This is an example of BLE GATT Client, which receives broadcast data from BLE_Server_BME280 ( a GATT server) , then transfers values up to mbed Device Connector (cloud).
Please refer details about BLEClient_mbedDevConn below. https://github.com/soramame21/BLEClient_mbedDevConn
The location of required BLE GATT server, BLE_Server_BME280, is at here. https://developer.mbed.org/users/edamame22/code/BLE_Server_BME280/
esp8266-driver/ESP8266/ESP8266.h
- Committer:
- Ren Boting
- Date:
- 2017-09-05
- Revision:
- 2:b894b3508057
- Parent:
- 0:29983394c6b6
File content as of revision 2:b894b3508057:
/* ESP8266Interface Example * Copyright (c) 2015 ARM Limited * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef ESP8266_H #define ESP8266_H #include "ATParser.h" /** ESP8266Interface class. This is an interface to a ESP8266 radio. */ class ESP8266 { public: ESP8266(PinName tx, PinName rx, bool debug=false); /** * Startup the ESP8266 * * @param mode mode of WIFI 1-client, 2-host, 3-both * @return true only if ESP8266 was setup correctly */ bool startup(int mode); /** * Reset ESP8266 * * @return true only if ESP8266 resets successfully */ bool reset(void); /** * Enable/Disable DHCP * * @param enabled DHCP enabled when true * @param mode mode of DHCP 0-softAP, 1-station, 2-both * @return true only if ESP8266 enables/disables DHCP successfully */ bool dhcp(bool enabled, int mode); /** * Connect ESP8266 to AP * * @param ap the name of the AP * @param passPhrase the password of AP * @return true only if ESP8266 is connected successfully */ bool connect(const char *ap, const char *passPhrase); /** * Disconnect ESP8266 from AP * * @return true only if ESP8266 is disconnected successfully */ bool disconnect(void); /** * Get the IP address of ESP8266 * * @return null-teriminated IP address or null if no IP address is assigned */ const char *getIPAddress(void); /** * Get the MAC address of ESP8266 * * @return null-terminated MAC address or null if no MAC address is assigned */ const char *getMACAddress(void); /** Get the local gateway * * @return Null-terminated representation of the local gateway * or null if no network mask has been recieved */ const char *getGateway(); /** Get the local network mask * * @return Null-terminated representation of the local network mask * or null if no network mask has been recieved */ const char *getNetmask(); /* Return RSSI for active connection * * @return Measured RSSI */ int8_t getRSSI(); /** * Check if ESP8266 is conenected * * @return true only if the chip has an IP address */ bool isConnected(void); /** Scan for available networks * * @param ap Pointer to allocated array to store discovered AP * @param limit Size of allocated @a res array, or 0 to only count available AP * @return Number of entries in @a res, or if @a count was 0 number of available networks, negative on error * see @a nsapi_error */ int scan(WiFiAccessPoint *res, unsigned limit); /** * Open a socketed connection * * @param type the type of socket to open "UDP" or "TCP" * @param id id to give the new socket, valid 0-4 * @param port port to open connection with * @param addr the IP address of the destination * @return true only if socket opened successfully */ bool open(const char *type, int id, const char* addr, int port); /** * Sends data to an open socket * * @param id id of socket to send to * @param data data to be sent * @param amount amount of data to be sent - max 1024 * @return true only if data sent successfully */ bool send(int id, const void *data, uint32_t amount); /** * Receives data from an open socket * * @param id id to receive from * @param data placeholder for returned information * @param amount number of bytes to be received * @return the number of bytes received */ int32_t recv(int id, void *data, uint32_t amount); /** * Closes a socket * * @param id id of socket to close, valid only 0-4 * @return true only if socket is closed successfully */ bool close(int id); /** * Allows timeout to be changed between commands * * @param timeout_ms timeout of the connection */ void setTimeout(uint32_t timeout_ms); /** * Checks if data is available */ bool readable(); /** * Checks if data can be written */ bool writeable(); /** * Attach a function to call whenever network state has changed * * @param func A pointer to a void function, or 0 to set as none */ void attach(Callback<void()> func); /** * Attach a function to call whenever network state has changed * * @param obj pointer to the object to call the member function on * @param method pointer to the member function to call */ template <typename T, typename M> void attach(T *obj, M method) { attach(Callback<void()>(obj, method)); } private: BufferedSerial _serial; ATParser _parser; struct packet { struct packet *next; int id; uint32_t len; // data follows } *_packets, **_packets_end; void _packet_handler(); bool recv_ap(nsapi_wifi_ap_t *ap); char _ip_buffer[16]; char _gateway_buffer[16]; char _netmask_buffer[16]; char _mac_buffer[18]; }; #endif