TI's CC3100. A test demo with very little testing done!
Fork of cc3100_Test_Demo2 by
simplelink/cc3100.h
- Committer:
- dflet
- Date:
- 2015-02-10
- Revision:
- 0:e89ba455dbcf
- Child:
- 3:b89198ac2efe
File content as of revision 0:e89ba455dbcf:
/* * device.h - CC31xx/CC32xx Host Driver Implementation * * Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/ * * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the * distribution. * * Neither the name of Texas Instruments Incorporated nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ #ifndef DEVICE_H_ #define DEVICE_H_ /*****************************************************************************/ /* Include files */ /*****************************************************************************/ #include "mbed.h" #include "cc3100_simplelink.h" #include "cc3100_driver.h" #include "cc3100_wlan_rx_filters.h" #include "cc3100_spi.h" #include "cc3100_netcfg.h" namespace mbed_cc3100 { /*! \addtogroup device @{ */ const uint16_t MAX_BUFF_SIZE = 1460; extern uint32_t g_PingPacketsRecv; extern uint32_t g_GatewayIP; extern uint32_t g_StationIP; extern uint32_t g_DestinationIP; extern uint32_t g_BytesReceived; // variable to store the file size extern uint32_t g_Status; extern uint8_t g_buff[MAX_BUFF_SIZE+1]; extern int32_t g_SockID; /* File on the serial flash */ #define FILE_NAME "cc3000_module.pdf" #define HOST_NAME "www.ti.com" #define HTTP_FILE_NOT_FOUND "404 Not Found" /* HTTP file not found response */ #define HTTP_STATUS_OK "200 OK" /* HTTP status ok response */ #define HTTP_CONTENT_LENGTH "Content-Length:" /* HTTP content length header */ #define HTTP_TRANSFER_ENCODING "Transfer-Encoding:" /* HTTP transfer encoding header */ #define HTTP_ENCODING_CHUNKED "chunked" /* HTTP transfer encoding header value */ #define HTTP_CONNECTION "Connection:" /* HTTP Connection header */ #define HTTP_CONNECTION_CLOSE "close" /* HTTP Connection header value */ #define HTTP_END_OF_HEADER "\r\n\r\n" /* string marking the end of headers in response */ /*****************************************************************************/ /* Macro declarations */ /*****************************************************************************/ const uint16_t IP_LEASE_TIME = 3600; const uint16_t SIZE_45K = 46080; /* Serial flash file size 45 KB */ const uint16_t READ_SIZE = 1450; const uint8_t SPACE = 32; const uint16_t PING_INTERVAL = 1000; const uint8_t PING_SIZE = 20; const uint16_t PING_TIMEOUT = 3000; const uint8_t PING_ATTEMPTS = 3; const uint8_t PING_PKT_SIZE = 20; const uint8_t SL_STOP_TIMEOUT = 0xFF; /* SL internal Error codes */ /* Receive this error in case there are no resources to issue the command If possible, increase the number of MAX_CUNCURENT_ACTIONS (result in memory increase) If not, try again later */ const int16_t SL_POOL_IS_EMPTY = (-2000); /* Receive this error in case a given length for RX buffer was too small. Receive payload was bigger than the given buffer size. Therefore, payload is cut according to receive size Recommend to increase buffer size */ const int16_t SL_ESMALLBUF = (-2001); /* Receive this error in case zero length is supplied to a "get" API Recommend to supply length according to requested information (view options defines for help) */ const int16_t SL_EZEROLEN = (-2002); /* User supplied invalid parameter */ const int16_t SL_INVALPARAM = (-2003); /* End of SL internal Error codes */ /*****************************************************************************/ /* Errors returned from the general error async event */ /*****************************************************************************/ /* Use bit 32: Lower bits of status variable are used for NWP events * 1 in a 'status_variable', the device has completed the ping operation * 0 in a 'status_variable', the device has not completed the ping operation */ //const uint32_t STATUS_BIT_PING_DONE = 31; /* Status bits - These are used to set/reset the corresponding bits in a 'status_variable' */ typedef enum { STATUS_BIT_CONNECTION = 0, /* If this bit is: * 1 in a 'status_variable', the device is connected to the AP * 0 in a 'status_variable', the device is not connected to the AP */ STATUS_BIT_STA_CONNECTED, /* If this bit is: * 1 in a 'status_variable', client is connected to device * 0 in a 'status_variable', client is not connected to device */ STATUS_BIT_IP_ACQUIRED, /* If this bit is: * 1 in a 'status_variable', the device has acquired an IP * 0 in a 'status_variable', the device has not acquired an IP */ STATUS_BIT_IP_LEASED, /* If this bit is: * 1 in a 'status_variable', the device has leased an IP * 0 in a 'status_variable', the device has not leased an IP */ STATUS_BIT_CONNECTION_FAILED, /* If this bit is: * 1 in a 'status_variable', failed to connect to device * 0 in a 'status_variable' */ STATUS_BIT_P2P_NEG_REQ_RECEIVED,/* If this bit is: * 1 in a 'status_variable', connection requested by remote wifi-direct device * 0 in a 'status_variable', */ STATUS_BIT_SMARTCONFIG_DONE, /* If this bit is: * 1 in a 'status_variable', smartconfig completed * 0 in a 'status_variable', smartconfig event couldn't complete */ STATUS_BIT_SMARTCONFIG_STOPPED, /* If this bit is: * 1 in a 'status_variable', smartconfig process stopped * 0 in a 'status_variable', smartconfig process running */ STATUS_BIT_PING_DONE = 31 /* Use bit 32: Lower bits of status variable are used for NWP events * 1 in a 'status_variable', the device has completed the ping operation * 0 in a 'status_variable', the device has not completed the ping operation */ } e_StatusBits; /* Application specific status/error codes */ typedef enum { LAN_CONNECTION_FAILED = -0x7D0, /* Choosing this number to avoid overlap with host-driver's error codes */ INTERNET_CONNECTION_FAILED = LAN_CONNECTION_FAILED - 1, DEVICE_NOT_IN_STATION_MODE = INTERNET_CONNECTION_FAILED - 1, HTTP_SEND_ERROR = DEVICE_NOT_IN_STATION_MODE - 1, HTTP_RECV_ERROR = HTTP_SEND_ERROR - 1, HTTP_INVALID_RESPONSE = HTTP_RECV_ERROR -1, SNTP_SEND_ERROR = DEVICE_NOT_IN_STATION_MODE - 1, SNTP_RECV_ERROR = SNTP_SEND_ERROR - 1, SNTP_SERVER_RESPONSE_ERROR = SNTP_RECV_ERROR - 1, INVALID_HEX_STRING = DEVICE_NOT_IN_STATION_MODE - 1, TCP_RECV_ERROR = INVALID_HEX_STRING - 1, TCP_SEND_ERROR = TCP_RECV_ERROR - 1, FILE_NOT_FOUND_ERROR = TCP_SEND_ERROR - 1, INVALID_SERVER_RESPONSE = FILE_NOT_FOUND_ERROR - 1, FORMAT_NOT_SUPPORTED = INVALID_SERVER_RESPONSE - 1, FILE_WRITE_ERROR = FORMAT_NOT_SUPPORTED - 1, INVALID_FILE = FILE_WRITE_ERROR - 1, STATUS_CODE_MAX = -0xBB8 } e_AppStatusCodes; /* Send types */ typedef enum { SL_ERR_SENDER_HEALTH_MON, SL_ERR_SENDER_CLI_UART, SL_ERR_SENDER_SUPPLICANT, SL_ERR_SENDER_NETWORK_STACK, SL_ERR_SENDER_WLAN_DRV_IF, SL_ERR_SENDER_WILINK, SL_ERR_SENDER_INIT_APP, SL_ERR_SENDER_NETX, SL_ERR_SENDER_HOST_APD, SL_ERR_SENDER_MDNS, SL_ERR_SENDER_HTTP_SERVER, SL_ERR_SENDER_DHCP_SERVER, SL_ERR_SENDER_DHCP_CLIENT, SL_ERR_DISPATCHER, SL_ERR_NUM_SENDER_LAST=0xFF } SlErrorSender_e; /* Error codes */ const int8_t SL_ERROR_STATIC_ADDR_SUBNET_ERROR = (-60); /* network stack error*/ const int8_t SL_ERROR_ILLEGAL_CHANNEL = (-61); /* supplicant error */ const int8_t SL_ERROR_SUPPLICANT_ERROR = (-72); /* init error code */ const int8_t SL_ERROR_HOSTAPD_INIT_FAIL = (-73); /* init error code */ const int8_t SL_ERROR_HOSTAPD_INIT_IF_FAIL = (-74); /* init error code */ const int8_t SL_ERROR_WLAN_DRV_INIT_FAIL = (-75); /* init error code */ const int8_t SL_ERROR_WLAN_DRV_START_FAIL = (-76); /* wlan start error */ const int8_t SL_ERROR_FS_FILE_TABLE_LOAD_FAILED = (-77); /* init file system failed */ const int8_t SL_ERROR_PREFERRED_NETWORKS_FILE_LOAD_FAILED = (-78); /* init file system failed */ const int8_t SL_ERROR_HOSTAPD_BSSID_VALIDATION_ERROR = (-79); /* Ap configurations BSSID error */ const int8_t SL_ERROR_HOSTAPD_FAILED_TO_SETUP_INTERFACE = (-80); /* Ap configurations interface error */ const int8_t SL_ERROR_MDNS_ENABLE_FAIL = (-81); /* mDNS enable failed */ const int8_t SL_ERROR_HTTP_SERVER_ENABLE_FAILED = (-82); /* HTTP server enable failed */ const int8_t SL_ERROR_DHCP_SERVER_ENABLE_FAILED = (-83); /* DHCP server enable failed */ const int8_t SL_ERROR_PREFERRED_NETWORK_LIST_FULL = (-93); /* supplicant error */ const int8_t SL_ERROR_PREFERRED_NETWORKS_FILE_WRITE_FAILED = (-94); /* supplicant error */ const int8_t SL_ERROR_DHCP_CLIENT_RENEW_FAILED = (-100); /* DHCP client error */ /* WLAN Connection management status */ const int8_t SL_ERROR_CON_MGMT_STATUS_UNSPECIFIED = (-102); const int8_t SL_ERROR_CON_MGMT_STATUS_AUTH_REJECT = (-103); const int8_t SL_ERROR_CON_MGMT_STATUS_ASSOC_REJECT = (-104); const int8_t SL_ERROR_CON_MGMT_STATUS_SECURITY_FAILURE = (-105); const int8_t SL_ERROR_CON_MGMT_STATUS_AP_DEAUTHENTICATE = (-106); const int8_t SL_ERROR_CON_MGMT_STATUS_AP_DISASSOCIATE = (-107); const int8_t SL_ERROR_CON_MGMT_STATUS_ROAMING_TRIGGER = (-108); const int8_t SL_ERROR_CON_MGMT_STATUS_DISCONNECT_DURING_CONNECT = (-109); const int8_t SL_ERROR_CON_MGMT_STATUS_SG_RESELECT = (-110); const int8_t SL_ERROR_CON_MGMT_STATUS_ROC_FAILURE = (-111); const int8_t SL_ERROR_CON_MGMT_STATUS_MIC_FAILURE = (-112); /* end of WLAN connection management error statuses */ const int8_t SL_ERROR_WAKELOCK_ERROR_PREFIX = (-115); /* Wake lock expired */ const int8_t SL_ERROR_LENGTH_ERROR_PREFIX = (-116); /* Uart header length error */ const int8_t SL_ERROR_MDNS_CREATE_FAIL = (-121); /* mDNS create failed */ const int8_t SL_ERROR_GENERAL_ERROR = (-127); const int8_t SL_DEVICE_GENERAL_CONFIGURATION = (1); const int8_t SL_DEVICE_GENERAL_CONFIGURATION_DATE_TIME = (11); const int8_t SL_DEVICE_GENERAL_VERSION = (12); const int8_t SL_DEVICE_STATUS = (2); /* Declare the different event group classifications The SimpleLink device send asynchronous events. Each event has a group classification according to its nature. */ /* SL_EVENT_CLASS_WLAN connection user events */ const int8_t SL_WLAN_CONNECT_EVENT = (1); const int8_t SL_WLAN_DISCONNECT_EVENT = (2); /* WLAN Smart Config user events */ const int8_t SL_WLAN_SMART_CONFIG_COMPLETE_EVENT = (3); const int8_t SL_WLAN_SMART_CONFIG_STOP_EVENT = (4); /* WLAN AP user events */ const int8_t SL_WLAN_STA_CONNECTED_EVENT = (5); const int8_t SL_WLAN_STA_DISCONNECTED_EVENT = (6); /* WLAN P2P user events */ const int8_t SL_WLAN_P2P_DEV_FOUND_EVENT = (7); const int8_t SL_WLAN_P2P_NEG_REQ_RECEIVED_EVENT = (8); const int8_t SL_WLAN_CONNECTION_FAILED_EVENT = (9); /* SL_EVENT_CLASS_DEVICE user events */ const int8_t SL_DEVICE_FATAL_ERROR_EVENT = (1); /* SL_EVENT_CLASS_BSD user events */ const int8_t SL_SOCKET_TX_FAILED_EVENT = (1); const int8_t SL_SOCKET_ASYNC_EVENT = (2); /* SL_EVENT_CLASS_NETAPP user events */ const int8_t SL_NETAPP_IPV4_IPACQUIRED_EVENT = (1); const int8_t SL_NETAPP_IPV6_IPACQUIRED_EVENT = (2); const int8_t SL_NETAPP_IP_LEASED_EVENT = (3); const int8_t SL_NETAPP_IP_RELEASED_EVENT = (4); /* Server Events */ const int8_t SL_NETAPP_HTTPGETTOKENVALUE_EVENT = (1); const int8_t SL_NETAPP_HTTPPOSTTOKENVALUE_EVENT = (2); /* Declare the different event group classifications for sl_DevGet for getting status indications */ /* Events list to mask/unmask*/ const int8_t SL_EVENT_CLASS_GLOBAL = (0); const int8_t SL_EVENT_CLASS_DEVICE = (1); const int8_t SL_EVENT_CLASS_WLAN = (2); const int8_t SL_EVENT_CLASS_BSD = (3); const int8_t SL_EVENT_CLASS_NETAPP = (4); const int8_t SL_EVENT_CLASS_NETCFG = (5); const int8_t SL_EVENT_CLASS_FS = (6); /****************** DEVICE CLASS status ****************/ const uint32_t EVENT_DROPPED_DEVICE_ASYNC_GENERAL_ERROR = (0x00000001L); const uint32_t STATUS_DEVICE_SMART_CONFIG_ACTIVE = (0x80000000L); /****************** WLAN CLASS status ****************/ const uint32_t EVENT_DROPPED_WLAN_WLANASYNCONNECTEDRESPONSE = (0x00000001L); const uint32_t EVENT_DROPPED_WLAN_WLANASYNCDISCONNECTEDRESPONSE = (0x00000002L); const uint32_t EVENT_DROPPED_WLAN_STA_CONNECTED = (0x00000004L); const uint32_t EVENT_DROPPED_WLAN_STA_DISCONNECTED = (0x00000008L); const uint32_t STATUS_WLAN_STA_CONNECTED = (0x80000000L); /****************** NETAPP CLASS status ****************/ const uint32_t EVENT_DROPPED_NETAPP_IPACQUIRED = (0x00000001L); const uint32_t EVENT_DROPPED_NETAPP_IPACQUIRED_V6 = (0x00000002L); const uint32_t EVENT_DROPPED_NETAPP_IP_LEASED = (0x00000004L); const uint32_t EVENT_DROPPED_NETAPP_IP_RELEASED = (0x00000008L); /****************** BSD CLASS status ****************/ const uint32_t EVENT_DROPPED_SOCKET_TXFAILEDASYNCRESPONSE = (0x00000001L); /****************** FS CLASS ****************/ /*****************************************************************************/ /* Structure/Enum declarations */ /*****************************************************************************/ #ifdef SL_IF_TYPE_UART typedef struct { uint32_t BaudRate; uint8_t FlowControlEnable; uint8_t CommPort; } SlUartIfParams_t; #endif typedef struct { uint32_t ChipId; uint32_t FwVersion[4]; uint8_t PhyVersion[4]; } _SlPartialVersion; typedef struct { _SlPartialVersion ChipFwAndPhyVersion; uint32_t NwpVersion[4]; uint16_t RomVersion; uint16_t Padding; } SlVersionFull; typedef struct { int8_t status; SlErrorSender_e sender; } sl_DeviceReport; typedef union { sl_DeviceReport deviceEvent; } _SlDeviceEventData_u; typedef struct { uint32_t Event; _SlDeviceEventData_u EventData; } SlDeviceEvent_t; typedef struct { /* time */ uint32_t sl_tm_sec; uint32_t sl_tm_min; uint32_t sl_tm_hour; /* date */ uint32_t sl_tm_day; /* 1-31 */ uint32_t sl_tm_mon; /* 1-12 */ uint32_t sl_tm_year; /* YYYY 4 digits */ uint32_t sl_tm_week_day; /* not required */ uint32_t sl_tm_year_day; /* not required */ uint32_t reserved[3]; } SlDateTime_t; /******************************************************************************/ /* Type declarations */ /******************************************************************************/ typedef void (*P_INIT_CALLBACK)(uint32_t Status); class cc3100_netcfg; class cc3100 { public: cc3100(PinName cc3100_irq, PinName cc3100_nHIB, PinName cc3100_cs, SPI cc3100_spi); ~cc3100(); /*****************************************************************************/ /* Function prototypes */ /*****************************************************************************/ int32_t initializeAppVariables(); int32_t establishConnectionWithAP(void); int32_t checkLanConnection(void); int32_t checkInternetConnection(void); int32_t createUDPConnection(void); int32_t createConnection(uint32_t DestinationIP); int32_t getChunkSize(int32_t *len, uint8_t **p_Buff, uint32_t *chunk_size); int32_t hexToi(unsigned char *ptr); // int32_t getFile(void); int32_t disconnectFromAP(void); uint16_t itoa(int16_t cNum, uint8_t *cString); int32_t configureSimpleLinkToDefaultState(void); int16_t _sl_GetStartResponseConvert(uint32_t Status); void _sl_HandleAsync_InitComplete(void *pVoidBuf); bool IS_PING_DONE(uint32_t status_variable,const uint32_t bit); bool IS_CONNECTED(uint32_t status_variable,const uint32_t bit); bool IS_STA_CONNECTED(uint32_t status_variable,const uint32_t bit); bool IS_IP_ACQUIRED(uint32_t status_variable,const uint32_t bit); bool IS_IP_LEASED(uint32_t status_variable,const uint32_t bit); bool IS_CONNECTION_FAILED(uint32_t status_variable,const uint32_t bit); bool IS_P2P_NEG_REQ_RECEIVED(uint32_t status_variable,const uint32_t bit); bool IS_SMARTCONFIG_DONE(uint32_t status_variable,const uint32_t bit); bool IS_SMARTCONFIG_STOPPED(uint32_t status_variable,const uint32_t bit); void CLR_STATUS_BIT(uint32_t status_variable, const uint32_t bit); void SET_STATUS_BIT(uint32_t status_variable, const uint32_t bit); /*! \brief Start the SimpleLink device This function initialize the communication interface, set the enable pin of the device, and call to the init complete callback. \param[in] pIfHdl Opened Interface Object. In case the interface must be opened outside the SimpleLink Driver, the user might give the handler to be used in \n any access of the communication interface with the device (UART/SPI). \n The SimpleLink driver will open an interface port only if this parameter is null! \n \param[in] pDevName The name of the device to open. Could be used when the pIfHdl is null, to transfer information to the open interface function \n This pointer could be used to pass additional information to sl_IfOpen in case it is required (e.g. UART com port name) \param[in] pInitCallBack Pointer to function that would be called on completion of the initialization process.