TI's CC3100. A test demo with very little testing done!

Dependencies:   mbed

Fork of cc3100_Test_Demo by David Fletcher

Committer:
dflet
Date:
Tue Feb 10 12:09:29 2015 +0000
Revision:
0:e89ba455dbcf
Child:
2:b3fd5b3d9860
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 * device.c - 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
dflet 0:e89ba455dbcf 38
dflet 0:e89ba455dbcf 39 /*****************************************************************************/
dflet 0:e89ba455dbcf 40 /* Include files */
dflet 0:e89ba455dbcf 41 /*****************************************************************************/
dflet 0:e89ba455dbcf 42 #include "cc3100_simplelink.h"
dflet 0:e89ba455dbcf 43 #include "cc3100_protocol.h"
dflet 0:e89ba455dbcf 44 #include "cc3100_sl_common.h"
dflet 0:e89ba455dbcf 45 #include "cc3100.h"
dflet 0:e89ba455dbcf 46
dflet 0:e89ba455dbcf 47 #include "fPtr_func.h"
dflet 0:e89ba455dbcf 48 //#include "GetSNTPTime.h"
dflet 0:e89ba455dbcf 49
dflet 0:e89ba455dbcf 50 namespace mbed_cc3100 {
dflet 0:e89ba455dbcf 51
dflet 0:e89ba455dbcf 52 uint32_t g_PingPacketsRecv;
dflet 0:e89ba455dbcf 53 uint32_t g_GatewayIP;
dflet 0:e89ba455dbcf 54 uint32_t g_StationIP;
dflet 0:e89ba455dbcf 55 uint32_t g_DestinationIP;
dflet 0:e89ba455dbcf 56 uint32_t g_BytesReceived; // variable to store the file size
dflet 0:e89ba455dbcf 57 uint32_t g_Status;
dflet 0:e89ba455dbcf 58 uint8_t g_buff[MAX_BUFF_SIZE+1];
dflet 0:e89ba455dbcf 59 int32_t g_SockID;
dflet 0:e89ba455dbcf 60
dflet 0:e89ba455dbcf 61
dflet 0:e89ba455dbcf 62 cc3100::cc3100(PinName cc3100_irq, PinName cc3100_nHIB, PinName cc3100_cs, SPI cc3100_spi)
dflet 0:e89ba455dbcf 63 : _spi(cc3100_irq, cc3100_nHIB, cc3100_cs, cc3100_spi, _driver),
dflet 0:e89ba455dbcf 64 _driver(_nonos, _netapp, _flowcont, _spi), _nonos(_driver), _wlan(_driver, _wlan_filters),
dflet 0:e89ba455dbcf 65 _wlan_filters(_driver), _netapp(_driver, _nonos), _fs(_driver), _netcfg(_driver),
dflet 0:e89ba455dbcf 66 _socket(_driver, _nonos), _flowcont(_driver, _nonos)
dflet 0:e89ba455dbcf 67
dflet 0:e89ba455dbcf 68
dflet 0:e89ba455dbcf 69 {
dflet 0:e89ba455dbcf 70
dflet 0:e89ba455dbcf 71 }
dflet 0:e89ba455dbcf 72
dflet 0:e89ba455dbcf 73 cc3100::~cc3100()
dflet 0:e89ba455dbcf 74 {
dflet 0:e89ba455dbcf 75
dflet 0:e89ba455dbcf 76 }
dflet 0:e89ba455dbcf 77
dflet 0:e89ba455dbcf 78 /*!
dflet 0:e89ba455dbcf 79 \brief This function initializes the application variables
dflet 0:e89ba455dbcf 80
dflet 0:e89ba455dbcf 81 \param[in] None
dflet 0:e89ba455dbcf 82
dflet 0:e89ba455dbcf 83 \return 0 on success, negative error-code on error
dflet 0:e89ba455dbcf 84 */
dflet 0:e89ba455dbcf 85 int32_t cc3100::initializeAppVariables()
dflet 0:e89ba455dbcf 86 {
dflet 0:e89ba455dbcf 87
dflet 0:e89ba455dbcf 88 g_Status = 0;
dflet 0:e89ba455dbcf 89 g_PingPacketsRecv = 0;
dflet 0:e89ba455dbcf 90 g_StationIP = 0;
dflet 0:e89ba455dbcf 91 g_GatewayIP = 0;
dflet 0:e89ba455dbcf 92 g_DestinationIP = 0;
dflet 0:e89ba455dbcf 93 g_BytesReceived = 0; /* variable to store the file size */
dflet 0:e89ba455dbcf 94 g_SockID = 0;
dflet 0:e89ba455dbcf 95 memset(g_buff, 0, sizeof(g_buff));
dflet 0:e89ba455dbcf 96
dflet 0:e89ba455dbcf 97 return SUCCESS;
dflet 0:e89ba455dbcf 98 }
dflet 0:e89ba455dbcf 99
dflet 0:e89ba455dbcf 100 int32_t cc3100::NetAppPingStart(SlPingStartCommand_t* pPingParams, uint8_t family, SlPingReport_t *pReport, const P_SL_DEV_PING_CALLBACK pPingCallback){
dflet 0:e89ba455dbcf 101
dflet 0:e89ba455dbcf 102 return (_netapp.sl_NetAppPingStart(pPingParams, family, pReport, pPingCallback));
dflet 0:e89ba455dbcf 103
dflet 0:e89ba455dbcf 104 }
dflet 0:e89ba455dbcf 105
dflet 0:e89ba455dbcf 106 int32_t cc3100::NetAppSet(uint8_t AppId ,uint8_t Option,uint8_t OptionLen, uint8_t *pOptionValue){
dflet 0:e89ba455dbcf 107
dflet 0:e89ba455dbcf 108 return (_netapp.sl_NetAppSet(AppId ,Option, OptionLen, (uint8_t *)pOptionValue));
dflet 0:e89ba455dbcf 109
dflet 0:e89ba455dbcf 110 }
dflet 0:e89ba455dbcf 111
dflet 0:e89ba455dbcf 112 int16_t cc3100::NetCfgSet(uint8_t ConfigId ,uint8_t ConfigOpt, uint8_t ConfigLen, uint8_t *pValues){
dflet 0:e89ba455dbcf 113
dflet 0:e89ba455dbcf 114 return (_netcfg.sl_NetCfgSet(ConfigId ,ConfigOpt, ConfigLen, (uint8_t *)pValues));
dflet 0:e89ba455dbcf 115
dflet 0:e89ba455dbcf 116 }
dflet 0:e89ba455dbcf 117
dflet 0:e89ba455dbcf 118 int16_t cc3100::WlanSet(uint16_t ConfigId ,uint16_t ConfigOpt,uint16_t ConfigLen, uint8_t *pValues){
dflet 0:e89ba455dbcf 119
dflet 0:e89ba455dbcf 120 return (_wlan.sl_WlanSet(ConfigId, ConfigOpt, ConfigLen, (uint8_t*)pValues));
dflet 0:e89ba455dbcf 121
dflet 0:e89ba455dbcf 122 }
dflet 0:e89ba455dbcf 123
dflet 0:e89ba455dbcf 124 void cc3100::SlNonOsMainLoopTask(){
dflet 0:e89ba455dbcf 125
dflet 0:e89ba455dbcf 126 _nonos._SlNonOsMainLoopTask();
dflet 0:e89ba455dbcf 127
dflet 0:e89ba455dbcf 128 }
dflet 0:e89ba455dbcf 129
dflet 0:e89ba455dbcf 130 int16_t cc3100::WlanSetMode(const uint8_t mode){
dflet 0:e89ba455dbcf 131
dflet 0:e89ba455dbcf 132 return ( _wlan.sl_WlanSetMode(mode));
dflet 0:e89ba455dbcf 133 }
dflet 0:e89ba455dbcf 134
dflet 0:e89ba455dbcf 135 /*!
dflet 0:e89ba455dbcf 136 \brief Disconnecting from a WLAN Access point
dflet 0:e89ba455dbcf 137
dflet 0:e89ba455dbcf 138 This function disconnects from the connected AP
dflet 0:e89ba455dbcf 139
dflet 0:e89ba455dbcf 140 \param[in] None
dflet 0:e89ba455dbcf 141
dflet 0:e89ba455dbcf 142 \return none
dflet 0:e89ba455dbcf 143
dflet 0:e89ba455dbcf 144 \note
dflet 0:e89ba455dbcf 145
dflet 0:e89ba455dbcf 146 \warning If the WLAN disconnection fails, we will be stuck in this function forever.
dflet 0:e89ba455dbcf 147 */
dflet 0:e89ba455dbcf 148 int32_t cc3100::disconnectFromAP()
dflet 0:e89ba455dbcf 149 {
dflet 0:e89ba455dbcf 150 int32_t retVal = -1;
dflet 0:e89ba455dbcf 151
dflet 0:e89ba455dbcf 152 /*
dflet 0:e89ba455dbcf 153 * The function returns 0 if 'Disconnected done', negative number if already disconnected
dflet 0:e89ba455dbcf 154 * Wait for 'disconnection' event if 0 is returned, Ignore other return-codes
dflet 0:e89ba455dbcf 155 */
dflet 0:e89ba455dbcf 156 retVal = _wlan.sl_WlanDisconnect();
dflet 0:e89ba455dbcf 157 if(0 == retVal)
dflet 0:e89ba455dbcf 158 {
dflet 0:e89ba455dbcf 159 /* Wait */
dflet 0:e89ba455dbcf 160 while(IS_CONNECTED(g_Status,STATUS_BIT_CONNECTION)) { SlNonOsMainLoopTask(); }
dflet 0:e89ba455dbcf 161 }
dflet 0:e89ba455dbcf 162
dflet 0:e89ba455dbcf 163 return SUCCESS;
dflet 0:e89ba455dbcf 164 }
dflet 0:e89ba455dbcf 165
dflet 0:e89ba455dbcf 166 /*!
