Suga koubou / GSwifiInterface_ap_webcam

private fork

Fork of GSwifiInterface by gs fan

GSwifi/GSwifi.h@11:71d67fea5ace, 2013-11-15 (annotated)

Committer:
gsfan
Date:
Fri Nov 15 04:20:14 2013 +0000
Revision:
11:71d67fea5ace
Parent:
10:7d8134e7df01
Child:
12:057089026a20
fix api function, miss spell

Who changed what in which revision?

UserRevisionLine numberNew contents of line
gsfan 11:71d67fea5ace 1 /* Copyright (C) 2013 gsfan, MIT License
gsfan 5:78943b3945b5 2 *
gsfan 5:78943b3945b5 3 * Permission is hereby granted, free of charge, to any person obtaining a copy of this software
gsfan 5:78943b3945b5 4 * and associated documentation files (the "Software"), to deal in the Software without restriction,
gsfan 5:78943b3945b5 5 * including without limitation the rights to use, copy, modify, merge, publish, distribute,
gsfan 5:78943b3945b5 6 * sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is
gsfan 5:78943b3945b5 7 * furnished to do so, subject to the following conditions:
gsfan 5:78943b3945b5 8 *
gsfan 5:78943b3945b5 9 * The above copyright notice and this permission notice shall be included in all copies or
gsfan 5:78943b3945b5 10 * substantial portions of the Software.
gsfan 5:78943b3945b5 11 *
gsfan 5:78943b3945b5 12 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING
gsfan 5:78943b3945b5 13 * BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
gsfan 5:78943b3945b5 14 * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
gsfan 5:78943b3945b5 15 * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
gsfan 5:78943b3945b5 16 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
gsfan 5:78943b3945b5 17 *
gsfan 5:78943b3945b5 18 * @section DESCRIPTION
gsfan 5:78943b3945b5 19 *
gsfan 5:78943b3945b5 20 * GainSpan GS1011, Wi-Fi module
gsfan 5:78943b3945b5 21 *
gsfan 5:78943b3945b5 22 * http://www.gainspan.com/modules
gsfan 5:78943b3945b5 23 */
gsfan 8:64184a968e3b 24 /** @file
gsfan 8:64184a968e3b 25 * @brief Gainspan wi-fi module library for mbed
gsfan 8:64184a968e3b 26 * GS1011MIC, GS1011MIP, GainSpan WiFi Breakout, etc.
gsfan 8:64184a968e3b 27 */
gsfan 5:78943b3945b5 28
gsfan 5:78943b3945b5 29 #ifndef GSwifi_H
gsfan 5:78943b3945b5 30 #define GSwifi_H
gsfan 5:78943b3945b5 31
gsfan 11:71d67fea5ace 32 #include "GSwifi_conf.h"
gsfan 11:71d67fea5ace 33
gsfan 5:78943b3945b5 34 #include "mbed.h"
gsfan 8:64184a968e3b 35 #include "RawSerial.h"
gsfan 5:78943b3945b5 36 #include "CBuffer.h"
gsfan 8:64184a968e3b 37 #include <ctype.h>
gsfan 8:64184a968e3b 38 #include <stdlib.h>
gsfan 8:64184a968e3b 39 #include <string.h>
gsfan 8:64184a968e3b 40
gsfan 11:71d67fea5ace 41 #ifdef CFG_ENABLE_RTOS
gsfan 11:71d67fea5ace 42 #include "rtos.h"
gsfan 8:64184a968e3b 43 #endif
gsfan 5:78943b3945b5 44
gsfan 8:64184a968e3b 45 #define MSG_TABLE_NUM 15
gsfan 8:64184a968e3b 46 #define RES_TABLE_NUM 10
gsfan 5:78943b3945b5 47
gsfan 5:78943b3945b5 48 //Debug is disabled by default
gsfan 8:64184a968e3b 49 #if defined(DEBUG) and (!defined(TARGET_LPC11U24))
gsfan 8:64184a968e3b 50 #define DBG(x, ...) std::printf("[DBG]" x "\r\n", ##__VA_ARGS__);
gsfan 8:64184a968e3b 51 #define WARN(x, ...) std::printf("[WARN]" x "\r\n", ##__VA_ARGS__);
gsfan 8:64184a968e3b 52 #define ERR(x, ...) std::printf("[ERR]" x "\r\n", ##__VA_ARGS__);
gsfan 8:64184a968e3b 53 #define INFO(x, ...) std::printf("[INFO]" x "\r\n", ##__VA_ARGS__);
gsfan 5:78943b3945b5 54 #else
gsfan 5:78943b3945b5 55 #define DBG(x, ...)