\n If this parameter is NULL the function is blocked until the device initialization is completed, otherwise the function returns immediately. \return Returns the current active role (STA/AP/P2P) or an error code: - ROLE_STA, ROLE_AP, ROLE_P2P in case of success, otherwise in failure one of the following is return: - ROLE_STA_ERR (Failure to load MAC/PHY in STA role) - ROLE_AP_ERR (Failure to load MAC/PHY in AP role) - ROLE_P2P_ERR (Failure to load MAC/PHY in P2P role) \sa sl_Stop \note belongs to \ref basic_api \warning This function must be called before any other SimpleLink API is used, or after sl_Stop is called for reinit the device \par Example: \code An example for open interface without callback routine. The interface name and handler are handled by the sl_IfOpen routine: if( sl_Start(NULL, NULL, NULL) < 0 ) { LOG("Error opening interface to device\n"); } \endcode */ #if _SL_INCLUDE_FUNC(sl_Start) int16_t sl_Start(const void* pIfHdl, int8_t* pDevName, const P_INIT_CALLBACK pInitCallBack); #endif /*! \brief Stop the SimpleLink device This function clears the enable pin of the device, closes the communication \n interface and invokes the stop complete callback \param[in] timeout Stop timeout in msec. Should be used to give the device time to finish \n any transmission/reception that is not completed when the function was called. \n Additional options: - 0 Enter to hibernate immediately \n - 0xFFFF Host waits for device's response before \n hibernating, without timeout protection \n - 0 < Timeout[msec] < 0xFFFF Host waits for device's response before \n hibernating, with a defined timeout protection \n This timeout defines the max time to wait. The NWP \n response can be sent earlier than this timeout. \return On success, zero is returned. On error, -1 is returned \sa sl_Start \note This API will shutdown the device and invoke the "i/f close" function regardless \n if it was opened implicitly or explicitly. \n It is up to the platform interface library to properly handle interface close \n routine \n belongs to \ref basic_api \n \warning */ #if _SL_INCLUDE_FUNC(sl_Stop) int16_t sl_Stop(uint16_t timeout); #endif /*! \brief Internal function for setting device configurations \return On success, zero is returned. On error, -1 is returned \param[in] DeviceSetId configuration id \param[in] Option configurations option \param[in] ConfigLen configurations len \param[in] pValues configurations values \sa \note \warning \par Examples: \code Setting device time and date example: SlDateTime_t dateTime= {0}; dateTime.sl_tm_day = (uint32_t)23; // Day of month (DD format) range 1-13 dateTime.sl_tm_mon = (uint32_t)6; // Month (MM format) in the range of 1-12 dateTime.sl_tm_year = (uint32_t)2014; // Year (YYYY format) dateTime.sl_tm_hour = (uint32_t)17; // Hours in the range of 0-23 dateTime.sl_tm_min = (uint32_t)55; // Minutes in the range of 0-59 dateTime.sl_tm_sec = (uint32_t)22; // Seconds in the range of 0-59 sl_DevSet(SL_DEVICE_GENERAL_CONFIGURATION, SL_DEVICE_GENERAL_CONFIGURATION_DATE_TIME, sizeof(SlDateTime_t), (uint8_t *)(&dateTime)); \endcode */ #if _SL_INCLUDE_FUNC(sl_DevSet) int32_t sl_DevSet(uint8_t DeviceSetId ,uint8_t Option,uint8_t ConfigLen, uint8_t *pValues); #endif /*! \brief Internal function for getting device configurations \return On success, zero