dflet 0:e89ba455dbcf 167 \brief This function configure the SimpleLink device in its default state. It:
dflet 0:e89ba455dbcf 168 - Sets the mode to STATION
dflet 0:e89ba455dbcf 169 - Configures connection policy to Auto and AutoSmartConfig
dflet 0:e89ba455dbcf 170 - Deletes all the stored profiles
dflet 0:e89ba455dbcf 171 - Enables DHCP
dflet 0:e89ba455dbcf 172 - Disables Scan policy
dflet 0:e89ba455dbcf 173 - Sets Tx power to maximum
dflet 0:e89ba455dbcf 174 - Sets power policy to normal
dflet 0:e89ba455dbcf 175 - Unregisters mDNS services
dflet 0:e89ba455dbcf 176 - Remove all filters
dflet 0:e89ba455dbcf 177
dflet 0:e89ba455dbcf 178 \param[in] none
dflet 0:e89ba455dbcf 179
dflet 0:e89ba455dbcf 180 \return On success, zero is returned. On error, negative is returned
dflet 0:e89ba455dbcf 181 */
dflet 0:e89ba455dbcf 182 int32_t cc3100::configureSimpleLinkToDefaultState()
dflet 0:e89ba455dbcf 183 {
dflet 0:e89ba455dbcf 184 SlVersionFull ver = {0};
dflet 0:e89ba455dbcf 185 _WlanRxFilterOperationCommandBuff_t RxFilterIdMask = {0};
dflet 0:e89ba455dbcf 186
dflet 0:e89ba455dbcf 187 uint8_t val = 1;
dflet 0:e89ba455dbcf 188 uint8_t configOpt = 0;
dflet 0:e89ba455dbcf 189 uint8_t configLen = 0;
dflet 0:e89ba455dbcf 190 uint8_t power = 0;
dflet 0:e89ba455dbcf 191
dflet 0:e89ba455dbcf 192 int32_t retVal = -1;
dflet 0:e89ba455dbcf 193 int32_t role = -1;
dflet 0:e89ba455dbcf 194
dflet 0:e89ba455dbcf 195 role = sl_Start(0, 0, 0);
dflet 0:e89ba455dbcf 196 ASSERT_ON_ERROR(role);
dflet 0:e89ba455dbcf 197
dflet 0:e89ba455dbcf 198 /* If the device is not in station-mode, try configuring it in station-mode */
dflet 0:e89ba455dbcf 199 if (ROLE_STA != role) {
dflet 0:e89ba455dbcf 200 if (ROLE_AP == role) {
dflet 0:e89ba455dbcf 201 /* If the device is in AP mode, we need to wait for this event before doing anything */
dflet 0:e89ba455dbcf 202 while(!IS_IP_ACQUIRED(g_Status,STATUS_BIT_IP_ACQUIRED)) {
dflet 0:e89ba455dbcf 203 _nonos._SlNonOsMainLoopTask();
dflet 0:e89ba455dbcf 204 }
dflet 0:e89ba455dbcf 205 }
dflet 0:e89ba455dbcf 206
dflet 0:e89ba455dbcf 207 /* Switch to STA role and restart */
dflet 0:e89ba455dbcf 208 retVal = _wlan.sl_WlanSetMode(ROLE_STA);
dflet 0:e89ba455dbcf 209 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 210
dflet 0:e89ba455dbcf 211 retVal = sl_Stop(SL_STOP_TIMEOUT);
dflet 0:e89ba455dbcf 212 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 213
dflet 0:e89ba455dbcf 214 retVal = sl_Start(0, 0, 0);
dflet 0:e89ba455dbcf 215 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 216
dflet 0:e89ba455dbcf 217 /* Check if the device is in station again */
dflet 0:e89ba455dbcf 218 if (ROLE_STA != retVal) {
dflet 0:e89ba455dbcf 219 /* We don't want to proceed if the device is not coming up in station-mode */
dflet 0:e89ba455dbcf 220 ASSERT_ON_ERROR(DEVICE_NOT_IN_STATION_MODE);
dflet 0:e89ba455dbcf 221 }
dflet 0:e89ba455dbcf 222 }
dflet 0:e89ba455dbcf 223
dflet 0:e89ba455dbcf 224 /* Get the device's version-information */
dflet 0:e89ba455dbcf 225 configOpt = SL_DEVICE_GENERAL_VERSION;
dflet 0:e89ba455dbcf 226 configLen = sizeof(ver);
dflet 0:e89ba455dbcf 227 retVal = sl_DevGet(SL_DEVICE_GENERAL_CONFIGURATION, &configOpt, &configLen, (uint8_t *)(&ver));
dflet 0:e89ba455dbcf 228 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 229
dflet 0:e89ba455dbcf 230 /* Set connection policy to Auto + SmartConfig (Device's default connection policy) */
dflet 0:e89ba455dbcf 231 retVal = _wlan.sl_WlanPolicySet(SL_POLICY_CONNECTION, SL_CONNECTION_POLICY(1, 0, 0, 0, 1), NULL, 0);
dflet 0:e89ba455dbcf 232 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 233
dflet 0:e89ba455dbcf 234 /* Remove all profiles */
dflet 0:e89ba455dbcf 235 retVal = _wlan.sl_WlanProfileDel(0xFF);
dflet 0:e89ba455dbcf 236 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 237
dflet 0:e89ba455dbcf 238 /*
dflet 0:e89ba455dbcf 239 * Device in station-mode. Disconnect previous connection if any
dflet 0:e89ba455dbcf 240 * The function returns 0 if 'Disconnected done', negative number if already disconnected
dflet 0:e89ba455dbcf 241 * Wait for 'disconnection' event if 0 is returned, Ignore other return-codes
dflet 0:e89ba455dbcf 242 */
dflet 0:e89ba455dbcf 243 retVal = _wlan.sl_WlanDisconnect();
dflet 0:e89ba455dbcf 244 if(0 == retVal) {
dflet 0:e89ba455dbcf 245 /* Wait */
dflet 0:e89ba455dbcf 246 while(IS_CONNECTED(g_Status,STATUS_BIT_CONNECTION)) {
dflet 0:e89ba455dbcf 247 SlNonOsMainLoopTask();
dflet 0:e89ba455dbcf 248 }
dflet 0:e89ba455dbcf 249 }
dflet 0:e89ba455dbcf 250
dflet 0:e89ba455dbcf 251 /* Enable DHCP client*/
dflet 0:e89ba455dbcf 252 retVal = _netcfg.sl_NetCfgSet(SL_IPV4_STA_P2P_CL_DHCP_ENABLE,1,1,&val);
dflet 0:e89ba455dbcf 253 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 254
dflet 0:e89ba455dbcf 255 /* Disable scan */
dflet 0:e89ba455dbcf 256 configOpt = SL_SCAN_POLICY(0);
dflet 0:e89ba455dbcf 257 retVal = _wlan.sl_WlanPolicySet(SL_POLICY_SCAN , configOpt, NULL, 0);
dflet 0:e89ba455dbcf 258 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 259
dflet 0:e89ba455dbcf 260 /* Set Tx power level for station mode
dflet 0:e89ba455dbcf 261 Number between 0-15, as dB offset from maximum power - 0 will set maximum power */
dflet 0:e89ba455dbcf 262 power = 0;
dflet 0:e89ba455dbcf 263 retVal = _wlan.sl_WlanSet(SL_WLAN_CFG_GENERAL_PARAM_ID, WLAN_GENERAL_PARAM_OPT_STA_TX_POWER, 1, (uint8_t *)&power);
dflet 0:e89ba455dbcf 264 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 265
dflet 0:e89ba455dbcf 266 /* Set PM policy to normal */
dflet 0:e89ba455dbcf 267 retVal = _wlan.sl_WlanPolicySet(SL_POLICY_PM , SL_NORMAL_POLICY, NULL, 0);
dflet 0:e89ba455dbcf 268 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 269
dflet 0:e89ba455dbcf 270 /* Unregister mDNS services */
dflet 0:e89ba455dbcf 271 retVal = _netapp.sl_NetAppMDNSUnRegisterService(0, 0);
dflet 0:e89ba455dbcf 272 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 273
dflet 0:e89ba455dbcf 274 /* Remove all 64 filters (8*8) */
dflet 0:e89ba455dbcf 275 memset(RxFilterIdMask.FilterIdMask, 0xFF, 8);
dflet 0:e89ba455dbcf 276 retVal = _wlan_filters.sl_WlanRxFilterSet(SL_REMOVE_RX_FILTER, (uint8_t *)&RxFilterIdMask,
dflet 0:e89ba455dbcf 277 sizeof(_WlanRxFilterOperationCommandBuff_t));
dflet 0:e89ba455dbcf 278 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 279
dflet 0:e89ba455dbcf 280 retVal = sl_Stop(SL_STOP_TIMEOUT);
dflet 0:e89ba455dbcf 281 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 282
dflet 0:e89ba455dbcf 283 retVal = initializeAppVariables();
dflet 0:e89ba455dbcf 284 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 285
dflet 0:e89ba455dbcf 286 return retVal; /* Success */
dflet 0:e89ba455dbcf 287 }
dflet 0:e89ba455dbcf 288
dflet 0:e89ba455dbcf 289 /*!
dflet 0:e89ba455dbcf 290 \brief Create UDP socket to communicate with server.
dflet 0:e89ba455dbcf 291
dflet 0:e89ba455dbcf 292 \param[in] none
dflet 0:e89ba455dbcf 293
dflet 0:e89ba455dbcf 294 \return Socket descriptor for success otherwise negative
dflet 0:e89ba455dbcf 295
dflet 0:e89ba455dbcf 296 \warning
dflet 0:e89ba455dbcf 297 */
dflet 0:e89ba455dbcf 298 int32_t cc3100::createUDPConnection()
dflet 0:e89ba455dbcf 299 {
dflet 0:e89ba455dbcf 300 int32_t sd = 0;
dflet 0:e89ba455dbcf 301
dflet 0:e89ba455dbcf 302 sd = _socket.sl_Socket(SL_AF_INET, SL_SOCK_DGRAM, IPPROTO_UDP);
dflet 0:e89ba455dbcf 303 if( sd < 0 )
dflet 0:e89ba455dbcf 304 {
dflet 0:e89ba455dbcf 305 printf("Error creating socket\n\r\n\r");
dflet 0:e89ba455dbcf 306 }
dflet 0:e89ba455dbcf 307
dflet 0:e89ba455dbcf 308 return sd;
dflet 0:e89ba455dbcf 309 }
dflet 0:e89ba455dbcf 310
dflet 0:e89ba455dbcf 311 int32_t cc3100::sock_Close(int16_t sd){
dflet 0:e89ba455dbcf 312
dflet 0:e89ba455dbcf 313 return _socket.sl_Close(sd);
dflet 0:e89ba455dbcf 314 }
dflet 0:e89ba455dbcf 315
dflet 0:e89ba455dbcf 316 /*!
dflet 0:e89ba455dbcf 317 \brief Create connection with server.
dflet 0:e89ba455dbcf 318
dflet 0:e89ba455dbcf 319 This function opens a socket and create the endpoint communication with server
dflet 0:e89ba455dbcf 320
dflet 0:e89ba455dbcf 321 \param[in] DestinationIP - IP address of the server
dflet 0:e89ba455dbcf 322
dflet 0:e89ba455dbcf 323 \return socket id for success and negative for error
dflet 0:e89ba455dbcf 324 */
dflet 0:e89ba455dbcf 325 int32_t cc3100::createConnection(uint32_t DestinationIP)
dflet 0:e89ba455dbcf 326 {
dflet 0:e89ba455dbcf 327 SlSockAddrIn_t Addr = {0};
dflet 0:e89ba455dbcf 328 int32_t Status = 0;
dflet 0:e89ba455dbcf 329 int32_t AddrSize = 0;
dflet 0:e89ba455dbcf 330 int32_t SockID = 0;
dflet 0:e89ba455dbcf 331
dflet 0:e89ba455dbcf 332 Addr.sin_family = SL_AF_INET;
dflet 0:e89ba455dbcf 333 Addr.sin_port = _socket.sl_Htons(80);
dflet 0:e89ba455dbcf 334 Addr.sin_addr.s_addr = _socket.sl_Htonl(DestinationIP);
dflet 0:e89ba455dbcf 335
dflet 0:e89ba455dbcf 336 AddrSize = sizeof(SlSockAddrIn_t);
dflet 0:e89ba455dbcf 337
dflet 0:e89ba455dbcf 338 SockID = _socket.sl_Socket(SL_AF_INET,SL_SOCK_STREAM, 0);
dflet 0:e89ba455dbcf 339 ASSERT_ON_ERROR(SockID);
dflet 0:e89ba455dbcf 340
dflet 0:e89ba455dbcf 341 Status = _socket.sl_Connect(SockID, ( SlSockAddr_t *)&Addr, AddrSize);
dflet 0:e89ba455dbcf 342 if (Status < 0)
dflet 0:e89ba455dbcf 343 {
dflet 0:e89ba455dbcf 344 _socket.sl_Close(SockID);
dflet 0:e89ba455dbcf 345 ASSERT_ON_ERROR(Status);
dflet 0:e89ba455dbcf 346 }
dflet 0:e89ba455dbcf 347
dflet 0:e89ba455dbcf 348 return SockID;
dflet 0:e89ba455dbcf 349 }
dflet 0:e89ba455dbcf 350
dflet 0:e89ba455dbcf 351 /*!
dflet 0:e89ba455dbcf 352 \brief Convert hex to decimal base
dflet 0:e89ba455dbcf 353
dflet 0:e89ba455dbcf 354 \param[in] ptr - pointer to string containing number in hex
dflet 0:e89ba455dbcf 355
dflet 0:e89ba455dbcf 356 \return number in decimal base
dflet 0:e89ba455dbcf 357
dflet 0:e89ba455dbcf 358 */
dflet 0:e89ba455dbcf 359 int32_t cc3100::hexToi(unsigned char *ptr)
dflet 0:e89ba455dbcf 360 {
dflet 0:e89ba455dbcf 361 uint32_t result = 0;
dflet 0:e89ba455dbcf 362 uint32_t len = 0;
dflet 0:e89ba455dbcf 363
dflet 0:e89ba455dbcf 364 int32_t idx = -1;
dflet 0:e89ba455dbcf 365
dflet 0:e89ba455dbcf 366 len = strlen((const char*) ptr);
dflet 0:e89ba455dbcf 367
dflet 0:e89ba455dbcf 368 /* convert characters to upper case */
dflet 0:e89ba455dbcf 369 for(idx = 0; ptr[idx] != '\0'; ++idx)
dflet 0:e89ba455dbcf 370 {
dflet 0:e89ba455dbcf 371 if( (ptr[idx] >= 'a') &&
dflet 0:e89ba455dbcf 372 (ptr[idx] <= 'f') )
dflet 0:e89ba455dbcf 373 {
dflet 0:e89ba455dbcf 374 ptr[idx] -= 32; /* Change case - ASCII 'a' = 97, 'A' = 65 => 97-65 = 32 */
dflet 0:e89ba455dbcf 375 }
dflet 0:e89ba455dbcf 376 }
dflet 0:e89ba455dbcf 377
dflet 0:e89ba455dbcf 378 for(idx = 0; ptr[idx] != '\0'; ++idx)
dflet 0:e89ba455dbcf 379 {
dflet 0:e89ba455dbcf 380 if(ptr[idx] >= '0' && ptr[idx] <= '9')
dflet 0:e89ba455dbcf 381 {
dflet 0:e89ba455dbcf 382 /* Converting '0' to '9' to their decimal value */
dflet 0:e89ba455dbcf 383 result += (ptr[idx] - '0') * (1 << (4 * (len - 1 - idx)));
dflet 0:e89ba455dbcf 384 }
dflet 0:e89ba455dbcf 385 else if(ptr[idx] >= 'A' && ptr[idx] <= 'F')
dflet 0:e89ba455dbcf 386 {
dflet 0:e89ba455dbcf 387 /* Converting hex 'A' to 'F' to their decimal value */
dflet 0:e89ba455dbcf 388 result += (ptr[idx] - 55) * (1 << (4 * (len -1 - idx))); /* .i.e. 'A' - 55 = 10, 'F' - 55 = 15 */
dflet 0:e89ba455dbcf 389 }
dflet 0:e89ba455dbcf 390 else
dflet 0:e89ba455dbcf 391 {
dflet 0:e89ba455dbcf 392 ASSERT_ON_ERROR(INVALID_HEX_STRING);
dflet 0:e89ba455dbcf 393 }
dflet 0:e89ba455dbcf 394 }
dflet 0:e89ba455dbcf 395
dflet 0:e89ba455dbcf 396 return result;
dflet 0:e89ba455dbcf 397 }
dflet 0:e89ba455dbcf 398
dflet 0:e89ba455dbcf 399 /*!
