USE YHTANG AWS ACCOUNT TO TEST MQTT
Dependents: NuMaker-mbed-AWS-IoT-example
MQTTSocket.h
- Committer:
- icraggs
- Date:
- 2017-09-30
- Revision:
- 54:ff9e5c4b52d0
- Parent:
- 49:08571008b958
File content as of revision 54:ff9e5c4b52d0:
#if !defined(MQTTSOCKET_H) #define MQTTSOCKET_H #include "MQTTmbed.h" #include <EthernetInterface.h> #include <Timer.h> class MQTTSocket { public: MQTTSocket(EthernetInterface *anet) { net = anet; open = false; } int connect(char* hostname, int port, int timeout=1000) { if (open) disconnect(); nsapi_error_t rc = mysock.open(net); open = true; mysock.set_blocking(true); mysock.set_timeout((unsigned int)timeout); rc = mysock.connect(hostname, port); mysock.set_blocking(false); // blocking timeouts seem not to work return rc; } // common read/write routine, avoiding blocking timeouts int common(unsigned char* buffer, int len, int timeout, bool read) { timer.start(); mysock.set_blocking(false); // blocking timeouts seem not to work int bytes = 0; bool first = true; do { if (first) first = false; else wait_ms(timeout < 100 ? timeout : 100); int rc; if (read) rc = mysock.recv((char*)buffer, len); else rc = mysock.send((char*)buffer, len); if (rc < 0) { if (rc != NSAPI_ERROR_WOULD_BLOCK) { bytes = -1; break; } } else bytes += rc; } while (bytes < len && timer.read_ms() < timeout); timer.stop(); return bytes; } /* returns the number of bytes read, which could be 0. -1 if there was an error on the socket */ int read(unsigned char* buffer, int len, int timeout) { return common(buffer, len, timeout, true); } int write(unsigned char* buffer, int len, int timeout) { return common(buffer, len, timeout, false); } int disconnect() { open = false; return mysock.close(); } /*bool is_connected() { return mysock.is_connected(); }*/ private: bool open; TCPSocket mysock; EthernetInterface *net; Timer timer; }; #endif