gsfan 5:78943b3945b5 56 #define WARN(x, ...)
gsfan 5:78943b3945b5 57 #define ERR(x, ...)
gsfan 5:78943b3945b5 58 #define INFO(x, ...)
gsfan 5:78943b3945b5 59 #endif
gsfan 5:78943b3945b5 60
gsfan 5:78943b3945b5 61
gsfan 8:64184a968e3b 62 /** GSwifi class
gsfan 8:64184a968e3b 63 */
gsfan 5:78943b3945b5 64 class GSwifi
gsfan 5:78943b3945b5 65 {
gsfan 5:78943b3945b5 66
gsfan 5:78943b3945b5 67 public:
gsfan 5:78943b3945b5 68
gsfan 8:64184a968e3b 69 /** Wi-Fi mode
gsfan 8:64184a968e3b 70 */
gsfan 8:64184a968e3b 71 enum WiFiMode {
gsfan 8:64184a968e3b 72 WM_INFRASTRUCTURE,
gsfan 8:64184a968e3b 73 WM_ADHOCK,
gsfan 8:64184a968e3b 74 WM_LIMITEDAP,
gsfan 8:64184a968e3b 75 };
gsfan 8:64184a968e3b 76
gsfan 8:64184a968e3b 77 /** Wi-Fi security
gsfan 8:64184a968e3b 78 */
gsfan 5:78943b3945b5 79 enum Security {
gsfan 5:78943b3945b5 80 SEC_AUTO = 0,
gsfan 5:78943b3945b5 81 SEC_NONE = 0,
gsfan 5:78943b3945b5 82 SEC_OPEN = 1,
gsfan 5:78943b3945b5 83 SEC_WEP = 2,
gsfan 5:78943b3945b5 84 SEC_WPA_PSK = 4,
gsfan 5:78943b3945b5 85 SEC_WPA2_PSK = 8,
gsfan 5:78943b3945b5 86 SEC_WPA_ENT = 16,
gsfan 5:78943b3945b5 87 SEC_WPA2_ENT = 32,
gsfan 5:78943b3945b5 88 SEC_WPS_BUTTON = 64,
gsfan 8:64184a968e3b 89 SEC_WPS_PIN,
gsfan 5:78943b3945b5 90 };
gsfan 5:78943b3945b5 91
gsfan 8:64184a968e3b 92 /** TCP/IP protocol
gsfan 8:64184a968e3b 93 */
gsfan 5:78943b3945b5 94 enum Protocol {
gsfan 5:78943b3945b5 95 PROTO_UDP = 0,
gsfan 5:78943b3945b5 96 PROTO_TCP = 1,
gsfan 5:78943b3945b5 97 PROTO_HTTPGET,
gsfan 5:78943b3945b5 98 PROTO_HTTPPOST,
gsfan 5:78943b3945b5 99 PROTO_HTTPD,
gsfan 5:78943b3945b5 100 };
gsfan 5:78943b3945b5 101
gsfan 8:64184a968e3b 102 /** Client/Server
gsfan 8:64184a968e3b 103 */
gsfan 8:64184a968e3b 104 enum Type {
gsfan 8:64184a968e3b 105 TYPE_CLIENT = 0,
gsfan 8:64184a968e3b 106 TYPE_SERVER = 1,
gsfan 8:64184a968e3b 107 };
gsfan 8:64184a968e3b 108
gsfan 5:78943b3945b5 109 enum Response {
gsfan 5:78943b3945b5 110 RES_NULL,
gsfan 5:78943b3945b5 111 RES_CONNECT,
gsfan 5:78943b3945b5 112 RES_WPS,
gsfan 5:78943b3945b5 113 RES_MACADDRESS,
gsfan 5:78943b3945b5 114 RES_DHCP,
gsfan 5:78943b3945b5 115 RES_DNSLOOKUP,
gsfan 5:78943b3945b5 116 RES_HTTP,
gsfan 5:78943b3945b5 117 RES_RSSI,
gsfan 5:78943b3945b5 118 RES_TIME,
gsfan 8:64184a968e3b 119 RES_STATUS,
gsfan 5:78943b3945b5 120 };
gsfan 5:78943b3945b5 121
gsfan 5:78943b3945b5 122 enum Mode {
gsfan 5:78943b3945b5 123 MODE_COMMAND,
gsfan 8:64184a968e3b 124 MODE_CMDRESP,