dflet 0:e89ba455dbcf 400 \brief Calculate the file chunk size
dflet 0:e89ba455dbcf 401
dflet 0:e89ba455dbcf 402 \param[in] len - pointer to length of the data in the buffer
dflet 0:e89ba455dbcf 403 \param[in] p_Buff - pointer to pointer of buffer containing data
dflet 0:e89ba455dbcf 404 \param[out] chunk_size - pointer to variable containing chunk size
dflet 0:e89ba455dbcf 405
dflet 0:e89ba455dbcf 406 \return 0 for success, -ve for error
dflet 0:e89ba455dbcf 407
dflet 0:e89ba455dbcf 408 */
dflet 0:e89ba455dbcf 409 int32_t cc3100::getChunkSize(int32_t *len, uint8_t **p_Buff, uint32_t *chunk_size)
dflet 0:e89ba455dbcf 410 {
dflet 0:e89ba455dbcf 411 int32_t idx = -1;
dflet 0:e89ba455dbcf 412 unsigned char lenBuff[10];
dflet 0:e89ba455dbcf 413
dflet 0:e89ba455dbcf 414 idx = 0;
dflet 0:e89ba455dbcf 415 memset(lenBuff, 0, sizeof(lenBuff));
dflet 0:e89ba455dbcf 416 while(*len >= 0 && **p_Buff != 13) /* check for <CR> */
dflet 0:e89ba455dbcf 417 {
dflet 0:e89ba455dbcf 418 if(0 == *len)
dflet 0:e89ba455dbcf 419 {
dflet 0:e89ba455dbcf 420 memset(g_buff, 0, sizeof(g_buff));
dflet 0:e89ba455dbcf 421 *len = _socket.sl_Recv(g_SockID, &g_buff[0], MAX_BUFF_SIZE, 0);
dflet 0:e89ba455dbcf 422 if(*len <= 0)
dflet 0:e89ba455dbcf 423 ASSERT_ON_ERROR(TCP_RECV_ERROR);
dflet 0:e89ba455dbcf 424
dflet 0:e89ba455dbcf 425 *p_Buff = g_buff;
dflet 0:e89ba455dbcf 426 }
dflet 0:e89ba455dbcf 427
dflet 0:e89ba455dbcf 428 lenBuff[idx] = **p_Buff;
dflet 0:e89ba455dbcf 429 idx++;
dflet 0:e89ba455dbcf 430 (*p_Buff)++;
dflet 0:e89ba455dbcf 431 (*len)--;
dflet 0:e89ba455dbcf 432 }
dflet 0:e89ba455dbcf 433
dflet 0:e89ba455dbcf 434 (*p_Buff) += 2; /* skip <CR><LF> */
dflet 0:e89ba455dbcf 435 (*len) -= 2;
dflet 0:e89ba455dbcf 436 *chunk_size = hexToi(lenBuff);
dflet 0:e89ba455dbcf 437
dflet 0:e89ba455dbcf 438 return SUCCESS;
dflet 0:e89ba455dbcf 439 }
dflet 0:e89ba455dbcf 440
dflet 0:e89ba455dbcf 441 /*!
dflet 0:e89ba455dbcf 442 \brief Obtain the file from the server
dflet 0:e89ba455dbcf 443
dflet 0:e89ba455dbcf 444 This function requests the file from the server and save it on serial flash.
dflet 0:e89ba455dbcf 445 To request a different file for different user needs to modify the
dflet 0:e89ba455dbcf 446 PREFIX_BUFFER and POST_BUFFER macros.
dflet 0:e89ba455dbcf 447
dflet 0:e89ba455dbcf 448 \param[in] None
dflet 0:e89ba455dbcf 449
dflet 0:e89ba455dbcf 450 \return 0 for success and negative for error
dflet 0:e89ba455dbcf 451
dflet 0:e89ba455dbcf 452 */
dflet 0:e89ba455dbcf 453 /*
dflet 0:e89ba455dbcf 454 int32_t cc3100::getFile()
dflet 0:e89ba455dbcf 455 {
dflet 0:e89ba455dbcf 456 uint32_t Token = 0;
dflet 0:e89ba455dbcf 457 uint32_t recv_size = 0;
dflet 0:e89ba455dbcf 458 uint8_t *pBuff = 0;
dflet 0:e89ba455dbcf 459 uint8_t eof_detected = 0;
dflet 0:e89ba455dbcf 460 uint8_t isChunked = 0;
dflet 0:e89ba455dbcf 461
dflet 0:e89ba455dbcf 462 int32_t transfer_len = -1;
dflet 0:e89ba455dbcf 463 int32_t retVal = -1;
dflet 0:e89ba455dbcf 464 int32_t fileHandle = -1;
dflet 0:e89ba455dbcf 465
dflet 0:e89ba455dbcf 466 memset(g_buff, 0, sizeof(g_buff));
dflet 0:e89ba455dbcf 467
dflet 0:e89ba455dbcf 468 //Puts together the HTTP GET string.
dflet 0:e89ba455dbcf 469 strcpy((char*)g_buff, PREFIX_BUFFER);
dflet 0:e89ba455dbcf 470 strcat((char*)g_buff, POST_BUFFER);
dflet 0:e89ba455dbcf 471
dflet 0:e89ba455dbcf 472 //Send the HTTP GET string to the opened TCP/IP socket.
dflet 0:e89ba455dbcf 473 transfer_len = _socket.sl_Send(g_SockID, g_buff, strlen((const char*)g_buff), 0);
dflet 0:e89ba455dbcf 474
dflet 0:e89ba455dbcf 475 if (transfer_len < 0)
dflet 0:e89ba455dbcf 476 {
dflet 0:e89ba455dbcf 477 // error
dflet 0:e89ba455dbcf 478 printf(" Socket Send Error\r\n");
dflet 0:e89ba455dbcf 479 ASSERT_ON_ERROR(TCP_SEND_ERROR);
dflet 0:e89ba455dbcf 480 }
dflet 0:e89ba455dbcf 481
dflet 0:e89ba455dbcf 482 memset(g_buff, 0, sizeof(g_buff));
dflet 0:e89ba455dbcf 483
dflet 0:e89ba455dbcf 484 //get the reply from the server in buffer.
dflet 0:e89ba455dbcf 485 transfer_len = _socket.sl_Recv(g_SockID, &g_buff[0], MAX_BUFF_SIZE, 0);
dflet 0:e89ba455dbcf 486
dflet 0:e89ba455dbcf 487 if(transfer_len <= 0)
dflet 0:e89ba455dbcf 488 ASSERT_ON_ERROR(TCP_RECV_ERROR);
dflet 0:e89ba455dbcf 489
dflet 0:e89ba455dbcf 490 // Check for 404 return code
dflet 0:e89ba455dbcf 491 if(strstr((const char*)g_buff, HTTP_FILE_NOT_FOUND) != 0)
dflet 0:e89ba455dbcf 492 {
dflet 0:e89ba455dbcf 493 printf(" File not found, check the file and try again\r\n");
dflet 0:e89ba455dbcf 494 ASSERT_ON_ERROR(FILE_NOT_FOUND_ERROR);
dflet 0:e89ba455dbcf 495 }
dflet 0:e89ba455dbcf 496
dflet 0:e89ba455dbcf 497 // if not "200 OK" return error
dflet 0:e89ba455dbcf 498 if(strstr((const char*)g_buff, HTTP_STATUS_OK) == 0)
dflet 0:e89ba455dbcf 499 {
dflet 0:e89ba455dbcf 500 printf(" Error during downloading the file\r\n");
dflet 0:e89ba455dbcf 501 ASSERT_ON_ERROR(INVALID_SERVER_RESPONSE);
dflet 0:e89ba455dbcf 502 }
dflet 0:e89ba455dbcf 503
dflet 0:e89ba455dbcf 504 // check if content length is transferred with headers
dflet 0:e89ba455dbcf 505 pBuff = (uint8_t *)strstr((const char*)g_buff, HTTP_CONTENT_LENGTH);
dflet 0:e89ba455dbcf 506 if(pBuff != 0)
dflet 0:e89ba455dbcf 507 {
dflet 0:e89ba455dbcf 508 // not supported
dflet 0:e89ba455dbcf 509 printf(" Server response format is not supported\r\n");
dflet 0:e89ba455dbcf 510 ASSERT_ON_ERROR(FORMAT_NOT_SUPPORTED);
dflet 0:e89ba455dbcf 511 }
dflet 0:e89ba455dbcf 512
dflet 0:e89ba455dbcf 513 // Check if data is chunked
dflet 0:e89ba455dbcf 514 pBuff = (uint8_t *)strstr((const char*)g_buff, HTTP_TRANSFER_ENCODING);
dflet 0:e89ba455dbcf 515 if(pBuff != 0)
dflet 0:e89ba455dbcf 516 {
dflet 0:e89ba455dbcf 517 pBuff += strlen(HTTP_TRANSFER_ENCODING);
dflet 0:e89ba455dbcf 518 while(*pBuff == SPACE)
dflet 0:e89ba455dbcf 519 pBuff++;
dflet 0:e89ba455dbcf 520
dflet 0:e89ba455dbcf 521 if(memcmp(pBuff, HTTP_ENCODING_CHUNKED, strlen(HTTP_ENCODING_CHUNKED)) == 0)
dflet 0:e89ba455dbcf 522 {
dflet 0:e89ba455dbcf 523 recv_size = 0;
dflet 0:e89ba455dbcf 524 isChunked = 1;
dflet 0:e89ba455dbcf 525 }
dflet 0:e89ba455dbcf 526 }
dflet 0:e89ba455dbcf 527 else
dflet 0:e89ba455dbcf 528 {
dflet 0:e89ba455dbcf 529 // Check if connection will be closed by after sending data
dflet 0:e89ba455dbcf 530 // In this method the content length is not received and end of
dflet 0:e89ba455dbcf 531 // connection marks the end of data
dflet 0:e89ba455dbcf 532 pBuff = (uint8_t *)strstr((const char*)g_buff, HTTP_CONNECTION);
dflet 0:e89ba455dbcf 533 if(pBuff != 0)
dflet 0:e89ba455dbcf 534 {
dflet 0:e89ba455dbcf 535 pBuff += strlen(HTTP_CONNECTION);
dflet 0:e89ba455dbcf 536 while(*pBuff == SPACE)
dflet 0:e89ba455dbcf 537 pBuff++;
dflet 0:e89ba455dbcf 538
dflet 0:e89ba455dbcf 539 if(memcmp(pBuff, HTTP_ENCODING_CHUNKED, strlen(HTTP_CONNECTION_CLOSE)) == 0)
dflet 0:e89ba455dbcf 540 {
dflet 0:e89ba455dbcf 541 // not supported
dflet 0:e89ba455dbcf 542 printf(" Server response format is not supported\r\n");
dflet 0:e89ba455dbcf 543 ASSERT_ON_ERROR(FORMAT_NOT_SUPPORTED);
dflet 0:e89ba455dbcf 544 }
dflet 0:e89ba455dbcf 545 }
dflet 0:e89ba455dbcf 546 }
dflet 0:e89ba455dbcf 547
dflet 0:e89ba455dbcf 548 // "\r\n\r\n" marks the end of headers
dflet 0:e89ba455dbcf 549 pBuff = (uint8_t *)strstr((const char*)g_buff, HTTP_END_OF_HEADER);
dflet 0:e89ba455dbcf 550 if(pBuff == 0)
dflet 0:e89ba455dbcf 551 {
dflet 0:e89ba455dbcf 552 printf(" Invalid response\r\n");
dflet 0:e89ba455dbcf 553 ASSERT_ON_ERROR(INVALID_SERVER_RESPONSE);
dflet 0:e89ba455dbcf 554 }
dflet 0:e89ba455dbcf 555 // Increment by 4 to skip "\r\n\r\n"
dflet 0:e89ba455dbcf 556 pBuff += 4;
dflet 0:e89ba455dbcf 557
dflet 0:e89ba455dbcf 558 // Adjust buffer data length for header size
dflet 0:e89ba455dbcf 559 transfer_len -= (pBuff - g_buff);
dflet 0:e89ba455dbcf 560
dflet 0:e89ba455dbcf 561 // If data in chunked format, calculate the chunk size
dflet 0:e89ba455dbcf 562 if(isChunked == 1)
dflet 0:e89ba455dbcf 563 {
dflet 0:e89ba455dbcf 564 retVal = getChunkSize(&transfer_len, &pBuff, &recv_size);
dflet 0:e89ba455dbcf 565 if(retVal < 0)
dflet 0:e89ba455dbcf 566 {
dflet 0:e89ba455dbcf 567 // Error
