Ermenegildo Pinetti / Mbed 2 deprecated cc3100_Socket_LED

Simple LED control project using CC3100 as Access Point and socket

Dependencies:   mbed

Fork of cc3100_Test_Demo by David Fletcher

simplelink/cc3100_driver.h@0:e89ba455dbcf, 2015-02-10 (annotated)

Committer:
dflet
Date:
Tue Feb 10 12:09:29 2015 +0000
Revision:
0:e89ba455dbcf
For test only! Not much has been tested, but the 2 demo apps run ok. Alot more work needs to be done!

Who changed what in which revision?

UserRevisionLine numberNew contents of line
dflet 0:e89ba455dbcf 1 /*
dflet 0:e89ba455dbcf 2 * driver.h - CC31xx/CC32xx Host Driver Implementation
dflet 0:e89ba455dbcf 3 *
dflet 0:e89ba455dbcf 4 * Copyright (C) 2014 Texas Instruments Incorporated - http://www.ti.com/
dflet 0:e89ba455dbcf 5 *
dflet 0:e89ba455dbcf 6 *
dflet 0:e89ba455dbcf 7 * Redistribution and use in source and binary forms, with or without
dflet 0:e89ba455dbcf 8 * modification, are permitted provided that the following conditions
dflet 0:e89ba455dbcf 9 * are met:
dflet 0:e89ba455dbcf 10 *
dflet 0:e89ba455dbcf 11 * Redistributions of source code must retain the above copyright
dflet 0:e89ba455dbcf 12 * notice, this list of conditions and the following disclaimer.
dflet 0:e89ba455dbcf 13 *
dflet 0:e89ba455dbcf 14 * Redistributions in binary form must reproduce the above copyright
dflet 0:e89ba455dbcf 15 * notice, this list of conditions and the following disclaimer in the
dflet 0:e89ba455dbcf 16 * documentation and/or other materials provided with the
dflet 0:e89ba455dbcf 17 * distribution.
dflet 0:e89ba455dbcf 18 *
dflet 0:e89ba455dbcf 19 * Neither the name of Texas Instruments Incorporated nor the names of
dflet 0:e89ba455dbcf 20 * its contributors may be used to endorse or promote products derived
dflet 0:e89ba455dbcf 21 * from this software without specific prior written permission.
dflet 0:e89ba455dbcf 22 *
dflet 0:e89ba455dbcf 23 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
dflet 0:e89ba455dbcf 24 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
dflet 0:e89ba455dbcf 25 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
dflet 0:e89ba455dbcf 26 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
dflet 0:e89ba455dbcf 27 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
dflet 0:e89ba455dbcf 28 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
dflet 0:e89ba455dbcf 29 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
dflet 0:e89ba455dbcf 30 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
dflet 0:e89ba455dbcf 31 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
dflet 0:e89ba455dbcf 32 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