is returned. On error, -1 is returned \param[in] DeviceGetId configuration id - example SL_DEVICE_STATUS \param[out] pOption Get configurations option, example for get status options - SL_EVENT_CLASS_GLOBAL - SL_EVENT_CLASS_DEVICE - SL_EVENT_CLASS_WLAN - SL_EVENT_CLASS_BSD - SL_EVENT_CLASS_NETAPP - SL_EVENT_CLASS_NETCFG - SL_EVENT_CLASS_FS \param[out] pConfigLen The length of the allocated memory as input, when the function complete, the value of this parameter would be the len that actually read from the device.\n If the device return length that is longer from the input value, the function will cut the end of the returned structure and will return SL_ESMALLBUF \param[out] pValues Get configurations values \sa \note \warning \par Examples: \code Example for getting WLAN class status: uint32_t statusWlan; uint8_t pConfigOpt; uint8_t pConfigLen; pConfigOpt = SL_EVENT_CLASS_WLAN; sl_DevGet(SL_DEVICE_STATUS,&pConfigOpt,&pConfigLen,(uint8_t *)(&statusWlan)); Example for getting version: SlVersionFull ver; pConfigOpt = SL_DEVICE_GENERAL_VERSION; sl_DevGet(SL_DEVICE_GENERAL_CONFIGURATION,&pConfigOpt,&pConfigLen,(uint8_t *)(&ver)); printf("CHIP %d\nMAC 31.%d.%d.%d.%d\nPHY %d.%d.%d.%d\nNWP %d.%d.%d.%d\nROM %d\nHOST %d.%d.%d.%d\n", ver.ChipFwAndPhyVersion.ChipId, ver.ChipFwAndPhyVersion.FwVersion[0],ver.ChipFwAndPhyVersion.FwVersion[1], ver.ChipFwAndPhyVersion.FwVersion[2],ver.ChipFwAndPhyVersion.FwVersion[3], ver.ChipFwAndPhyVersion.PhyVersion[0],ver.ChipFwAndPhyVersion.PhyVersion[1], ver.ChipFwAndPhyVersion.PhyVersion[2],ver.ChipFwAndPhyVersion.PhyVersion[3], ver.NwpVersion[0],ver.NwpVersion[1],ver.NwpVersion[2],ver.NwpVersion[3], ver.RomVersion, SL_MAJOR_VERSION_NUM,SL_MINOR_VERSION_NUM,SL_VERSION_NUM,SL_SUB_VERSION_NUM); \endcode \code Getting Device time and date example: SlDateTime_t dateTime = {0}; int8_t configLen = sizeof(SlDateTime_t); int8_t configOpt = SL_DEVICE_GENERAL_CONFIGURATION_DATE_TIME; sl_DevGet(SL_DEVICE_GENERAL_CONFIGURATION,&configOpt, &configLen,(uint8_t *)(&dateTime)); printf("Day %d,Mon %d,Year %d,Hour %,Min %d,Sec %d\n",dateTime.sl_tm_day,dateTime.sl_tm_mon,dateTime.sl_tm_year dateTime.sl_tm_hour,dateTime.sl_tm_min,dateTime.sl_tm_sec); \endcode */ #if _SL_INCLUDE_FUNC(sl_DevGet) int32_t sl_DevGet(uint8_t DeviceGetId, uint8_t *pOption,uint8_t *pConfigLen, uint8_t *pValues); #endif /*! \brief Set asynchronous event mask Mask asynchronous events from the device. Masked events do not generate asynchronous messages from the device. By default - all events are active \param[in] EventClass The classification groups that the mask is referred to. Need to be one of the following: - SL_EVENT_CLASS_GLOBAL - SL_EVENT_CLASS_DEVICE - SL_EVENT_CLASS_WLAN - SL_EVENT_CLASS_BSD - SL_EVENT_CLASS_NETAPP - SL_EVENT_CLASS_NETCFG - SL_EVENT_CLASS_FS \param[in] Mask Event Mask bitmap. Valid mask are (per group): - SL_EVENT_CLASS_WLAN user events - SL_WLAN_CONNECT_EVENT - SL_WLAN_DISCONNECT_EVENT - SL_EVENT_CLASS_DEVICE user events - SL_DEVICE_FATAL_ERROR_EVENT - SL_EVENT_CLASS_BSD user events - SL_SOCKET_TX_FAILED_EVENT - SL_SOCKET_ASYNC_EVENT - SL_EVENT_CLASS_NETAPP user events - SL_NETAPP_IPV4_IPACQUIRED_EVENT - SL_NETAPP_IPV6_IPACQUIRED_EVENT \return On success, zero is returned. On error, -1 is returned \sa sl_EventMaskGet \note belongs to \ref ext_api \warning \par Example: \code An example of masking connection/disconnection async events from WLAN class: sl_EventMaskSet(SL_EVENT_CLASS_WLAN, (SL_WLAN_CONNECT_EVENT | SL_WLAN_DISCONNECT_EVENT) ); \endcode */ #if _SL_INCLUDE_FUNC(sl_EventMaskSet) int16_t sl_EventMaskSet(uint8_t EventClass , uint32_t Mask); #endif /*! \brief Get current event mask of the device return the events bit mask from the device. In case that event is masked, the device is not sending this event. \param[in] EventClass The classification groups that the mask is referred to. Need to be one of the following: - SL_EVENT_CLASS_GLOBAL - SL_EVENT_CLASS_DEVICE - SL_EVENT_CLASS_WLAN - SL_EVENT_CLASS_BSD - SL_EVENT_CLASS_NETAPP - SL_EVENT_CLASS_NETCFG - SL_EVENT_CLASS_FS \param[out] pMask Pointer to Mask bitmap where the value should be stored. Bitmasks are the same as in \ref sl_EventMaskSet \return On success, zero is returned. On error, -1 is returned \sa sl_EventMaskSet \note belongs to \ref ext_api \warning \par Example: \code An example of getting an event mask for WLAN class uint32_t maskWlan; sl_StatusGet(SL_EVENT_CLASS_WLAN,&maskWlan); \endcode */ #if _SL_INCLUDE_FUNC(sl_EventMaskGet) int16_t sl_EventMaskGet(uint8_t EventClass, uint32_t *pMask); #endif /*! \brief the simple link task entry \Param This function must be called from the main loop or from dedicated thread in the following cases: - Non-Os Platform - should be called from the mail loop - Multi Threaded Platform when the user does not implement the external spawn functions - should be called from dedicated thread allocated to the simplelink driver. In this mode the function never return. \return None \sa sl_Stop \note belongs to \ref basic_api \warning This function must be called from a thread that is start running before any call to other simple link API */ #if _SL_INCLUDE_FUNC(sl_Task) void sl_Task(void); #endif /*! \brief Setting the internal uart mode \param[in] pUartParams Pointer to the uart configuration parameter set: baudrate - up to 711 Kbps flow control - enable/disable comm port - the comm port number \return On success zero is returned, otherwise - Failed. \sa sl_Stop \note belongs to \ref basic_api \warning This function must consider the host uart capability */ #ifdef SL_IF_TYPE_UART #if _SL_INCLUDE_FUNC(sl_UartSetMode) int16_t sl_UartSetMode(const SlUartIfParams_t* pUartParams); #endif #endif int32_t NetAppPingStart(SlPingStartCommand_t* pPingParams,uint8_t family,SlPingReport_t *pReport,const P_SL_DEV_PING_CALLBACK pPingCallback); int32_t NetAppSet(uint8_t AppId ,uint8_t Option,uint8_t OptionLen, uint8_t *pOptionValue); int16_t NetCfgSet(uint8_t ConfigId ,uint8_t ConfigOpt, uint8_t ConfigLen, uint8_t *pValues); int16_t WlanSet(uint16_t ConfigId ,uint16_t ConfigOpt,uint16_t ConfigLen, uint8_t *pValues); void SlNonOsMainLoopTask(void); int16_t WlanSetMode(const uint8_t mode); int32_t sock_Close(int16_t sd); private: cc3100_spi _spi; cc3100_driver _driver; cc3100_nonos _nonos; cc3100_wlan _wlan; cc3100_wlan_rx_filters _wlan_filters; cc3100_netapp _netapp; cc3100_fs _fs; cc3100_netcfg _netcfg; cc3100_socket _socket; cc3100_flowcont _flowcont; protected: };//class }//namespace mbed_cc3100 /*! Close the Doxygen group. @} */ #endif /* __DEVICE_H__ */