gsfan 8:64184a968e3b 125 MODE_ESCAPE,
gsfan 5:78943b3945b5 126 MODE_DATA_RX,
gsfan 8:64184a968e3b 127 MODE_DATA_RX_BULK,
gsfan 5:78943b3945b5 128 MODE_DATA_RXUDP,
gsfan 8:64184a968e3b 129 MODE_DATA_RXUDP_BULK,
gsfan 5:78943b3945b5 130 MODE_DATA_RXHTTP,
gsfan 8:64184a968e3b 131 MODE_DATA_RAW,
gsfan 5:78943b3945b5 132 };
gsfan 5:78943b3945b5 133
gsfan 5:78943b3945b5 134 enum Status {
gsfan 8:64184a968e3b 135 STAT_NONE,
gsfan 5:78943b3945b5 136 STAT_READY,
gsfan 5:78943b3945b5 137 STAT_STANDBY,
gsfan 5:78943b3945b5 138 STAT_WAKEUP,
gsfan 5:78943b3945b5 139 STAT_DEEPSLEEP,
gsfan 5:78943b3945b5 140 };
gsfan 5:78943b3945b5 141
gsfan 8:64184a968e3b 142 // ----- GSwifi.cpp -----
gsfan 8:64184a968e3b 143 /** Constructor
gsfan 8:64184a968e3b 144 * \param tx mbed pin to use for tx line of Serial interface
gsfan 8:64184a968e3b 145 * \param rx mbed pin to use for rx line of Serial interface
gsfan 8:64184a968e3b 146 * \param cts mbed pin to use for cts line of Serial interface
gsfan 8:64184a968e3b 147 * \param rts mbed pin to use for rts line of Serial interface
gsfan 8:64184a968e3b 148 * \param reset reset pin of the wifi module
gsfan 8:64184a968e3b 149 * \param alarm alarm pin of the wifi module
gsfan 8:64184a968e3b 150 * \param baud baud rate of Serial interface
gsfan 8:64184a968e3b 151 */
gsfan 8:64184a968e3b 152 GSwifi (PinName tx, PinName rx, PinName cts, PinName rts, PinName reset, PinName alarm, int baud);
gsfan 5:78943b3945b5 153
gsfan 8:64184a968e3b 154 /** Connect the wifi module to the ssid contained in the constructor.
gsfan 8:64184a968e3b 155 * @param sec Security type (NONE, WEP_128 or WPA)
gsfan 8:64184a968e3b 156 * @param ssid ssid of the network
gsfan 8:64184a968e3b 157 * @param phrase WEP or WPA key
gsfan 8:64184a968e3b 158 * @return 0 if connected, -1 otherwise
gsfan 8:64184a968e3b 159 */
gsfan 11:71d67fea5ace 160 int join ();
gsfan 5:78943b3945b5 161
gsfan 8:64184a968e3b 162 /** Connect the wifi module to the adhock in the constructor.
gsfan 8:64184a968e3b 163 * @param sec Security type (NONE, WEP_128 or WPA)
gsfan 8:64184a968e3b 164 * @param ssid ssid of the network
gsfan 8:64184a968e3b 165 * @param phrase WEP or WPA key
gsfan 8:64184a968e3b 166 * @return 0 if connected, -1 otherwise
gsfan 8:64184a968e3b 167 */
gsfan 11:71d67fea5ace 168 int adhock ();
gsfan 5:78943b3945b5 169
gsfan 8:64184a968e3b 170 /** Connect the wifi module to the limited AP in the constructor.
