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c_serial.c
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c_serial.c
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/*
Copyright 2016 rm5248
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
*/
#include "config.h"
#define SIMPLELOGGER_ENABLE_SMALL_MACROS
#define SIMPLELOGGER_LOG_FUNCTION_NAME global_log_function
#define LOGGER_NAME "cserial"
#include "simplelogger.h"
/*
* Platform-specific definitions
*/
#ifdef _WIN32
#include <windows.h>
#define __func__ __FUNCTION__
#define close( x ) CloseHandle( x )
#define SPEED_SWITCH(SPD,io) case SPD: io.BaudRate = CBR_##SPD; break;
#define GET_SPEED_SWITCH(SPD,io) case CBR_##SPD: baud_return = SPD; break;
#define GET_SERIAL_PORT_STRUCT( cserial_port, io_name ) DCB io_name = {0};\
io_name.DCBlength = sizeof( io_name ); \
if (!GetCommState( cserial_port->port, &io_name ) ) { \
cserial_port->last_errnum = GetLastError();\
printf("bad get comm line %d\n", __LINE__);\
return -1;\
}
#define SET_SERIAL_PORT_STRUCT( cserial_port, io_name ) if( !SetCommState( cserial_port->port, &io_name ) ){\
cserial_port->last_errnum = GetLastError();\
printf("bad set comm\n");\
return -1;\
}
typedef HANDLE c_serial_mutex_t;
#else
#include <termios.h>
#include <unistd.h>
#include <fcntl.h>
#include <unistd.h>
#include <dirent.h>
#include <pthread.h>
#include <sys/ioctl.h>
#include <errno.h>
#include <poll.h>
#ifdef HAVE_LINUX_SERIAL
#include <linux/serial.h>
#endif
#ifndef ENOMEDIUM
#define ENOMEDIUM ENODEV
#endif
#ifdef CRTSCTS
#define HW_FLOW CRTSCTS
#elif CNEW_RTSCTS
#define HW_FLOW CNEW_RTSCTS
#endif
#define SPEED_SWITCH(SPD,io) case SPD: cfsetospeed( &io, B##SPD ); cfsetispeed( &io, B##SPD ); break;
#define GET_SPEED_SWITCH(SPD,io) case B##SPD: baud_return = SPD; break;
#define GET_SERIAL_PORT_STRUCT( cserial_port, io_name ) struct termios io_name; \
if( tcgetattr( cserial_port->port, &io_name ) < 0 ){ \
return -1; \
}
#define SET_SERIAL_PORT_STRUCT( cserial_port, io_name ) if( tcsetattr( cserial_port->port, TCSANOW, &io_name ) < 0 ){\
return -1;\
}
typedef pthread_mutex_t c_serial_mutex_t;
#endif /* _WIN32 */
#include <stdlib.h>
#include <errno.h>
#include <string.h>
#include <stdio.h>
#include "c_serial.h"
/*
* Local defines
*/
#define CHECK_INVALID_PORT( port ) \
if( port == NULL ){\
return CSERIAL_ERROR_INVALID_PORT;\
}
#define SET_RTS_IF_REQUIRED( port ) \
if( port->rs485_is_software ) { \
c_serial_control_lines_t lines; \
c_serial_get_control_lines( port, &lines ); \
lines.rts = 1;\
c_serial_set_control_line( port, &lines, 0 );\
}
#define CLEAR_RTS_IF_REQUIRED( port )\
if( port->rs485_is_software ) { \
c_serial_control_lines_t lines; \
c_serial_get_control_lines( port, &lines ); \
lines.rts = 0;\
c_serial_flush( port );\
c_serial_set_control_line( port, &lines, 0 );\
}
static simplelogger_log_function global_log_function = NULL;
/*
* Struct Definitions
*/
/* \cond */
struct c_serial_port {
c_serial_handle_t port;
c_serial_mutex_t mutex;
c_serial_errnum_t last_errnum;
char* port_name;
enum CSerial_Baud_Rate baud_rate;
