An example demonstrating SSDP Discovery and a companion Web Server.
Dependencies: mbed mbed-rtos Watchdog SW_HTTPServer SW_String EthernetInterface TimeInterface SSDP
This example program provides a framework -by- example.
It makes itself discoverable to the network using SSDP. From there, it is easy to access the embedded web server to interact with the embedded node.
The example, built on the LPC1768, provides interaction to turn the LEDs on and off via a web page that is discovered using the SSDP protocol.
It also picks up time via an NTP server.
main.cpp
- Committer:
- WiredHome
- Date:
- 2020-01-12
- Revision:
- 9:13e4749ddfa2
- Parent:
- 8:0b1efcef5e50
File content as of revision 9:13e4749ddfa2:
// // A simple SSDP example // #include "mbed.h" // testing mbed v128, mbed-rtos v121 #include "EthernetInterface.h" // ver 55 #include "SW_HTTPServer.h" // ver 50 #include "TimeInterface.h" // ver 23 #include "Watchdog.h" // ver 6 #include "SW_String.h" // ver 1 #include "SSDP.h" // ver 0 #include "WebPages.h" // Private handler for web queries extern "C" void mbed_reset(); RawSerial pc(USBTX, USBRX); EthernetInterface eth; TimeInterface ntp(ð); Watchdog wd; time_t lastboottime; PwmOut signOfLife(LED4); // LED sign of life. 100% WD reset, 20% restart, sine-wave: running //FlashFileSystem flash("flash"); // static files here for reliability and speed LocalFileSystem local("local"); // some place to hold settings and maybe the static web pages const char * Server_Root = "/local"; // public for the WebPages handler to see // const char * BUILD_DATE = __DATE__ " " __TIME__; const char * PROG_NAME = "SSDP Server"; const char * My_Name = "MBED SSDP Node"; const char * My_SerialNum = "0000001"; int Server_Port = 80; // end public information /// ShowSignOfLife /// /// Pulse an LED to indicate a sign of life of the program. /// This also has some moderate entertainment value. /// void ShowSignOfLife(int degreeIncrement = 1) { #define PI 3.14159265359 static int degrees = 0; float v; degrees += degreeIncrement; v = sin(degrees * PI / 180)/2 + 0.5; signOfLife = v; // a little dimmer } int main() { pc.baud(460800); pc.printf("\r\n%s Build %s\r\n", PROG_NAME, BUILD_DATE); lastboottime = ntp.timelocal(); if (wd.WatchdogCausedReset()) { pc.printf("**** Watchdog Event caused reset at %s ****\r\n", ntp.ctime(&lastboottime)); } wd.Configure(45); // very generous, but this is a network appliance, so a bit less deterministic. int eRes = eth.init(); //Use DHCP if (eRes < 0) { printf("eth.init() returned %d, rebooting in 5 s.\r\n", eRes); wait(5.0); mbed_reset(); } eRes = eth.connect(); if (eRes < 0) { printf("eth.connect() returned %d, rebooting in 5 s.\r\n", eRes); wait(5.0); mbed_reset(); } printf("IP: %s\r\n", eth.getIPAddress()); //Thread thr(SSDPListener, NULL, osPriorityLow); HTTPServer svr(Server_Port, Server_Root, 15, 30, 20, 50, &pc); svr.RegisterHandler("/", RootPage); svr.RegisterHandler("/setup.xml", Setup_xml); SSDP ssdp(My_Name, eth.getMACAddress(), eth.getIPAddress(), Server_Port); bool setTheClock = true; // prime it while (1) { wd.Service(); svr.Poll(); // non-blocking, but also not deterministic Thread::yield(); ShowSignOfLife(10); if (setTheClock) { setTheClock = false; // Could read these from non-volatile ntp.set_dst("3/11,2:00","11/4,2:00"); // mm/dd,hh:mm ntp.set_tzo_min(-360); int res = ntp.setTime("pool.ntp.org"); if (res == 0) { pc.printf("Time was just set\r\n"); } } static time_t tLast; time_t tNow = ntp.timelocal(); if (tNow != tLast) { printf("time is %s\r\n", ntp.ctime(&tNow)); tLast = tNow; //printf("Mem: %5d, %5d %5d\n", Thread::used_stack(), Thread::max_stack(), Thread::stack_size()); } } }