gsfan 8:64184a968e3b 171 * @param sec Security type (NONE, WEP_128 or WPA)
gsfan 8:64184a968e3b 172 * @param ssid ssid of the network
gsfan 8:64184a968e3b 173 * @param phrase WEP or WPA key
gsfan 8:64184a968e3b 174 * @return 0 if connected, -1 otherwise
gsfan 8:64184a968e3b 175 */
gsfan 11:71d67fea5ace 176 int limitedap ();
gsfan 5:78943b3945b5 177
gsfan 8:64184a968e3b 178 /** Disconnect the wifi module from the access point
gsfan 8:64184a968e3b 179 * @returns 0 if successful
gsfan 8:64184a968e3b 180 */
gsfan 8:64184a968e3b 181 int disconnect ();
gsfan 5:78943b3945b5 182
gsfan 8:64184a968e3b 183 /** Check if a tcp link is active
gsfan 8:64184a968e3b 184 * @returns true if successful
gsfan 8:64184a968e3b 185 */
gsfan 8:64184a968e3b 186 bool isConnected();
gsfan 5:78943b3945b5 187
gsfan 11:71d67fea5ace 188 void poll ();
gsfan 8:64184a968e3b 189
gsfan 11:71d67fea5ace 190 int setAddress (const char *name = NULL);
gsfan 11:71d67fea5ace 191 int setAddress (const char *ip, const char *netmask, const char *gateway, const char *name = NULL);
gsfan 11:71d67fea5ace 192 int getAddress (char *ip, char *netmask, char *gateway);
gsfan 11:71d67fea5ace 193 int setSsid (Security sec, const char *ssid, const char *phrase);
gsfan 5:78943b3945b5 194
gsfan 5:78943b3945b5 195 static GSwifi * getInstance() {
gsfan 5:78943b3945b5 196 return _inst;
gsfan 5:78943b3945b5 197 };
gsfan 5:78943b3945b5 198
gsfan 8:64184a968e3b 199 // ----- GSwifi_util.cpp -----
gsfan 8:64184a968e3b 200 int setRegion (int reg);
gsfan 8:64184a968e3b 201
gsfan 8:64184a968e3b 202 /** RSSI
gsfan 8:64184a968e3b 203 * @return RSSI (dBm)
gsfan 8:64184a968e3b 204 */
gsfan 8:64184a968e3b 205 int getRssi ();
gsfan 8:64184a968e3b 206
gsfan 8:64184a968e3b 207 /** power save mode
gsfan 8:64184a968e3b 208 * @param active rx radio 0:switched off, 1:always on
gsfan 8:64184a968e3b 209 * @param save power save 0:disable, 1:enable
gsfan 8:64184a968e3b 210 */
gsfan 8:64184a968e3b 211 int powerSave (int active, int save);
gsfan 8:64184a968e3b 212
gsfan 8:64184a968e3b 213 /** RF power
gsfan 8:64184a968e3b 214 * @param power 0(high)-7(low)
gsfan 8:64184a968e3b 215 */
gsfan 8:64184a968e3b 216 int setRfPower (int power);
gsfan 8:64184a968e3b 217
gsfan 8:64184a968e3b 218 /** set system time
gsfan 8:64184a968e3b 219 * @param time date time (UTC)
gsfan 8:64184a968e3b 220 */
gsfan 8:64184a968e3b 221 int setTime (time_t time);
gsfan 8:64184a968e3b 222
gsfan 8:64184a968e3b 223 /** get system time
gsfan 8:64184a968e3b 224 * @return date time (UTC)
gsfan 8:64184a968e3b 225 */
gsfan 8:64184a968e3b 226 time_t getTime ();
gsfan 8:64184a968e3b 227
gsfan 8:64184a968e3b 228 /** set NTP server
gsfan 8:64184a968e3b 229 * @param host SNTP server
gsfan 8:64184a968e3b 230 * @param sec time sync interval, 0:one time
gsfan 8:64184a968e3b 231 */
gsfan 8:64184a968e3b 232 int ntpdate (char *host, int sec = 0);
gsfan 8:64184a968e3b 233
gsfan 8:64184a968e3b 234 /** GPIO output
gsfan 8:64184a968e3b 235 * @param port 10,11,30,31
gsfan 8:64184a968e3b 236 * @param out 0:set(high), 1:reset(low)
gsfan 8:64184a968e3b 237 */
gsfan 8:64184a968e3b 238 int setGpio (int port, int out);
