jiang hao
for test
Dependencies: SDFileSystem mbed
Fork of
DFRobotMbedTest
by 
jiang hao
main.cpp
- Committer:
- jh_ndm
- Date:
- 2016-11-11
- Revision:
- 5:353710ef9f1d
- Parent:
- 4:e3fceccc589e
File content as of revision 5:353710ef9f1d:
/*
#include "mbed.h"
AnalogIn battery(A3);
Serial uart1(PA_13,PA_14);
int main(){
while(1){
if(battery > 0.5){
uart1.printf("%02f\n",battery.read()*3.3);
wait(1);
}
}
}
*/
/********uart1 demo********
#include "mbed.h"
Serial uart1(PA_13, PA_14); // tx, rx
int main() {
uart1.printf("Please input something\n");
while(1) {
char c = uart1.getc();
uart1.printf("%s\n",c);
}
}
*/
/********uart2 demo********
#include "mbed.h"
Serial uart2(PC_10, PC_11); // tx, rx
int main() {
uart2.printf("Please input something\n");
while(1) {
char c = uart2.getc();
uart2.printf("%s\n",c);
}
}
*/
/**********Digital demo**********
#include "mbed.h"
DigitalOut num1(D10);
DigitalOut num2(D11);
DigitalOut num3(D12);
DigitalOut num4(D2);
DigitalOut num5(D3);
DigitalOut num6(D5);
DigitalOut num7(D6);
int main(){
while(1){
wait(1);
num1 = 1;
num2 = 1;
num3 = 1;
wait(1);
num1 = 0;
num2 = 0;
num3 = 0;
}
}
/* */
/**********analog demo***********
#include "mbed.h"
AnalogIn battery5(A0);
AnalogIn battery4(PC_9);
AnalogIn battery3(D5);
Serial uart1(PA_13,PA_14);
//Serial pc(USBTX,USBRX);
int main(){
while(1){
//if(battery3 > 0.5){
// uart1.printf("%f\n",battery3.read()*3.3);
// wait(0.2);
// }
//if(battery4 > 0.5){
// uart1.printf("%f\n",battery4.read());
//wait(0.2);
//}
if(battery5 > 0.5){
uart1.printf("%f\n",battery5.read());
wait(0.2);
}
}
}
*/
/*
#include"mbed.h"
AnalogIn battery(A2);
Serial uart1(PA_13,PA_14);
int main(){
while(1){
if(battery > 0.5){
uart1.printf("%f",battery.read());
wait(1);
}
}
}
*/
/*
#include "mbed.h"
Serial uart1(PA_13, PA_14); // tx, rx
Serial uart2(PC_10, PC_11); // tx, rx
DigitalOut myD1(D10);
DigitalOut myD2(D11);
DigitalOut myD3(D12);
DigitalOut myD4(D2);
AnalogIn myA1(A1);
AnalogIn myA2(A2);
AnalogIn myA3(A3);
PwmOut PWM1(D3);
PwmOut PWM2(D5);
PwmOut PWM3(D6);
Timeout timeout;
void attimeout()
{
myD1 = 0;
myD2 = 0;
myD3 = 0;
myD4 = 0;
}
int main() {
uart1.baud(115200);
uart2.baud(115200);
PWM1.period_us(500);
PWM2.period_us(500);
PWM3.period_us(500);
PWM1 = 0.2;
PWM2 = 0.5;
PWM3 = 0.8;
uart2.printf("uart2:for Loopback test,please input something\n");
uart1.printf("start testing uart1 digitalOut and PWM and analogIn\n");
while(1){
while(uart2.readable()){
uart2.printf("%c", uart2.getc());
}
timeout.attach(&attimeout,2);
myD1 = 1;
myD2 = 1;
myD3 = 1;
myD4 = 1;
wait(0.25);
uart1.printf("A1:%02f\n",myA1.read()*3.3);
uart1.printf("A2:%02f\n",myA2.read()*3.3);
uart1.printf("A3:%02f\n",myA3.read()*3.3);
}
}
*/
#include "mbed.h"
#include <Serial.h>
#include "EthernetInterface.h"
#include "SDFileSystem.h"
#include <stdio.h>
#include <string.h>
#define ADXL345_I2C_READ 0xA7
#define ADXL345_I2C_WRITE 0xA6
#define ADXL345_I2C_ADDRESS 0x53
#define ADXL345_DEVID_REG 0x00
#define ADXL345_DATAX0_REG 0x32
#define ADXL345_POWER_CTL_REG 0x2D
#define MeasurementMode 0x08
#define MAC "\x00\x08\xDC\x11\x34\x78"
