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port.cpp
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port.cpp
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// port.cpp
// This file defines certain functions necessary to port the original
// AVR (e.g. Arduino) system to a more standard Linux based (e.g. Raspberry Pi) system.
// Author: Richard Zimmerman
// Copyright (c) 2013 Richard Zimmerman
//
#include "port.h"
#include <stdarg.h>
#include <stdio.h>
#include <unistd.h>
#include <sys/types.h>
#include <sys/socket.h>
#include <sys/ioctl.h>
#include <netinet/in.h>
#include <string.h>
#include <errno.h>
void trace(const char * fmt, ...)
{
time_t curTime = time(0);
struct tm * ti = localtime (&curTime);
printf("%.4d/%.2d/%.2d %.2d:%.2d:%.2d ", 1900 + ti->tm_year, ti->tm_mon+1, ti->tm_mday, ti->tm_hour, ti->tm_min, ti->tm_sec);
va_list parms;
va_start(parms, fmt);
vprintf(fmt, parms);
va_end(parms);
fflush(stdout);
}
IPAddress::IPAddress()
{
_address[0] = 0;
_address[1] = 0;
_address[2] = 0;
_address[3] = 0;
}
IPAddress::IPAddress(uint8_t first_octet, uint8_t second_octet, uint8_t third_octet, uint8_t fourth_octet)
{
_address[0] = first_octet;
_address[1] = second_octet;
_address[2] = third_octet;
_address[3] = fourth_octet;
}
EEPROMClass::EEPROMClass()
: m_changed(false)
{
memset(m_buf, 0, sizeof(m_buf));
FILE * fd = fopen("settings", "rb");
if (!fd)
return;
fread(m_buf, 1, sizeof(m_buf), fd);
fclose(fd);
}
EEPROMClass::~EEPROMClass()
{
}
uint8_t EEPROMClass::read(int addr)
{
return m_buf[addr];
}
void EEPROMClass::write(int addr, uint8_t val)
{
m_buf[addr] = val;
m_changed = true;
}
void EEPROMClass::Store()
{
if (m_changed)
{
m_changed = false;
FILE * fd = fopen("settings", "wb");
if (!fd)
return trace("Failed to open settings file\n");
fwrite(m_buf, 1, sizeof(m_buf), fd);
fclose(fd);
}
}
EEPROMClass EEPROM;
EthernetServer::EthernetServer(uint16_t port)
: m_port(port), m_sock(0)
{
}
EthernetServer::~EthernetServer()
{
close(m_sock);
}
bool EthernetServer::begin()
{
struct sockaddr_in sin = {0};
sin.sin_family = AF_INET;
sin.sin_port = htons(m_port);
sin.sin_addr.s_addr = INADDR_ANY;
if ((m_sock = socket(AF_INET, SOCK_STREAM, 0)) < 0)
{
trace("Can't create shell listen socket %d (%d)%s\n", m_sock, errno, strerror(errno));
return false;
}
int on = 1;
if (setsockopt(m_sock, SOL_SOCKET, SO_REUSEADDR, &on, sizeof(on)) < 0)
{
trace("Can't setsockopt %d (%d)%s\n", m_sock, errno, strerror(errno));
return false;
}
if (bind(m_sock, (struct sockaddr *) &sin, sizeof(sin)) < 0)
{
trace("shell bind error (%d)%s\n", errno, strerror(errno));
return false;
}
if (ioctl(m_sock, FIONBIO, (char*) &on) < 0)
{
trace("setting nonblock failed(%d)%s\n", errno, strerror(errno));
return false;
}
if (listen(m_sock, 2) < 0)
{
trace("shell listen error(%d)%s\n", errno, strerror(errno));
return false;
}
return true;
}
// This function blocks until we get a client connected.
// It will timeout after 50ms and return a blank client.
// If it succeeds it will return an EthernetClient.
EthernetClient EthernetServer::available()
{
fd_set sock_set;
FD_ZERO(&sock_set);
FD_SET(m_sock, &sock_set);
struct timeval timeout;
timeout.tv_sec = 0;
timeout.tv_usec = 50 * 1000; // 50ms
select(m_sock + 1, &sock_set, NULL, NULL, &timeout);
if (FD_ISSET(m_sock, &sock_set))
{
int client_sock = 0;
struct sockaddr_in cli_addr;
unsigned int clilen = sizeof(cli_addr);
if ((client_sock = accept(m_sock, (struct sockaddr *) &cli_addr, &clilen)) <= 0)
return EthernetClient(0);
return EthernetClient(client_sock);
}
return EthernetClient(0);
}
EthernetClient::EthernetClient()
: m_sock(0), m_connected(false)
{
}
EthernetClient::EthernetClient(int sock)
: m_sock(sock), m_connected(true)
{
}
EthernetClient::~EthernetClient()
{
stop();
}
int EthernetClient::connect(IPAddress ip, uint16_t port)
{
if (m_sock)
return 0;
struct sockaddr_in sin = {0};
sin.sin_family = AF_INET;
sin.sin_port = htons(port);
sin.sin_addr.s_addr = *(uint32_t*) (ip.raw_address());
m_sock = socket(AF_INET, SOCK_STREAM, 0);
if (::connect(m_sock, (struct sockaddr *) &sin, sizeof(sin)) < 0)
{
trace("Error Connecting(%d)%s\n", errno, strerror(errno));
return false;
}
m_connected = true;
return 1;
}
bool EthernetClient::connected()
{
if (!m_sock)
return false;
int error = 0;
socklen_t len = sizeof(error);
int retval = getsockopt(m_sock, SOL_SOCKET, SO_ERROR, &error, &len);
return (retval == 0) && m_connected;
}
void EthernetClient::stop()
{
if (m_sock)
{
close(m_sock);
m_sock = 0;
m_connected = false;
}
}
EthernetClient::operator bool()
{
return m_sock != 0;
}
// read data from the client into the buffer provided
// This function will block until either data is received OR a timeout happens.
// If an error occurs or a timeout happens, we set the disconnect flag on the socket
// and return 0;
int EthernetClient::read(uint8_t *buf, size_t size)
{
fd_set sock_set;
FD_ZERO(&sock_set);
FD_SET(m_sock, &sock_set);
struct timeval timeout;
timeout.tv_sec = 10;
timeout.tv_usec = 0;
select(m_sock + 1, &sock_set, NULL, NULL, &timeout);
if (FD_ISSET(m_sock, &sock_set))
{
int retval = ::read(m_sock, buf, size);
if (retval <= 0) // socket closed
m_connected = false;
return retval;
}
m_connected = false;
return 0;
}
size_t EthernetClient::write(const uint8_t *buf, size_t size)
{
return ::write(m_sock, buf, size);
}
SdFile::SdFile()
: m_fid(0)
{
}
SdFile::~SdFile()
{
close();
}
bool SdFile::open(const char* path, uint8_t oflag)
{
m_fid = fopen(path, "r");
return m_fid != 0;
}
bool SdFile::isFile() const
{
return true;
}
bool SdFile::close()
{
if (m_fid)
fclose(m_fid);
m_fid = 0;
return true;
}
bool SdFile::available()
{
return !feof(m_fid);
}
int SdFile::read(void* buf, size_t nbyte)
{
return fread(buf, 1, nbyte, m_fid);
}