gsfan 8:64184a968e3b 239
gsfan 8:64184a968e3b 240 /** Web server
gsfan 8:64184a968e3b 241 */
gsfan 8:64184a968e3b 242 int provisioning (char *user, char *pass);
gsfan 8:64184a968e3b 243
gsfan 8:64184a968e3b 244 /** standby mode
gsfan 8:64184a968e3b 245 * @param msec wakeup after
gsfan 8:64184a968e3b 246 * wakeup after msec or alarm1/2
gsfan 8:64184a968e3b 247 * core off, save to RTC ram
gsfan 8:64184a968e3b 248 */
gsfan 8:64184a968e3b 249 int standby (int msec);
gsfan 8:64184a968e3b 250
gsfan 8:64184a968e3b 251 /** deep sleep mode
gsfan 8:64184a968e3b 252 */
gsfan 8:64184a968e3b 253 int deepSleep ();
gsfan 8:64184a968e3b 254
gsfan 8:64184a968e3b 255 /** restore standby or deep sleep
gsfan 8:64184a968e3b 256 */
gsfan 8:64184a968e3b 257 int wakeup ();
gsfan 8:64184a968e3b 258
gsfan 8:64184a968e3b 259 // ----- GSwifi_sock.cpp -----
gsfan 8:64184a968e3b 260 /** Resolv hostname
gsfan 8:64184a968e3b 261 * @param name hostname
gsfan 8:64184a968e3b 262 * @param ip resolved ip address
gsfan 8:64184a968e3b 263 */
gsfan 8:64184a968e3b 264 int getHostByName(const char * host, char * ip);
gsfan 8:64184a968e3b 265
gsfan 8:64184a968e3b 266 /** TCP/UDP client
gsfan 8:64184a968e3b 267 * @return CID, -1:failure
gsfan 8:64184a968e3b 268 */
gsfan 8:64184a968e3b 269 int open (Protocol proto, const char *ip, int port, int src = 0);
gsfan 8:64184a968e3b 270
gsfan 8:64184a968e3b 271 /** TCP/UDP server
gsfan 8:64184a968e3b 272 * @return CID, -1:failure
gsfan 8:64184a968e3b 273 */
gsfan 8:64184a968e3b 274 int listen (Protocol proto, int port);
gsfan 8:64184a968e3b 275
gsfan 8:64184a968e3b 276 /** close client/server
gsfan 8:64184a968e3b 277 */
gsfan 8:64184a968e3b 278 int close (int cid);
gsfan 8:64184a968e3b 279
gsfan 8:64184a968e3b 280 /** send data tcp(s/c), udp(c)
gsfan 8:64184a968e3b 281 */
gsfan 8:64184a968e3b 282 int send (int cid, const char *buf, int len);
gsfan 8:64184a968e3b 283
gsfan 8:64184a968e3b 284 /*
gsfan 8:64184a968e3b 285 * send data udp(s)
gsfan 8:64184a968e3b 286 */
gsfan 8:64184a968e3b 287 int sendto (int cid, const char *buf, int len, const char *ip, int port);
gsfan 8:64184a968e3b 288
gsfan 8:64184a968e3b 289 /** recv data tcp(s/c), udp(c)
gsfan 8:64184a968e3b 290 * @return length
gsfan 8:64184a968e3b 291 */
gsfan 8:64184a968e3b 292 int recv (int cid, char *buf, int len);
gsfan 8:64184a968e3b 293
gsfan 8:64184a968e3b 294 /** recv data udp(s)
gsfan 8:64184a968e3b 295 * @return length
gsfan 8:64184a968e3b 296 */
gsfan 8:64184a968e3b 297 int recvfrom (int cid, char *buf, int len, char *ip, int *port);
gsfan 8:64184a968e3b 298
gsfan 8:64184a968e3b 299 /** readable recv data
gsfan 8:64184a968e3b 300 */
gsfan 8:64184a968e3b 301 int readable (int cid);
gsfan 8:64184a968e3b 302
gsfan 8:64184a968e3b 303 /** tcp/udp connected
gsfan 8:64184a968e3b 304 */
gsfan 8:64184a968e3b 305 bool isConnected (int cid);
gsfan 8:64184a968e3b 306
gsfan 8:64184a968e3b 307 int accept (int cid);
gsfan 8:64184a968e3b 308 int getRemote(int cid, char **ip, int *port);
gsfan 8:64184a968e3b 309
gsfan 8:64184a968e3b 310 // ----- GSwifi_http.cpp -----