dflet 0:e89ba455dbcf 33 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
dflet 0:e89ba455dbcf 34 *
dflet 0:e89ba455dbcf 35 */
dflet 0:e89ba455dbcf 36
dflet 0:e89ba455dbcf 37 #ifndef DRIVER_INT_H_
dflet 0:e89ba455dbcf 38 #define DRIVER_INT_H_
dflet 0:e89ba455dbcf 39
dflet 0:e89ba455dbcf 40 #include "cc3100_simplelink.h"
dflet 0:e89ba455dbcf 41
dflet 0:e89ba455dbcf 42 #include "cc3100_protocol.h"
dflet 0:e89ba455dbcf 43 #include "cc3100_nonos.h"
dflet 0:e89ba455dbcf 44 #include "cc3100_spi.h"
dflet 0:e89ba455dbcf 45 #include "cc3100_netapp.h"
dflet 0:e89ba455dbcf 46 #include "cc3100.h"
dflet 0:e89ba455dbcf 47
dflet 0:e89ba455dbcf 48
dflet 0:e89ba455dbcf 49 /*****************************************************************************/
dflet 0:e89ba455dbcf 50 /* Macro declarations */
dflet 0:e89ba455dbcf 51 /*****************************************************************************/
dflet 0:e89ba455dbcf 52
dflet 0:e89ba455dbcf 53 /* 2 LSB of the N2H_SYNC_PATTERN are for sequence number
dflet 0:e89ba455dbcf 54 only in SPI interface
dflet 0:e89ba455dbcf 55 support backward sync pattern */
dflet 0:e89ba455dbcf 56 #define N2H_SYNC_PATTERN_SEQ_NUM_BITS ((uint32_t)0x00000003) /* Bits 0..1 - use the 2 LBS for seq num */
dflet 0:e89ba455dbcf 57 #define N2H_SYNC_PATTERN_SEQ_NUM_EXISTS ((uint32_t)0x00000004) /* Bit 2 - sign that sequence number exists in the sync pattern */
dflet 0:e89ba455dbcf 58 #define N2H_SYNC_PATTERN_MASK ((uint32_t)0xFFFFFFF8) /* Bits 3..31 - constant SYNC PATTERN */
dflet 0:e89ba455dbcf 59 #define N2H_SYNC_SPI_BUGS_MASK ((uint32_t)0x7FFF7F7F) /* Bits 7,15,31 - ignore the SPI (8,16,32 bites bus) error bits */
dflet 0:e89ba455dbcf 60 #define BUF_SYNC_SPIM(pBuf) ((*(uint32_t *)(pBuf)) & N2H_SYNC_SPI_BUGS_MASK)
dflet 0:e89ba455dbcf 61 #define N2H_SYNC_SPIM (N2H_SYNC_PATTERN & N2H_SYNC_SPI_BUGS_MASK)
dflet 0:e89ba455dbcf 62 #define N2H_SYNC_SPIM_WITH_SEQ(TxSeqNum) ((N2H_SYNC_SPIM & N2H_SYNC_PATTERN_MASK) | N2H_SYNC_PATTERN_SEQ_NUM_EXISTS | ((TxSeqNum) & (N2H_SYNC_PATTERN_SEQ_NUM_BITS)))
dflet 0:e89ba455dbcf 63 #define MATCH_WOUT_SEQ_NUM(pBuf) ( BUF_SYNC_SPIM(pBuf) == N2H_SYNC_SPIM )
dflet 0:e89ba455dbcf 64 #define MATCH_WITH_SEQ_NUM(pBuf, TxSeqNum) ( BUF_SYNC_SPIM(pBuf) == (N2H_SYNC_SPIM_WITH_SEQ(TxSeqNum)) )
dflet 0:e89ba455dbcf 65 #define N2H_SYNC_PATTERN_MATCH(pBuf, TxSeqNum) \
dflet 0:e89ba455dbcf 66 ( \
dflet 0:e89ba455dbcf 67 ( (*((uint32_t *)pBuf) & N2H_SYNC_PATTERN_SEQ_NUM_EXISTS) && ( MATCH_WITH_SEQ_NUM(pBuf, TxSeqNum) ) ) || \
dflet 0:e89ba455dbcf 68 ( !(*((uint32_t *)pBuf) & N2H_SYNC_PATTERN_SEQ_NUM_EXISTS) && ( MATCH_WOUT_SEQ_NUM(pBuf ) ) ) \
