TI's CC3100. A test demo with very little testing done!
Fork of cc3100_Test_Demo2 by
simplelink/cc3100_simplelink.h
- Committer:
- gaoyang
- Date:
- 2017-07-30
- Revision:
- 9:b8da46b97970
- Parent:
- 6:778b081f6a13
File content as of revision 9:b8da46b97970:
/* * simplelink.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. * */ /*! \mainpage SimpleLink Driver \section intro_sec Introduction The SimpleLink CC31xx/CC2xx family allows to add Wi-Fi and networking capabilities to low-cost embedded products without having prior Wi-Fi, RF or networking expertise. The CC31xx/CC32xx is an ideal solution for microcontroller-based sensor and control applications such as home appliances, home automation and smart metering. The CC31xx/CC32xx has integrated a comprehensive TCP/IP network stack, Wi-Fi driver and security supplicant leading to easier portability to microcontrollers, to an ultra-low memory footprint, all without compromising the capabilities and robustness of the final application. \section modules_sec Module Names To make it simple, TI's SimpleLink CC31xx/CC32xx platform capabilities were divided into modules by topic (Silo). These capabilities range from basic device management through wireless network configuration, standard BSD socket and much more. Listed below are the various modules in the SimpleLink CC31xx/CC32xx driver: -# \ref device - controls the behaviour of the CC31xx/CC32xx device (start/stop, events masking and obtaining specific device status) -# \ref wlan - controls the use of the WiFi WLAN module including: - Connection features, such as: profiles, policies, SmartConfig™ - Advanced WLAN features, such as: scans, rx filters and rx statistics collection -# \ref socket - controls standard client/server sockets programming options and capabilities -# \ref netapp - activates networking applications, such as: HTTP Server, DHCP Server, Ping, DNS and mDNS. -# \ref netcfg - controls the configuration of the device addresses (i.e. IP and MAC addresses) -# \ref FileSystem - provides file system capabilities to TI's CC31XX that can be used by both the CC31XX device and the user. \section proting_sec Porting Guide The porting of the SimpleLink driver to any new platform is based on few simple steps. This guide takes you through this process step by step. Please follow the instructions carefully to avoid any problems during this process and to enable efficient and proper work with the device. Please notice that all modifications and porting adjustments of the driver should be made in the user.h header file only. Keep making any of the changes only in this file will ensure smoothly transaction to new versions of the driver at the future! \subsection porting_step1 Step 1 - Create your own user.h file The first step is to create a user.h file that will include your configurations and adjustments. You can use the empty template provided as part of this driver or you can choose to base your file on file from one of the wide range of examples applications provided by Texas Instruments \subsection porting_step2 Step 2 - Select the capabilities set required for your application Texas Instruments made a lot of efforts to build set of predefined capability sets that would fit most of the target application. It is recommended to try and choose one of this predefined capabilities set before going to build your own customized set. If you find compatible set you can skip the rest of this step. The