enum CSerial_Data_Bits data_bits;
enum CSerial_Stop_Bits stop_bits;
enum CSerial_Parity parity;
enum CSerial_Flow_Control flow;
enum CSerial_RTS_Handling rs485;
int rs485_is_software;
void* user_data;
int is_open;
int line_flags;
#ifdef _WIN32
/* Windows-specific variables that we need to keep track of */
int winDTR;
int winRTS;
OVERLAPPED overlap;
#endif
};
/* \endcond */
/*
* Local Methods
*/
static int clear_rts( c_serial_port_t* desc ){
#ifdef _WIN32
GET_SERIAL_PORT_STRUCT( desc, newio );
newio.fRtsControl = RTS_CONTROL_TOGGLE;
SET_SERIAL_PORT_STRUCT( desc, newio );
#elif defined( HAVE_LINUX_SERIAL )
struct serial_rs485 rs485conf;
if( ioctl( desc->port, TIOCGRS485, &rs485conf ) < 0 ){
if( errno == ENOTTY ){
/* Inappropriate ioctl for device. */
/* This serial converter does not support RS485. */
/* This error can occur with an FTDI RS485 cable. */
return CSERIAL_OK;
}
desc->last_errnum = errno;
return CSERIAL_ERROR_GENERIC;
}
if( rs485conf.flags & SER_RS485_ENABLED ){
rs485conf.flags &= ~(SER_RS485_ENABLED);
if( ioctl( desc->port, TIOCSRS485, &rs485conf ) < 0 ){
desc->last_errnum = errno;
return CSERIAL_RTS_TYPE_NOT_AVAILABLE;
}
}
#endif /* _WIN32 */
return CSERIAL_OK;
}
static int set_rts_hw( c_serial_port_t* desc ){
#ifdef _WIN32
GET_SERIAL_PORT_STRUCT( desc, newio );
newio.fRtsControl = RTS_CONTROL_TOGGLE;
SET_SERIAL_PORT_STRUCT( desc, newio );
#elif defined( HAVE_LINUX_SERIAL )
struct serial_rs485 rs485conf;
if( ioctl( desc->port, TIOCGRS485, &rs485conf ) < 0 ){
return CSERIAL_ERROR_GENERIC;
}
rs485conf.flags |= SER_RS485_ENABLED;
if( ioctl( desc->port, TIOCSRS485, &rs485conf ) < 0 ){
return CSERIAL_RTS_TYPE_NOT_AVAILABLE;
}
#endif /* _WIN32 */
return CSERIAL_OK;
}
/* try to set the RTS control at a driver level */
static int set_rts_settings( c_serial_port_t* desc ){
int retval = CSERIAL_ERROR_GENERIC;
if( desc->rs485 == CSERIAL_RTS_NONE ){
desc->rs485_is_software = 0;
retval = clear_rts( desc );
}else if( desc->rs485 == CSERIAL_RTS_HARDWARE ){
desc->rs485_is_software = 0;
retval = set_rts_hw( desc );
}else if( desc->rs485 == CSERIAL_RTS_SOFTWARE ){
desc->rs485_is_software = 1;
}else if( desc->rs485 == CSERIAL_RTS_BEST_AVAILABLE ){
desc->rs485_is_software = 0;
retval = set_rts_hw( desc );
if( retval != CSERIAL_OK ){
desc->rs485_is_software = 1;
retval = CSERIAL_OK;
}
}
return retval;
}
static int set_raw_input( c_serial_port_t* port ) {
GET_SERIAL_PORT_STRUCT( port, newio );
#ifdef _WIN32
newio.fBinary = TRUE;
newio.fParity = TRUE;
newio.fOutxCtsFlow = FALSE;
newio.fOutxDsrFlow = FALSE;
newio.fDtrControl = DTR_CONTROL_DISABLE;
newio.fDsrSensitivity = FALSE;
newio.fOutX = FALSE;
newio.fInX = FALSE;
newio.fNull = FALSE;
newio.fRtsControl = FALSE;
/* Set timeouts */
{
COMMTIMEOUTS timeouts = {0};
timeouts.ReadIntervalTimeout = MAXDWORD;
timeouts.ReadTotalTimeoutMultiplier = 0;
timeouts.ReadTotalTimeoutConstant = 0;
timeouts.WriteTotalTimeoutMultiplier = 0;
timeouts.WriteTotalTimeoutConstant = 0;
if( SetCommTimeouts( port->port, &timeouts ) == 0 ) {
port->last_errnum = GetLastError();
LOG_ERROR( LOGGER_NAME, "Unable to set comm timeouts" );