dflet 0:e89ba455dbcf 69 )
dflet 0:e89ba455dbcf 70
dflet 0:e89ba455dbcf 71 #define OPCODE(_ptr) (((_SlResponseHeader_t *)(_ptr))->GenHeader.Opcode)
dflet 0:e89ba455dbcf 72 #define RSP_PAYLOAD_LEN(_ptr) (((_SlResponseHeader_t *)(_ptr))->GenHeader.Len - _SL_RESP_SPEC_HDR_SIZE)
dflet 0:e89ba455dbcf 73 #define SD(_ptr) (((_SocketAddrResponse_u *)(_ptr))->IpV4.sd)
dflet 0:e89ba455dbcf 74 /* Actual size of Recv/Recvfrom response data */
dflet 0:e89ba455dbcf 75 #define ACT_DATA_SIZE(_ptr) (((_SocketAddrResponse_u *)(_ptr))->IpV4.statusOrLen)
dflet 0:e89ba455dbcf 76
dflet 0:e89ba455dbcf 77 #define _SL_PROTOCOL_ALIGN_SIZE(msgLen) (((msgLen)+3) & (~3))
dflet 0:e89ba455dbcf 78 #define _SL_IS_PROTOCOL_ALIGNED_SIZE(msgLen) (!((msgLen) & 3))
dflet 0:e89ba455dbcf 79 #define _SL_PROTOCOL_CALC_LEN(pCmdCtrl,pCmdExt) ((pCmdExt) ? \
dflet 0:e89ba455dbcf 80 (_SL_PROTOCOL_ALIGN_SIZE(pCmdCtrl->TxDescLen) + _SL_PROTOCOL_ALIGN_SIZE(pCmdExt->TxPayloadLen)) : \
dflet 0:e89ba455dbcf 81 (_SL_PROTOCOL_ALIGN_SIZE(pCmdCtrl->TxDescLen)))
dflet 0:e89ba455dbcf 82
dflet 0:e89ba455dbcf 83
dflet 0:e89ba455dbcf 84 namespace mbed_cc3100 {
dflet 0:e89ba455dbcf 85
dflet 0:e89ba455dbcf 86 class cc3100;
dflet 0:e89ba455dbcf 87
dflet 0:e89ba455dbcf 88 /*****************************************************************************/
dflet 0:e89ba455dbcf 89 /* Structure/Enum declarations */
dflet 0:e89ba455dbcf 90 /*****************************************************************************/
dflet 0:e89ba455dbcf 91 //typedef void(*_SlSpawnEntryFunc_t)(void* pValue);
dflet 0:e89ba455dbcf 92
dflet 0:e89ba455dbcf 93 typedef struct {
dflet 0:e89ba455dbcf 94 _SlOpcode_t Opcode;
dflet 0:e89ba455dbcf 95 _SlArgSize_t TxDescLen;
dflet 0:e89ba455dbcf 96 _SlArgSize_t RxDescLen;
dflet 0:e89ba455dbcf 97 } _SlCmdCtrl_t;
dflet 0:e89ba455dbcf 98
dflet 0:e89ba455dbcf 99 typedef struct {
dflet 0:e89ba455dbcf 100 uint16_t TxPayloadLen;
dflet 0:e89ba455dbcf 101 uint16_t RxPayloadLen;
dflet 0:e89ba455dbcf 102 uint16_t ActualRxPayloadLen;
dflet 0:e89ba455dbcf 103 uint8_t *pTxPayload;
dflet 0:e89ba455dbcf 104 uint8_t *pRxPayload;
dflet 0:e89ba455dbcf 105 } _SlCmdExt_t;
dflet 0:e89ba455dbcf 106
dflet 0:e89ba455dbcf 107
dflet 0:e89ba455dbcf 108 typedef struct _SlArgsData_t {
dflet 0:e89ba455dbcf 109 uint8_t *pArgs;
dflet 0:e89ba455dbcf 110 uint8_t *pData;
dflet 0:e89ba455dbcf 111 } _SlArgsData_t;
dflet 0:e89ba455dbcf 112
dflet 0:e89ba455dbcf 113
dflet 0:e89ba455dbcf 114 typedef struct _SlPoolObj_t {
dflet 0:e89ba455dbcf 115 _SlSyncObj_t SyncObj;
dflet 0:e89ba455dbcf 116 uint8_t *pRespArgs;
dflet 0:e89ba455dbcf 117 uint8_t ActionID;
