Host library for controlling a WiConnect enabled Wi-Fi module.

Dependents:   wiconnect-ota_example wiconnect-web_setup_example wiconnect-test-console wiconnect-tcp_server_example ... more

NetworkInterface.h

Committer:
dan_ackme
Date:
2014-08-13
Revision:
13:2b51f5267c92
Parent:
11:ea484e1b7fc4
Child:
16:7f1d6d359787

File content as of revision 13:2b51f5267c92:

/*
 * Copyright 2014, ACKme Networks
 * All Rights Reserved.
 *
 * This is UNPUBLISHED PROPRIETARY SOURCE CODE of ACKme Networks;
 * the contents of this file may not be disclosed to third parties, copied
 * or duplicated in any form, in whole or in part, without the prior
 * written permission of ACKme Networks.
 */

#pragma once


#include "WiconnectTypes.h"
#include "types/ScanResultList.h"


namespace wiconnect {


/**
 * @ingroup api_network_types
 *
 * @brief The provides an interface for joining and/or creating a network.
 * It provides other utilities such as scanning for networks, pinging a network,
 * resolving a domain name to IP address.
 *
 * @note This class is an interface to the Wiconnect class. It should never be
 *       independently instantiated or the parent of another class.
 */
class NetworkInterface
{
public:
    /**
     * @ingroup api_network_setup
     *
     * @brief Start the WiConnect WiFi module 'web setup' feature.
     *
     * This command has an optional background processing feature.
     * Background processing is enabled if the completeHandler parameter
     * is specified. If enabled, the library will poll the module every second
     * for the web setup status (essentially it'll call isWebSetupRunning() every
     * second in the background). When the web setup is no longer running the
     * callback will be executed. The background processing is disabled when stopWebSetup()
     * is called.
     *
     * @note only the 'result' parameter of the callback handler is valid.
     *
     * Refer to @ref setting_async_processing for more info.
     *
     * @param[in] ssid Optional, optionally set the SSID of module's softAp
     * @param[in] password Optional, optionally set the WPA2-PSK password for the module'S softap
     *                     Note: make an OPEN softAp, set this parameter to a null string (i.e. "")
     * @param[in] completeHandler Optional, callback to be executed when module web setup completes.
     * @return Result of method. See @ref WiconnectResult
     */
    WiconnectResult startWebSetup(const char *ssid = NULL, const char *password = NULL, const Callback &completeHandler = Callback());

    /**
     * @ingroup api_network_setup
     *
     * @brief Stop the WiConnect WiFi module 'web setup' feature.
     *
     * This method should be called AFTER startWebSetup() to prematurely terminate
     * web setup. Note that this is not needed if web setup completes by itself
     * (i.e. if the user exits web setup from the webpage).
     *
     *  @return Result of method. See @ref WiconnectResult
     */
    WiconnectResult stopWebSetup();

    /**
     * @ingroup api_network_setup
     *
     * @brief Return status of WiConnect WiFi module 'web setup' feature.
     *
     * This may be called at any time (whether web setpu has been stared or not).
     *
     * @param[out] isRunningPtr Pointer to bool to contain TRUE if web setup is running, FALSE else
     * @return Result of method. See @ref WiconnectResult
     */
    WiconnectResult isWebSetupRunning(bool *isRunningPtr);


    // ------------------------------------------------------------------------


    /**
     * @ingroup api_network_wlan
     *
     * @brief Join a WiFi network.
     *
     * @note This command is returns when the join sequence has STARTED.
     *       To determine if the module has successfully join the network either
     *       specify the completeHandler or periodically call getNetworkStatus()
     *
     * This command has an optional background processing feature.
     * Background processing is enabled if the completeHandler parameter
     * is specified. If enabled, the library will poll the module every second
     * for the join status (essentially it'll call getNetworkStatus() every
     * second in the background). When the module join sequence complete the callback will be executed.
     * The background processing is disabled when leave() is called.
     *
     * @note only the 'result' parameter of the callback handler is valid.
     *
     * Refer to @ref setting_async_processing for more info.
     *
     * @param[in] ssid Optional, optionally set the SSID of the network to join
     * @param[in] password Optional, optionally set the passkey of the network to join
     *                     Note: to join an OPEN network, set this parameter to a null string (i.e. "")
     * @param[in] completeHandler Optional, callback to be executed when the join sequence completes.
     * @return Result of method. See @ref WiconnectResult
     */
    WiconnectResult join(const char* ssid = NULL, const char *password = NULL, const Callback &completeHandler = Callback());

    /**
     * @ingroup api_network_wlan
     *
     * @brief Leave a WiFi network.
     *
     * This method may be called to either terminate a join sequence or
     * leave a previously connected networked.
     *
     * @return Result of method. See @ref WiconnectResult
     */
    WiconnectResult leave();

    /**
     * @ingroup api_network_wlan
     *
     * @brief Get connection status to WiFi network.
     *
     * Refer to @ref NetworkStatus for more info.
     *
     * @param[out] statusPtr Point to a @ref NetworkStatus which will hold current network status of module
     * @return Result of method. See @ref WiconnectResult
     */
    WiconnectResult getNetworkStatus(NetworkStatus *statusPtr);

    // ------------------------------------------------------------------------


//    WiconnectResult startSoftAp(const char* ssid = NULL, const char *password = NULL, const Callback &clientConnectedCallback = Callback());
//    WiconnectResult stopSoftAp();
//    WiconnectResult getSoftApClientList();