return 0;
}
}
#else
newio.c_iflag |= IGNBRK;
newio.c_iflag &= ~BRKINT;
newio.c_iflag &= ~ICRNL;
newio.c_oflag = 0;
newio.c_lflag = 0;
newio.c_cc[VTIME] = 0;
newio.c_cc[VMIN] = 1;
#endif
SET_SERIAL_PORT_STRUCT( port, newio );
return CSERIAL_OK;
}
static int set_baud_rate( c_serial_port_t* desc, int baud_rate ) {
GET_SERIAL_PORT_STRUCT( desc, newio );
switch( baud_rate ) {
#ifndef _WIN32
/* Note that Windows only supports speeds of 110 and above */
SPEED_SWITCH(0,newio);
SPEED_SWITCH(50,newio);
SPEED_SWITCH(75,newio);
#endif
SPEED_SWITCH(110,newio);
#ifndef _WIN32
/* Windows does not support speeds of 134, 150, or 200 */
SPEED_SWITCH(134,newio);
SPEED_SWITCH(150,newio);
SPEED_SWITCH(200,newio);
#endif
SPEED_SWITCH(300,newio);
SPEED_SWITCH(600,newio);
SPEED_SWITCH(1200,newio);
#ifndef _WIN32
/* Windows does not support 1800 */
SPEED_SWITCH(1800,newio);
#endif
SPEED_SWITCH(2400,newio);
SPEED_SWITCH(4800,newio);
SPEED_SWITCH(9600,newio);
SPEED_SWITCH(19200,newio);
SPEED_SWITCH(38400,newio);
SPEED_SWITCH(57600,newio);
SPEED_SWITCH(115200,newio);
}
SET_SERIAL_PORT_STRUCT( desc, newio );
return CSERIAL_OK;
}
/**
* @param data_bits The number of data bits
*/
static int set_data_bits( c_serial_port_t* desc,
enum CSerial_Data_Bits data_bits ) {
GET_SERIAL_PORT_STRUCT( desc, newio );
#ifdef _WIN32
newio.ByteSize = data_bits;
#else
newio.c_cflag &= ~CSIZE;
if( data_bits == CSERIAL_BITS_8 ) {
newio.c_cflag |= CS8;
} else if( data_bits == CSERIAL_BITS_7 ) {
newio.c_cflag |= CS7;
} else if( data_bits == CSERIAL_BITS_6 ) {
newio.c_cflag |= CS6;
} else if( data_bits == CSERIAL_BITS_5 ) {
newio.c_cflag |= CS5;
}
#endif
SET_SERIAL_PORT_STRUCT( desc, newio );
return CSERIAL_OK;
}
/**
* @param stop_bits 1 for 1, 2 for 2
*/
static int set_stop_bits( c_serial_port_t* desc,
enum CSerial_Stop_Bits stop_bits ) {
GET_SERIAL_PORT_STRUCT( desc, newio );
#ifdef _WIN32
if( stop_bits == CSERIAL_STOP_BITS_1 ) {
newio.StopBits = ONESTOPBIT;
} else if( stop_bits == CSERIAL_STOP_BITS_2 ) {
newio.StopBits = TWOSTOPBITS;
}
#else
if( stop_bits == CSERIAL_STOP_BITS_1 ) {
newio.c_cflag &= ~CSTOPB;
} else if( stop_bits == CSERIAL_STOP_BITS_2 ) {
newio.c_cflag |= CSTOPB;
}
#endif
SET_SERIAL_PORT_STRUCT( desc, newio );
return CSERIAL_OK;
}
/**
* @param parity 0 for no parity, 1 for odd parity, 2 for even parity
*/
static int set_parity( c_serial_port_t* desc, enum CSerial_Parity parity ) {
GET_SERIAL_PORT_STRUCT( desc, newio );
#ifdef _WIN32
if( parity == CSERIAL_PARITY_NONE ) {
newio.Parity = NOPARITY;
} else if( parity == CSERIAL_PARITY_ODD ) {
newio.Parity = ODDPARITY;
} else if( parity == CSERIAL_PARITY_EVEN ) {
newio.Parity = EVENPARITY;
}
#else
newio.c_iflag &= ~IGNPAR;
newio.c_cflag &= ~( PARODD | PARENB );
if( parity == CSERIAL_PARITY_NONE ) {
newio.c_iflag |= IGNPAR;
} else if( parity == CSERIAL_PARITY_ODD ) {
newio.c_cflag |= PARODD;
} else if( parity == CSERIAL_PARITY_EVEN ) {
newio.c_cflag |= PARENB;
}
#endif
SET_SERIAL_PORT_STRUCT( desc, newio );
return CSERIAL_OK;
}
/**
* Check to make sure that the RTS handling can be set.