dflet 0:e89ba455dbcf 118 uint8_t AdditionalData; /* use for socketID and one bit which indicate supprt IPV6 or not (1=support, 0 otherwise) */
dflet 0:e89ba455dbcf 119 uint8_t NextIndex;
dflet 0:e89ba455dbcf 120
dflet 0:e89ba455dbcf 121 } _SlPoolObj_t;
dflet 0:e89ba455dbcf 122
dflet 0:e89ba455dbcf 123
dflet 0:e89ba455dbcf 124 typedef enum {
dflet 0:e89ba455dbcf 125 SOCKET_0,
dflet 0:e89ba455dbcf 126 SOCKET_1,
dflet 0:e89ba455dbcf 127 SOCKET_2,
dflet 0:e89ba455dbcf 128 SOCKET_3,
dflet 0:e89ba455dbcf 129 SOCKET_4,
dflet 0:e89ba455dbcf 130 SOCKET_5,
dflet 0:e89ba455dbcf 131 SOCKET_6,
dflet 0:e89ba455dbcf 132 SOCKET_7,
dflet 0:e89ba455dbcf 133 MAX_SOCKET_ENUM_IDX,
dflet 0:e89ba455dbcf 134 ACCEPT_ID = MAX_SOCKET_ENUM_IDX,
dflet 0:e89ba455dbcf 135 CONNECT_ID,
dflet 0:e89ba455dbcf 136 SELECT_ID,
dflet 0:e89ba455dbcf 137 GETHOSYBYNAME_ID,
dflet 0:e89ba455dbcf 138 GETHOSYBYSERVICE_ID,
dflet 0:e89ba455dbcf 139 PING_ID,
dflet 0:e89ba455dbcf 140 START_STOP_ID,
dflet 0:e89ba455dbcf 141 RECV_ID
dflet 0:e89ba455dbcf 142 } _SlActionID_e;
dflet 0:e89ba455dbcf 143
dflet 0:e89ba455dbcf 144 typedef struct _SlActionLookup_t {
dflet 0:e89ba455dbcf 145 uint8_t ActionID;
dflet 0:e89ba455dbcf 146 uint16_t ActionAsyncOpcode;
dflet 0:e89ba455dbcf 147 _SlSpawnEntryFunc_t AsyncEventHandler;
dflet 0:e89ba455dbcf 148
dflet 0:e89ba455dbcf 149 } _SlActionLookup_t;
dflet 0:e89ba455dbcf 150
dflet 0:e89ba455dbcf 151
dflet 0:e89ba455dbcf 152 typedef struct {
dflet 0:e89ba455dbcf 153 uint8_t TxPoolCnt;
dflet 0:e89ba455dbcf 154 _SlLockObj_t TxLockObj;
dflet 0:e89ba455dbcf 155 _SlSyncObj_t TxSyncObj;
dflet 0:e89ba455dbcf 156 } _SlFlowContCB_t;
dflet 0:e89ba455dbcf 157
dflet 0:e89ba455dbcf 158 typedef enum {
dflet 0:e89ba455dbcf 159 RECV_RESP_CLASS,
dflet 0:e89ba455dbcf 160 CMD_RESP_CLASS,
dflet 0:e89ba455dbcf 161 ASYNC_EVT_CLASS,
dflet 0:e89ba455dbcf 162 DUMMY_MSG_CLASS
dflet 0:e89ba455dbcf 163 } _SlRxMsgClass_e;
dflet 0:e89ba455dbcf 164
dflet 0:e89ba455dbcf 165 typedef struct {
dflet 0:e89ba455dbcf 166 uint8_t *pAsyncBuf; /* place to write pointer to buffer with CmdResp's Header + Arguments */
dflet 0:e89ba455dbcf 167 uint8_t ActionIndex;
dflet 0:e89ba455dbcf 168 _SlSpawnEntryFunc_t AsyncEvtHandler; /* place to write pointer to AsyncEvent handler (calc-ed by Opcode) */
dflet 0:e89ba455dbcf 169 _SlRxMsgClass_e RxMsgClass; /* type of Rx message */
dflet 0:e89ba455dbcf 170 } AsyncExt_t;
dflet 0:e89ba455dbcf 171
dflet 0:e89ba455dbcf 172 typedef struct {
dflet 0:e89ba455dbcf 173 _SlCmdCtrl_t *pCmdCtrl;
dflet 0:e89ba455dbcf 174 uint8_t *pTxRxDescBuff;
dflet 0:e89ba455dbcf 175 _SlCmdExt_t *pCmdExt;
dflet 0:e89ba455dbcf 176 AsyncExt_t AsyncExt;
dflet 0:e89ba455dbcf 177 } _SlFunctionParams_t;
