hadif azli
/
TEST123
BLYNK TEST
ESP8266_HardSer.h
- Committer:
- kenobi
- Date:
- 2021-01-26
- Revision:
- 5:8a3cf73d7ed3
- Parent:
- 3:4cd9171ba989
File content as of revision 5:8a3cf73d7ed3:
/** * @file ESP8266.h * @brief The definition of class ESP8266. * @author Wu Pengfei<pengfei.wu@itead.cc> * @date 2015.02 * * @par Copyright: * Copyright (c) 2015 ITEAD Intelligent Systems Co., Ltd. \n\n * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of * the License, or (at your option) any later version. \n\n * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #ifndef __ESP8266_H__ #define __ESP8266_H__ //#include "Arduino.h" #include "mbed.h" #include "WString.h" extern Timer g_Timer; extern Serial pc; //#define LOG_ESP8266 #ifdef LOG_ESP8266 #define ESP8266_LOG pc.printf #define LOG_ENTER ESP8266_LOG("Enter %s\r\n", __func__); #else #define ESP8266_LOG(...) #define LOG_ENTER #endif //#define ESP8266_USE_SOFTWARE_SERIAL #ifdef ESP8266_USE_SOFTWARE_SERIAL //#include "SoftwareSerial.h" #define SoftwareSerial Serial #else #define HardwareSerial Serial #endif #define VERSION_18 0X18 #define VERSION_22 0X22 #define DEFAULT_PATTERN 3 /** * You can modify the macro to choose a different version */ #define USER_SEL_VERSION VERSION_22 /** * Provide an easy-to-use way to manipulate ESP8266. */ class ESP8266 { public: typedef void (*onData)(uint8_t mux_id, uint32_t len, void* ptr); #ifdef ESP8266_USE_SOFTWARE_SERIAL /* * Constuctor. * * @param uart - an reference of SoftwareSerial object. * @warning parameter baud depends on the AT firmware. 9600 is an common value. */ ESP8266(SoftwareSerial &uart); SoftwareSerial* getUart() { return m_puart; } #else /* HardwareSerial */ /* * Constuctor. * * @param uart - an reference of HardwareSerial object. * @warning parameter baud depends on the AT firmware. 9600 is an common value. */ ESP8266(HardwareSerial &uart); HardwareSerial* getUart() { return m_puart; } #endif /* #ifdef ESP8266_USE_SOFTWARE_SERIAL */ void setOnData(onData cbk, void* ptr) { m_onData = cbk; m_onDataPtr = ptr; } void run(); /** * Verify ESP8266 whether live or not. * * Actually, this method will send command "AT" to ESP8266 and waiting for "OK". * * @retval true - alive. * @retval false - dead. */ bool kick(void); /** * Restart ESP8266 by "AT+RST". * * This method will take 3 seconds or more. * * @retval true - success. * @retval false - failure. */ bool restart(void); /** * Get the version of AT Command Set. * * @return the string of version. */ String getVersion(void); /** * Start function of deep sleep. * * @param time - the sleep time. * @retval true - success. * @retval false - failure. * @note the feature requires hardware support. */ bool deepSleep(uint32_t time); /** * Switch the echo function. * * @param mode - 1 start echo -0 stop echo * @retval true - success. * @retval false - failure. * */ bool setEcho(uint8_t mode); /** * Restore factory. * @retval true - success. * @retval false - failure. * @note The operation can lead to restart the machine. */ bool restore(void); /** * Set up a serial port configuration. * * @param pattern -1 send "AT+UART=", -2 send "AT+UART_CUR=", -3 send "AT+UART_DEF=". * @param baudrate - the uart baudrate. * @retval true - success. * @retval false - failure. * @note Only allows baud rate design, for the other parameters:databits- 8,stopbits -1,parity -0,flow control -0 . */ bool setUart(uint32_t baudrate,uint8_t pattern); /** * Set operation mode to station. * * @param pattern1 -1, send "AT+CWMODE_DEF?",-2,send "AT+CWMODE_CUR?",-3,send "AT+CWMODE?". * @param pattern2 -1, send "AT+CWMODE_DEF=",-2,send "AT+CWMODE_CUR=",-3,send "AT+CWMODE=". * @retval true - success. * @retval false - failure. * */ bool setOprToStation(uint8_t pattern1=DEFAULT_PATTERN,uint8_t pattern2=DEFAULT_PATTERN); /** * Get the model values list. * * @return