available sets are: -# SL_TINY - Compatible to be used on platforms with very limited resources. Provides the best in class foot print in terms of Code and Data consumption. -# SL_SMALL - Compatible to most common networking applications. Provide the most common APIs with decent balance between code size, data size, functionality and performances -# SL_FULL - Provide access to all SimpleLink functionalities \subsection porting_step3 Step 3 - Bind the device enable/disable output line The enable/disable line (nHib) provide mechanism to enter the device into the least current consumption mode. This mode could be used when no traffic is required (tx/rx). when this line is not connected to any IO of the host this define should be left empty. Not connecting this line results in ability to start the driver only once. \subsection porting_step4 Step 4 - Writing your interface communication driver The SimpleLink device support several standard communication protocol among SPI and UART. Depending on your needs and your hardware design, you should choose the communication channel type. The interface for this communication channel should include 4 simple access functions: -# open -# close -# read -# write The way this driver would be implemented is directly effecting the efficiency and the performances of the SimpleLink device on this platform. If your system has DMA you should consider to use it in order to increase the utilization of the communication channel If you have enough memory resources you should consider using a buffer to increase the efficiency of the write operations. \subsection porting_step5 Step 5 - Choose your memory management model The SimpleLink driver support two memory models: -# Static (default) -# Dynamic If you choose to work in dynamic model you will have to provide alloc and free functions to be used by the Simple Link driver otherwise nothing need to be done. \subsection porting_step6 Step 6 - OS adaptation The SimpleLink driver could run on two kind of platforms: -# Non-Os / Single Threaded (default) -# Multi-Threaded If you choose to work in multi-threaded environment under operating system you will have to provide some basic adaptation routines to allow the driver to protect access to resources for different threads (locking object) and to allow synchronization between threads (sync objects). In additional the driver support running without dedicated thread allocated solely to the simple link driver. If you choose to work in this mode, you should also supply a spawn method that will enable to run function on a temporary context. \subsection porting_step7 Step 7 - Set your asynchronous event handlers routines The SimpleLink device generate asynchronous events in several situations. These asynchronous events could be masked. In order to catch these events you have to provide handler routines. Please notice that if you not provide a handler routine and the event is received, the driver will drop this event without any indication of this drop. \subsection porting_step8 Step 8 - Run diagnostic tools to validate the correctness of your porting The driver is delivered with some porting diagnostic tools to simplify the porting validation process and to reduce issues latter. It is very important to follow carefully this process. The diagnostic process include: -# Validating Interface Communication Driver -# Validating OS adaptation layer -# Validating HW integrity -# Validating basic