dflet 0:e89ba455dbcf 178
dflet 0:e89ba455dbcf 179 typedef void (*P_INIT_CALLBACK)(uint32_t Status);
dflet 0:e89ba455dbcf 180
dflet 0:e89ba455dbcf 181 typedef struct {
dflet 0:e89ba455dbcf 182 _SlFd_t FD;
dflet 0:e89ba455dbcf 183 _SlLockObj_t GlobalLockObj;
dflet 0:e89ba455dbcf 184 _SlCommandHeader_t TempProtocolHeader;
dflet 0:e89ba455dbcf 185 P_INIT_CALLBACK pInitCallback;
dflet 0:e89ba455dbcf 186
dflet 0:e89ba455dbcf 187 _SlPoolObj_t ObjPool[MAX_CONCURRENT_ACTIONS];
dflet 0:e89ba455dbcf 188 uint8_t FreePoolIdx;
dflet 0:e89ba455dbcf 189 uint8_t PendingPoolIdx;
dflet 0:e89ba455dbcf 190 uint8_t ActivePoolIdx;
dflet 0:e89ba455dbcf 191 uint32_t ActiveActionsBitmap;
dflet 0:e89ba455dbcf 192 _SlLockObj_t ProtectionLockObj;
dflet 0:e89ba455dbcf 193
dflet 0:e89ba455dbcf 194 _SlSyncObj_t CmdSyncObj;
dflet 0:e89ba455dbcf 195 uint8_t IsCmdRespWaited;
dflet 0:e89ba455dbcf 196
dflet 0:e89ba455dbcf 197 _SlFlowContCB_t FlowContCB;
dflet 0:e89ba455dbcf 198
dflet 0:e89ba455dbcf 199 uint8_t TxSeqNum;
dflet 0:e89ba455dbcf 200 volatile uint8_t RxIrqCnt;
dflet 0:e89ba455dbcf 201 uint8_t RxDoneCnt;
dflet 0:e89ba455dbcf 202 uint8_t SocketNonBlocking;
dflet 0:e89ba455dbcf 203 uint8_t SocketTXFailure;
dflet 0:e89ba455dbcf 204 uint8_t RelayFlagsViaRxPayload;
dflet 0:e89ba455dbcf 205 /* for stack reduction the parameters are globals */
dflet 0:e89ba455dbcf 206 _SlFunctionParams_t FunctionParams;
dflet 0:e89ba455dbcf 207
dflet 0:e89ba455dbcf 208 } _SlDriverCb_t;
dflet 0:e89ba455dbcf 209
dflet 0:e89ba455dbcf 210 extern _SlDriverCb_t* g_pCB;
dflet 0:e89ba455dbcf 211 typedef uint8_t _SlSd_t;
dflet 0:e89ba455dbcf 212
dflet 0:e89ba455dbcf 213 class cc3100_driver
dflet 0:e89ba455dbcf 214 {
dflet 0:e89ba455dbcf 215
dflet 0:e89ba455dbcf 216 public:
dflet 0:e89ba455dbcf 217
dflet 0:e89ba455dbcf 218 cc3100_driver(cc3100_nonos &nonos, cc3100_netapp &netapp, cc3100_flowcont &flowcont, cc3100_spi &spi);
dflet 0:e89ba455dbcf 219
dflet 0:e89ba455dbcf 220 ~cc3100_driver();
dflet 0:e89ba455dbcf 221
dflet 0:e89ba455dbcf 222
dflet 0:e89ba455dbcf 223 /*****************************************************************************/
dflet 0:e89ba455dbcf 224 /* Function prototypes */
dflet 0:e89ba455dbcf 225 /*****************************************************************************/
dflet 0:e89ba455dbcf 226 typedef _SlDriverCb_t pDriver;
dflet 0:e89ba455dbcf 227
dflet 0:e89ba455dbcf 228 bool _SL_PENDING_RX_MSG(pDriver* pDriverCB);
dflet 0:e89ba455dbcf 229
dflet 0:e89ba455dbcf 230 void _SlDrvDriverCBInit(void);
dflet 0:e89ba455dbcf 231
dflet 0:e89ba455dbcf 232 void _SlDrvDriverCBDeinit(void);
dflet 0:e89ba455dbcf 233