    // ------------------------------------------------------------------------


    /**
     * @ingroup api_network_util
     *
     * @brief Scan for available WiFi networks.
     *
     * The populate the supplied @ref ScanResultList with @ref ScanResult of each found network.
     *
     * Optionally only scan of specific channels by supplying a null terminated list of channels.
     * Example:
     * @code
     * const uint8_t channelsToScan[] = {1, 6, 11, 0};
     * @endcode
     *
     * @param[out] resultList List to populate with scan results.
     * @param[in] channelList Optional, null terminated list of channels to scan.
     * @param[in] ssid Optional, specific network name to scan for.
     * @return Result of method. See @ref WiconnectResult
     */
    WiconnectResult scan(ScanResultList &resultList, const uint8_t *channelList = NULL, const char* ssid = NULL);

    /**
     * @ingroup api_network_util
     *
     * @brief Ping a WiFi network.
     *
     * Optionally ping a specific server and return the time in milliseconds it took
     * for the network to response. If no domain is supplied, the module pings to gateway
     * (i.e router it's connected to).
     *
     * @param[in] domain Optional, the domain name to ping
     * @param[out] timeMsPtr Optional, pointer to uint32 to hold time in milliseconds the ping took
     * @return Result of method. See @ref WiconnectResult
     */
    WiconnectResult ping(const char *domain = NULL, uint32_t *timeMsPtr = NULL);

    /**
     * @ingroup api_network_util
     *
     * @brief Resolve domain name into IP address.
     *
     * @param[in] domain The domain name to resolve
     * @param[out] ipAddressPtr pointer to uint32 to hold resolved IP address. Note, the IP address is in network-byte-order.
     * @return Result of method. See @ref WiconnectResult
     */
    WiconnectResult lookup(const char *domain, uint32_t *ipAddressPtr);


    // ------------------------------------------------------------------------


    /**
     * @ingroup api_network_settings
     *
     * @brief Set DHCP enabled.
     *
     * @return Result of method. See @ref WiconnectResult
     */
    WiconnectResult setDhcpEnabled(bool enabled);

    /**
     * @ingroup api_network_settings
     *
     * @brief Get if DHCP enabled.
     */
    WiconnectResult getDhcpEnabled(bool *enabledPtr);

    /**
     * @ingroup api_network_settings
     *
     * @brief Set static IP settings
     */
    WiconnectResult setIpSettings(uint32_t ip, uint32_t netmask, uint32_t gateway);

    /**
     * @ingroup api_network_settings
     *
     * @brief Set static IP settings (with string parameters)
     */
    WiconnectResult setIpSettings(const char* ip, const char* netmask, const char* gateway);

    /**
     * @ingroup api_network_settings
     *
     * @brief Get network IP settings
     */
    WiconnectResult getIpSettings(uint32_t *ip, uint32_t *netmask, uint32_t *gateway);

    /**
     * @ingroup api_network_settings
     *
     * @brief Get signal strength to WiFi network
     */
    WiconnectResult getSignalStrength(NetworkSignalStrength *signalStrengthPtr);


    // ------------------------------------------------------------------------


    /**
     * @ingroup conversion_util
     *
     * @brief Convert string to IP address
     */
    static bool strToIp(const char *str, uint32_t *intPtr);

    /**
     * @ingroup conversion_util
     *
     * @brief Convert IP address to string
     */
    static const char* ipToStr(uint32_t ip, char *ipStrBuffer = NULL);

    /**
     * @ingroup conversion_util
     *
     * @brief Convert @ref NetworkStatus to string
     */
    static const char* networkStatusToStr(NetworkStatus status);

    /**
     * @ingroup conversion_util
     *
     * @brief Convert @ref NetworkSignalStrength to string
     */
    static const char* signalStrengthToStr(NetworkSignalStrength signalStrenth);

    /**
     * @ingroup conversion_util
     *
     * @brief Convert RSSI (in dBm) to @ref NetworkSignalStrength
     */
    static NetworkSignalStrength rssiToSignalStrength(int rssi);

    /**
     * @ingroup conversion_util
     *
     * @brief Convert string to @ref NetworkSecurity
     */
    static NetworkSecurity strToNetworkSecurity(const char *str);

    /**
     * @ingroup conversion_util
     *
     * @brief Convert @ref NetworkSecurity to string
     */
    static const char* networkSecurityToStr(NetworkSecurity security);

    /**
     * @ingroup conversion_util
     *
     * @brief Convert string @ref Ssid
     */
    static bool strToSsid(const char *str, Ssid *ssid);

    /**
     * @ingroup conversion_util
     *
     * @brief Convert @ref Ssid to string
     */
    static const char* ssidToStr(const Ssid *ssid, char *ssidStrBuffer = NULL);

    /**
     * @ingroup conversion_util
     *
     * @brief Convert string @ref MacAddress
     */
    static bool strToMacAddress(const char *str, MacAddress *macAddress);

    /**
     * @ingroup conversion_util
     *
     * @brief Convert @ref MacAddress to string
     */
    static const char* macAddressToStr(const MacAddress *macAddress, char *macStrBuffer = NULL);

protected:
    NetworkInterface(Wiconnect *wiconnect);

    WiconnectResult processScanResults(char *resultStr, ScanResultList &resultList);

#ifdef WICONNECT_ASYNC_TIMER_ENABLED
    Callback completeHandler;
    PeriodicTimer monitorTimer;

    void webSetupStatusMonitor();
    void webSetupStatusCheckCallback(WiconnectResult result, void *arg1, void *arg2);

    void joinStatusMonitor();
    void joinStatusCheckCallback(WiconnectResult result, void *arg1, void *arg2);

    //void scanCompleteCallback(WiconnectResult result, void *arg1, void *arg2);
#endif

private:
    Wiconnect *wiconnect;
};

}