#define IP "192.168.1.19"
#define MASK "255.255.255.0"
#define GATEWAY "192.168.1.1"
#define HTTPD_SERVER_PORT 80
#define HTTPD_MAX_REQ_LENGTH 1023
#define HTTPD_MAX_HDR_LENGTH 255
#define HTTPD_MAX_FNAME_LENGTH 127
#define HTTPD_MAX_DNAME_LENGTH 127
SDFileSystem sd(PB_3, PB_2, PB_1, PB_0, "sd"); // WIZwiki-W7500
EthernetInterface eth;
TCPSocketServer server;
TCPSocketConnection client;
char buffer[HTTPD_MAX_REQ_LENGTH+1];
char httpHeader[HTTPD_MAX_HDR_LENGTH+1];
char fileName[HTTPD_MAX_FNAME_LENGTH+1];
char dirName[HTTPD_MAX_DNAME_LENGTH+1];
char *uristr;
char *eou;
char *qrystr;
FILE *fp;
int rdCnt;
DigitalOut led1(D10); //server listning status
DigitalOut led2(D11); //socket connecting status
Ticker ledTick;
I2C adxl345(PA_10,PA_09);
int16_t xyz[3] = {0, 0, 0};
Serial uart0(PA_13, PA_14); // tx, rx
Serial uart2(PC_10, PC_11); // tx, rx
//DigitalOut myD1(D10);
//DigitalOut myD2(D11);
DigitalOut myD3(D12);
DigitalOut myD4(D2);
AnalogIn myA1(A1);
AnalogIn myA2(A2);
AnalogIn myA3(A3);
PwmOut PWM1(D3);
PwmOut PWM2(D5);
PwmOut PWM3(D6);
DigitalIn mybutton(PC_06);
Timeout digitalTimeout;
Timeout analogTimeout;
void attimeoutD()
{
static int pos = 0;
if(pos == 0){
//myD1 = 0;
//myD2 = 0;
myD3 = 0;
myD4 = 0;
}else{
//myD1 = 1;
//myD2 = 1;
myD3 = 1;
myD4 = 1;
}
pos = !pos;
digitalTimeout.attach(&attimeoutD,0.5);
}
void attimeoutA()
{
uart0.printf("A1:%02fV ",myA1.read()*3.3);
uart0.printf("A2:%02fV ",myA2.read()*3.3);
uart0.printf("A3:%02fV \r\n",myA3.read()*3.3);
analogTimeout.attach(&attimeoutA,1);
}
void ledTickfunc()
{
led1 = !led1;
}
void getFile(char* uri)
{
//uart0.printf("getFile %s\n", uri);
char *lstchr = strrchr(uri, NULL) -1;
if ('/' == *lstchr) {
//uart0.printf("Open directory /sd%s\r\n", uri);
*lstchr = 0;
sprintf(fileName, "/sd%s", uri);
DIR *d = opendir(fileName);
if (d != NULL) {
sprintf(httpHeader,"HTTP/1.1 200 OK\r\nContent-Type: text/html\r\nConnection: Close\r\n\r\n");
client.send(httpHeader,strlen(httpHeader));
sprintf(httpHeader,"<html><head><title>Directory Listing</title></head><body><h1>%s Directory Listing</h1><ul>", uri);
client.send(httpHeader,strlen(httpHeader));
struct dirent *p;
while((p = readdir(d)) != NULL) {
sprintf(dirName, "%s/%s", fileName, p->d_name);
//uart0.printf("%s\n", dirName);
DIR *subDir = opendir(dirName);
if (subDir != NULL) {
sprintf(httpHeader,"<li><a href=\"./%s/\">%s/</a></li>", p->d_name, p->d_name);
} else {
sprintf(httpHeader,"<li><a href=\"./%s\">%s</a></li>", p->d_name, p->d_name);
}
client.send(httpHeader,strlen(httpHeader));
}
}
closedir(d);
//uart0.printf("Directory closed\r\n");
sprintf(httpHeader,"</ul></body></html>");
client.send(httpHeader,strlen(httpHeader));
} else {
sprintf(fileName, "/sd%s", uri);
fp = fopen(fileName, "r");
if (fp == NULL) {
//uart0.printf("File not found\r\n");
sprintf(httpHeader,"HTTP/1.1 404 Not Found \r\nContent-Type: text\r\nConnection: Close\r\n\r\n");
client.send(httpHeader,strlen(httpHeader));
client.send(uri,strlen(uri));
} else {
//uart0.printf("Sending: header");
sprintf(httpHeader,"HTTP/1.1 200 OK\r\nContent-Type: text/html\r\nConnection: Close\r\n\r\n");