* If RS485 handling is set, hardware flow control cannot be used
*/
static int check_rts_handling( c_serial_port_t* desc ){
if( desc->flow == CSERIAL_FLOW_HARDWARE &&
desc->rs485 != CSERIAL_RTS_NONE ){
return CSERIAL_ERROR_INVALID_FLOW;
}
return CSERIAL_OK;
}
/**
* Set flow control and the RTS handling
*
* @param flow_control 0 for none, 1 for hardware, 2 for software
* @param rts_handling RTS handling according to the enum
*/
static int set_flow_control( c_serial_port_t* desc,
enum CSerial_Flow_Control flow_control,
enum CSerial_RTS_Handling rts_handling ) {
int rc;
int status = CSERIAL_OK;
GET_SERIAL_PORT_STRUCT( desc, newio );
rc = check_rts_handling( desc );
if( rc != CSERIAL_OK ){
return rc;
}
#ifdef _WIN32
if( flow_control == CSERIAL_FLOW_NONE ) {
newio.fOutxCtsFlow = FALSE;
newio.fRtsControl = FALSE;
newio.fOutX = FALSE;
newio.fInX = FALSE;
} else if( flow_control == CSERIAL_FLOW_HARDWARE ) {
newio.fOutxCtsFlow = TRUE;
newio.fRtsControl = TRUE;
newio.fOutX = FALSE;
newio.fInX = FALSE;
} else if( flow_control == CSERIAL_FLOW_SOFTWARE ) {
newio.fOutxCtsFlow = FALSE;
newio.fRtsControl = FALSE;
newio.fOutX = TRUE;
newio.fInX = TRUE;
}
#else
newio.c_iflag &= ~( IXON | IXOFF | IXANY );
newio.c_cflag &= ~HW_FLOW;
if( flow_control == CSERIAL_FLOW_NONE ) {
newio.c_iflag &= ~( IXON | IXOFF | IXANY );
} else if( flow_control == CSERIAL_FLOW_HARDWARE ) {
newio.c_cflag |= HW_FLOW;
} else if( flow_control == CSERIAL_FLOW_SOFTWARE ) {
newio.c_iflag |= ( IXON | IXOFF | IXANY );
}
#endif /* _WIN32 */
SET_SERIAL_PORT_STRUCT( desc, newio );
status = set_rts_settings( desc );
return status;
}
/*
* Method Implementations
*/
int c_serial_new( c_serial_port_t** port, c_serial_errnum_t* errnum ) {
c_serial_port_t* new_port;
if( port == NULL ) {
return CSERIAL_ERROR_CANT_CREATE;
}
new_port = malloc( sizeof( struct c_serial_port ) );
if( new_port == NULL ) {
return CSERIAL_ERROR_CANT_CREATE;
}
/* Clear our memory and set some sane defaults */
memset( new_port, 0, sizeof( struct c_serial_port ) );
new_port->baud_rate = CSERIAL_BAUD_9600;
new_port->data_bits = CSERIAL_BITS_8;
new_port->stop_bits = CSERIAL_STOP_BITS_1;
new_port->parity = CSERIAL_PARITY_NONE;
new_port->flow = CSERIAL_FLOW_NONE;
new_port->rs485_is_software = 0;
#ifdef _WIN32
new_port->mutex = CreateMutex( NULL, FALSE, NULL );
if( new_port->mutex == NULL ) {
/* Unable to create mutex for some reason, error out */
if( errnum != NULL ) *errnum = GetLastError();
free( new_port );
return CSERIAL_ERROR_CANT_CREATE;
}
memset( &(new_port->overlap), 0, sizeof(OVERLAPPED) );
new_port->overlap.hEvent = CreateEvent( 0, FALSE, FALSE, 0 );
#else
pthread_mutex_init( &(new_port->mutex), NULL );
#endif /* _WIN32 */
*port = new_port;
return CSERIAL_OK;
}
void c_serial_free( c_serial_port_t* port ) {
if( port == NULL ) {
return;
}
c_serial_close( port );
free( port->port_name );
free( port );
}
void c_serial_close( c_serial_port_t* port ) {
