*)(client->outboundMsgs->current->content);
if (m->qos != 1)
Log(TRACE_MIN, 4, NULL, "PUBACK", client->clientID, puback->msgId, m->qos);
else
{
Log(TRACE_MIN, 6, NULL, "PUBACK", client->clientID, puback->msgId);
#if !defined(NO_PERSISTENCE)
rc = MQTTPersistence_remove(client,
(m->MQTTVersion >= MQTTVERSION_5) ? PERSISTENCE_V5_PUBLISH_SENT : PERSISTENCE_PUBLISH_SENT,
m->qos, puback->msgId);
#endif
if (pubToRemove != NULL)
*pubToRemove = m->publish;
else
MQTTProtocol_removePublication(m->publish);
if (m->MQTTVersion >= MQTTVERSION_5)
MQTTProperties_free(&m->properties);
ListRemove(client->outboundMsgs, m);
}
}
if (puback->MQTTVersion >= MQTTVERSION_5)
MQTTProperties_free(&puback->properties);
free(pack);
FUNC_EXIT_RC(rc);
return rc;
}
/**
* Process an incoming pubrec packet for a socket
* @param pack pointer to the publish packet
* @param sock the socket on which the packet was received
* @return completion code
*/
int MQTTProtocol_handlePubrecs(void* pack, SOCKET sock, Publications** pubToRemove)
{
Pubrec* pubrec = (Pubrec*)pack;
Clients* client = NULL;
int rc = TCPSOCKET_COMPLETE;
int send_pubrel = 1; /* boolean to send PUBREL or not */
FUNC_ENTRY;
client = (Clients*)(ListFindItem(bstate->clients, &sock, clientSocketCompare)->content);
Log(LOG_PROTOCOL, 15, NULL, sock, client->clientID, pubrec->msgId);
/* look for the message by message id in the records of outbound messages for this client */
client->outboundMsgs->current = NULL;
if (ListFindItem(client->outboundMsgs, &(pubrec->msgId), messageIDCompare) == NULL)
{
if (pubrec->header.bits.dup == 0)
Log(TRACE_MIN, 3, NULL, "PUBREC", client->clientID, pubrec->msgId);
}
else
{
Messages* m = (Messages*)(client->outboundMsgs->current->content);
if (m->qos != 2)
{
if (pubrec->header.bits.dup == 0)
Log(TRACE_MIN, 4, NULL, "PUBREC", client->clientID, pubrec->msgId, m->qos);
}
else if (m->nextMessageType != PUBREC)
{
if (pubrec->header.bits.dup == 0)
Log(TRACE_MIN, 5, NULL, "PUBREC", client->clientID, pubrec->msgId);
}
else
{
if (pubrec->MQTTVersion >= MQTTVERSION_5 && pubrec->rc >= MQTTREASONCODE_UNSPECIFIED_ERROR)
{
Log(TRACE_MIN, -1, "Pubrec error %d received for client %s msgid %d, not sending PUBREL",
pubrec->rc, client->clientID, pubrec->msgId);
#if !defined(NO_PERSISTENCE)
rc = MQTTPersistence_remove(client,
(pubrec->MQTTVersion >= MQTTVERSION_5) ? PERSISTENCE_V5_PUBLISH_SENT : PERSISTENCE_PUBLISH_SENT,
m->qos, pubrec->msgId);
#endif
if (pubToRemove != NULL)
*pubToRemove = m->publish;
else
MQTTProtocol_removePublication(m->publish);
if (m->MQTTVersion >= MQTTVERSION_5)
MQTTProperties_free(&m->properties);
ListRemove(client->outboundMsgs, m);
(++state.msgs_sent);
send_pubrel = 0; /* in MQTT v5, stop the exchange if there is an error reported */
}
else
{
m->nextMessageType = PUBCOMP;
m->lastTouch = MQTTTime_now();
}
}
}
if (!send_pubrel)
; /* only don't send ack on MQTT v5 PUBREC error, otherwise send ack under all circumstances because MQTT state can get out of step */
else if (!Socket_noPendingWrites(sock))
rc = MQTTProtocol_queueAck(client, PUBREL, pubrec->msgId);
else
rc = MQTTPacket_send_pubrel(pubrec->MQTTVersion, pubrec->msgId, 0, &client->net, client->clientID);
if (pubrec->MQTTVersion >= MQTTVERSION_5)
MQTTProperties_free(&pubrec->properties);
free(pack);
FUNC_EXIT_RC(rc);
return rc;
}
/**
* Process an incoming pubrel packet for a socket
* @param pack pointer to the publish packet