the list of model. */ String getWifiModeList(void); /** * Set operation mode to softap. * @param pattern1 -1, send "AT+CWMODE_DEF?",-2,send "AT+CWMODE_CUR?",-3,send "AT+CWMODE?". * @param pattern2 -1, send "AT+CWMODE_DEF=",-2,send "AT+CWMODE_CUR=",-3,send "AT+CWMODE=". * * @retval true - success. * @retval false - failure. */ bool setOprToSoftAP(uint8_t pattern1=DEFAULT_PATTERN,uint8_t pattern2=DEFAULT_PATTERN); /** * Set operation mode to station + softap. * @param pattern1 -1, send "AT+CWMODE_DEF?",-2,send "AT+CWMODE_CUR?",-3,send "AT+CWMODE?". * @param pattern2 -1, send "AT+CWMODE_DEF=",-2,send "AT+CWMODE_CUR=",-3,send "AT+CWMODE=". * * @retval true - success. * @retval false - failure. */ bool setOprToStationSoftAP(uint8_t pattern1=DEFAULT_PATTERN,uint8_t pattern2=DEFAULT_PATTERN); /** * Get the operation mode. * @param pattern1 -1, send "AT+CWMODE_DEF?",-2,send "AT+CWMODE_CUR?",-3,send "AT+CWMODE?". * * @retval 0 - failure. * @retval 1 - mode Station. * @retval 2 - mode AP. * @retval 3 - mode AP + station. */ uint8_t getOprMode(uint8_t pattern1=DEFAULT_PATTERN); /** * Search available AP list and return it. * * @return the list of available APs. * @note This method will occupy a lot of memeory(hundreds of Bytes to a couple of KBytes). * Do not call this method unless you must and ensure that your board has enough memery left. */ String getAPList(void); /** * Search and returns the current connect AP. * * @param pattern -1, send "AT+CWJAP_DEF?",-2,send "AT+CWJAP_CUR?",-3,send "AT+CWJAP?". * @return the ssid of AP connected now. */ String getNowConecAp(uint8_t pattern=DEFAULT_PATTERN); /** * Join in AP. * * @param pattern -1 send "AT+CWJAP_DEF=" -2 send "AT+CWJAP_CUR=" -3 send "AT+CWJAP=". * @param ssid - SSID of AP to join in. * @param pwd - Password of AP to join in. * @retval true - success. * @retval false - failure. * @note This method will take a couple of seconds. */ bool joinAP(String ssid, String pwd,uint8_t pattern=DEFAULT_PATTERN); /** * Leave AP joined before. * * @retval true - success. * @retval false - failure. */ bool leaveAP(void); /** * Set SoftAP parameters. * * @param pattern -1 send "AT+CWSAP_DEF=" -2 send "AT+CWSAP_CUR=" -3 send "AT+CWSAP=". * @param ssid - SSID of SoftAP. * @param pwd - PASSWORD of SoftAP. * @param chl - the channel (1 - 13, default: 7). * @param ecn - the way of encrypstion (0 - OPEN, 1 - WEP, * 2 - WPA_PSK, 3 - WPA2_PSK, 4 - WPA_WPA2_PSK, default: 4). * @retval true - success. * @retval false - failure. * @note This method should not be called when station mode. */ bool setSoftAPParam(String ssid, String pwd, uint8_t chl = 7, uint8_t ecn = 4,uint8_t pattern=DEFAULT_PATTERN); /** * get SoftAP parameters. * * @param pattern -1 send "AT+CWSAP_DEF?" -2 send "AT+CWSAP_CUR?" -3 send "AT+CWSAP?". * @note This method should not be called when station mode. */ String getSoftAPParam(uint8_t pattern=DEFAULT_PATTERN); /** * Get the IP list of devices connected to SoftAP. * * @return the list of IP. * @note This method should not be called when station mode. */ String getJoinedDeviceIP(void); /** * Get the current state of DHCP. * * @param pattern -1 send "AT+CWDHCP_DEF?" -2 send "AT+CWDHCP_CUR?" -3 send "AT+CWDHCP?". * @return the state of DHCP. * */ String getDHCP(uint8_t pattern=DEFAULT_PATTERN); /** * Set the state of DHCP. * @param pattern -1 send "AT+CWDHCP_DEF=" -2 send "AT+CWDHCP_CUR=" -3 send "AT+CWDHCP=". * @param mode - set ap or set station or set ap + station. * @param en - 0 disable DHCP - 1 enable DHCP. * @retval true - success. * @retval false - failure. */ bool setDHCP(uint8_t mode, uint8_t en, uint8_t pattern=DEFAULT_PATTERN); /** * make boot automatically connected. * @param en -1 enable -0 disable. * @retval true - success. * @retval false - failure. */ bool setAutoConnect(uint8_t en); /** * Get the station's MAC address. * @param pattern -1 send "AT+CIPSTAMAC_DEF?