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IOP
Handler/FsHandler.cpp
- Committer:
- justinkim
- Date:
- 2015-07-03
- Revision:
- 1:8291b3e9c064
- Parent:
- 0:e59cc54df17c
- Child:
- 2:45877b9fab33
File content as of revision 1:8291b3e9c064:
/* FsHandler.cpp */
#include "mbed.h"
#include "FsHandler.h"
//#define DEBUG
#include "hl_debug.h"
#define Do3 131 //C octave3
#define Do3s 139 //C#
#define Re3 147 //D
#define Re3s 156//D#
#define Mi3 165 //E
#define Fa3 175 //F
#define Fa3s 185 //F#
#define So3 196 //G
#define So3s 208 //G#
#define La3 220 //A
#define La3s 233 //A#
#define Ti3 247 //B
#define Do4 262 //C octave4
#define Do4s 277 //C#
#define Re4 294 //D
#define Re4s 311//D#
#define Mi4 330 //E
#define Fa4 349 //F
#define Fa4s 370 //F#
#define So4 392 //G
#define So4s 415 //G#
#define La4 440 //A
#define La4s 466 //A#
#define Ti4 494 //B
#define Do5 523 //C octave5
#define Do5s 554 //C#
#define Re5 587 //D
#define Re5s 622//D#
#define Mi5 659 //E
#define Fa5 699 //F
#define Fa5s 740 //F#
#define So5 784 //G
#define So5s 831 //G#
#define La5 880 //A
#define La5s 932 //A#
#define Ti5 988 //B
PwmOut Buzzer(D5);
float C_3 = 1000000/Do3,
Cs_3 = 1000000/Do3s,
D_3 = 1000000/Re3,
Ds_3 = 1000000/Re3s,
E_3 = 1000000/Mi3,
F_3 = 1000000/Fa3,
Fs_3 = 1000000/Fa3s,
G_3 = 1000000/So3,
Gs_3 = 1000000/So3s,
A_3 = 1000000/La3,
As_3 = 1000000/La3s,
B_3 = 1000000/Ti3,
C_4 = 1000000/Do4,
Cs_4 = 1000000/Do4s,
D_4 = 1000000/Re4,
Ds_4 = 1000000/Re4s,
E_4 = 1000000/Mi4,
F_4 = 1000000/Fa4,
Fs_4 = 1000000/Fa4s,
G_4 = 1000000/So4,
Gs_4 = 1000000/So4s,
A_4 = 1000000/La4,
As_4 = 1000000/La4s,
B_4 = 1000000/Ti4,
C_5 = 1000000/Do5,
Cs_5 = 1000000/Do5s,
D_5 = 1000000/Re5,
Ds_5 = 1000000/Re5s,
E_5 = 1000000/Mi5,
F_5 = 1000000/Fa5,
Fs_5 = 1000000/Fa5s,
G_5 = 1000000/So5,
Gs_5 = 1000000/So5s,
A_5 = 1000000/La5,
As_5 = 1000000/La5s,
B_5 = 1000000/Ti5;
int tones[] = {E_4, D_4, C_4, D_4, E_4, E_4, E_4, 0, D_4, D_4, D_4, 0, E_4, G_4, G_4, 0,
E_4, D_4, C_4, D_4, E_4, E_4, E_4, 0, D_4, D_4, E_4, D_4, C_4, 0, 0, 0};
int tones_num = 32;
void Tune(PwmOut name, int period);
void Auto_tunes(PwmOut name, int period);
void Stop_tunes(PwmOut name);
DigitalOut led_red(LED1);
DigitalOut led_green(LED2);
DigitalOut led_blue(LED3);
DigitalIn din(PC_14);
static int matchstrings(const char* one, const char* two)
{
int m = 0;
for (m = 0; m < min(strlen(one), strlen(two)) ; m++) {
if (one[m] != two[m])
return m;
}
return m;
}
std::map<const char*, const char*> HTTPFsRequestHandler::m_fsMap;
HTTPFsRequestHandler::HTTPFsRequestHandler(const char* rootPath, const char* localPath, HTTPConnection::HTTPMessage& Msg, TCPSocketConnection& Tcp)
: HTTPRequestHandler(Msg, Tcp)
{
m_rootPath = rootPath;
m_localPath = localPath;
string myPath = m_rootPath + m_localPath;
// Now replace the virtual root path with a mounted device path
std::map<const char*, const char*>::iterator it;
const char *bestMatch = NULL;
const char *bestMatchExchange = NULL;
int match_ind = -1;
for (it = m_fsMap.begin() ; it != m_fsMap.end() ; it++) {
// find best match (if the given logical path is containted in the root
int s = matchstrings(myPath.c_str(), it->second);
INFO("Matching Root %s with handler %s results in %d identical characters\n", myPath.c_str(), it->second, s);
if ((s == strlen(it->second)) && (s > match_ind)) {
match_ind = s;
bestMatch = it->first;
bestMatchExchange = it->second;
}
}
if (bestMatch != NULL) {
m_rootPath = bestMatch;
m_localPath = string(myPath).substr(strlen(bestMatchExchange));
}
handleRequest();
}
HTTPFsRequestHandler::~HTTPFsRequestHandler()
{
}
int HTTPFsRequestHandler::handleGetRequest()
{
HTTPHeaders headers;
int retval = 0; //success
uint8_t pin_state;
if( std::string::npos != msg.uri.find("get_dio14.cgi") )
{
if(din)
pin_state = 1;
else
pin_state = 0;
/*
*len = sprintf((char *)buf, "DioCallback({\"dio_p\":\"14\",\
\"dio_s\":\"%d\"\
});",
pin_state // Digital io status
);
Tcp.