gsfan 8:64184a968e3b 311 int httpGet (const char *host, int port, const char *uri, bool ssl = false, const char *user = NULL, const char *pwd = NULL);
gsfan 8:64184a968e3b 312 int httpPost (const char *host, int port, const char *uri, const char *body, bool ssl = false, const char *user = NULL, const char *pwd = NULL);
gsfan 8:64184a968e3b 313 int base64encode (const char *input, int length, char *output, int len);
gsfan 8:64184a968e3b 314 int urlencode (const char *str, char *buf, int len);
gsfan 8:64184a968e3b 315 int urldecode (const char *str, char *buf, int len);
gsfan 8:64184a968e3b 316
gsfan 8:64184a968e3b 317 // ----- GSwifi_msg.cpp -----
gsfan 8:64184a968e3b 318
gsfan 8:64184a968e3b 319 // ----- GSwifi_at.cpp -----
gsfan 8:64184a968e3b 320 /** Send a command to the wifi module. Check if the module is in command mode. If not enter in command mode
gsfan 8:64184a968e3b 321 * @param cmd string to be sent
gsfan 8:64184a968e3b 322 * @param res need response
gsfan 8:64184a968e3b 323 * @param timeout
gsfan 8:64184a968e3b 324 * @returns 0 if successful
gsfan 8:64184a968e3b 325 */
gsfan 8:64184a968e3b 326 int sendCommand(const char * cmd, Response res = RES_NULL, int timeout = DEFAULT_WAIT_RESP_TIMEOUT);
gsfan 8:64184a968e3b 327
gsfan 8:64184a968e3b 328 /** Send a command to the wifi module. Check if the module is in command mode. If not enter in command mode
gsfan 8:64184a968e3b 329 * @param data string to be sent
gsfan 8:64184a968e3b 330 * @param res need response
gsfan 8:64184a968e3b 331 * @param timeout
gsfan 8:64184a968e3b 332 * @param cmd
gsfan 8:64184a968e3b 333 * @returns 0 if successful
gsfan 8:64184a968e3b 334 */
gsfan 11:71d67fea5ace 335 int sendData(const char * data, int len, int timeout = CFG_TIMEOUT, const char * cmd = NULL);
gsfan 8:64184a968e3b 336
gsfan 5:78943b3945b5 337
gsfan 5:78943b3945b5 338 protected:
gsfan 5:78943b3945b5 339
gsfan 5:78943b3945b5 340 static GSwifi * _inst;
gsfan 11:71d67fea5ace 341 #ifdef CFG_ENABLE_RTOS
gsfan 8:64184a968e3b 342 Thread *_threadPoll;
gsfan 8:64184a968e3b 343 Mutex _mutexUart;
gsfan 8:64184a968e3b 344 #endif
gsfan 5:78943b3945b5 345
gsfan 8:64184a968e3b 346 // Serial _gs;
gsfan 8:64184a968e3b 347 RawSerial _gs;
gsfan 8:64184a968e3b 348 int _baud;
gsfan 8:64184a968e3b 349 DigitalIn *_cts;
gsfan 8:64184a968e3b 350 DigitalOut *_rts;
gsfan 8:64184a968e3b 351 int _flow;
gsfan 8:64184a968e3b 352 #if defined(TARGET_LPC1768) || defined(TARGET_LPC2368) || defined(TARGET_LPC4088)
gsfan 8:64184a968e3b 353 LPC_UART1_TypeDef *_uart;
gsfan 8:64184a968e3b 354 #elif defined(TARGET_LPC11U24)
gsfan 8:64184a968e3b 355 LPC_USART_Type *_uart;
gsfan 8:64184a968e3b 356 #endif
gsfan 8:64184a968e3b 357 DigitalInOut _reset;
gsfan 8:64184a968e3b 358 DigitalInOut *_alarm;
gsfan 5:78943b3945b5 359
gsfan 8:64184a968e3b 360 struct STATE {
gsfan 8:64184a968e3b 361 WiFiMode wm;
gsfan 8:64184a968e3b 362 Security sec;
gsfan 8:64184a968e3b 363 char ssid[35];
gsfan 8:64184a968e3b 364 char pass[66];
gsfan 8:64184a968e3b 365 char ip[16];
gsfan 8:64184a968e3b 366 char netmask[16];
gsfan 8:64184a968e3b 367 char gateway[16];
gsfan 8:64184a968e3b 368 char nameserver[16];
gsfan 8:64184a968e3b 369 char mac[18];
