/******************************************************************************* * Copyright (c) 2009, 2012 IBM Corp. * * 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 *******************************************************************************/ /** * @file * \brief This structure represents a persistent data store, used to store * outbound and inbound messages, in order to achieve reliable messaging. * * The MQTT Client persists QoS1 and QoS2 messages in order to meet the * assurances of delivery associated with these @ref qos levels. The messages * are saved in persistent storage * The type and context of the persistence implementation are specified when * the MQTT client is created (see MQTTClient_create()). The default * persistence type (::MQTTCLIENT_PERSISTENCE_DEFAULT) uses a file system-based * persistence mechanism. The persistence_context argument passed to * MQTTClient_create() when using the default peristence is a string * representing the location of the persistence directory. If the context * argument is NULL, the working directory will be used. * * To use memory-based persistence, an application passes * ::MQTTCLIENT_PERSISTENCE_NONE as the persistence_type to * MQTTClient_create(). This can lead to message loss in certain situations, * but can be appropriate in some cases (see @ref qos). * * Client applications can provide their own persistence mechanism by passing * ::MQTTCLIENT_PERSISTENCE_USER as the persistence_type. To implement a * custom persistence mechanism, the application must pass an initialized * ::MQTTClient_persistence structure as the persistence_context * argument to MQTTClient_create(). * * If the functions defined return an ::MQTTCLIENT_PERSISTENCE_ERROR then the * state of the persisted data should remain as it was prior to the function * being called. For example, if Persistence_put() returns * ::MQTTCLIENT_PERSISTENCE_ERROR, then it is assumed tha tthe persistent store * does not contain the data that was passed to the function. Similarly, if * Persistence_remove() returns ::MQTTCLIENT_PERSISTENCE_ERROR then it is * assumed that the data to be removed is still held in the persistent store. * * It is up to the persistence implementation to log any error information that * may be required to diagnose a persistence mechanism failure. */ /* /// @cond EXCLUDE */ #if !defined(MQTTCLIENTPERSISTENCE_H) #define MQTTCLIENTPERSISTENCE_H /* /// @endcond */ /** * This persistence_type value specifies the default file system-based * persistence mechanism (see MQTTClient_create()). */ #define MQTTCLIENT_PERSISTENCE_DEFAULT 0 /** * This persistence_type value specifies a memory-based * persistence mechanism (see MQTTClient_create()). */ #define MQTTCLIENT_PERSISTENCE_NONE 1 /** * This persistence_type value specifies an application-specific * persistence mechanism (see MQTTClient_create()). */ #define MQTTCLIENT_PERSISTENCE_USER 2 /** * Application-specific persistence functions must return this error code if * there is a problem executing the function. */ #define MQTTCLIENT_PERSISTENCE_ERROR -2 /** * @brief Initialize the persistent store. * * Either open the existing persistent store for this client ID or create a new * one if one doesn't exist. If the persistent store is already open, return * without taking any action. * * An application can use the same client identifier to connect to many * different servers. The clientid in conjunction with the * serverURI uniquely identifies the persistence store required. * * @param handle The address of a pointer to a handle for this persistence * implementation. This function must set handle to a valid reference to the * persistence following a successful return. * The handle pointer is passed as an argument to all the other * persistence functions. It may include the context parameter and/or any other * data for use by the persistence functions. * @param clientID The client identifier for which the persistent store should * be opened. * @param serverURI The connection string specified when the MQTT client was * created (see MQTTClient_create()). * @param context A pointer to any data required to initialize the persistent * store (see ::MQTTClient_persistence). * @return Return 0 if the function completes successfully, otherwise return * ::MQTTCLIENT_PERSISTENCE_ERROR. */ typedef int (*Persistence_open)(void** handle, const char* clientID, const char* serverURI, void* context); /** * @brief Close the persistent store referred to by the handle. * * @param handle The handle pointer from a successful call to * Persistence_open(). * @return Return 0 if the function completes successfully, otherwise return * ::MQTTCLIENT_PERSISTENCE_ERROR. */ typedef int (*Persistence_close)(void* handle); /** * @brief Put the specified data into the persistent store. * * @param handle The handle pointer from a successful call to * Persistence_open(). * @param key A string used as the key for the data to be put in the store. The * key is later used to retrieve data from the store with Persistence_get(). * @param bufcount The number of buffers to write to the persistence store. * @param buffers An array of pointers to the data buffers associated with * this key. * @param buflens An array of lengths of the data buffers. buflen[n] * gives the length of buffer[n]. * @return Return 0 if the function completes successfully, otherwise return * ::MQTTCLIENT_PERSISTENCE_ERROR. */ typedef int (*Persistence_put)(void* handle, char* key, int bufcount, char* buffers[], int buflens[]); /** * @brief Retrieve the specified data from the persistent store. * * @param handle The handle pointer from a successful call to * Persistence_open(). * @param key A string that is the key for the data to be retrieved. This is * the same key used to save the data to the store with Persistence_put(). * @param buffer The address of a pointer to a buffer. This function sets the * pointer to point at the retrieved data, if successful. * @param buflen The address of an int that is set to the length of * buffer by this function if successful. * @return Return 0 if the function completes successfully, otherwise return * ::MQTTCLIENT_PERSISTENCE_ERROR. */ typedef int (*Persistence_get)(void* handle, char* key, char** buffer, int* buflen); /** * @brief Remove the data for the specified key from the store. * * @param handle The handle pointer from a successful call to * Persistence_open(). * @param key A string that is the key for the data to be removed from the * store. This is the same key used to save the data to the store with * Persistence_put(). * @return Return 0 if the function completes successfully, otherwise return * ::MQTTCLIENT_PERSISTENCE_ERROR. */ typedef int (*Persistence_remove)(void* handle, char* key); /** * @brief Returns the keys in this persistent data store. * * @param handle The handle pointer from a successful call to * Persistence_open(). * @param keys The address of a pointer to pointers to strings. Assuming * successful execution, this function allocates memory to hold the returned * keys (strings used to store the data with Persistence_put()). It also * allocates memory to hold an array of pointers to these strings. keys * is set to point to the array of pointers to strings. * @param nkeys A pointer to the number of keys in this persistent data store. * This function sets the number of keys, if successful. * @return Return 0 if the function completes successfully, otherwise return * ::MQTTCLIENT_PERSISTENCE_ERROR. */ typedef int (*Persistence_keys)(void* handle, char*** keys, int* nkeys); /** * @brief Clears the persistence store, so that it no longer contains any * persisted data. * * @param handle The handle pointer from a successful call to * Persistence_open(). * @return Return 0 if the function completes successfully, otherwise return * ::MQTTCLIENT_PERSISTENCE_ERROR. */ typedef int (*Persistence_clear)(void* handle); /** * @brief Returns whether any data has been persisted using the specified key. * * @param handle The handle pointer from a successful call to * Persistence_open(). * @param key The string to be tested for existence in the store. * @return Return 0 if the key was found in the store, otherwise return * ::MQTTCLIENT_PERSISTENCE_ERROR. */ typedef int (*Persistence_containskey)(void* handle, char* key); /** * @brief A structure containing the function pointers to a persistence * implementation and the context or state that will be shared across all * the persistence functions. */ typedef struct { /** * A pointer to any data required to initialize the persistent store. */ void* context; /** * A function pointer to an implementation of Persistence_open(). */ Persistence_open popen; /** * A function pointer to an implementation of Persistence_close(). */ Persistence_close pclose; /** * A function pointer to an implementation of Persistence_put(). */ Persistence_put pput; /** * A function pointer to an implementation of Persistence_get(). */ Persistence_get pget; /** * A function pointer to an implementation of Persistence_remove(). */ Persistence_remove premove; /** * A function pointer to an implementation of Persistence_keys(). */ Persistence_keys pkeys; /** * A function pointer to an implementation of Persistence_clear(). */ Persistence_clear pclear; /** * A function pointer to an implementation of Persistence_containskey(). */ Persistence_containskey pcontainskey; } MQTTClient_persistence; #endif