if( port == NULL ) {
return;
}
port->is_open = 0;
close( port->port );
#ifdef _WIN32
WaitForSingleObject( port->mutex, INFINITE );
ReleaseMutex( port->mutex );
CloseHandle( port->mutex );
#else
pthread_mutex_lock( &(port->mutex) );
pthread_mutex_unlock( &(port->mutex) );
#endif
}
int c_serial_open( c_serial_port_t* port ) {
return c_serial_open_keep_settings( port, 0 );
}
int c_serial_open_keep_settings( c_serial_port_t* port, int keepSettings ) {
int rc;
int retval = CSERIAL_OK;
CHECK_INVALID_PORT( port );
if( port->is_open ) return CSERIAL_ERROR_ALREADY_OPEN;
if( port->port_name == NULL ) return CSERIAL_ERROR_NO_PORT;
rc = check_rts_handling( port );
if( rc != CSERIAL_OK ){
return rc;
}
#ifdef _WIN32
port->port = CreateFile( port->port_name,
GENERIC_READ | GENERIC_WRITE,
0, 0,
OPEN_EXISTING,
FILE_FLAG_OVERLAPPED,
0 );
if( port->port == INVALID_HANDLE_VALUE ) {
port->last_errnum = GetLastError();
if( port->last_errnum == ERROR_FILE_NOT_FOUND ) {
return CSERIAL_ERROR_NO_SUCH_SERIAL_PORT;
}
return CSERIAL_ERROR_GENERIC;
}
port->mutex = CreateMutex( NULL, FALSE, NULL );
if( port->mutex == NULL ){
port->last_errnum = GetLastError();
LOG_ERROR( LOGGER_NAME, "Unable to create mutex" );
return CSERIAL_ERROR_GENERIC;
}
#else
port->port = open( port->port_name, O_RDWR );
if( port->port < 0 ) {
port->last_errnum = errno;
if( port->last_errnum == ENOENT ) {
return CSERIAL_ERROR_NO_SUCH_SERIAL_PORT;
}
return CSERIAL_ERROR_GENERIC;
}
{
struct termios io_tmp;
if( tcgetattr( port->port, &io_tmp ) < 0 ) {
port->last_errnum = errno;
if( port->last_errnum == ENOTTY ) {
return CSERIAL_ERROR_NOT_A_SERIAL_PORT;
}
return CSERIAL_ERROR_GENERIC;
}
}
#endif /* _WIN32 */
port->is_open = 1;
/* Set all of our settings. If there are any erorrs, close
* the port and bail out
*/
if( !keepSettings ) {
retval = set_raw_input( port );
if( retval ){
c_serial_close( port );
goto out;
}
retval = set_baud_rate( port, port->baud_rate );
if( retval ){
c_serial_close( port );
goto out;
}
retval = set_data_bits( port, port->data_bits );
if( retval ){
c_serial_close( port );
goto out;
}
retval = set_stop_bits( port, port->stop_bits );
if( retval ){
c_serial_close( port );
goto out;
}
retval = set_parity( port, port->parity );
if( retval ){
c_serial_close( port );
goto out;
}
retval = set_flow_control( port, port->flow, port->rs485 );
if( retval ){
c_serial_close( port );
goto out;
}
}
out:
return retval;
}
int c_serial_is_open( c_serial_port_t* port ) {
CHECK_INVALID_PORT( port );
return port->is_open;
}
int c_serial_set_port_name( c_serial_port_t* port,
const char* port_name ) {
size_t port_name_len;
int port_name_offset;
CHECK_INVALID_PORT( port );
port_name_len = strlen( port_name );
#ifdef _WIN32
if( port_name_len > 6 ){
return CSERIAL_ERROR_NAME_TOO_LONG;
}
port_name_offset = 4;
port_name_len += 5; /* add in \\.\ to the front and have NULL terminator */
#else