* @param sock the socket on which the packet was received
* @return completion code
*/
int MQTTProtocol_handlePubrels(void* pack, SOCKET sock)
{
Pubrel* pubrel = (Pubrel*)pack;
Clients* client = NULL;
int rc = TCPSOCKET_COMPLETE;
FUNC_ENTRY;
client = (Clients*)(ListFindItem(bstate->clients, &sock, clientSocketCompare)->content);
Log(LOG_PROTOCOL, 17, NULL, sock, client->clientID, pubrel->msgId);
/* look for the message by message id in the records of inbound messages for this client */
if (ListFindItem(client->inboundMsgs, &(pubrel->msgId), messageIDCompare) == NULL)
{
if (pubrel->header.bits.dup == 0)
Log(TRACE_MIN, 3, NULL, "PUBREL", client->clientID, pubrel->msgId);
}
else
{
Messages* m = (Messages*)(client->inboundMsgs->current->content);
if (m->qos != 2)
Log(TRACE_MIN, 4, NULL, "PUBREL", client->clientID, pubrel->msgId, m->qos);
else if (m->nextMessageType != PUBREL)
Log(TRACE_MIN, 5, NULL, "PUBREL", client->clientID, pubrel->msgId);
else
{
Publish publish;
memset(&publish, '\0', sizeof(publish));
publish.header.bits.qos = m->qos;
publish.header.bits.retain = m->retain;
publish.msgId = m->msgid;
if (m->publish)
{
publish.topic = m->publish->topic;
publish.topiclen = m->publish->topiclen;
publish.payload = m->publish->payload;
publish.payloadlen = m->publish->payloadlen;
}
publish.MQTTVersion = m->MQTTVersion;
if (publish.MQTTVersion >= MQTTVERSION_5)
publish.properties = m->properties;
else
Protocol_processPublication(&publish, client, 0); /* only for 3.1.1 and lower */
#if !defined(NO_PERSISTENCE)
rc += MQTTPersistence_remove(client,
(m->MQTTVersion >= MQTTVERSION_5) ? PERSISTENCE_V5_PUBLISH_RECEIVED : PERSISTENCE_PUBLISH_RECEIVED,
m->qos, pubrel->msgId);
#endif
if (m->MQTTVersion >= MQTTVERSION_5)
MQTTProperties_free(&m->properties);
if (m->publish)
ListRemove(&(state.publications), m->publish);
ListRemove(client->inboundMsgs, m);
++(state.msgs_received);
}
}
/* Send ack under all circumstances because MQTT state can get out of step - this standard also says to do this */
if (!Socket_noPendingWrites(sock))
rc = MQTTProtocol_queueAck(client, PUBCOMP, pubrel->msgId);
else
rc = MQTTPacket_send_pubcomp(pubrel->MQTTVersion, pubrel->msgId, &client->net, client->clientID);
if (pubrel->MQTTVersion >= MQTTVERSION_5)
MQTTProperties_free(&pubrel->properties);
free(pack);
FUNC_EXIT_RC(rc);
return rc;
}
/**
* Process an incoming pubcomp packet for a socket
* @param pack pointer to the publish packet
* @param sock the socket on which the packet was received
* @return completion code
*/
int MQTTProtocol_handlePubcomps(void* pack, SOCKET sock, Publications** pubToRemove)
{
Pubcomp* pubcomp = (Pubcomp*)pack;
Clients* client = NULL;
int rc = TCPSOCKET_COMPLETE;
FUNC_ENTRY;
client = (Clients*)(ListFindItem(bstate->clients, &sock, clientSocketCompare)->content);
Log(LOG_PROTOCOL, 19, NULL, sock, client->clientID, pubcomp->msgId);
/* look for the message by message id in the records of outbound messages for this client */
if (ListFindItem(client->outboundMsgs, &(pubcomp->msgId), messageIDCompare) == NULL)
{
if (pubcomp->header.bits.dup == 0)
Log(TRACE_MIN, 3, NULL, "PUBCOMP", client->clientID, pubcomp->msgId);
}
else
{
Messages* m = (Messages*)(client->outboundMsgs->current->content);
if (m->qos != 2)
Log(TRACE_MIN, 4, NULL, "PUBCOMP", client->clientID, pubcomp->msgId, m->qos);
else
{
if (m->nextMessageType != PUBCOMP)
Log(TRACE_MIN, 5, NULL, "PUBCOMP", client->clientID, pubcomp->msgId);