*/
}
else //read html pages
{
if (m_localPath.length() > 4)
getStandardHeaders(headers, m_localPath.substr(m_localPath.length()-4).c_str());
else
getStandardHeaders(headers);
INFO("Handling Get Request (root = %s, local = %s).", m_rootPath.c_str(), m_localPath.c_str());
std::string reqPath;
// Check if we received a directory with the local bath
if ((m_localPath.length() == 0) || (m_localPath.substr( m_localPath.length()-1, 1) == "/")) {
// yes, we shall append the default page name
m_localPath += "index.html";
}
reqPath = m_rootPath + m_localPath;
INFO("Mapping \"%s\" to \"%s\"", msg.uri.c_str(), reqPath.c_str());
FILE *fp = fopen(reqPath.c_str(), "r");
if (fp != NULL) {
char * pBuffer = NULL;
int sz = 8192;
while( pBuffer == NULL) {
sz /= 2;
pBuffer = (char*)malloc(sz);
if (sz < 128)
error ("OutOfMemory");
}
// File was found and can be returned
// first determine the size
fseek(fp, 0, SEEK_END);
long size = ftell(fp);
fseek(fp, 0, SEEK_SET);
startResponse(200, size);
while(!feof(fp) && !ferror(fp)) {
int cnt = fread(pBuffer, 1, sz , fp);
if (cnt < 0)
cnt = 0;
processResponse(cnt, pBuffer);
}
delete pBuffer;
endResponse();
fclose(fp);
}
else {
retval = 404;
ERR("Requested file was not found !");
}
}
return retval;
}
int HTTPFsRequestHandler::handlePostRequest()
{
int i = 0;
int pin = 0;
if( std::string::npos != msg.uri.find("set_LED.cgi") )
{
pin = get_http_param_value("pin");
if(pin==0) Tune(Buzzer, C_4);
else if(pin==1) Tune(Buzzer, Cs_4);
else if(pin==2) Tune(Buzzer, D_4);
else if(pin==3) Tune(Buzzer, Ds_4);
else if(pin==4) Tune(Buzzer, E_4);
else if(pin==5) Tune(Buzzer, F_4);
else if(pin==6) Tune(Buzzer, Fs_4);
else if(pin==7) Tune(Buzzer, G_4);
else if(pin==8) Tune(Buzzer, Gs_4);
else if(pin==9) Tune(Buzzer, A_4);
else if(pin==10) Tune(Buzzer, As_4);
else if(pin==11) Tune(Buzzer, B_4);
else if(pin==12) Tune(Buzzer, C_5);
else if(pin==13) Tune(Buzzer, Cs_5);
else if(pin==14) Tune(Buzzer, D_5);
else if(pin==15) Tune(Buzzer, Ds_5);
else if(pin==16) Tune(Buzzer, E_5);
else if(pin==17) Tune(Buzzer, F_5);
else if(pin==18) Tune(Buzzer, Fs_5);
else if(pin==19) Tune(Buzzer, G_5);
else if(pin==20) Tune(Buzzer, Gs_5);
else if(pin==21) Tune(Buzzer, A_5);
else if(pin==22) Tune(Buzzer, As_5);
else if(pin==23) Tune(Buzzer, B_5);
else
{
WARN("Wrong pin number");
}
return 0;
}
else if( std::string::npos != msg.uri.find("set_AUTO.cgi") )
{
pin = get_http_param_value("pin");
if(pin==0)
{
for(i=0; i<tones_num; i++)
{
Auto_tunes(Buzzer, tones[i]);
wait_ms(124);
}
Stop_tunes(Buzzer);
}
else if(pin == 99)
{
Stop_tunes(Buzzer);
}
else
{
WARN("Wrong pin number");
}
return 0;
}
else
{
return 404;
}
}
int HTTPFsRequestHandler::handlePutRequest()
{
return 404;
}
uint32_t HTTPFsRequestHandler::get_http_param_value(char* param_name)
{
uint8_t * name = 0;
uint8_t * pos2;
uint16_t len = 0;
char value[10];
uint32_t ret = 0;
//msg.attri
if((name = (uint8_t *)strstr(msg.attri, param_name)))
{
name += strlen(param_name) + 1;
pos2 = (uint8_t*)strstr((char*)name, "&");
if(!pos2)
{
pos2 = name + strlen((char*)name);
}
len = pos2 - name;
if(len)
{
strncpy(value, (char*)name, len);
ret = atoi(value);
}
}
return ret;
}
/**
* @brief Tune Function
* @param name : Choose the PwmOut
period : this param is tune value. (C_3...B_5)
* @retval None
*/
void Tune(PwmOut name, int period)
{
name.period_us(period);
name.write(0.50f); // 50% duty cycle
wait_ms(250); // 1/4 beat
name.period_us(0); // Sound off
}
/**
* @brief Auto tunes Function
* @param name : Choose the PwmOut
period : this param is tune value. (C_3...B_5)
* @retval None
*/
void Auto_tunes(PwmOut name, int period)
{
name.period_us(period);
name.write(0.50f); // 50% duty cycle
wait_ms(250); // 1/4 beat
}
void Stop_tunes(PwmOut name)
{
name.period_us(0);
}