work with the device \section sw_license License * * * 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 SIMPLELINK_H_ #define SIMPLELINK_H_ #include "mbed.h" #include "cc3100_user.h" namespace mbed_cc3100 { /*! \attention Async event activation notes Function prototypes for event callback handlers Event handler function names should be defined in the user.h file e.g. "#define sl_WlanEvtHdlr SLWlanEventHandler" Indicates all WLAN events are handled by User func "SLWlanEventHandler" Important notes: 1. Event handlers cannot activate another SimpleLink API from the event's context 2. Event's data is valid during event's context. Any application data which is required for the user application should be copied or marked into user's variables 3. It is not recommended to delay the execution of the event callback handler */ /*! \addtogroup UserEvents @{ */ /*****************************************************************************/ /* Macro declarations for Host Driver version */ /*****************************************************************************/ #define SL_DRIVER_VERSION "1.0.0.10" #define SL_MAJOR_VERSION_NUM 1L #define SL_MINOR_VERSION_NUM 0L #define SL_VERSION_NUM 0L #define SL_SUB_VERSION_NUM 10L /*****************************************************************************/ /* Macro declarations for predefined configurations */ /*****************************************************************************/ #ifdef SL_TINY #undef SL_INC_ARG_CHECK #undef SL_INC_EXT_API #undef SL_INC_SOCK_SERVER_SIDE_API #undef SL_INC_WLAN_PKG #undef SL_INC_NET_CFG_PKG #undef SL_INC_FS_PKG #undef SL_INC_SET_UART_MODE #undef SL_INC_NVMEM_PKG #define SL_INC_STD_BSD_API_NAMING #define SL_INC_SOCK_CLIENT_SIDE_API #define SL_INC_SOCK_RECV_API #define SL_INC_SOCK_SEND_API #define SL_INC_SOCKET_PKG #define SL_INC_NET_APP_PKG #endif #ifdef SL_SMALL #undef SL_INC_EXT_API #undef SL_INC_NET_APP_PKG #undef SL_INC_NET_CFG_PKG #undef SL_INC_FS_PKG #define SL_INC_ARG_CHECK #define SL_INC_WLAN_PKG #define SL_INC_SOCKET_PKG #define SL_INC_SOCK_CLIENT_SIDE_API #define SL_INC_SOCK_SERVER_SIDE_API #define SL_INC_SOCK_RECV_API #define SL_INC_SOCK_SEND_API #define SL_INC_SET_UART_MODE #endif #ifdef SL_FULL #define SL_INC_EXT_API #define SL_INC_NET_APP_PKG #define SL_INC_NET_CFG_PKG #define SL_INC_FS_PKG #define SL_INC_ARG_CHECK #define SL_INC_WLAN_PKG #define SL_INC_SOCKET_PKG #define SL_INC_SOCK_CLIENT_SIDE_API #define SL_INC_SOCK_SERVER_SIDE_API #define SL_INC_SOCK_RECV_API #define SL_INC_SOCK_SEND_API #define SL_INC_SET_UART_MODE #endif #define SL_RET_CODE_OK (0) #define SL_RET_CODE_INVALID_INPUT (-2) #define SL_RET_CODE_SELF_ERROR (-3) #define SL_RET_CODE_NWP_IF_ERROR (-4) #define SL_RET_CODE_MALLOC_ERROR (-5) #define sl_SyncObjClear(pObj) sl_SyncObjWait(pObj,NON_OS_SYNC_OBJ_SIGNAL_VALUE,NON_OS_SYNC_OBJ_CLEAR_VALUE,SL_OS_NO_WAIT) #ifndef SL_TINY_EXT #define SL_MAX_SOCKETS (8) #else #define SL_MAX_SOCKETS (2) #endif /*****************************************************************************/ /* Types definitions */ /*****************************************************************************/ #ifndef NULL #define NULL (0) #endif #ifndef FALSE #define FALSE (0) #endif #ifndef TRUE #define TRUE (!FALSE) #endif #ifndef OK #define OK (0) #endif //#ifndef _SL_USER_TYPES //typedef unsigned char _u8; //typedef signed char _i8; //typedef unsigned short _u16; //typedef signed short _i16; //typedef unsigned long _u32; //typedef