client.send(httpHeader,strlen(httpHeader));
//uart0.printf(" file");
while ((rdCnt = fread(buffer, sizeof( char ), 1024, fp)) == 1024) {
client.send(buffer, rdCnt);
//uart0.printf(".");
}
client.send(buffer, rdCnt);
fclose(fp);
//uart0.printf("done\r\n");
}
}
}
int main() {
uart0.baud(9600);
uart2.baud(9600);
PWM1.period_us(500);
PWM2.period_us(500);
PWM3.period_us(500);
PWM1 = 0.2;
PWM2 = 0.5;
PWM3 = 0.8;
uart2.printf("uart2:for Loopback test,please input something\n");
uart0.printf("start testing uart1 digitalOut and PWM and analogIn\r\n");
digitalTimeout.attach(&attimeoutD,1);
analogTimeout.attach(&attimeoutA,1);
/*iic*/
char config[2];
char data[6];
config[0] = ADXL345_DEVID_REG;
char output;
adxl345.write( ADXL345_I2C_WRITE , config, 1);
adxl345.read( ADXL345_I2C_READ , &output, 1);
uart0.printf("ADXL345 device id is 0x%x.\r\n",output);
config[0] = ADXL345_POWER_CTL_REG;
config[1] = MeasurementMode;
adxl345.write( ADXL345_I2C_WRITE, config, 2); //set power
config[0]=ADXL345_DATAX0_REG;
/*eth&sd*/
ledTick.attach(&ledTickfunc,0.5);
uart0.printf("Initializing\r\n");
uart0.printf("Checking File System\r\n");
DIR *d = opendir("/sd/");
if (d != NULL) {
uart0.printf("SD Card Present\r\n");
} else {
uart0.printf("SD Card Root Directory Not Found\r\n");
}
uart0.printf("Initializing Ethernet\r\n");
eth.init((uint8_t*)MAC,IP,MASK,GATEWAY);
uart0.printf("Connecting\r\n");
eth.connect();
uart0.printf("IP Address is %s\r\n", eth.getIPAddress());
server.bind(HTTPD_SERVER_PORT);
server.listen();
uart0.printf("Server Listening\r\n");
while(1) {
//wait(0.1);
/*eth&sd*/
//uart0.printf("\nWait for new connection...\r\n");
server.accept(client);
client.set_blocking(false, 1500); // Timeout after (1.5)s
//uart0.printf("Connection from: %s\r\n", client.get_address());
while (1) {
/**/
if (mybutton == 0) {
uart0.printf("USER Button is Pressed!!!\r\n");
}
if(uart0.readable()){
char ch = uart0.getc();
uart0.printf("%c", ch);
}
if(uart2.readable()){
char ch2 = uart2.getc();
uart2.printf("%c", ch2);
}
/*iic*/
adxl345.write( ADXL345_I2C_WRITE, config, 1);
adxl345.read( ADXL345_I2C_READ , data, 6);
xyz[0]=(int)data[1]<<8|(int)data[0];
xyz[1]=(int)data[3]<<8|(int)data[2];
xyz[2]=(int)data[5]<<8|(int)data[4];
uart0.printf("%6i, %6i, %6i\r\n", xyz[0], xyz[1], xyz[2]);
/**/
led2 = true;
int n = client.receive(buffer, sizeof(buffer));
if (n <= 0){
led2 = false;
client.close();
break;
}
//uart0.printf("Recieved Data: %d\r\n\r\n%.*s\r\n",n,n,buffer);
if (n >= 1024) {
sprintf(httpHeader,"HTTP/1.1 413 Request Entity Too Large \r\nContent-Type: text\r\nConnection: Close\r\n\r\n");
client.send(httpHeader,strlen(httpHeader));
client.send(buffer,n);
led2 = false;
client.close();
break;
} else {
buffer[n]=0;
}
if (!strncmp(buffer, "GET ", 4)) {
uristr = buffer + 4;
eou = strstr(uristr, " ");
if (eou == NULL) {
sprintf(httpHeader,"HTTP/1.1 400 Bad Request \r\nContent-Type: text\r\nConnection: Close\r\n\r\n");
client.send(httpHeader,strlen(httpHeader));
client.send(buffer,n);
} else {
*eou = 0;
getFile(uristr);
}
}
}
}
}