dflet 0:e89ba455dbcf 568 printf(" Problem with connection to server\r\n");
dflet 0:e89ba455dbcf 569 return retVal;
dflet 0:e89ba455dbcf 570 }
dflet 0:e89ba455dbcf 571 }
dflet 0:e89ba455dbcf 572
dflet 0:e89ba455dbcf 573 // Open file to save the downloaded file
dflet 0:e89ba455dbcf 574 retVal = _fs.sl_FsOpen((uint8_t *)FILE_NAME,
dflet 0:e89ba455dbcf 575 FS_MODE_OPEN_WRITE, &Token, &fileHandle);
dflet 0:e89ba455dbcf 576 if(retVal < 0)
dflet 0:e89ba455dbcf 577 {
dflet 0:e89ba455dbcf 578 // File Doesn't exit create a new of 45 KB file
dflet 0:e89ba455dbcf 579 retVal = _fs.sl_FsOpen((uint8_t *)FILE_NAME,
dflet 0:e89ba455dbcf 580 _fs.FS_MODE_OPEN_CREATE(SIZE_45K,_FS_FILE_OPEN_FLAG_COMMIT|_FS_FILE_PUBLIC_WRITE),
dflet 0:e89ba455dbcf 581 &Token, &fileHandle);
dflet 0:e89ba455dbcf 582 if(retVal < 0)
dflet 0:e89ba455dbcf 583 {
dflet 0:e89ba455dbcf 584 printf(" Error during opening the file\r\n");
dflet 0:e89ba455dbcf 585 return retVal;
dflet 0:e89ba455dbcf 586 }
dflet 0:e89ba455dbcf 587 }
dflet 0:e89ba455dbcf 588
dflet 0:e89ba455dbcf 589 while (0 < transfer_len)
dflet 0:e89ba455dbcf 590 {
dflet 0:e89ba455dbcf 591 // For chunked data recv_size contains the chunk size to be received
dflet 0:e89ba455dbcf 592 // while the transfer_len contains the data in the buffer
dflet 0:e89ba455dbcf 593 if(recv_size <= transfer_len)
dflet 0:e89ba455dbcf 594 {
dflet 0:e89ba455dbcf 595 // write the recv_size
dflet 0:e89ba455dbcf 596 retVal = _fs.sl_FsWrite(fileHandle, g_BytesReceived,
dflet 0:e89ba455dbcf 597 (uint8_t *)pBuff, recv_size);
dflet 0:e89ba455dbcf 598 if(retVal < recv_size)
dflet 0:e89ba455dbcf 599 {
dflet 0:e89ba455dbcf 600 // Close file without saving
dflet 0:e89ba455dbcf 601 retVal = _fs.sl_FsClose(fileHandle, 0, (unsigned char*)"A", 1);
dflet 0:e89ba455dbcf 602 printf(" Error during writing the file\r\n");
dflet 0:e89ba455dbcf 603 return FILE_WRITE_ERROR;
dflet 0:e89ba455dbcf 604 }
dflet 0:e89ba455dbcf 605 transfer_len -= recv_size;
dflet 0:e89ba455dbcf 606 g_BytesReceived +=recv_size;
dflet 0:e89ba455dbcf 607 pBuff += recv_size;
dflet 0:e89ba455dbcf 608 recv_size = 0;
dflet 0:e89ba455dbcf 609
dflet 0:e89ba455dbcf 610 if(isChunked == 1)
dflet 0:e89ba455dbcf 611 {
dflet 0:e89ba455dbcf 612 // if data in chunked format calculate next chunk size
dflet 0:e89ba455dbcf 613 pBuff += 2; // 2 bytes for <CR> <LF>
dflet 0:e89ba455dbcf 614 transfer_len -= 2;
dflet 0:e89ba455dbcf 615
dflet 0:e89ba455dbcf 616 if(getChunkSize(&transfer_len, &pBuff, &recv_size) < 0)
dflet 0:e89ba455dbcf 617 {
dflet 0:e89ba455dbcf 618 // Error
dflet 0:e89ba455dbcf 619 break;
dflet 0:e89ba455dbcf 620 }
dflet 0:e89ba455dbcf 621
dflet 0:e89ba455dbcf 622 // if next chunk size is zero we have received the complete file
dflet 0:e89ba455dbcf 623 if(recv_size == 0)
dflet 0:e89ba455dbcf 624 {
dflet 0:e89ba455dbcf 625 eof_detected = 1;
dflet 0:e89ba455dbcf 626 break;
dflet 0:e89ba455dbcf 627 }
dflet 0:e89ba455dbcf 628
dflet 0:e89ba455dbcf 629 if(recv_size < transfer_len)
dflet 0:e89ba455dbcf 630 {
dflet 0:e89ba455dbcf 631 // Code will enter this section if the new chunk size is less then
dflet 0:e89ba455dbcf 632 // then the transfer size. This will the last chunk of file received
dflet 0:e89ba455dbcf 633
dflet 0:e89ba455dbcf 634 retVal = _fs.sl_FsWrite(fileHandle, g_BytesReceived,
dflet 0:e89ba455dbcf 635 (uint8_t *)pBuff, recv_size);
dflet 0:e89ba455dbcf 636 if(retVal < recv_size)
dflet 0:e89ba455dbcf 637 {
dflet 0:e89ba455dbcf 638 // Close file without saving
dflet 0:e89ba455dbcf 639 retVal = _fs.sl_FsClose(fileHandle, 0, (unsigned char*)"A", 1);
dflet 0:e89ba455dbcf 640 printf(" Error during writing the file\r\n");
dflet 0:e89ba455dbcf 641 return FILE_WRITE_ERROR;
dflet 0:e89ba455dbcf 642 }
dflet 0:e89ba455dbcf 643 transfer_len -= recv_size;
dflet 0:e89ba455dbcf 644 g_BytesReceived +=recv_size;
dflet 0:e89ba455dbcf 645 pBuff += recv_size;
dflet 0:e89ba455dbcf 646 recv_size = 0;
dflet 0:e89ba455dbcf 647
dflet 0:e89ba455dbcf 648 pBuff += 2; // 2bytes for <CR> <LF>
dflet 0:e89ba455dbcf 649 transfer_len -= 2;
dflet 0:e89ba455dbcf 650
dflet 0:e89ba455dbcf 651 // Calculate the next chunk size, should be zero
dflet 0:e89ba455dbcf 652 if(getChunkSize(&transfer_len, &pBuff, &recv_size) < 0)
dflet 0:e89ba455dbcf 653 {
dflet 0:e89ba455dbcf 654 // Error
dflet 0:e89ba455dbcf 655 break;
dflet 0:e89ba455dbcf 656 }
dflet 0:e89ba455dbcf 657
dflet 0:e89ba455dbcf 658 // if next chunk size is non zero error
dflet 0:e89ba455dbcf 659 if(recv_size != 0)
dflet 0:e89ba455dbcf 660 {
dflet 0:e89ba455dbcf 661 // Error
dflet 0:e89ba455dbcf 662 break;
dflet 0:e89ba455dbcf 663 }
dflet 0:e89ba455dbcf 664 eof_detected = 1;
dflet 0:e89ba455dbcf 665 break;
dflet 0:e89ba455dbcf 666 }
dflet 0:e89ba455dbcf 667 else
dflet 0:e89ba455dbcf 668 {
dflet 0:e89ba455dbcf 669 // write data on the file
dflet 0:e89ba455dbcf 670 retVal = _fs.sl_FsWrite(fileHandle, g_BytesReceived,
dflet 0:e89ba455dbcf 671 (uint8_t *)pBuff, transfer_len);
dflet 0:e89ba455dbcf 672 if(retVal < transfer_len)
dflet 0:e89ba455dbcf 673 {
dflet 0:e89ba455dbcf 674 // Close file without saving
dflet 0:e89ba455dbcf 675 retVal = _fs.sl_FsClose(fileHandle, 0, (unsigned char*)"A", 1);
dflet 0:e89ba455dbcf 676 printf(" Error during writing the file\r\n");
dflet 0:e89ba455dbcf 677 ASSERT_ON_ERROR(FILE_WRITE_ERROR);
dflet 0:e89ba455dbcf 678 }
dflet 0:e89ba455dbcf 679 recv_size -= transfer_len;
dflet 0:e89ba455dbcf 680 g_BytesReceived +=transfer_len;
dflet 0:e89ba455dbcf 681 }
dflet 0:e89ba455dbcf 682 }
dflet 0:e89ba455dbcf 683 // complete file received exit
dflet 0:e89ba455dbcf 684 if(recv_size == 0)
dflet 0:e89ba455dbcf 685 {
dflet 0:e89ba455dbcf 686 eof_detected = 1;
dflet 0:e89ba455dbcf 687 break;
dflet 0:e89ba455dbcf 688 }
dflet 0:e89ba455dbcf 689 }
dflet 0:e89ba455dbcf 690 else
dflet 0:e89ba455dbcf 691 {
dflet 0:e89ba455dbcf 692 // write data on the file
dflet 0:e89ba455dbcf 693 retVal = _fs.sl_FsWrite(fileHandle, g_BytesReceived,
dflet 0:e89ba455dbcf 694 (uint8_t *)pBuff, transfer_len);
dflet 0:e89ba455dbcf 695 if (retVal < 0)
dflet 0:e89ba455dbcf 696 {
dflet 0:e89ba455dbcf 697 // Close file without saving
dflet 0:e89ba455dbcf 698 retVal = _fs.sl_FsClose(fileHandle, 0, (unsigned char*)"A", 1);
dflet 0:e89ba455dbcf 699 printf(" Error during writing the file\r\n");
dflet 0:e89ba455dbcf 700 ASSERT_ON_ERROR(FILE_WRITE_ERROR);
dflet 0:e89ba455dbcf 701 }
dflet 0:e89ba455dbcf 702 g_BytesReceived +=transfer_len;
dflet 0:e89ba455dbcf 703 recv_size -= transfer_len;
dflet 0:e89ba455dbcf 704 }
dflet 0:e89ba455dbcf 705
dflet 0:e89ba455dbcf 706 memset(g_buff, 0, sizeof(g_buff));
dflet 0:e89ba455dbcf 707
dflet 0:e89ba455dbcf 708 transfer_len = _socket.sl_Recv(g_SockID, &g_buff[0], MAX_BUFF_SIZE, 0);
dflet 0:e89ba455dbcf 709 if(transfer_len <= 0)
dflet 0:e89ba455dbcf 710 ASSERT_ON_ERROR(TCP_RECV_ERROR);
dflet 0:e89ba455dbcf 711
dflet 0:e89ba455dbcf 712 pBuff = g_buff;
dflet 0:e89ba455dbcf 713 }
dflet 0:e89ba455dbcf 714
dflet 0:e89ba455dbcf 715 // If user file has checksum which can be used to verify the temporary
dflet 0:e89ba455dbcf 716 // file then file should be verified
dflet 0:e89ba455dbcf 717 // In case of invalid file (FILE_NAME) should be closed without saving to
dflet 0:e89ba455dbcf 718 // recover the previous version of file
dflet 0:e89ba455dbcf 719 if(0 > transfer_len || eof_detected == 0)
dflet 0:e89ba455dbcf 720 {
dflet 0:e89ba455dbcf 721 // Close file without saving
dflet 0:e89ba455dbcf 722 retVal = _fs.sl_FsClose(fileHandle, 0, (unsigned char*)"A", 1);
dflet 0:e89ba455dbcf 723 printf(" Error While File Download\r\n");
dflet 0:e89ba455dbcf 724 ASSERT_ON_ERROR(INVALID_FILE);
dflet 0:e89ba455dbcf 725 }
dflet 0:e89ba455dbcf 726 else
dflet 0:e89ba455dbcf 727 {
dflet 0:e89ba455dbcf 728 // Save and close file
dflet 0:e89ba455dbcf 729 retVal = _fs.sl_FsClose(fileHandle, 0, 0, 0);
dflet 0:e89ba455dbcf 730 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 731 }
dflet 0:e89ba455dbcf 732
dflet 0:e89ba455dbcf 733 return SUCCESS;;
dflet 0:e89ba455dbcf 734 }
dflet 0:e89ba455dbcf 735 */
dflet 0:e89ba455dbcf 736
dflet 0:e89ba455dbcf 737 /*!