else
{
Log(TRACE_MIN, 6, NULL, "PUBCOMP", client->clientID, pubcomp->msgId);
#if !defined(NO_PERSISTENCE)
rc = MQTTPersistence_remove(client,
(m->MQTTVersion >= MQTTVERSION_5) ? PERSISTENCE_V5_PUBLISH_SENT : PERSISTENCE_PUBLISH_SENT,
m->qos, pubcomp->msgId);
if (rc != 0)
Log(LOG_ERROR, -1, "Error removing PUBCOMP for client id %s msgid %d from persistence", client->clientID, pubcomp->msgId);
#endif
if (pubToRemove != NULL)
*pubToRemove = m->publish;
else
MQTTProtocol_removePublication(m->publish);
if (m->MQTTVersion >= MQTTVERSION_5)
MQTTProperties_free(&m->properties);
ListRemove(client->outboundMsgs, m);
(++state.msgs_sent);
}
}
}
if (pubcomp->MQTTVersion >= MQTTVERSION_5)
MQTTProperties_free(&pubcomp->properties);
free(pack);
FUNC_EXIT_RC(rc);
return rc;
}
/**
* MQTT protocol keepAlive processing. Sends PINGREQ packets as required.
* @param now current time
*/
void MQTTProtocol_keepalive(START_TIME_TYPE now)
{
ListElement* current = NULL;
FUNC_ENTRY;
ListNextElement(bstate->clients, &current);
while (current)
{
Clients* client = (Clients*)(current->content);
ListNextElement(bstate->clients, &current);
if (client->connected == 0 || client->keepAliveInterval == 0)
continue;
if (client->ping_outstanding == 1)
{
if (MQTTTime_difftime(now, client->net.lastPing) >= (DIFF_TIME_TYPE)(client->keepAliveInterval * 1500) &&
/* if last received is more recent, we could be receiving a large packet */
MQTTTime_difftime(now, client->net.lastReceived) >= (DIFF_TIME_TYPE)(client->keepAliveInterval * 1500))
{
Log(TRACE_PROTOCOL, -1, "PINGRESP not received in keepalive interval for client %s on socket %d, disconnecting", client->clientID, client->net.socket);
MQTTProtocol_closeSession(client, 1);
}
}
else if (client->ping_due == 1 &&
(MQTTTime_difftime(now, client->ping_due_time) >= (DIFF_TIME_TYPE)(client->keepAliveInterval * 1500)))
{
/* if the last received time is more recent than the ping due time, we could be receiving a large packet,
* preventing the PINGRESP being received */
if (MQTTTime_difftime(now, client->ping_due_time) <= MQTTTime_difftime(now, client->net.lastReceived))
{
/* ping still outstanding after keep alive interval, so close session */
Log(TRACE_PROTOCOL, -1, "PINGREQ still outstanding for client %s on socket %d, disconnecting", client->clientID, client->net.socket);
MQTTProtocol_closeSession(client, 1);
}
}
else if (MQTTTime_difftime(now, client->net.lastSent) >= (DIFF_TIME_TYPE)(client->keepAliveInterval * 1000))
/* the time since we last sent a packet, or part of a packet has exceeded the keep alive, so we need to send a ping */
{
if (Socket_noPendingWrites(client->net.socket))
{
if (MQTTPacket_send_pingreq(&client->net, client->clientID) != TCPSOCKET_COMPLETE)
{
Log(TRACE_PROTOCOL, -1, "Error sending PINGREQ for client %s on socket %d, disconnecting", client->clientID, client->net.socket);
MQTTProtocol_closeSession(client, 1);
}
else
{
client->ping_due = 0;
client->net.lastPing = now;
client->ping_outstanding = 1;
}
}
else if (client->ping_due == 0)
{
Log(TRACE_PROTOCOL, -1, "Couldn't send PINGREQ for client %s on socket %d, noting",
client->clientID, client->net.socket);
client->ping_due = 1;
client->ping_due_time = now;
}
}
else if (MQTTTime_difftime(now, client->net.lastReceived) >= (DIFF_TIME_TYPE)(client->keepAliveInterval * 1000))
/* the time since we last received any data has exceeded the keep alive, so we can send a ping to see if the server is alive */