gsfan 8:64184a968e3b 370 char resolv[16];
gsfan 8:64184a968e3b 371 char name[32];
gsfan 8:64184a968e3b 372 int rssi;
gsfan 5:78943b3945b5 373 bool dhcp;
gsfan 8:64184a968e3b 374 time_t time;
gsfan 8:64184a968e3b 375
gsfan 11:71d67fea5ace 376 bool initialized;
gsfan 8:64184a968e3b 377 bool associated;
gsfan 8:64184a968e3b 378 volatile Mode mode;
gsfan 8:64184a968e3b 379 volatile Status status;
gsfan 5:78943b3945b5 380 bool escape;
gsfan 8:64184a968e3b 381 volatile bool ok, failure;
gsfan 10:7d8134e7df01 382 volatile Response res;
gsfan 11:71d67fea5ace 383 int cid;
gsfan 5:78943b3945b5 384 int n;
gsfan 8:64184a968e3b 385 CircBuffer<char> *buf;
gsfan 8:64184a968e3b 386 } _state;
gsfan 5:78943b3945b5 387
gsfan 8:64184a968e3b 388 struct CONNECTION {
gsfan 8:64184a968e3b 389 Protocol protocol;
gsfan 8:64184a968e3b 390 Type type;
gsfan 5:78943b3945b5 391 bool connected;
gsfan 5:78943b3945b5 392 char ip[16];
gsfan 5:78943b3945b5 393 int port;
gsfan 5:78943b3945b5 394 CircBuffer<char> *buf;
gsfan 8:64184a968e3b 395 volatile bool received;
gsfan 8:64184a968e3b 396 volatile int parent;
gsfan 8:64184a968e3b 397 volatile bool accept;
gsfan 8:64184a968e3b 398 } _con[16];
gsfan 8:64184a968e3b 399
gsfan 8:64184a968e3b 400
gsfan 8:64184a968e3b 401 // ----- GSwifi.cpp -----
gsfan 11:71d67fea5ace 402 #ifdef CFG_ENABLE_RTOS
gsfan 8:64184a968e3b 403 static void threadPoll (void const *args);
gsfan 8:64184a968e3b 404 #endif
gsfan 8:64184a968e3b 405
gsfan 8:64184a968e3b 406 // ----- GSwifi_util.cpp -----
gsfan 8:64184a968e3b 407 int x2i (char c);
gsfan 8:64184a968e3b 408 char i2x (int i);
gsfan 8:64184a968e3b 409 int from_hex (int ch);
gsfan 8:64184a968e3b 410 int to_hex (int code);
gsfan 8:64184a968e3b 411
gsfan 8:64184a968e3b 412 // ----- GSwifi_msg.cpp -----
gsfan 8:64184a968e3b 413 void recvData (char c);
gsfan 8:64184a968e3b 414 int parseMessage ();
gsfan 8:64184a968e3b 415 void msgOk (const char*);
gsfan 8:64184a968e3b 416 void msgError (const char*);
gsfan 8:64184a968e3b 417 void msgConnect (const char*);
gsfan 8:64184a968e3b 418 void msgDisconnect (const char*);
gsfan 8:64184a968e3b 419 void msgDisassociated (const char*);
gsfan 8:64184a968e3b 420 void msgReset (const char*);
gsfan 8:64184a968e3b 421 void msgOutofStandby (const char*);
gsfan 8:64184a968e3b 422 void msgOutofDeepsleep (const char*);
gsfan 8:64184a968e3b 423 void resNormal (const char*);
gsfan 8:64184a968e3b 424 void resConnect (const char*);
gsfan 8:64184a968e3b 425 void resWps (const char*);
gsfan 8:64184a968e3b 426 void resMacAddress (const char*);
gsfan 8:64184a968e3b 427 void resIp (const char*);
gsfan 8:64184a968e3b 428 void resLookup (const char*);
gsfan 8:64184a968e3b 429 void resRssi (const char*);
gsfan 8:64184a968e3b 430 void resTime (const char*);
gsfan 8:64184a968e3b 431 void resChannel (const char*);
gsfan 8:64184a968e3b 432 void resStatus (const char*);
gsfan 5:78943b3945b5 433
gsfan 8:64184a968e3b 434 // ----- GSwifi_at.cpp -----
gsfan 8:64184a968e3b 435 void clearFlags ();
gsfan 8:64184a968e3b 436 int cmdAT ();
gsfan 8:64184a968e3b 437 int cmdE (bool n);
gsfan 8:64184a968e3b 438 int cmdR (bool n);