dflet 0:e89ba455dbcf 738 \brief Connecting to a WLAN Access point
dflet 0:e89ba455dbcf 739
dflet 0:e89ba455dbcf 740 This function connects to the required AP (SSID_NAME).
dflet 0:e89ba455dbcf 741 The function will return once we are connected and have acquired IP address
dflet 0:e89ba455dbcf 742
dflet 0:e89ba455dbcf 743 \param[in] None
dflet 0:e89ba455dbcf 744
dflet 0:e89ba455dbcf 745 \return 0 on success, negative error-code on error
dflet 0:e89ba455dbcf 746
dflet 0:e89ba455dbcf 747 \note
dflet 0:e89ba455dbcf 748
dflet 0:e89ba455dbcf 749 \warning If the WLAN connection fails or we don't acquire an IP address,
dflet 0:e89ba455dbcf 750 We will be stuck in this function forever.
dflet 0:e89ba455dbcf 751 */
dflet 0:e89ba455dbcf 752 int32_t cc3100::establishConnectionWithAP()
dflet 0:e89ba455dbcf 753 {
dflet 0:e89ba455dbcf 754 //printf(" cc3100::establishConnectionWithAP \n\r");
dflet 0:e89ba455dbcf 755 SlSecParams_t secParams = {0};
dflet 0:e89ba455dbcf 756 int32_t retVal = 0;
dflet 0:e89ba455dbcf 757
dflet 0:e89ba455dbcf 758 secParams.Key = (signed char *)PASSKEY;
dflet 0:e89ba455dbcf 759 secParams.KeyLen = strlen(PASSKEY);
dflet 0:e89ba455dbcf 760 secParams.Type = SEC_TYPE;
dflet 0:e89ba455dbcf 761
dflet 0:e89ba455dbcf 762 retVal = _wlan.sl_WlanConnect((signed char *)SSID_NAME, strlen(SSID_NAME), 0, &secParams, 0);
dflet 0:e89ba455dbcf 763 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 764
dflet 0:e89ba455dbcf 765 /* Wait */
dflet 0:e89ba455dbcf 766 while((!IS_CONNECTED(g_Status,STATUS_BIT_CONNECTION)) || (!IS_IP_ACQUIRED(g_Status,STATUS_BIT_IP_ACQUIRED))) { _nonos._SlNonOsMainLoopTask(); }
dflet 0:e89ba455dbcf 767 return SUCCESS;
dflet 0:e89ba455dbcf 768 }
dflet 0:e89ba455dbcf 769
dflet 0:e89ba455dbcf 770 /*!
dflet 0:e89ba455dbcf 771 \brief This function checks the LAN connection by pinging the AP's gateway
dflet 0:e89ba455dbcf 772
dflet 0:e89ba455dbcf 773 \param[in] None
dflet 0:e89ba455dbcf 774
dflet 0:e89ba455dbcf 775 \return 0 on success, negative error-code on error
dflet 0:e89ba455dbcf 776 */
dflet 0:e89ba455dbcf 777 int32_t cc3100::checkLanConnection()
dflet 0:e89ba455dbcf 778 {
dflet 0:e89ba455dbcf 779 SlPingStartCommand_t pingParams = {0};
dflet 0:e89ba455dbcf 780 SlPingReport_t pingReport = {0};
dflet 0:e89ba455dbcf 781
dflet 0:e89ba455dbcf 782 int32_t retVal = -1;
dflet 0:e89ba455dbcf 783
dflet 0:e89ba455dbcf 784 CLR_STATUS_BIT(g_Status, STATUS_BIT_PING_DONE);
dflet 0:e89ba455dbcf 785 g_PingPacketsRecv = 0;
dflet 0:e89ba455dbcf 786
dflet 0:e89ba455dbcf 787 /* Set the ping parameters */
dflet 0:e89ba455dbcf 788 pingParams.PingIntervalTime = PING_INTERVAL;
dflet 0:e89ba455dbcf 789 pingParams.PingSize = PING_PKT_SIZE;
dflet 0:e89ba455dbcf 790 pingParams.PingRequestTimeout = PING_TIMEOUT;
dflet 0:e89ba455dbcf 791 pingParams.TotalNumberOfAttempts = PING_ATTEMPTS;
dflet 0:e89ba455dbcf 792 pingParams.Flags = 0;
dflet 0:e89ba455dbcf 793 pingParams.Ip = g_GatewayIP;
dflet 0:e89ba455dbcf 794
dflet 0:e89ba455dbcf 795 /* Check for LAN connection */
dflet 0:e89ba455dbcf 796 retVal = _netapp.sl_NetAppPingStart( (SlPingStartCommand_t*)&pingParams, SL_AF_INET,
dflet 0:e89ba455dbcf 797 (SlPingReport_t*)&pingReport, SimpleLinkPingReport);
dflet 0:e89ba455dbcf 798 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 799
dflet 0:e89ba455dbcf 800 /* Wait */
dflet 0:e89ba455dbcf 801 while(!IS_PING_DONE(g_Status,STATUS_BIT_PING_DONE)) { SlNonOsMainLoopTask(); }
dflet 0:e89ba455dbcf 802
dflet 0:e89ba455dbcf 803 if(0 == g_PingPacketsRecv)
dflet 0:e89ba455dbcf 804 {
dflet 0:e89ba455dbcf 805 /* Problem with LAN connection */
dflet 0:e89ba455dbcf 806 ASSERT_ON_ERROR(LAN_CONNECTION_FAILED);
dflet 0:e89ba455dbcf 807 }
dflet 0:e89ba455dbcf 808
dflet 0:e89ba455dbcf 809 /* LAN connection is successful */
dflet 0:e89ba455dbcf 810 return SUCCESS;
dflet 0:e89ba455dbcf 811 }
dflet 0:e89ba455dbcf 812
dflet 0:e89ba455dbcf 813 /*!
dflet 0:e89ba455dbcf 814 \brief This function checks the internet connection by pinging
dflet 0:e89ba455dbcf 815 the external-host (HOST_NAME)
dflet 0:e89ba455dbcf 816
dflet 0:e89ba455dbcf 817 \param[in] None
dflet 0:e89ba455dbcf 818
dflet 0:e89ba455dbcf 819 \return 0 on success, negative error-code on error
dflet 0:e89ba455dbcf 820 */
dflet 0:e89ba455dbcf 821 int32_t cc3100::checkInternetConnection()
dflet 0:e89ba455dbcf 822 {
dflet 0:e89ba455dbcf 823 SlPingStartCommand_t pingParams = {0};
dflet 0:e89ba455dbcf 824 SlPingReport_t pingReport = {0};
dflet 0:e89ba455dbcf 825
dflet 0:e89ba455dbcf 826 uint32_t ipAddr = 0;
dflet 0:e89ba455dbcf 827
dflet 0:e89ba455dbcf 828 int32_t retVal = -1;
dflet 0:e89ba455dbcf 829
dflet 0:e89ba455dbcf 830 CLR_STATUS_BIT(g_Status, STATUS_BIT_PING_DONE);
dflet 0:e89ba455dbcf 831 g_PingPacketsRecv = 0;
dflet 0:e89ba455dbcf 832
dflet 0:e89ba455dbcf 833 /* Set the ping parameters */
dflet 0:e89ba455dbcf 834 pingParams.PingIntervalTime = PING_INTERVAL;
dflet 0:e89ba455dbcf 835 pingParams.PingSize = PING_PKT_SIZE;
dflet 0:e89ba455dbcf 836 pingParams.PingRequestTimeout = PING_TIMEOUT;
dflet 0:e89ba455dbcf 837 pingParams.TotalNumberOfAttempts = PING_ATTEMPTS;
dflet 0:e89ba455dbcf 838 pingParams.Flags = 0;
dflet 0:e89ba455dbcf 839 pingParams.Ip = g_GatewayIP;
dflet 0:e89ba455dbcf 840
dflet 0:e89ba455dbcf 841 /* Check for Internet connection */
dflet 0:e89ba455dbcf 842 retVal = _netapp.sl_NetAppDnsGetHostByName((unsigned char *)HOST_NAME, strlen(HOST_NAME), &ipAddr, SL_AF_INET);
dflet 0:e89ba455dbcf 843 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 844
dflet 0:e89ba455dbcf 845 /* Replace the ping address to match HOST_NAME's IP address */
dflet 0:e89ba455dbcf 846 pingParams.Ip = ipAddr;
dflet 0:e89ba455dbcf 847
dflet 0:e89ba455dbcf 848 /* Try to ping HOST_NAME */
dflet 0:e89ba455dbcf 849 retVal = _netapp.sl_NetAppPingStart( (SlPingStartCommand_t*)&pingParams, SL_AF_INET,
dflet 0:e89ba455dbcf 850 (SlPingReport_t*)&pingReport, SimpleLinkPingReport);
dflet 0:e89ba455dbcf 851 ASSERT_ON_ERROR(retVal);
dflet 0:e89ba455dbcf 852
dflet 0:e89ba455dbcf 853 /* Wait */
dflet 0:e89ba455dbcf 854 while(!IS_PING_DONE(g_Status,STATUS_BIT_PING_DONE)) { SlNonOsMainLoopTask(); }
dflet 0:e89ba455dbcf 855
dflet 0:e89ba455dbcf 856 if (0 == g_PingPacketsRecv)
dflet 0:e89ba455dbcf 857 {
dflet 0:e89ba455dbcf 858 /* Problem with internet connection*/
dflet 0:e89ba455dbcf 859 ASSERT_ON_ERROR(INTERNET_CONNECTION_FAILED);
dflet 0:e89ba455dbcf 860 }
dflet 0:e89ba455dbcf 861
dflet 0:e89ba455dbcf 862 /* Internet connection is successful */
dflet 0:e89ba455dbcf 863 return SUCCESS;
dflet 0:e89ba455dbcf 864 }
dflet 0:e89ba455dbcf 865
dflet 0:e89ba455dbcf 866 /*****************************************************************************/
dflet 0:e89ba455dbcf 867 /* Internal functions */
dflet 0:e89ba455dbcf 868 /*****************************************************************************/
dflet 0:e89ba455dbcf 869
dflet 0:e89ba455dbcf 870 int16_t cc3100::_sl_GetStartResponseConvert(uint32_t Status)
dflet 0:e89ba455dbcf 871 {
dflet 0:e89ba455dbcf 872
dflet 0:e89ba455dbcf 873 switch(Status) {
dflet 0:e89ba455dbcf 874 case INIT_STA_OK:
dflet 0:e89ba455dbcf 875 return ROLE_STA;
dflet 0:e89ba455dbcf 876 case INIT_STA_ERR:
dflet 0:e89ba455dbcf 877 return ROLE_STA_ERR;
dflet 0:e89ba455dbcf 878 case INIT_AP_OK:
dflet 0:e89ba455dbcf 879 return ROLE_AP;
dflet 0:e89ba455dbcf 880 case INIT_AP_ERR:
dflet 0:e89ba455dbcf 881 return ROLE_AP_ERR;
dflet 0:e89ba455dbcf 882 case INIT_P2P_OK:
dflet 0:e89ba455dbcf 883 return ROLE_P2P;
dflet 0:e89ba455dbcf 884 case INIT_P2P_ERR:
dflet 0:e89ba455dbcf 885 return ROLE_P2P_ERR;
dflet 0:e89ba455dbcf 886 default:
dflet 0:e89ba455dbcf 887 return (int16_t)Status;
dflet 0:e89ba455dbcf 888 }
dflet 0:e89ba455dbcf 889 }
dflet 0:e89ba455dbcf 890
dflet 0:e89ba455dbcf 891 /*****************************************************************************/
dflet 0:e89ba455dbcf 892 /* API Functions */
dflet 0:e89ba455dbcf 893 /*****************************************************************************/
dflet 0:e89ba455dbcf 894
dflet 0:e89ba455dbcf 895 bool cc3100::IS_PING_DONE(uint32_t status_variable,const uint32_t bit){
dflet 0:e89ba455dbcf 896
dflet 0:e89ba455dbcf 897 g_Status = status_variable;