signed long _i32; //#define _volatile volatile //#define _const const //#endif typedef uint16_t _SlOpcode_t; typedef uint8_t _SlArgSize_t; typedef int16_t _SlDataSize_t; typedef int16_t _SlReturnVal_t; /* * This event status used to block or continue the event propagation * through all the registered external libs/user application * */ typedef enum { EVENT_PROPAGATION_BLOCK = 0, EVENT_PROPAGATION_CONTINUE } _SlEventPropogationStatus_e; typedef void (*_SlSpawnEntryFunc_t)(void* pValue); }//namespace mbed_cc3100 /*****************************************************************************/ /* Include files */ /*****************************************************************************/ /* objInclusion.h and user.h must be included before all api header files objInclusion.h must be the last arrangement just before including the API header files since it based on the other configurations to decide which object should be included */ #include "cc3100_objInclusion.h" #include "cc3100_trace.h" #include "cc3100_fs.h" #include "cc3100_socket.h" #include "cc3100_netapp.h" #include "cc3100_wlan.h" #include "cc3100.h" #include "cc3100_netcfg.h" #include "cc3100_wlan_rx_filters.h" /* The general events dispatcher which is * initialized to the user handler */ #ifdef sl_GeneralEvtHdlr #define _SlDrvHandleGeneralEvents sl_GeneralEvtHdlr #endif /* The wlan events dispatcher which is * initialized to the user handler */ #ifdef sl_WlanEvtHdlr #define _SlDrvHandleWlanEvents sl_WlanEvtHdlr #endif /* The NetApp events dispatcher which is * initialized to the user handler */ #ifdef sl_NetAppEvtHdlr #define _SlDrvHandleNetAppEvents sl_NetAppEvtHdlr #endif /* The http server events dispatcher which is * initialized to the user handler if exists */ #ifdef sl_HttpServerCallback #define _SlDrvHandleHttpServerEvents sl_HttpServerCallback #endif /* The socket events dispatcher which is * initialized to the user handler */ #ifdef sl_SockEvtHdlr #define _SlDrvHandleSockEvents sl_SockEvtHdlr #endif #define __CONCAT(x,y) x ## y #define __CONCAT2(x,y) __CONCAT(x,y) /* * The section below handles the external lib event registration * according to the desired events it specified in its API header file. * The external lib should be first installed by the user (see user.h) */ #ifdef SL_EXT_LIB_1 /* General Event Registration */ #if __CONCAT2(SL_EXT_LIB_1, _NOTIFY_GENERAL_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_1, _GeneralEventHdl) (SlDeviceEvent_t *); #define SlExtLib1GeneralEventHandler __CONCAT2(SL_EXT_LIB_1, _GeneralEventHdl) #undef EXT_LIB_REGISTERED_GENERAL_EVENTS #define EXT_LIB_REGISTERED_GENERAL_EVENTS #endif /* Wlan Event Registration */ #if __CONCAT2(SL_EXT_LIB_1, _NOTIFY_WLAN_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_1, _WlanEventHdl) (SlWlanEvent_t *); #define SlExtLib1WlanEventHandler __CONCAT2(SL_EXT_LIB_1, _WlanEventHdl) #undef EXT_LIB_REGISTERED_WLAN_EVENTS #define EXT_LIB_REGISTERED_WLAN_EVENTS #endif /* NetApp Event Registration */ #if __CONCAT2(SL_EXT_LIB_1, _NOTIFY_NETAPP_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_1, _NetAppEventHdl) (SlNetAppEvent_t *); #define SlExtLib1NetAppEventHandler __CONCAT2(SL_EXT_LIB_1, _NetAppEventHdl) #undef EXT_LIB_REGISTERED_NETAPP_EVENTS #define EXT_LIB_REGISTERED_NETAPP_EVENTS #endif /* Http Server Event Registration */ #if __CONCAT2(SL_EXT_LIB_1, _NOTIFY_HTTP_SERVER_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_1, _HttpServerEventHdl) (SlHttpServerEvent_t* , SlHttpServerResponse_t*); #define