{
/* Check that no writes are pending for the socket. If there are, forget about it, as this PING use is optional */
if (Socket_noPendingWrites(client->net.socket))
{
if (MQTTPacket_send_pingreq(&client->net, client->clientID) != TCPSOCKET_COMPLETE)
{
Log(TRACE_PROTOCOL, -1, "Error sending PINGREQ for client %s on socket %d, disconnecting", client->clientID, client->net.socket);
MQTTProtocol_closeSession(client, 1);
}
else
{
client->ping_due = 0;
client->net.lastPing = now;
client->ping_outstanding = 1;
}
}
}
}
FUNC_EXIT;
}
/**
* MQTT retry processing per client
* @param now current time
* @param client - the client to which to apply the retry processing
* @param regardless boolean - retry packets regardless of retry interval (used on reconnect)
*/
static void MQTTProtocol_retries(START_TIME_TYPE now, Clients* client, int regardless)
{
ListElement* outcurrent = NULL;
FUNC_ENTRY;
if (!regardless && client->retryInterval <= 0 && /* 0 or -ive retryInterval turns off retry except on reconnect */
client->connect_sent == client->connect_count)
goto exit;
if (regardless)
client->connect_count = client->outboundMsgs->count; /* remember the number of messages to retry on connect */
else if (client->connect_sent < client->connect_count) /* continue a connect retry which didn't complete first time around */
regardless = 1;
while (client && ListNextElement(client->outboundMsgs, &outcurrent) &&
client->connected && client->good && /* client is connected and has no errors */
Socket_noPendingWrites(client->net.socket)) /* there aren't any previous packets still stacked up on the socket */
{
Messages* m = (Messages*)(outcurrent->content);
if (regardless || MQTTTime_difftime(now, m->lastTouch) > (DIFF_TIME_TYPE)(max(client->retryInterval, 10) * 1000))
{
if (regardless)
++client->connect_sent;
if (m->qos == 1 || (m->qos == 2 && m->nextMessageType == PUBREC))
{
Publish publish;
int rc;
Log(TRACE_MIN, 7, NULL, "PUBLISH", client->clientID, client->net.socket, m->msgid);
publish.msgId = m->msgid;
publish.topic = m->publish->topic;
publish.payload = m->publish->payload;
publish.payloadlen = m->publish->payloadlen;
publish.properties = m->properties;
publish.MQTTVersion = m->MQTTVersion;
memcpy(publish.mask, m->publish->mask, sizeof(publish.mask));
rc = MQTTPacket_send_publish(&publish, 1, m->qos, m->retain, &client->net, client->clientID);
memcpy(m->publish->mask, publish.mask, sizeof(m->publish->mask)); /* store websocket mask used in send */
if (rc == SOCKET_ERROR)
{
client->good = 0;
Log(TRACE_PROTOCOL, 29, NULL, client->clientID, client->net.socket,
Socket_getpeer(client->net.socket));
MQTTProtocol_closeSession(client, 1);
client = NULL;
}
else
{
if (m->qos == 0 && rc == TCPSOCKET_INTERRUPTED)
MQTTProtocol_storeQoS0(client, &publish);
m->lastTouch = MQTTTime_now();
}
}
else if (m->qos && m->nextMessageType == PUBCOMP)
{
Log(TRACE_MIN, 7, NULL, "PUBREL", client->clientID, client->net.socket, m->msgid);
if (MQTTPacket_send_pubrel(m->MQTTVersion, m->msgid, 0, &client->net, client->clientID) != TCPSOCKET_COMPLETE)
{
client->good = 0;
Log(TRACE_PROTOCOL, 29, NULL, client->clientID, client->net.socket,
Socket_getpeer(client->net.socket));
MQTTProtocol_closeSession(client, 1);
client = NULL;
}
else
m->lastTouch = MQTTTime_now();
}
}
}
exit:
FUNC_EXIT;
}
/**
* Queue an ack message. This is used when the socket is full (e.g. SSL_ERROR_WANT_WRITE).
