/* -------------------------------------------------------------------------------------------------- */
/* The LongMynd receiver: udp.c */
/* - an implementation of the Serit NIM controlling software for the MiniTiouner Hardware */
/* - linux udp handler to send the TS data to a remote display */
/* Copyright 2019 Heather Lomond */
/* -------------------------------------------------------------------------------------------------- */
/*
This file is part of longmynd.
Longmynd is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Longmynd is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with longmynd. If not, see .
*/
/* -------------------------------------------------------------------------------------------------- */
/* ----------------- INCLUDES ----------------------------------------------------------------------- */
/* -------------------------------------------------------------------------------------------------- */
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include "errors.h"
#include "udp.h"
/* -------------------------------------------------------------------------------------------------- */
/* ----------------- GLOBALS ------------------------------------------------------------------------ */
/* -------------------------------------------------------------------------------------------------- */
struct sockaddr_in servaddr_status;
struct sockaddr_in servaddr_ts;
int sockfd_status;
int sockfd_ts;
/* -------------------------------------------------------------------------------------------------- */
/* ----------------- DEFINES ------------------------------------------------------------------------ */
/* -------------------------------------------------------------------------------------------------- */
/* -------------------------------------------------------------------------------------------------- */
/* ----------------- ROUTINES ----------------------------------------------------------------------- */
/* -------------------------------------------------------------------------------------------------- */
/* -------------------------------------------------------------------------------------------------- */
uint8_t udp_ts_write(uint8_t *buffer, uint32_t len) {
/* -------------------------------------------------------------------------------------------------- */
/* takes a buffer and writes out the contents to udp socket */
/* *buffer: the buffer that contains the data to be sent */
/* len: the length (number of bytes) of data to be sent */
/* return: error code */
/* -------------------------------------------------------------------------------------------------- */
uint8_t err=ERROR_NONE;
int32_t remaining_len; /* note it is signed so can go negative */
uint32_t write_size;
remaining_len=len;
/* we need to loop round sending 510 byte chunks so that we can skip the 2 extra bytes put in by */
/* the FTDI chip every 512 bytes of USB message */
while (remaining_len>0) {
if (remaining_len>510) {
/* calculate where to start in the buffer and how many bytes to send */
write_size=510;
sendto(sockfd_ts, &buffer[len-remaining_len], write_size, 0,
(const struct sockaddr *) &servaddr_ts, sizeof(struct sockaddr));
/* note we skip over the 2 bytes inserted by the FTDI */
remaining_len-=512;
} else {
write_size=remaining_len;
sendto(sockfd_ts, &buffer[len-remaining_len], write_size, 0,
(const struct sockaddr *) &servaddr_ts, sizeof(struct sockaddr));
remaining_len-=write_size; /* should be 0 if all went well */
}
}
/* if someting went bad with our calcs, remaining will not be 0 */
if ((err==ERROR_NONE) && (remaining_len!=0)) {
printf("ERROR: UDP socket write incorrect number of bytes\n");
err=ERROR_UDP_WRITE;
}
if (err!=ERROR_NONE) printf("ERROR: UDP socket ts write\n");
return err;
}
/* -------------------------------------------------------------------------------------------------- */
uint8_t udp_status_write(uint8_t message, uint32_t data) {
/* -------------------------------------------------------------------------------------------------- */
/* takes a buffer and writes out the contents to udp socket */
/* *buffer: the buffer that contains the data to be sent */
/* len: the length (number of bytes) of data to be sent */
/* return: error code */
/* -------------------------------------------------------------------------------------------------- */
uint8_t err=ERROR_NONE;
char status_message[30];
sprintf(status_message, "$%i,%i\n", message, data);
sendto(sockfd_status, status_message, strlen(status_message), 0, (const struct sockaddr *)&servaddr_status, sizeof(struct sockaddr));
return err;
}
/* -------------------------------------------------------------------------------------------------- */
uint8_t udp_status_string_write(uint8_t message, char *data) {
/* -------------------------------------------------------------------------------------------------- */
/* takes a buffer and writes out the contents to udp socket */
/* *buffer: the buffer that contains the data to be sent */
/* len: the length (number of bytes) of data to be sent */
/* return: error code */
/* -------------------------------------------------------------------------------------------------- */
uint8_t err=ERROR_NONE;
char status_message[5+128];
sprintf(status_message, "$%i,%s\n", message, data);
sendto(sockfd_status, status_message, strlen(status_message), 0, (const struct sockaddr *)&servaddr_status, sizeof(struct sockaddr));
return err;
}
/* -------------------------------------------------------------------------------------------------- */
static uint8_t udp_init(struct sockaddr_in *servaddr_ptr, int *sockfd_ptr, char *udp_ip, int udp_port) {
/* -------------------------------------------------------------------------------------------------- */
/* initialises the udp socket */
/* udp_ip: the ip address (as a string) of the socket to open */
/* udp_port: the UDP port to be opened at the given IP address */
/* return: error code */
/* -------------------------------------------------------------------------------------------------- */
uint8_t err=ERROR_NONE;
printf("Flow: UDP Init\n");
/* Creat the socket for IPv4 and UDP */
if ((*sockfd_ptr = socket(AF_INET, SOCK_DGRAM, 0)) < 0 ) {
printf("ERROR: socket creation failed\n");
err=ERROR_UDP_SOCKET_OPEN;
} else {
/* setup all the destination fields */
memset(servaddr_ptr, 0, sizeof(struct sockaddr_in));
servaddr_ptr->sin_family = AF_INET;
servaddr_ptr->sin_port = htons(udp_port);
servaddr_ptr->sin_addr.s_addr = inet_addr(udp_ip); // INADDR_ANY;
}
if (err!=ERROR_NONE) printf("ERROR: UDP init\n");
return err;
}
uint8_t udp_status_init(char *udp_ip, int udp_port) {
return udp_init(&servaddr_status, &sockfd_status, udp_ip, udp_port);
}
uint8_t udp_ts_init(char *udp_ip, int udp_port) {
return udp_init(&servaddr_ts, &sockfd_ts, udp_ip, udp_port);
}
/* -------------------------------------------------------------------------------------------------- */
uint8_t udp_close(void) {
/* -------------------------------------------------------------------------------------------------- */
/* closes the udp socket */
/* return: error code */
/* -------------------------------------------------------------------------------------------------- */
uint8_t err=ERROR_NONE;
int ret;
printf("Flow: UDP Close\n");
ret=close(sockfd_ts);
if (ret!=0) {
err=ERROR_UDP_CLOSE;
printf("ERROR: TS UDP close\n");
}
ret=close(sockfd_status);
if (ret!=0) {
err=ERROR_UDP_CLOSE;
printf("ERROR: Status UDP close\n");
}
return err;
}