=" -2 send "AT+CIPSTAMAC_CUR?" -3 send "AT+CIPSTAMAC?". * @return mac address. * @note This method should not be called when ap mode. */ String getStationMac(uint8_t pattern=DEFAULT_PATTERN); /** * Set the station's MAC address. * @param pattern -1 send "AT+CIPSTAMAC_DEF=" -2 send "AT+CIPSTAMAC_CUR=" -3 send "AT+CIPSTAMAC=". * @param mac - the mac address of station. * @retval true - success. * @retval false - failure. */ bool setStationMac(String mac,uint8_t pattern=DEFAULT_PATTERN); /** * Get the station's IP. * @param pattern -1 send "AT+CIPSTA_DEF?" -2 send "AT+CIPSTA_CUR?" -3 send "AT+CIPSTA?". * @return the station's IP. * @note This method should not be called when ap mode. */ String getStationIp(uint8_t pattern=DEFAULT_PATTERN); /** * Set the station's IP. * @param pattern -1 send "AT+CIPSTA_DEF=" -2 send "AT+CIPSTA_CUR=" -3 send "AT+CIPSTA=". * @param ip - the ip of station. * @param gateway -the gateway of station. * @param netmask -the netmask of station. * @retval true - success. * @retval false - failure. * @note This method should not be called when ap mode. */ bool setStationIp(String ip,String gateway,String netmask,uint8_t pattern=DEFAULT_PATTERN); /** * Get the AP's IP. * @param pattern -1 send "AT+CIPAP_DEF?" -2 send "AT+CIPAP_CUR?" -3 send "AT+CIPAP?". * @return ap's ip. * @note This method should not be called when station mode. * */ String getAPIp(uint8_t pattern=DEFAULT_PATTERN); /** * Set the AP IP. * @param pattern -1 send "AT+CIPAP_DEF=" -2 send "AT+CIPAP_CUR=" -3 send "AT+CIPAP=". * @param ip - the ip of AP. * @retval true - success. * @retval false - failure. * @note This method should not be called when station mode. */ bool setAPIp(String ip,uint8_t pattern=DEFAULT_PATTERN); /** * start smartconfig. * @param type -1:ESP_TOUCH -2:AirKiss. * @retval true - success. * @retval false - failure. */ bool startSmartConfig(uint8_t type); /** * stop smartconfig. * * @retval true - success. * @retval false - failure. */ bool stopSmartConfig(void); /** * Get the current status of connection(UDP and TCP). * * @return the status. */ String getIPStatus(void); /** * Get the IP address of ESP8266. * * @return the IP list. */ String getLocalIP(void); /** * Enable IP MUX(multiple connection mode). * * In multiple connection mode, a couple of TCP and UDP communication can be builded. * They can be distinguished by the identifier of TCP or UDP named mux_id. * * @retval true - success. * @retval false - failure. */ bool enableMUX(void); /** * Disable IP MUX(single connection mode). * * In single connection mode, only one TCP or UDP communication can be builded. * * @retval true - success. * @retval false - failure. */ bool disableMUX(void); /** * Create TCP connection in single mode. * * @param addr - the IP or domain name of the target host. * @param port - the port number of the target host. * @retval true - success. * @retval false - failure. */ bool createTCP(String addr, uint32_t port); /** * Release TCP connection in single mode. * * @retval true - success. * @retval false - failure. */ bool releaseTCP(void); /** * Register UDP port number in single mode. * * @param addr - the IP or domain name of the target host. * @param port - the port number of the target host. * @retval true - success. * @retval false - failure. */ bool registerUDP(String addr, uint32_t port); /** * Unregister UDP port number in single mode. * * @retval true - success. * @retval false - failure. */ bool unregisterUDP(void); /** * Create TCP connection in multiple mode. * * @param mux_id - the identifier of this TCP(available value: 0 - 4). * @param addr - the IP or domain name of the target host. * @param port - the port number of the target host. * @retval true - success. * @retval false - failure. */ bool createTCP(uint8_t