* To be completed/cleared when the socket is no longer full
* @param client the client that received the published message
* @param ackType the type of ack to send
* @param msgId the msg id of the message we are acknowledging
* @return the completion code
*/
int MQTTProtocol_queueAck(Clients* client, int ackType, int msgId)
{
int rc = 0;
AckRequest* ackReq = NULL;
FUNC_ENTRY;
ackReq = malloc(sizeof(AckRequest));
if (!ackReq)
rc = PAHO_MEMORY_ERROR;
else
{
ackReq->messageId = msgId;
ackReq->ackType = ackType;
ListAppend(client->outboundQueue, ackReq, sizeof(AckRequest));
}
FUNC_EXIT_RC(rc);
return rc;
}
/**
* MQTT retry protocol and socket pending writes processing.
* @param now current time
* @param doRetry boolean - retries as well as pending writes?
* @param regardless boolean - retry packets regardless of retry interval (used on reconnect)
*/
void MQTTProtocol_retry(START_TIME_TYPE now, int doRetry, int regardless)
{
ListElement* current = NULL;
FUNC_ENTRY;
ListNextElement(bstate->clients, &current);
/* look through the outbound message list of each client, checking to see if a retry is necessary */
while (current)
{
Clients* client = (Clients*)(current->content);
ListNextElement(bstate->clients, &current);
if (client->connected == 0)
continue;
if (client->good == 0)
{
MQTTProtocol_closeSession(client, 1);
continue;
}
if (Socket_noPendingWrites(client->net.socket) == 0)
continue;
if (doRetry)
MQTTProtocol_retries(now, client, regardless);
}
FUNC_EXIT;
}
/**
* Free a client structure
* @param client the client data to free
*/
void MQTTProtocol_freeClient(Clients* client)
{
FUNC_ENTRY;
/* free up pending message lists here, and any other allocated data */
MQTTProtocol_freeMessageList(client->outboundMsgs);
MQTTProtocol_freeMessageList(client->inboundMsgs);
ListFree(client->messageQueue);
ListFree(client->outboundQueue);
free(client->clientID);
client->clientID = NULL;
if (client->will)
{
free(client->will->payload);
free(client->will->topic);
free(client->will);
client->will = NULL;
}
if (client->username)
free((void*)client->username);
if (client->password)
free((void*)client->password);
if (client->httpProxy)
free(client->httpProxy);
if (client->httpsProxy)
free(client->httpsProxy);
if (client->net.http_proxy_auth)
free(client->net.http_proxy_auth);
#if defined(OPENSSL)
if (client->net.https_proxy_auth)
free(client->net.https_proxy_auth);
if (client->sslopts)
{
if (client->sslopts->trustStore)
free((void*)client->sslopts->trustStore);
if (client->sslopts->keyStore)
free((void*)client->sslopts->keyStore);
if (client->sslopts->privateKey)
free((void*)client->sslopts->privateKey);
if (client->sslopts->privateKeyPassword)
free((void*)client->sslopts->privateKeyPassword);
if (client->sslopts->enabledCipherSuites)
free((void*)client->sslopts->enabledCipherSuites);
if (client->sslopts->struct_version >= 2)
{
if (client->sslopts->CApath)
free((void*)client->sslopts->CApath);
}
if (client->sslopts->struct_version >= 5)
{
if (client->sslopts->protos)
free((void*)client->sslopts->protos);
}
free(client->sslopts);
client->sslopts = NULL;
}
#endif
/* don't free the client structure itself... this is done elsewhere */