gsfan 8:64184a968e3b 439 int cmdNMAC (const char *s = NULL);
gsfan 8:64184a968e3b 440 int cmdWREGDOMAIN (int n = CFG_WREGDOMAIN);
gsfan 8:64184a968e3b 441 int cmdWS ();
gsfan 8:64184a968e3b 442 int cmdWM (int n);
gsfan 8:64184a968e3b 443 int cmdWA (const char *s);
gsfan 8:64184a968e3b 444 int cmdWD ();
gsfan 8:64184a968e3b 445 int cmdWWPS (bool n, const char *p = NULL);
gsfan 8:64184a968e3b 446 int cmdNSTAT ();
gsfan 8:64184a968e3b 447 int cmdWSTATUS ();
gsfan 8:64184a968e3b 448 int cmdWRSSI ();
gsfan 8:64184a968e3b 449 int cmdWAUTH (int n);
gsfan 8:64184a968e3b 450 int cmdWWEP (int n, const char *s);
gsfan 8:64184a968e3b 451 int cmdWPAPSK (const char *s, const char *p);
gsfan 8:64184a968e3b 452 int cmdWRXACTIVE (bool n);
gsfan 8:64184a968e3b 453 int cmdWRXPS (bool n);
gsfan 8:64184a968e3b 454 int cmdWP (int n);
gsfan 8:64184a968e3b 455 int cmdNDHCP (bool n, const char *s = NULL, int m = CFG_TIMEOUT);
gsfan 8:64184a968e3b 456 int cmdDHCPSRVR (bool n);
gsfan 8:64184a968e3b 457 int cmdNSET (const char *s, const char *t, const char *u);
gsfan 8:64184a968e3b 458 int cmdDNS (bool n, const char *s);
gsfan 8:64184a968e3b 459 int cmdDNSLOOKUP (const char *s);
gsfan 8:64184a968e3b 460 int cmdDNSSET (const char *s);
gsfan 8:64184a968e3b 461 int cmdSTORENWCONN ();
gsfan 8:64184a968e3b 462 int cmdRESTORENWCONN ();
gsfan 8:64184a968e3b 463 int cmdBDATA (bool n);
gsfan 8:64184a968e3b 464 int cmdNCTCP (const char *s, int n);
gsfan 8:64184a968e3b 465 int cmdNCUDP (const char *s, int n, int m = 0);
gsfan 8:64184a968e3b 466 int cmdNSTCP (int n);
gsfan 8:64184a968e3b 467 int cmdNSUDP (int n);
gsfan 8:64184a968e3b 468 int cmdNCLOSE (int n);
gsfan 8:64184a968e3b 469 int cmdNCLOSEALL ();
gsfan 8:64184a968e3b 470 int cmdHTTPCONF (int n, const char *s);
gsfan 8:64184a968e3b 471 int cmdHTTPCONFDEL (int n);
gsfan 8:64184a968e3b 472 int cmdHTTPOPEN (const char *s, int n = 80, bool m = false);
gsfan 8:64184a968e3b 473 int cmdHTTPSEND (int n, bool m, const char *s, int t = 0);
gsfan 8:64184a968e3b 474 int cmdHTTPCLOSE (int n);
gsfan 8:64184a968e3b 475 int cmdPSDPSLEEP (int n = 0);
gsfan 8:64184a968e3b 476 int cmdPSSTBY (int n, int m = 0);
gsfan 8:64184a968e3b 477 int cmdWEBPROV (const char *s, const char *p);
gsfan 8:64184a968e3b 478 int cmdSETTIME (const char *s, const char *t);
gsfan 8:64184a968e3b 479 int cmdGETTIME ();
gsfan 8:64184a968e3b 480 int cmdNTIMESYNC (bool n, const char *s, int m = 0);
gsfan 8:64184a968e3b 481 int cmdDGPIO (int n, int m);
gsfan 8:64184a968e3b 482
gsfan 8:64184a968e3b 483 // ----- GSwifi_hal.cpp -----
gsfan 8:64184a968e3b 484 void setReset (bool flg);
gsfan 8:64184a968e3b 485 void setAlarm (bool flg);
gsfan 8:64184a968e3b 486 void isrUart ();
gsfan 8:64184a968e3b 487 int getUart ();
gsfan 8:64184a968e3b 488 void putUart (char c);
gsfan 8:64184a968e3b 489 void setRts (bool flg);
gsfan 8:64184a968e3b 490 int lockUart (int ms);
gsfan 8:64184a968e3b 491 void unlockUart ();
gsfan 8:64184a968e3b 492 void initUart (PinName cts, PinName rts, PinName alarm, int baud);
gsfan 8:64184a968e3b 493
gsfan 5:78943b3945b5 494 };
gsfan 5:78943b3945b5 495
samux 1:fb4494783863 496 #endif