dflet 0:e89ba455dbcf 234 void _SlDrvRxIrqHandler(void *pValue);
dflet 0:e89ba455dbcf 235
dflet 0:e89ba455dbcf 236 _SlReturnVal_t _SlDrvCmdOp(_SlCmdCtrl_t *pCmdCtrl , void* pTxRxDescBuff , _SlCmdExt_t* pCmdExt);
dflet 0:e89ba455dbcf 237
dflet 0:e89ba455dbcf 238 _SlReturnVal_t _SlDrvCmdSend(_SlCmdCtrl_t *pCmdCtrl , void* pTxRxDescBuff , _SlCmdExt_t* pCmdExt);
dflet 0:e89ba455dbcf 239
dflet 0:e89ba455dbcf 240 _SlReturnVal_t _SlDrvDataReadOp(_SlSd_t Sd, _SlCmdCtrl_t *pCmdCtrl , void* pTxRxDescBuff , _SlCmdExt_t* pCmdExt);
dflet 0:e89ba455dbcf 241
dflet 0:e89ba455dbcf 242 _SlReturnVal_t _SlDrvDataWriteOp(_SlSd_t Sd, _SlCmdCtrl_t *pCmdCtrl , void* pTxRxDescBuff , _SlCmdExt_t* pCmdExt);
dflet 0:e89ba455dbcf 243
dflet 0:e89ba455dbcf 244 int16_t _SlDrvBasicCmd(_SlOpcode_t Opcode);
dflet 0:e89ba455dbcf 245
dflet 0:e89ba455dbcf 246 int16_t _SlDrvWaitForPoolObj(uint32_t ActionID, uint8_t SocketID);
dflet 0:e89ba455dbcf 247
dflet 0:e89ba455dbcf 248 void _SlDrvReleasePoolObj(uint8_t pObj);
dflet 0:e89ba455dbcf 249
dflet 0:e89ba455dbcf 250 void _SlDrvObjInit(void);
dflet 0:e89ba455dbcf 251
dflet 0:e89ba455dbcf 252 _SlReturnVal_t _SlDrvMsgRead(void);
dflet 0:e89ba455dbcf 253
dflet 0:e89ba455dbcf 254 _SlReturnVal_t _SlDrvMsgWrite(void);
dflet 0:e89ba455dbcf 255
dflet 0:e89ba455dbcf 256 _SlReturnVal_t _SlDrvMsgReadCmdCtx(void);
dflet 0:e89ba455dbcf 257
dflet 0:e89ba455dbcf 258 _SlReturnVal_t _SlDrvMsgReadSpawnCtx_(void *pValue);
dflet 0:e89ba455dbcf 259
dflet 0:e89ba455dbcf 260 void _SlDrvClassifyRxMsg(_SlOpcode_t Opcode );
dflet 0:e89ba455dbcf 261
dflet 0:e89ba455dbcf 262 _SlReturnVal_t _SlDrvRxHdrRead(uint8_t *pBuf, uint8_t *pAlignSize);
dflet 0:e89ba455dbcf 263
dflet 0:e89ba455dbcf 264 void _SlDrvShiftDWord(uint8_t *pBuf);
dflet 0:e89ba455dbcf 265
dflet 0:e89ba455dbcf 266 void _SlAsyncEventGenericHandler(void);
dflet 0:e89ba455dbcf 267
dflet 0:e89ba455dbcf 268 void _SlDrvObjDeInit(void);
dflet 0:e89ba455dbcf 269
dflet 0:e89ba455dbcf 270 void _SlRemoveFromList(uint8_t* ListIndex, uint8_t ItemIndex);
dflet 0:e89ba455dbcf 271
dflet 0:e89ba455dbcf 272 _SlReturnVal_t _SlFindAndSetActiveObj(_SlOpcode_t Opcode, uint8_t Sd);
dflet 0:e89ba455dbcf 273
dflet 0:e89ba455dbcf 274 private:
dflet 0:e89ba455dbcf 275
dflet 0:e89ba455dbcf 276 cc3100_nonos &_nonos;
dflet 0:e89ba455dbcf 277 cc3100_netapp &_netapp;
dflet 0:e89ba455dbcf 278 cc3100_flowcont &_flowcont;
dflet 0:e89ba455dbcf 279 cc3100_spi &_spi;
dflet 0:e89ba455dbcf 280
dflet 0:e89ba455dbcf 281 };//class
dflet 0:e89ba455dbcf 282
dflet 0:e89ba455dbcf 283 }//namespace mbed_cc3100
dflet 0:e89ba455dbcf 284
dflet 0:e89ba455dbcf 285 #endif /* __DRIVER_INT_H__ */
dflet 0:e89ba455dbcf 286