dflet 0:e89ba455dbcf 898
dflet 0:e89ba455dbcf 899 if(0 != (g_Status & ((uint32_t)1L<<(bit)))){
dflet 0:e89ba455dbcf 900 return TRUE;
dflet 0:e89ba455dbcf 901 }else{
dflet 0:e89ba455dbcf 902 return FALSE;
dflet 0:e89ba455dbcf 903 }
dflet 0:e89ba455dbcf 904 }
dflet 0:e89ba455dbcf 905
dflet 0:e89ba455dbcf 906 bool cc3100::IS_CONNECTED(uint32_t status_variable,const uint32_t bit){
dflet 0:e89ba455dbcf 907
dflet 0:e89ba455dbcf 908 g_Status = status_variable;
dflet 0:e89ba455dbcf 909
dflet 0:e89ba455dbcf 910 if(0 != (g_Status & ((uint32_t)1L<<(bit)))){
dflet 0:e89ba455dbcf 911 return TRUE;
dflet 0:e89ba455dbcf 912 }else{
dflet 0:e89ba455dbcf 913 return FALSE;
dflet 0:e89ba455dbcf 914 }
dflet 0:e89ba455dbcf 915 }
dflet 0:e89ba455dbcf 916
dflet 0:e89ba455dbcf 917 bool cc3100::IS_STA_CONNECTED(uint32_t status_variable,const uint32_t bit){
dflet 0:e89ba455dbcf 918
dflet 0:e89ba455dbcf 919 g_Status = status_variable;
dflet 0:e89ba455dbcf 920
dflet 0:e89ba455dbcf 921 if(0 != (g_Status & ((uint32_t)1L<<(bit)))){
dflet 0:e89ba455dbcf 922 return TRUE;
dflet 0:e89ba455dbcf 923 }else{
dflet 0:e89ba455dbcf 924 return FALSE;
dflet 0:e89ba455dbcf 925 }
dflet 0:e89ba455dbcf 926 }
dflet 0:e89ba455dbcf 927
dflet 0:e89ba455dbcf 928 bool cc3100::IS_IP_ACQUIRED(uint32_t status_variable,const uint32_t bit){
dflet 0:e89ba455dbcf 929
dflet 0:e89ba455dbcf 930 g_Status = status_variable;
dflet 0:e89ba455dbcf 931
dflet 0:e89ba455dbcf 932 if(0 != (g_Status & ((uint32_t)1L<<(bit)))){
dflet 0:e89ba455dbcf 933 return TRUE;
dflet 0:e89ba455dbcf 934 }else{
dflet 0:e89ba455dbcf 935 return FALSE;
dflet 0:e89ba455dbcf 936 }
dflet 0:e89ba455dbcf 937 }
dflet 0:e89ba455dbcf 938
dflet 0:e89ba455dbcf 939 bool cc3100::IS_IP_LEASED(uint32_t status_variable,const uint32_t bit){
dflet 0:e89ba455dbcf 940
dflet 0:e89ba455dbcf 941 g_Status = status_variable;
dflet 0:e89ba455dbcf 942
dflet 0:e89ba455dbcf 943 if(0 != (g_Status & ((uint32_t)1L<<(bit)))){
dflet 0:e89ba455dbcf 944 return TRUE;
dflet 0:e89ba455dbcf 945 }else{
dflet 0:e89ba455dbcf 946 return FALSE;
dflet 0:e89ba455dbcf 947 }
dflet 0:e89ba455dbcf 948 }
dflet 0:e89ba455dbcf 949
dflet 0:e89ba455dbcf 950 bool cc3100::IS_CONNECTION_FAILED(uint32_t status_variable,const uint32_t bit){
dflet 0:e89ba455dbcf 951
dflet 0:e89ba455dbcf 952 g_Status = status_variable;
dflet 0:e89ba455dbcf 953
dflet 0:e89ba455dbcf 954 if(0 != (g_Status & ((uint32_t)1L<<(bit)))){
dflet 0:e89ba455dbcf 955 return TRUE;
dflet 0:e89ba455dbcf 956 }else{
dflet 0:e89ba455dbcf 957 return FALSE;
dflet 0:e89ba455dbcf 958 }
dflet 0:e89ba455dbcf 959 }
dflet 0:e89ba455dbcf 960
dflet 0:e89ba455dbcf 961 bool cc3100::IS_P2P_NEG_REQ_RECEIVED(uint32_t status_variable,const uint32_t bit){
dflet 0:e89ba455dbcf 962
dflet 0:e89ba455dbcf 963 g_Status = status_variable;
dflet 0:e89ba455dbcf 964
dflet 0:e89ba455dbcf 965 if(0 != (g_Status & ((uint32_t)1L<<(bit)))){
dflet 0:e89ba455dbcf 966 return TRUE;
dflet 0:e89ba455dbcf 967 }else{
dflet 0:e89ba455dbcf 968 return FALSE;
dflet 0:e89ba455dbcf 969 }
dflet 0:e89ba455dbcf 970 }
dflet 0:e89ba455dbcf 971
dflet 0:e89ba455dbcf 972 bool cc3100::IS_SMARTCONFIG_DONE(uint32_t status_variable,const uint32_t bit){
dflet 0:e89ba455dbcf 973
dflet 0:e89ba455dbcf 974 g_Status = status_variable;
dflet 0:e89ba455dbcf 975
dflet 0:e89ba455dbcf 976 if(0 != (g_Status & ((uint32_t)1L<<(bit)))){
dflet 0:e89ba455dbcf 977 return TRUE;
dflet 0:e89ba455dbcf 978 }else{
dflet 0:e89ba455dbcf 979 return FALSE;
dflet 0:e89ba455dbcf 980 }
dflet 0:e89ba455dbcf 981 }
dflet 0:e89ba455dbcf 982
dflet 0:e89ba455dbcf 983 bool cc3100::IS_SMARTCONFIG_STOPPED(uint32_t status_variable,const uint32_t bit){
dflet 0:e89ba455dbcf 984
dflet 0:e89ba455dbcf 985 g_Status = status_variable;
dflet 0:e89ba455dbcf 986
dflet 0:e89ba455dbcf 987 if(0 != (g_Status & ((uint32_t)1L<<(bit)))){
dflet 0:e89ba455dbcf 988 return TRUE;
dflet 0:e89ba455dbcf 989 }else{
dflet 0:e89ba455dbcf 990 return FALSE;
dflet 0:e89ba455dbcf 991 }
dflet 0:e89ba455dbcf 992 }
dflet 0:e89ba455dbcf 993
dflet 0:e89ba455dbcf 994 void cc3100::CLR_STATUS_BIT(uint32_t status_variable, const uint32_t bit){
dflet 0:e89ba455dbcf 995
dflet 0:e89ba455dbcf 996 g_Status = status_variable;
dflet 0:e89ba455dbcf 997 status_variable &= ~((uint32_t)1L<<(bit));
dflet 0:e89ba455dbcf 998 g_Status = status_variable;
dflet 0:e89ba455dbcf 999 }
dflet 0:e89ba455dbcf 1000
dflet 0:e89ba455dbcf 1001 void cc3100::SET_STATUS_BIT(uint32_t status_variable, const uint32_t bit){
dflet 0:e89ba455dbcf 1002
dflet 0:e89ba455dbcf 1003 g_Status = status_variable;
dflet 0:e89ba455dbcf 1004 status_variable |= ((uint32_t)1L<<(bit));
dflet 0:e89ba455dbcf 1005 g_Status = status_variable;
dflet 0:e89ba455dbcf 1006 }
dflet 0:e89ba455dbcf 1007
dflet 0:e89ba455dbcf 1008 /*****************************************************************************/
dflet 0:e89ba455dbcf 1009 /* sl_Task */
dflet 0:e89ba455dbcf 1010 /*****************************************************************************/
dflet 0:e89ba455dbcf 1011 #if _SL_INCLUDE_FUNC(sl_Task)
dflet 0:e89ba455dbcf 1012 void cc3100::sl_Task(void)
dflet 0:e89ba455dbcf 1013 {
dflet 0:e89ba455dbcf 1014 #ifdef _SlTaskEntry
dflet 0:e89ba455dbcf 1015 _nonos._SlNonOsMainLoopTask;
dflet 0:e89ba455dbcf 1016
dflet 0:e89ba455dbcf 1017 #endif
dflet 0:e89ba455dbcf 1018 }
dflet 0:e89ba455dbcf 1019 #endif
dflet 0:e89ba455dbcf 1020
dflet 0:e89ba455dbcf 1021 /*****************************************************************************/
dflet 0:e89ba455dbcf 1022 /* sl_Start */
dflet 0:e89ba455dbcf 1023 /*****************************************************************************/
dflet 0:e89ba455dbcf 1024 #if _SL_INCLUDE_FUNC(sl_Start)
dflet 0:e89ba455dbcf 1025 int16_t cc3100::sl_Start(const void* pIfHdl, int8_t* pDevName, const P_INIT_CALLBACK pInitCallBack)
dflet 0:e89ba455dbcf 1026 {
dflet 0:e89ba455dbcf 1027 int16_t ObjIdx = MAX_CONCURRENT_ACTIONS;
dflet 0:e89ba455dbcf 1028 InitComplete_t AsyncRsp;
dflet 0:e89ba455dbcf 1029
dflet 0:e89ba455dbcf 1030 /* Perform any preprocessing before enable networking services */
dflet 0:e89ba455dbcf 1031 sl_DeviceEnablePreamble();
dflet 0:e89ba455dbcf 1032
dflet 0:e89ba455dbcf 1033 /* ControlBlock init */
dflet 0:e89ba455dbcf 1034 _driver._SlDrvDriverCBInit();
dflet 0:e89ba455dbcf 1035
dflet 0:e89ba455dbcf 1036 /* open the interface: usually SPI or UART */
dflet 0:e89ba455dbcf 1037 if (NULL == pIfHdl)
dflet 0:e89ba455dbcf 1038 {
dflet 0:e89ba455dbcf 1039 g_pCB->FD = _spi.spi_Open((int8_t *)pDevName, 0);
dflet 0:e89ba455dbcf 1040 }
dflet 0:e89ba455dbcf 1041 else
dflet 0:e89ba455dbcf 1042 {
dflet 0:e89ba455dbcf 1043 g_pCB->FD = (_SlFd_t)pIfHdl;
dflet 0:e89ba455dbcf 1044 }
dflet 0:e89ba455dbcf 1045 /* Use Obj to issue the command, if not available try later */
dflet 0:e89ba455dbcf 1046 ObjIdx = _driver._SlDrvWaitForPoolObj(START_STOP_ID,SL_MAX_SOCKETS);
dflet 0:e89ba455dbcf 1047 if (MAX_CONCURRENT_ACTIONS == ObjIdx)
dflet 0:e89ba455dbcf 1048 {
dflet 0:e89ba455dbcf 1049 printf("SL_POOL_IS_EMPTY\r\n");
dflet 0:e89ba455dbcf 1050 return SL_POOL_IS_EMPTY;
dflet 0:e89ba455dbcf 1051 }
dflet 0:e89ba455dbcf 1052 OSI_RET_OK_CHECK(_nonos.sl_LockObjLock(&g_pCB->ProtectionLockObj, NON_OS_LOCK_OBJ_UNLOCK_VALUE, NON_OS_LOCK_OBJ_LOCK_VALUE, SL_OS_WAIT_FOREVER));
dflet 0:e89ba455dbcf 1053 g_pCB->ObjPool[ObjIdx].pRespArgs = (uint8_t *)&AsyncRsp;
dflet 0:e89ba455dbcf 1054 OSI_RET_OK_CHECK(_nonos.sl_LockObjUnlock(&g_pCB->ProtectionLockObj, NON_OS_LOCK_OBJ_UNLOCK_VALUE));
dflet 0:e89ba455dbcf 1055
dflet 0:e89ba455dbcf 1056 if( g_pCB->FD >= 0) {
dflet 0:e89ba455dbcf 1057 _spi.CC3100_disable();
dflet 0:e89ba455dbcf 1058
dflet 0:e89ba455dbcf 1059 if(NULL != pInitCallBack) {
dflet 0:e89ba455dbcf 1060 g_pCB->pInitCallback = pInitCallBack;
dflet 0:e89ba455dbcf 1061 }
dflet 0:e89ba455dbcf 1062 _spi.CC3100_enable();
dflet 0:e89ba455dbcf 1063
dflet 0:e89ba455dbcf 1064 if (NULL == pInitCallBack) {
dflet 0:e89ba455dbcf 1065
dflet 0:e89ba455dbcf 1066 OSI_RET_OK_CHECK(_nonos.sl_SyncObjWait(&g_pCB->ObjPool[ObjIdx].SyncObj, NON_OS_SYNC_OBJ_SIGNAL_VALUE, NON_OS_SYNC_OBJ_CLEAR_VALUE, SL_OS_WAIT_FOREVER));
dflet 0:e89ba455dbcf 1067 /*release Pool Object*/
dflet 0:e89ba455dbcf 1068 _driver._SlDrvReleasePoolObj(g_pCB->FunctionParams.AsyncExt.ActionIndex);