FUNC_EXIT;
}
/**
* Empty a message list, leaving it able to accept new messages
* @param msgList the message list to empty
*/
void MQTTProtocol_emptyMessageList(List* msgList)
{
ListElement* current = NULL;
FUNC_ENTRY;
while (ListNextElement(msgList, &current))
{
Messages* m = (Messages*)(current->content);
MQTTProtocol_removePublication(m->publish);
if (m->MQTTVersion >= MQTTVERSION_5)
MQTTProperties_free(&m->properties);
}
ListEmpty(msgList);
FUNC_EXIT;
}
/**
* Empty and free up all storage used by a message list
* @param msgList the message list to empty and free
*/
void MQTTProtocol_freeMessageList(List* msgList)
{
FUNC_ENTRY;
MQTTProtocol_emptyMessageList(msgList);
ListFree(msgList);
FUNC_EXIT;
}
/**
* Callback that is invoked when the socket is available for writing.
* This is the last attempt made to acknowledge a message. Failures that
* occur here are ignored.
* @param socket the socket that is available for writing
*/
void MQTTProtocol_writeAvailable(SOCKET socket)
{
Clients* client = NULL;
ListElement* current = NULL;
int rc = 0;
FUNC_ENTRY;
client = (Clients*)(ListFindItem(bstate->clients, &socket, clientSocketCompare)->content);
current = NULL;
while (ListNextElement(client->outboundQueue, &current) && rc == 0)
{
AckRequest* ackReq = (AckRequest*)(current->content);
switch (ackReq->ackType)
{
case PUBACK:
rc = MQTTPacket_send_puback(client->MQTTVersion, ackReq->messageId, &client->net, client->clientID);
break;
case PUBREC:
rc = MQTTPacket_send_pubrec(client->MQTTVersion, ackReq->messageId, &client->net, client->clientID);
break;
case PUBREL:
rc = MQTTPacket_send_pubrel(client->MQTTVersion, ackReq->messageId, 0, &client->net, client->clientID);
break;
case PUBCOMP:
rc = MQTTPacket_send_pubcomp(client->MQTTVersion, ackReq->messageId, &client->net, client->clientID);
break;
default:
Log(LOG_ERROR, -1, "unknown ACK type %d, dropping msg", ackReq->ackType);
break;
}
}
ListEmpty(client->outboundQueue);
FUNC_EXIT_RC(rc);
}
/**
* Copy no more than dest_size -1 characters from the string pointed to by src to the array pointed to by dest.
* The destination string will always be null-terminated.
* @param dest the array which characters copy to
* @param src the source string which characters copy from
* @param dest_size the size of the memory pointed to by dest: copy no more than this -1 (allow for null). Must be >= 1
* @return the destination string pointer
*/
char* MQTTStrncpy(char *dest, const char *src, size_t dest_size)
{
size_t count = dest_size;
char *temp = dest;
FUNC_ENTRY;
if (dest_size < strlen(src))
Log(TRACE_MIN, -1, "the src string is truncated");
/* We must copy only the first (dest_size - 1) bytes */
while (count > 1 && (*temp++ = *src++))
count--;
*temp = '\0';
FUNC_EXIT;
return dest;
}
/**
* Duplicate a string, safely, allocating space on the heap
* @param src the source string which characters copy from
* @return the duplicated, allocated string
*/
char* MQTTStrdup(const char* src)
{
size_t mlen = strlen(src) + 1;
char* temp = malloc(mlen);
if (temp)
MQTTStrncpy(temp, src, mlen);
else
Log(LOG_ERROR, -1, "memory allocation error in MQTTStrdup");
return temp;
}