SlExtLib1HttpServerEventHandler __CONCAT2(SL_EXT_LIB_1, _HttpServerEventHdl) #undef EXT_LIB_REGISTERED_HTTP_SERVER_EVENTS #define EXT_LIB_REGISTERED_HTTP_SERVER_EVENTS #endif /* Socket Event Registration */ #if __CONCAT2(SL_EXT_LIB_1, _NOTIFY_SOCK_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_1, _SockEventHdl) (SlSockEvent_t *); #define SlExtLib1SockEventHandler __CONCAT2(SL_EXT_LIB_1, _SockEventHdl) #undef EXT_LIB_REGISTERED_SOCK_EVENTS #define EXT_LIB_REGISTERED_SOCK_EVENTS #endif #endif #ifdef SL_EXT_LIB_2 /* General Event Registration */ #if __CONCAT2(SL_EXT_LIB_2, _NOTIFY_GENERAL_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_2, _GeneralEventHdl) (SlDeviceEvent_t *); #define SlExtLib2GeneralEventHandler __CONCAT2(SL_EXT_LIB_2, _GeneralEventHdl) #undef EXT_LIB_REGISTERED_GENERAL_EVENTS #define EXT_LIB_REGISTERED_GENERAL_EVENTS #endif /* Wlan Event Registration */ #if __CONCAT2(SL_EXT_LIB_2, _NOTIFY_WLAN_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_2, _WlanEventHdl) (SlWlanEvent_t *); #define SlExtLib2WlanEventHandler __CONCAT2(SL_EXT_LIB_2, _WlanEventHdl) #undef EXT_LIB_REGISTERED_WLAN_EVENTS #define EXT_LIB_REGISTERED_WLAN_EVENTS #endif /* NetApp Event Registration */ #if __CONCAT2(SL_EXT_LIB_2, _NOTIFY_NETAPP_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_2, _NetAppEventHdl) (SlNetAppEvent_t *); #define SlExtLib2NetAppEventHandler __CONCAT2(SL_EXT_LIB_2, _NetAppEventHdl) #undef EXT_LIB_REGISTERED_NETAPP_EVENTS #define EXT_LIB_REGISTERED_NETAPP_EVENTS #endif /* Http Server Event Registration */ #if __CONCAT2(SL_EXT_LIB_2, _NOTIFY_HTTP_SERVER_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_2, _HttpServerEventHdl) (SlHttpServerEvent_t* , SlHttpServerResponse_t*); #define SlExtLib2HttpServerEventHandler __CONCAT2(SL_EXT_LIB_2, _HttpServerEventHdl) #undef EXT_LIB_REGISTERED_HTTP_SERVER_EVENTS #define EXT_LIB_REGISTERED_HTTP_SERVER_EVENTS #endif /* Socket Event Registration */ #if __CONCAT2(SL_EXT_LIB_2, _NOTIFY_SOCK_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_2, _SockEventHdl) (SlSockEvent_t *); #define SlExtLib2SockEventHandler __CONCAT2(SL_EXT_LIB_2, _SockEventHdl) #undef EXT_LIB_REGISTERED_SOCK_EVENTS #define EXT_LIB_REGISTERED_SOCK_EVENTS #endif #endif #ifdef SL_EXT_LIB_3 /* General Event Registration */ #if __CONCAT2(SL_EXT_LIB_3, _NOTIFY_GENERAL_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_3, _GeneralEventHdl) (SlDeviceEvent_t *); #define SlExtLib3GeneralEventHandler __CONCAT2(SL_EXT_LIB_3, _GeneralEventHdl) #undef EXT_LIB_REGISTERED_GENERAL_EVENTS #define EXT_LIB_REGISTERED_GENERAL_EVENTS #endif /* Wlan Event Registration */ #if __CONCAT2(SL_EXT_LIB_3, _NOTIFY_WLAN_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_3, _WlanEventHdl) (SlWlanEvent_t *); #define SlExtLib3WlanEventHandler __CONCAT2(SL_EXT_LIB_3, _WlanEventHdl) #undef EXT_LIB_REGISTERED_WLAN_EVENTS #define EXT_LIB_REGISTERED_WLAN_EVENTS #endif /* NetApp Event Registration */ #if __CONCAT2(SL_EXT_LIB_3, _NOTIFY_NETAPP_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_3, _NetAppEventHdl) (SlNetAppEvent_t *); #define SlExtLib3NetAppEventHandler __CONCAT2(SL_EXT_LIB_3, _NetAppEventHdl) #undef EXT_LIB_REGISTERED_NETAPP_EVENTS #define EXT_LIB_REGISTERED_NETAPP_EVENTS #endif /* Http Server Event Registration */ #if __CONCAT2(SL_EXT_LIB_3, _NOTIFY_HTTP_SERVER_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_3, _HttpServerEventHdl) (SlHttpServerEvent_t* , SlHttpServerResponse_t*); #define