dflet 0:e89ba455dbcf 1069 return _sl_GetStartResponseConvert(AsyncRsp.Status);
dflet 0:e89ba455dbcf 1070 }
dflet 0:e89ba455dbcf 1071 }
dflet 0:e89ba455dbcf 1072
dflet 0:e89ba455dbcf 1073 return (int16_t)g_pCB->FD;
dflet 0:e89ba455dbcf 1074
dflet 0:e89ba455dbcf 1075 }
dflet 0:e89ba455dbcf 1076 #endif
dflet 0:e89ba455dbcf 1077
dflet 0:e89ba455dbcf 1078 /***************************************************************************
dflet 0:e89ba455dbcf 1079 _sl_HandleAsync_InitComplete - handles init complete signalling to
dflet 0:e89ba455dbcf 1080 a waiting object
dflet 0:e89ba455dbcf 1081 ****************************************************************************/
dflet 0:e89ba455dbcf 1082 void cc3100::_sl_HandleAsync_InitComplete(void *pVoidBuf)
dflet 0:e89ba455dbcf 1083 {
dflet 0:e89ba455dbcf 1084
dflet 0:e89ba455dbcf 1085 InitComplete_t *pMsgArgs = (InitComplete_t *)_SL_RESP_ARGS_START(pVoidBuf);
dflet 0:e89ba455dbcf 1086
dflet 0:e89ba455dbcf 1087 OSI_RET_OK_CHECK(_nonos.sl_LockObjLock(&g_pCB->ProtectionLockObj, NON_OS_LOCK_OBJ_UNLOCK_VALUE, NON_OS_LOCK_OBJ_LOCK_VALUE, SL_OS_WAIT_FOREVER));
dflet 0:e89ba455dbcf 1088
dflet 0:e89ba455dbcf 1089 if(g_pCB->pInitCallback) {
dflet 0:e89ba455dbcf 1090 g_pCB->pInitCallback(_sl_GetStartResponseConvert(pMsgArgs->Status));
dflet 0:e89ba455dbcf 1091 } else {
dflet 0:e89ba455dbcf 1092 memcpy(g_pCB->ObjPool[g_pCB->FunctionParams.AsyncExt.ActionIndex].pRespArgs, pMsgArgs, sizeof(InitComplete_t));
dflet 0:e89ba455dbcf 1093 OSI_RET_OK_CHECK(_nonos.sl_SyncObjSignal(&g_pCB->ObjPool[g_pCB->FunctionParams.AsyncExt.ActionIndex].SyncObj, NON_OS_SYNC_OBJ_SIGNAL_VALUE));
dflet 0:e89ba455dbcf 1094 }
dflet 0:e89ba455dbcf 1095 OSI_RET_OK_CHECK(_nonos.sl_LockObjUnlock(&g_pCB->ProtectionLockObj, NON_OS_LOCK_OBJ_UNLOCK_VALUE));
dflet 0:e89ba455dbcf 1096
dflet 0:e89ba455dbcf 1097 if(g_pCB->pInitCallback) {
dflet 0:e89ba455dbcf 1098 _driver._SlDrvReleasePoolObj(g_pCB->FunctionParams.AsyncExt.ActionIndex);
dflet 0:e89ba455dbcf 1099 }
dflet 0:e89ba455dbcf 1100
dflet 0:e89ba455dbcf 1101 }
dflet 0:e89ba455dbcf 1102
dflet 0:e89ba455dbcf 1103 /*****************************************************************************
dflet 0:e89ba455dbcf 1104 sl_stop
dflet 0:e89ba455dbcf 1105 ******************************************************************************/
dflet 0:e89ba455dbcf 1106 typedef union {
dflet 0:e89ba455dbcf 1107 _DevStopCommand_t Cmd;
dflet 0:e89ba455dbcf 1108 _BasicResponse_t Rsp;
dflet 0:e89ba455dbcf 1109 } _SlStopMsg_u;
dflet 0:e89ba455dbcf 1110
dflet 0:e89ba455dbcf 1111 const _SlCmdCtrl_t _SlStopCmdCtrl = {
dflet 0:e89ba455dbcf 1112 SL_OPCODE_DEVICE_STOP_COMMAND,
dflet 0:e89ba455dbcf 1113 sizeof(_DevStopCommand_t),
dflet 0:e89ba455dbcf 1114 sizeof(_BasicResponse_t)
dflet 0:e89ba455dbcf 1115 };
dflet 0:e89ba455dbcf 1116
dflet 0:e89ba455dbcf 1117 #if _SL_INCLUDE_FUNC(sl_Stop)
dflet 0:e89ba455dbcf 1118 int16_t cc3100::sl_Stop(uint16_t timeout)
dflet 0:e89ba455dbcf 1119 {
dflet 0:e89ba455dbcf 1120 int16_t RetVal=0;
dflet 0:e89ba455dbcf 1121 _SlStopMsg_u Msg;
dflet 0:e89ba455dbcf 1122 _BasicResponse_t AsyncRsp;
dflet 0:e89ba455dbcf 1123 int16_t ObjIdx = MAX_CONCURRENT_ACTIONS;
dflet 0:e89ba455dbcf 1124 /* if timeout is 0 the shutdown is forced immediately */
dflet 0:e89ba455dbcf 1125 if( 0 == timeout ) {
dflet 0:e89ba455dbcf 1126 _spi.registerInterruptHandler(NULL, NULL);
dflet 0:e89ba455dbcf 1127 _spi.CC3100_disable();
dflet 0:e89ba455dbcf 1128 RetVal = _spi.spi_Close(g_pCB->FD);
dflet 0:e89ba455dbcf 1129
dflet 0:e89ba455dbcf 1130 } else {
dflet 0:e89ba455dbcf 1131 /* let the device make the shutdown using the defined timeout */
dflet 0:e89ba455dbcf 1132 Msg.Cmd.Timeout = timeout;
dflet 0:e89ba455dbcf 1133 /* Use Obj to issue the command, if not available try later */
dflet 0:e89ba455dbcf 1134 ObjIdx = _driver._SlDrvWaitForPoolObj(START_STOP_ID,SL_MAX_SOCKETS);
dflet 0:e89ba455dbcf 1135 if (MAX_CONCURRENT_ACTIONS == ObjIdx) {
dflet 0:e89ba455dbcf 1136 return SL_POOL_IS_EMPTY;
dflet 0:e89ba455dbcf 1137 }
dflet 0:e89ba455dbcf 1138 OSI_RET_OK_CHECK(_nonos.sl_LockObjLock(&g_pCB->ProtectionLockObj, NON_OS_LOCK_OBJ_UNLOCK_VALUE, NON_OS_LOCK_OBJ_LOCK_VALUE, SL_OS_WAIT_FOREVER));
dflet 0:e89ba455dbcf 1139
dflet 0:e89ba455dbcf 1140 g_pCB->ObjPool[ObjIdx].pRespArgs = (uint8_t *)&AsyncRsp;
dflet 0:e89ba455dbcf 1141
dflet 0:e89ba455dbcf 1142 OSI_RET_OK_CHECK(_nonos.sl_LockObjUnlock(&g_pCB->ProtectionLockObj, NON_OS_LOCK_OBJ_UNLOCK_VALUE));
dflet 0:e89ba455dbcf 1143
dflet 0:e89ba455dbcf 1144 VERIFY_RET_OK(_driver._SlDrvCmdOp((_SlCmdCtrl_t *)&_SlStopCmdCtrl, &Msg, NULL));
dflet 0:e89ba455dbcf 1145
dflet 0:e89ba455dbcf 1146 if(SL_OS_RET_CODE_OK == (int16_t)Msg.Rsp.status) {
dflet 0:e89ba455dbcf 1147 OSI_RET_OK_CHECK(_nonos.sl_SyncObjWait(&g_pCB->ObjPool[ObjIdx].SyncObj, NON_OS_SYNC_OBJ_SIGNAL_VALUE, NON_OS_SYNC_OBJ_CLEAR_VALUE, SL_OS_WAIT_FOREVER));
dflet 0:e89ba455dbcf 1148 Msg.Rsp.status = AsyncRsp.status;
dflet 0:e89ba455dbcf 1149 RetVal = Msg.Rsp.status;
dflet 0:e89ba455dbcf 1150 }
dflet 0:e89ba455dbcf 1151
dflet 0:e89ba455dbcf 1152 _driver._SlDrvReleasePoolObj((uint8_t)ObjIdx);
dflet 0:e89ba455dbcf 1153
dflet 0:e89ba455dbcf 1154 _spi.registerInterruptHandler(NULL, NULL);
dflet 0:e89ba455dbcf 1155 _spi.CC3100_disable();
dflet 0:e89ba455dbcf 1156 _spi.spi_Close(g_pCB->FD);
dflet 0:e89ba455dbcf 1157 }
dflet 0:e89ba455dbcf 1158 _driver._SlDrvDriverCBDeinit();
dflet 0:e89ba455dbcf 1159
dflet 0:e89ba455dbcf 1160 return RetVal;
dflet 0:e89ba455dbcf 1161 }
dflet 0:e89ba455dbcf 1162 #endif
dflet 0:e89ba455dbcf 1163
dflet 0:e89ba455dbcf 1164
dflet 0:e89ba455dbcf 1165 /*****************************************************************************
dflet 0:e89ba455dbcf 1166 sl_EventMaskSet
dflet 0:e89ba455dbcf 1167 *****************************************************************************/
dflet 0:e89ba455dbcf 1168 typedef union {
dflet 0:e89ba455dbcf 1169 _DevMaskEventSetCommand_t Cmd;
dflet 0:e89ba455dbcf 1170 _BasicResponse_t Rsp;
dflet 0:e89ba455dbcf 1171 } _SlEventMaskSetMsg_u;
dflet 0:e89ba455dbcf 1172
dflet 0:e89ba455dbcf 1173 const _SlCmdCtrl_t _SlEventMaskSetCmdCtrl = {
dflet 0:e89ba455dbcf 1174 SL_OPCODE_DEVICE_EVENTMASKSET,
dflet 0:e89ba455dbcf 1175 sizeof(_DevMaskEventSetCommand_t),
dflet 0:e89ba455dbcf 1176 sizeof(_BasicResponse_t)
dflet 0:e89ba455dbcf 1177 };
dflet 0:e89ba455dbcf 1178
dflet 0:e89ba455dbcf 1179 #if _SL_INCLUDE_FUNC(sl_EventMaskSet)
dflet 0:e89ba455dbcf 1180 int16_t cc3100::sl_EventMaskSet(uint8_t EventClass , uint32_t Mask)
dflet 0:e89ba455dbcf 1181 {
dflet 0:e89ba455dbcf 1182 _SlEventMaskSetMsg_u Msg;
dflet 0:e89ba455dbcf 1183 Msg.Cmd.group = EventClass;
dflet 0:e89ba455dbcf 1184 Msg.Cmd.mask = Mask;
dflet 0:e89ba455dbcf 1185
dflet 0:e89ba455dbcf 1186 VERIFY_RET_OK(_driver._SlDrvCmdOp((_SlCmdCtrl_t *)&_SlEventMaskSetCmdCtrl, &Msg, NULL));
dflet 0:e89ba455dbcf 1187
dflet 0:e89ba455dbcf 1188 return (int16_t)Msg.Rsp.status;
dflet 0:e89ba455dbcf 1189 }
dflet 0:e89ba455dbcf 1190 #endif
dflet 0:e89ba455dbcf 1191
dflet 0:e89ba455dbcf 1192 /******************************************************************************
dflet 0:e89ba455dbcf 1193 sl_EventMaskGet
dflet 0:e89ba455dbcf 1194 ******************************************************************************/
dflet 0:e89ba455dbcf 1195 typedef union {
dflet 0:e89ba455dbcf 1196 _DevMaskEventGetCommand_t Cmd;
dflet 0:e89ba455dbcf 1197 _DevMaskEventGetResponse_t Rsp;
dflet 0:e89ba455dbcf 1198 } _SlEventMaskGetMsg_u;
dflet 0:e89ba455dbcf 1199
dflet 0:e89ba455dbcf 1200 const _SlCmdCtrl_t _SlEventMaskGetCmdCtrl = {
dflet 0:e89ba455dbcf 1201 SL_OPCODE_DEVICE_EVENTMASKGET,
dflet 0:e89ba455dbcf 1202 sizeof(_DevMaskEventGetCommand_t),
dflet 0:e89ba455dbcf 1203 sizeof(_DevMaskEventGetResponse_t)
dflet 0:e89ba455dbcf 1204 };
dflet 0:e89ba455dbcf 1205
dflet 0:e89ba455dbcf 1206 #if _SL_INCLUDE_FUNC(sl_EventMaskGet)
dflet 0:e89ba455dbcf 1207 int16_t cc3100::sl_EventMaskGet(uint8_t EventClass, uint32_t *pMask)
dflet 0:e89ba455dbcf 1208 {
dflet 0:e89ba455dbcf 1209 _SlEventMaskGetMsg_u Msg;
dflet 0:e89ba455dbcf 1210
dflet 0:e89ba455dbcf 1211 Msg.Cmd.group = EventClass;
dflet 0:e89ba455dbcf 1212