mux_id, String addr, uint32_t port); /** * Release TCP connection in multiple mode. * * @param mux_id - the identifier of this TCP(available value: 0 - 4). * @retval true - success. * @retval false - failure. */ bool releaseTCP(uint8_t mux_id); /** * Register UDP port number in multiple mode. * * @param mux_id - the identifier of this TCP(available value: 0 - 4). * @param addr - the IP or domain name of the target host. * @param port - the port number of the target host. * @retval true - success. * @retval false - failure. */ bool registerUDP(uint8_t mux_id, String addr, uint32_t port); /** * Unregister UDP port number in multiple mode. * * @param mux_id - the identifier of this TCP(available value: 0 - 4). * @retval true - success. * @retval false - failure. */ bool unregisterUDP(uint8_t mux_id); /** * Set the timeout of TCP Server. * * @param timeout - the duration for timeout by second(0 ~ 28800, default:180). * @retval true - success. * @retval false - failure. */ bool setTCPServerTimeout(uint32_t timeout = 180); /** * Start TCP Server(Only in multiple mode). * * After started, user should call method: getIPStatus to know the status of TCP connections. * The methods of receiving data can be called for user's any purpose. After communication, * release the TCP connection is needed by calling method: releaseTCP with mux_id. * * @param port - the port number to listen(default: 333). * @retval true - success. * @retval false - failure. * * @see String getIPStatus(void); * @see uint32_t recv(uint8_t *coming_mux_id, uint8_t *buffer, uint32_t len, uint32_t timeout); * @see bool releaseTCP(uint8_t mux_id); */ bool startTCPServer(uint32_t port = 333); /** * Stop TCP Server(Only in multiple mode). * * @retval true - success. * @retval false - failure. */ bool stopTCPServer(void); /** *Set the module transfer mode * * @retval true - success. * @retval false - failure. */ bool setCIPMODE(uint8_t mode); /** * Start Server(Only in multiple mode). * * @param port - the port number to listen(default: 333). * @retval true - success. * @retval false - failure. * * @see String getIPStatus(void); * @see uint32_t recv(uint8_t *coming_mux_id, uint8_t *buffer, uint32_t len, uint32_t timeout); */ bool startServer(uint32_t port = 333); /** * Stop Server(Only in multiple mode). * * @retval true - success. * @retval false - failure. */ bool stopServer(void); /** * Save the passthrough links * * @retval true - success. * @retval false - failure. */ bool saveTransLink (uint8_t mode,String ip,uint32_t port); /** * PING COMMAND. * * @retval true - success. * @retval false - failure. */ bool setPing(String ip); /** * Send data based on TCP or UDP builded already in single mode. * * @param buffer - the buffer of data to send. * @param len - the length of data to send. * @retval true - success. * @retval false - failure. */ bool send(const uint8_t *buffer, uint32_t len); /** * Send data based on one of TCP or UDP builded already in multiple mode. * * @param mux_id - the identifier of this TCP(available value: 0 - 4). * @param buffer - the buffer of data to send. * @param len - the length of data to send. * @retval true - success. * @retval false - failure. */ bool send(uint8_t mux_id, const uint8_t *buffer, uint32_t len); /** * Send data based on TCP or UDP builded already in single mode. * * @param buffer - the buffer of data to send from flash memeory. * @param len - the length of data to send. * @retval true - success. * @retval false - failure. */ bool sendFromFlash(const uint8_t *buffer, uint32_t len); /** * Send data based on one of TCP or UDP builded already in multiple mode. * * @param mux_id - the identifier of this TCP(available value: 0 - 4). * @param buffer - the buffer of data to send from flash memeory. * @param len - the length of data to send. * @retval true - success. * @retval false - failure. */ bool sendFromFlash(uint8_t mux_id, const uint8_t *buffer, uint32_t len); private: /* * Empty the buffer or UART RX. */ void rx_empty(void); /* * Recvive data from uart. Return all received data if target found or timeout. */ String recvString(String target, uint32_t timeout = 1000); /* * Recvive data from uart. Return all received data if one of target1 and target2 found or timeout. */ String recvString(String target1, String target2, uint32_t timeout = 1000); /* * Recvive data from uart. Return all received data if one of target1, target2 and target3 found or timeout. */ String recvString(String target1, String target2, String target3, uint32_t timeout = 1000); /* * Recvive data from uart and search first target. Return true if target found, false for timeout. */ bool recvFind(String target, uint32_t timeout = 1000); /* * Recvive data from uart and search first target and cut out the substring between begin and end(excluding begin and end self). * Return true if target found, false for timeout. */ bool recvFindAndFilter(String target, String begin, String end, String &data, uint32_t timeout = 1000); /* * Receive a package from uart. * * @param buffer - the buffer storing data. * @param buffer_size - guess what! * @param data_len - the length of data actually received(maybe more than buffer_size, the remained data will be abandoned). * @param timeout - the duration waitting data comming. * @param coming_mux_id - in single connection mode, should be NULL and not NULL in multiple. */ uint32_t checkIPD(String& data); bool eAT(void); bool eATRST(void); bool eATGMR(String &version); bool eATGSLP(uint32_t time); bool eATE(uint8_t mode); bool eATRESTORE(void); bool eATSETUART(uint32_t baudrate,uint8_t pattern); bool qATCWMODE(uint8_t *mode,uint8_t pattern=3); bool eATCWMODE(String &list) ; bool sATCWMODE(uint8_t mode,uint8_t pattern=3); bool qATCWJAP(String &ssid,uint8_t pattern=3) ; bool sATCWJAP(String ssid, String pwd,uint8_t pattern=3); bool eATCWLAP(String &list); bool eATCWQAP(void); bool qATCWSAP(String &List,uint8_t pattern=3); bool sATCWSAP(String ssid, String pwd, uint8_t chl, uint8_t ecn,uint8_t pattern=3); bool eATCWLIF(String &list); bool qATCWDHCP(String &List,uint8_t pattern=3); bool sATCWDHCP(uint8_t mode, uint8_t en, uint8_t pattern=3); bool eATCWAUTOCONN(uint8_t en); bool qATCIPSTAMAC(String &mac,uint8_t pattern=3); bool eATCIPSTAMAC(String mac,uint8_t pattern=3); bool qATCIPSTAIP(String &ip,uint8_t pattern=3); bool eATCIPSTAIP(String ip,String gateway,String netmask,uint8_t pattern=3); bool qATCIPAP(String &ip,uint8_t pattern=3); bool eATCIPAP(String ip,uint8_t pattern=3); bool eCWSTARTSMART(uint8_t type); bool eCWSTOPSMART(void); bool eATCIPSTATUS(String &list); bool sATCIPSTARTSingle(String type, String addr, uint32_t port); bool sATCIPSTARTMultiple(uint8_t mux_id, String type, String addr, uint32_t port); bool sATCIPSENDSingle(const uint8_t *buffer, uint32_t len); bool sATCIPSENDMultiple(uint8_t mux_id, const uint8_t *buffer, uint32_t len); bool sATCIPSENDSingleFromFlash(const uint8_t *buffer, uint32_t len); bool sATCIPSENDMultipleFromFlash(uint8_t mux_id, const uint8_t *buffer, uint32_t len); bool sATCIPCLOSEMulitple(uint8_t mux_id); bool eATCIPCLOSESingle(void); bool eATCIFSR(String &list); bool sATCIPMUX(uint8_t mode); bool sATCIPSERVER(uint8_t mode, uint32_t port = 333); bool sATCIPMODE(uint8_t mode); bool eATSAVETRANSLINK(uint8_t mode,String ip,uint32_t port); bool eATPING(String ip); bool sATCIPSTO(uint32_t timeout); /* * +IPD,len:data * +IPD,id,len:data */ #ifdef ESP8266_USE_SOFTWARE_SERIAL SoftwareSerial *m_puart; /* The UART to communicate with ESP8266 */ #else HardwareSerial *m_puart; /* The UART to communicate with ESP8266 */ #endif onData m_onData; void* m_onDataPtr; }; #endif /* #ifndef __ESP8266_H__ */