SlExtLib3HttpServerEventHandler __CONCAT2(SL_EXT_LIB_3, _HttpServerEventHdl) #undef EXT_LIB_REGISTERED_HTTP_SERVER_EVENTS #define EXT_LIB_REGISTERED_HTTP_SERVER_EVENTS #endif /* Socket Event Registration */ #if __CONCAT2(SL_EXT_LIB_3, _NOTIFY_SOCK_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_3, _SockEventHdl) (SlSockEvent_t *); #define SlExtLib3SockEventHandler __CONCAT2(SL_EXT_LIB_3, _SockEventHdl) #undef EXT_LIB_REGISTERED_SOCK_EVENTS #define EXT_LIB_REGISTERED_SOCK_EVENTS #endif #endif #ifdef SL_EXT_LIB_4 /* General Event Registration */ #if __CONCAT2(SL_EXT_LIB_4, _NOTIFY_GENERAL_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_4, _GeneralEventHdl) (SlDeviceEvent_t *); #define SlExtLib4GeneralEventHandler __CONCAT2(SL_EXT_LIB_4, _GeneralEventHdl) #undef EXT_LIB_REGISTERED_GENERAL_EVENTS #define EXT_LIB_REGISTERED_GENERAL_EVENTS #endif /* Wlan Event Registration */ #if __CONCAT2(SL_EXT_LIB_4, _NOTIFY_WLAN_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_4, _WlanEventHdl) (SlWlanEvent_t *); #define SlExtLib4WlanEventHandler __CONCAT2(SL_EXT_LIB_4, _WlanEventHdl) #undef EXT_LIB_REGISTERED_WLAN_EVENTS #define EXT_LIB_REGISTERED_WLAN_EVENTS #endif /* NetApp Event Registration */ #if __CONCAT2(SL_EXT_LIB_4, _NOTIFY_NETAPP_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_4, _NetAppEventHdl) (SlNetAppEvent_t *); #define SlExtLib4NetAppEventHandler __CONCAT2(SL_EXT_LIB_4, _NetAppEventHdl) #undef EXT_LIB_REGISTERED_NETAPP_EVENTS #define EXT_LIB_REGISTERED_NETAPP_EVENTS #endif /* Http Server Event Registration */ #if __CONCAT2(SL_EXT_LIB_4, _NOTIFY_HTTP_SERVER_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_4, _HttpServerEventHdl) (SlHttpServerEvent_t* , SlHttpServerResponse_t*); #define SlExtLib4HttpServerEventHandler __CONCAT2(SL_EXT_LIB_4, _HttpServerEventHdl) #undef EXT_LIB_REGISTERED_HTTP_SERVER_EVENTS #define EXT_LIB_REGISTERED_HTTP_SERVER_EVENTS #endif /* Socket Event Registration */ #if __CONCAT2(SL_EXT_LIB_4, _NOTIFY_SOCK_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_4, _SockEventHdl) (SlSockEvent_t *); #define SlExtLib4SockEventHandler __CONCAT2(SL_EXT_LIB_4, _SockEventHdl) #undef EXT_LIB_REGISTERED_SOCK_EVENTS #define EXT_LIB_REGISTERED_SOCK_EVENTS #endif #endif #ifdef SL_EXT_LIB_5 /* General Event Registration */ #if __CONCAT2(SL_EXT_LIB_5, _NOTIFY_GENERAL_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_5, _GeneralEventHdl) (SlDeviceEvent_t *); #define SlExtLib5GeneralEventHandler __CONCAT2(SL_EXT_LIB_5, _GeneralEventHdl) #undef EXT_LIB_REGISTERED_GENERAL_EVENTS #define EXT_LIB_REGISTERED_GENERAL_EVENTS #endif /* Wlan Event Registration */ #if __CONCAT2(SL_EXT_LIB_5, _NOTIFY_WLAN_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_5, _WlanEventHdl) (SlWlanEvent_t *); #define SlExtLib5WlanEventHandler __CONCAT2(SL_EXT_LIB_5, _WlanEventHdl) #undef EXT_LIB_REGISTERED_WLAN_EVENTS #define EXT_LIB_REGISTERED_WLAN_EVENTS #endif /* NetApp Event Registration */ #if __CONCAT2(SL_EXT_LIB_5, _NOTIFY_NETAPP_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_5, _NetAppEventHdl) (SlNetAppEvent_t *); #define SlExtLib5NetAppEventHandler __CONCAT2(SL_EXT_LIB_5, _NetAppEventHdl) #undef EXT_LIB_REGISTERED_NETAPP_EVENTS #define EXT_LIB_REGISTERED_NETAPP_EVENTS #endif /* Http Server Event Registration */ #if __CONCAT2(SL_EXT_LIB_5, _NOTIFY_HTTP_SERVER_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_5, _HttpServerEventHdl) (SlHttpServerEvent_t* , SlHttpServerResponse_t*); #define SlExtLib5HttpServerEventHandler __CONCAT2(SL_EXT_LIB_5, _HttpServerEventHdl) #undef EXT_LIB_REGISTERED_HTTP_SERVER_EVENTS #define EXT_LIB_REGISTERED_HTTP_SERVER_EVENTS #endif /* Socket Event Registration */ #if __CONCAT2(SL_EXT_LIB_5, _NOTIFY_SOCK_EVENT) extern _SlEventPropogationStatus_e __CONCAT2(SL_EXT_LIB_5, _SockEventHdl) (SlSockEvent_t *); #define SlExtLib5SockEventHandler __CONCAT2(SL_EXT_LIB_5, _SockEventHdl) #undef EXT_LIB_REGISTERED_SOCK_EVENTS #define EXT_LIB_REGISTERED_SOCK_EVENTS #endif #endif #if defined(EXT_LIB_REGISTERED_GENERAL_EVENTS) void _SlDrvHandleGeneralEvents(SlDeviceEvent_t *slGeneralEvent); #endif #if defined(EXT_LIB_REGISTERED_WLAN_EVENTS) void _SlDrvHandleWlanEvents(SlWlanEvent_t *slWlanEvent); #endif #if defined (EXT_LIB_REGISTERED_NETAPP_EVENTS) void _SlDrvHandleNetAppEvents(SlNetAppEvent_t *slNetAppEvent); #endif #if defined(EXT_LIB_REGISTERED_HTTP_SERVER_EVENTS) void _SlDrvHandleHttpServerEvents(SlHttpServerEvent_t *slHttpServerEvent, SlHttpServerResponse_t *slHttpServerResponse); #endif #if defined(EXT_LIB_REGISTERED_SOCK_EVENTS) void _SlDrvHandleSockEvents(SlSockEvent_t *slSockEvent); #endif #ifdef SL_PLATFORM_MULTI_THREADED #include "cc3100_spawn.h" #else #include "cc3100_nonos.h" #endif namespace mbed_cc3100 { /* Async functions description*/ /*! \brief General async event for inspecting general events \param[out] pSlDeviceEvent pointer to SlDeviceEvent_t \par- <b>pSlDeviceEvent->Event = SL_DEVICE_FATAL_ERROR_EVENT </b> - pSlDeviceEvent->EventData.deviceEvent fields: - status: An error code indication from the device - sender: The sender originator which is based on SlErrorSender_e enum - <b>pSlDeviceEvent->Event = SL_DEVICE_ABORT_ERROR_EVENT </b> Indicates a severe error occured and the device stopped - pSlDeviceEvent->EventData.deviceReport fields: - AbortType: An idication of the event type - AbortData: Additional info about the data error \par Example for fatal error: \code printf(General Event Handler - ID=%d Sender=%d\n\n", pSlDeviceEvent->EventData.deviceEvent.status, // status of the general event pSlDeviceEvent->EventData.deviceEvent.sender); // sender type \endcode \par Example for abort request: \code printf(Abort type =%d Abort Data=%d\n\n", pSlDeviceEvent->EventData.deviceReport.AbortType, pSlDeviceEvent->EventData.deviceReport.AbortData); \endcode */ //#if (defined(sl_GeneralEvtHdlr)) //void sl_GeneralEvtHdlr(SlDeviceEvent_t *pSlDeviceEvent); //#endif /*! \brief WLAN Async event handler \param[out] pSlWlanEvent pointer to SlWlanEvent_t data \par Parameters: - <b>pSlWlanEvent->Event = SL_WLAN_CONNECT_EVENT </b>, STA or P2P client connection indication event - pSlWlanEvent->EventData.STAandP2PModeWlanConnected main fields: - ssid_name - ssid_len - bssid - go_peer_device_name - go_peer_device_name_len - <b>pSlWlanEvent->Event = SL_WLAN_DISCONNECT_EVENT </b>, STA or P2P client disconnection event - pSlWlanEvent->EventData.STAandP2PModeDisconnected main fields: - ssid_name - ssid_len - reason_code - <b>pSlWlanEvent->Event = SL_WLAN_STA_CONNECTED_EVENT </b>, AP/P2P(Go) connected STA/P2P(Client) - pSlWlanEvent->EventData.APModeStaConnected fields: - go_peer_device_name - mac - go_peer_device_name_len - wps_dev_password_id - own_ssid: relevant for event sta-connected only - own_ssid_len: relevant for event sta-connected only - <b>pSlWlanEvent->Event = SL_WLAN_STA_DISCONNECTED_EVENT </b>, AP/P2P(Go) disconnected STA/P2P(Client) - pSlWlanEvent->EventData.APModestaDisconnected fields: - go_peer_device_name - mac - go_peer_device_name_len - wps_dev_password_id - own_ssid: relevant for event sta-connected only - own_ssid_len: relevant for event sta-connected only - <b>pSlWlanEvent->Event = SL_WLAN_SMART_CONFIG_COMPLETE_EVENT </b> - pSlWlanEvent->EventData.smartConfigStartResponse fields: - status - ssid_len - ssid - private_token_len - private_token - <b>pSlWlanEvent->Event = SL_WLAN_SMART_CONFIG_STOP_EVENT </b> - pSlWlanEvent->EventData.smartConfigStopResponse fields: - status - <b>pSlWlanEvent->Event = SL_WLAN_P2P_DEV_FOUND_EVENT </b> - pSlWlanEvent->EventData.P2PModeDevFound fields: - go_peer_device_name - mac - go_peer_device_name_len - wps_dev_password_id - own_ssid: relevant for event sta-connected only - own_ssid_len: relevant for event sta-connected only - <b>pSlWlanEvent->Event = SL_WLAN_P2P_NEG_REQ_RECEIVED_EVENT </b> - pSlWlanEvent->EventData.P2PModeNegReqReceived fields - go_peer_device_name - mac - go_peer_device_name_len - wps_dev_password_id - own_ssid: relevant for event sta-connected only - <b>pSlWlanEvent->Event = SL_WLAN_CONNECTION_FAILED_EVENT </b>, P2P only - pSlWlanEvent->EventData.P2PModewlanConnectionFailure fields: - status */ //#if (defined(sl_WlanEvtHdlr)) //void sl_WlanEvtHdlr(SlWlanEvent_t *pSlWlanEvent); //#endif /*! \brief NETAPP Async event handler \param[out] pSlNetApp pointer to SlNetAppEvent_t data \par Parameters: - <b>pSlNetApp->Event = SL_NETAPP_IPV4_IPACQUIRED_EVENT</b>, IPV4 acquired event - pSlNetApp->EventData.ipAcquiredV4 fields: - ip - gateway - dns - <b>pSlNetApp->Event = SL_NETAPP_IP_LEASED_EVENT</b>, AP or P2P go dhcp lease event - pSlNetApp->EventData.ipLeased fields: - ip_address - lease_time - mac - <b>pSlNetApp->Event = SL_NETAPP_IP_RELEASED_EVENT</b>, AP or P2P go dhcp ip release event - pSlNetApp->EventData.ipReleased fields - ip_address - mac - reason */ //#if (defined(sl_NetAppEvtHdlr)) //void sl_NetAppEvtHdlr(SlNetAppEvent_t *pSlNetApp); //#endif /*! \brief Socket Async event handler \param[out] pSlSockEvent pointer to SlSockEvent_t data \par Parameters:\n - <b>pSlSockEvent->Event = SL_SOCKET_TX_FAILED_EVENT</b> - pSlSockEvent->SockTxFailData fields: - sd - status - <b>pSlSockEvent->Event = SL_SOCKET_ASYNC_EVENT</b> - pSlSockEvent->SockAsyncData fields: - sd - type: SSL_ACCEPT or RX_FRAGMENTATION_TOO_BIG or OTHER_SIDE_CLOSE_SSL_DATA_NOT_ENCRYPTED - val */ //#if (defined(sl_SockEvtHdlr)) //void sl_SockEvtHdlr(SlSockEvent_t *pSlSockEvent); //#endif /*! \brief HTTP server async event \param[out] pSlHttpServerEvent pointer to SlHttpServerEvent_t \param[in] pSlHttpServerResponse pointer to SlHttpServerResponse_t \par Parameters: \n - <b>pSlHttpServerEvent->Event = SL_NETAPP_HTTPGETTOKENVALUE_EVENT</b> - pSlHttpServerEvent->EventData fields: - httpTokenName - data - len - pSlHttpServerResponse->ResponseData fields: - data - len - <b>pSlHttpServerEvent->Event = SL_NETAPP_HTTPPOSTTOKENVALUE_EVENT</b> - pSlHttpServerEvent->EventData.httpPostData fields: - action - token_name - token_value - pSlHttpServerResponse->ResponseData fields: - data - len */ //#if (defined(sl_HttpServerCallback)) //void sl_HttpServerCallback(SlHttpServerEvent_t *pSlHttpServerEvent, SlHttpServerResponse_t *pSlHttpServerResponse); //#endif /*! Close the Doxygen group. @} */ }//namespace mbed_cc3100 #endif /* __SIMPLELINK_H__ */