dflet 0:e89ba455dbcf 1213 VERIFY_RET_OK(_driver._SlDrvCmdOp((_SlCmdCtrl_t *)&_SlEventMaskGetCmdCtrl, &Msg, NULL));
dflet 0:e89ba455dbcf 1214
dflet 0:e89ba455dbcf 1215 *pMask = Msg.Rsp.mask;
dflet 0:e89ba455dbcf 1216 return SL_RET_CODE_OK;
dflet 0:e89ba455dbcf 1217 }
dflet 0:e89ba455dbcf 1218 #endif
dflet 0:e89ba455dbcf 1219
dflet 0:e89ba455dbcf 1220
dflet 0:e89ba455dbcf 1221
dflet 0:e89ba455dbcf 1222 /******************************************************************************
dflet 0:e89ba455dbcf 1223 sl_DevGet
dflet 0:e89ba455dbcf 1224 ******************************************************************************/
dflet 0:e89ba455dbcf 1225
dflet 0:e89ba455dbcf 1226 typedef union {
dflet 0:e89ba455dbcf 1227 _DeviceSetGet_t Cmd;
dflet 0:e89ba455dbcf 1228 _DeviceSetGet_t Rsp;
dflet 0:e89ba455dbcf 1229 } _SlDeviceMsgGet_u;
dflet 0:e89ba455dbcf 1230
dflet 0:e89ba455dbcf 1231 const _SlCmdCtrl_t _SlDeviceGetCmdCtrl = {
dflet 0:e89ba455dbcf 1232 SL_OPCODE_DEVICE_DEVICEGET,
dflet 0:e89ba455dbcf 1233 sizeof(_DeviceSetGet_t),
dflet 0:e89ba455dbcf 1234 sizeof(_DeviceSetGet_t)
dflet 0:e89ba455dbcf 1235 };
dflet 0:e89ba455dbcf 1236
dflet 0:e89ba455dbcf 1237 #if _SL_INCLUDE_FUNC(sl_DevGet)
dflet 0:e89ba455dbcf 1238 int32_t cc3100::sl_DevGet(uint8_t DeviceGetId, uint8_t *pOption,uint8_t *pConfigLen, uint8_t *pValues)
dflet 0:e89ba455dbcf 1239 {
dflet 0:e89ba455dbcf 1240 _SlDeviceMsgGet_u Msg;
dflet 0:e89ba455dbcf 1241 _SlCmdExt_t CmdExt;
dflet 0:e89ba455dbcf 1242
dflet 0:e89ba455dbcf 1243 if (*pConfigLen == 0) {
dflet 0:e89ba455dbcf 1244 return SL_EZEROLEN;
dflet 0:e89ba455dbcf 1245 }
dflet 0:e89ba455dbcf 1246
dflet 0:e89ba455dbcf 1247 if( pOption ) {
dflet 0:e89ba455dbcf 1248 CmdExt.TxPayloadLen = 0;
dflet 0:e89ba455dbcf 1249 CmdExt.RxPayloadLen = *pConfigLen;
dflet 0:e89ba455dbcf 1250 CmdExt.pTxPayload = NULL;
dflet 0:e89ba455dbcf 1251 CmdExt.pRxPayload = (uint8_t *)pValues;
dflet 0:e89ba455dbcf 1252 CmdExt.ActualRxPayloadLen = 0;
dflet 0:e89ba455dbcf 1253
dflet 0:e89ba455dbcf 1254 Msg.Cmd.DeviceSetId = DeviceGetId;
dflet 0:e89ba455dbcf 1255
dflet 0:e89ba455dbcf 1256 Msg.Cmd.Option = (uint16_t)*pOption;
dflet 0:e89ba455dbcf 1257
dflet 0:e89ba455dbcf 1258 VERIFY_RET_OK(_driver._SlDrvCmdOp((_SlCmdCtrl_t *)&_SlDeviceGetCmdCtrl, &Msg, &CmdExt));
dflet 0:e89ba455dbcf 1259
dflet 0:e89ba455dbcf 1260 if( pOption ) {
dflet 0:e89ba455dbcf 1261 *pOption = (uint8_t)Msg.Rsp.Option;
dflet 0:e89ba455dbcf 1262 }
dflet 0:e89ba455dbcf 1263
dflet 0:e89ba455dbcf 1264 if (CmdExt.RxPayloadLen < CmdExt.ActualRxPayloadLen) {
dflet 0:e89ba455dbcf 1265 *pConfigLen = (uint8_t)CmdExt.RxPayloadLen;
dflet 0:e89ba455dbcf 1266 return SL_ESMALLBUF;
dflet 0:e89ba455dbcf 1267 } else {
dflet 0:e89ba455dbcf 1268 *pConfigLen = (uint8_t)CmdExt.ActualRxPayloadLen;
dflet 0:e89ba455dbcf 1269 }
dflet 0:e89ba455dbcf 1270
dflet 0:e89ba455dbcf 1271 return (int16_t)Msg.Rsp.Status;
dflet 0:e89ba455dbcf 1272 } else {
dflet 0:e89ba455dbcf 1273 return -1;
dflet 0:e89ba455dbcf 1274 }
dflet 0:e89ba455dbcf 1275 }
dflet 0:e89ba455dbcf 1276 #endif
dflet 0:e89ba455dbcf 1277
dflet 0:e89ba455dbcf 1278 /******************************************************************************
dflet 0:e89ba455dbcf 1279 sl_DevSet
dflet 0:e89ba455dbcf 1280 ******************************************************************************/
dflet 0:e89ba455dbcf 1281 typedef union {
dflet 0:e89ba455dbcf 1282 _DeviceSetGet_t Cmd;
dflet 0:e89ba455dbcf 1283 _BasicResponse_t Rsp;
dflet 0:e89ba455dbcf 1284 } _SlDeviceMsgSet_u;
dflet 0:e89ba455dbcf 1285
dflet 0:e89ba455dbcf 1286 const _SlCmdCtrl_t _SlDeviceSetCmdCtrl = {
dflet 0:e89ba455dbcf 1287 SL_OPCODE_DEVICE_DEVICESET,
dflet 0:e89ba455dbcf 1288 sizeof(_DeviceSetGet_t),
dflet 0:e89ba455dbcf 1289 sizeof(_BasicResponse_t)
dflet 0:e89ba455dbcf 1290 };
dflet 0:e89ba455dbcf 1291
dflet 0:e89ba455dbcf 1292 #if _SL_INCLUDE_FUNC(sl_DevSet)
dflet 0:e89ba455dbcf 1293 int32_t cc3100::sl_DevSet(uint8_t DeviceSetId ,uint8_t Option,uint8_t ConfigLen, uint8_t *pValues)
dflet 0:e89ba455dbcf 1294 {
dflet 0:e89ba455dbcf 1295 _SlDeviceMsgSet_u Msg;
dflet 0:e89ba455dbcf 1296 _SlCmdExt_t CmdExt;
dflet 0:e89ba455dbcf 1297
dflet 0:e89ba455dbcf 1298 CmdExt.TxPayloadLen = (ConfigLen+3) & (~3);
dflet 0:e89ba455dbcf 1299 CmdExt.RxPayloadLen = 0;
dflet 0:e89ba455dbcf 1300 CmdExt.pTxPayload = (uint8_t *)pValues;
dflet 0:e89ba455dbcf 1301 CmdExt.pRxPayload = NULL;
dflet 0:e89ba455dbcf 1302
dflet 0:e89ba455dbcf 1303
dflet 0:e89ba455dbcf 1304 Msg.Cmd.DeviceSetId = DeviceSetId;
dflet 0:e89ba455dbcf 1305 Msg.Cmd.ConfigLen = ConfigLen;
dflet 0:e89ba455dbcf 1306 Msg.Cmd.Option = Option;
dflet 0:e89ba455dbcf 1307
dflet 0:e89ba455dbcf 1308 VERIFY_RET_OK(_driver._SlDrvCmdOp((_SlCmdCtrl_t *)&_SlDeviceSetCmdCtrl, &Msg, &CmdExt));
dflet 0:e89ba455dbcf 1309
dflet 0:e89ba455dbcf 1310 return (int16_t)Msg.Rsp.status;
dflet 0:e89ba455dbcf 1311 }
dflet 0:e89ba455dbcf 1312 #endif
dflet 0:e89ba455dbcf 1313
dflet 0:e89ba455dbcf 1314 /******************************************************************************
dflet 0:e89ba455dbcf 1315 sl_UartSetMode
dflet 0:e89ba455dbcf 1316 ******************************************************************************/
dflet 0:e89ba455dbcf 1317 #ifdef SL_IF_TYPE_UART
dflet 0:e89ba455dbcf 1318 typedef union {
dflet 0:e89ba455dbcf 1319 _DevUartSetModeCommand_t Cmd;
dflet 0:e89ba455dbcf 1320 _DevUartSetModeResponse_t Rsp;
dflet 0:e89ba455dbcf 1321 } _SlUartSetModeMsg_u;
dflet 0:e89ba455dbcf 1322
dflet 0:e89ba455dbcf 1323 const _SlCmdCtrl_t _SlUartSetModeCmdCtrl = {
dflet 0:e89ba455dbcf 1324 SL_OPCODE_DEVICE_SETUARTMODECOMMAND,
dflet 0:e89ba455dbcf 1325 sizeof(_DevUartSetModeCommand_t),
dflet 0:e89ba455dbcf 1326 sizeof(_DevUartSetModeResponse_t)
dflet 0:e89ba455dbcf 1327 };
dflet 0:e89ba455dbcf 1328
dflet 0:e89ba455dbcf 1329
dflet 0:e89ba455dbcf 1330 #if _SL_INCLUDE_FUNC(sl_UartSetMode)
dflet 0:e89ba455dbcf 1331 int16_t cc3100::sl_UartSetMode(const SlUartIfParams_t* pUartParams)
dflet 0:e89ba455dbcf 1332 {
dflet 0:e89ba455dbcf 1333 _SlUartSetModeMsg_u Msg;
dflet 0:e89ba455dbcf 1334 uint32_t magicCode = 0xFFFFFFFF;
dflet 0:e89ba455dbcf 1335
dflet 0:e89ba455dbcf 1336 Msg.Cmd.BaudRate = pUartParams->BaudRate;
dflet 0:e89ba455dbcf 1337 Msg.Cmd.FlowControlEnable = pUartParams->FlowControlEnable;
dflet 0:e89ba455dbcf 1338
dflet 0:e89ba455dbcf 1339
dflet 0:e89ba455dbcf 1340 VERIFY_RET_OK(_SlDrvCmdOp((_SlCmdCtrl_t *)&_SlUartSetModeCmdCtrl, &Msg, NULL));
dflet 0:e89ba455dbcf 1341
dflet 0:e89ba455dbcf 1342 /* cmd response OK, we can continue with the handshake */
dflet 0:e89ba455dbcf 1343 if (SL_RET_CODE_OK == Msg.Rsp.status) {
dflet 0:e89ba455dbcf 1344 sl_IfMaskIntHdlr();
dflet 0:e89ba455dbcf 1345
dflet 0:e89ba455dbcf 1346 /* Close the comm port */
dflet 0:e89ba455dbcf 1347 sl_IfClose(g_pCB->FD);
dflet 0:e89ba455dbcf 1348
dflet 0:e89ba455dbcf 1349 /* Re-open the comm port */
dflet 0:e89ba455dbcf 1350 sl_IfOpen((void * )pUartParams, UART_IF_OPEN_FLAG_RE_OPEN);
dflet 0:e89ba455dbcf 1351 sl_IfUnMaskIntHdlr();
dflet 0:e89ba455dbcf 1352
dflet 0:e89ba455dbcf 1353 /* send the magic code and wait for the response */
dflet 0:e89ba455dbcf 1354 sl_IfWrite(g_pCB->FD, (uint8_t* )&magicCode, 4);
dflet 0:e89ba455dbcf 1355
dflet 0:e89ba455dbcf 1356 magicCode = UART_SET_MODE_MAGIC_CODE;
dflet 0:e89ba455dbcf 1357 sl_IfWrite(g_pCB->FD, (uint8_t* )&magicCode, 4);
dflet 0:e89ba455dbcf 1358
dflet 0:e89ba455dbcf 1359 /* clear magic code */
dflet 0:e89ba455dbcf 1360 magicCode = 0;
dflet 0:e89ba455dbcf 1361
dflet 0:e89ba455dbcf 1362 /* wait (blocking) till the magic code to be returned from device */
dflet 0:e89ba455dbcf 1363 sl_IfRead(g_pCB->FD, (uint8_t* )&magicCode, 4);
dflet 0:e89ba455dbcf 1364
dflet 0:e89ba455dbcf 1365 /* check for the received magic code matching */
dflet 0:e89ba455dbcf 1366 if (UART_SET_MODE_MAGIC_CODE != magicCode) {
dflet 0:e89ba455dbcf 1367 _SL_ASSERT(0);
dflet 0:e89ba455dbcf 1368 }
dflet 0:e89ba455dbcf 1369 }
dflet 0:e89ba455dbcf 1370
dflet 0:e89ba455dbcf 1371 return (int16_t)Msg.Rsp.status;
dflet 0:e89ba455dbcf 1372 }
dflet 0:e89ba455dbcf 1373 #endif
dflet 0:e89ba455dbcf 1374 #endif
dflet 0:e89ba455dbcf 1375
dflet 0:e89ba455dbcf 1376 }//namespace
dflet 0:e89ba455dbcf 1377
dflet 0:e89ba455dbcf 1378