if( port_name_len > 255 ){
return CSERIAL_ERROR_NAME_TOO_LONG;
}
port_name_offset = 0;
port_name_len += 1;
#endif
port->port_name = malloc( port_name_len );
memset( port->port_name, 0, port_name_len );
memcpy( port->port_name + port_name_offset,
port_name,
strlen( port_name ) );
#ifdef _WIN32
memcpy( port->port_name, "\\\\.\\", 4 );
#endif
return CSERIAL_OK;
}
const char* c_serial_get_port_name( c_serial_port_t* port ) {
if( port == NULL ) {
return NULL;
}
return port->port_name;
}
int c_serial_set_baud_rate( c_serial_port_t* port,
enum CSerial_Baud_Rate baud ) {
CHECK_INVALID_PORT( port );
port->baud_rate = baud;
if( port->is_open ) {
return set_baud_rate( port, port->baud_rate );
}
return CSERIAL_OK;
}
enum CSerial_Baud_Rate c_serial_get_baud_rate( c_serial_port_t* port ) {
enum CSerial_Baud_Rate baud_return;
CHECK_INVALID_PORT( port );
if( !port->is_open ) {
return port->baud_rate;
}
{
GET_SERIAL_PORT_STRUCT( port, newio );
#ifdef _WIN32
GetCommState( port->port, &newio );
switch( newio.BaudRate ) {
#else
switch( cfgetispeed( &newio ) ) {
GET_SPEED_SWITCH( 0, newio );
GET_SPEED_SWITCH( 50, newio );
GET_SPEED_SWITCH( 75, newio );
#endif /* _WIN32 */
GET_SPEED_SWITCH( 110, newio );
#ifndef _WIN32
GET_SPEED_SWITCH( 134, newio );
GET_SPEED_SWITCH( 150, newio );
GET_SPEED_SWITCH( 200, newio );
#endif /* _WIN32 */
GET_SPEED_SWITCH( 300, newio );
GET_SPEED_SWITCH( 600, newio );
GET_SPEED_SWITCH( 1200, newio );
#ifndef _WIN32
GET_SPEED_SWITCH( 1800, newio );
#endif /* _WIN32 */
GET_SPEED_SWITCH( 2400, newio );
GET_SPEED_SWITCH( 4800, newio );
GET_SPEED_SWITCH( 9600, newio );
GET_SPEED_SWITCH( 19200, newio );
GET_SPEED_SWITCH( 38400, newio );
GET_SPEED_SWITCH( 57600, newio );
GET_SPEED_SWITCH( 115200, newio );
default:
baud_return = 0;
} /* end switch */
}
port->baud_rate = baud_return;
return port->baud_rate;
}
int c_serial_set_data_bits( c_serial_port_t* port,
enum CSerial_Data_Bits bits ) {
CHECK_INVALID_PORT( port );
port->data_bits = bits;
if( port->is_open ) {
return set_data_bits( port, port->data_bits );
}
return CSERIAL_OK;
}
enum CSerial_Data_Bits c_serial_get_data_bits( c_serial_port_t* port ) {
CHECK_INVALID_PORT( port );
{
GET_SERIAL_PORT_STRUCT( port, newio );
#ifdef _WIN32
switch( newio.ByteSize ) {
case 5:
return CSERIAL_BITS_5;
case 6:
return CSERIAL_BITS_6;
case 7:
return CSERIAL_BITS_7;
case 8:
return CSERIAL_BITS_8;
}
#else
if( ( newio.c_cflag | CS8 ) == CS8 ) {
return CSERIAL_BITS_8;
} else if( ( newio.c_cflag | CS7 ) == CS7 ) {
return CSERIAL_BITS_7;
} else if( ( newio.c_cflag | CS6 ) == CS6 ) {
return CSERIAL_BITS_6;
} else if( ( newio.c_cflag | CS5 ) == CS5 ) {
return CSERIAL_BITS_5;
} else {
return 0;
}
#endif
}
return -1;
}
int c_serial_set_stop_bits( c_serial_port_t* port,
enum CSerial_Stop_Bits bits ) {
CHECK_INVALID_PORT( port );
port->stop_bits = bits;
if( port->is_open ) {
return set_stop_bits( port, port->stop_bits );
}
return CSERIAL_OK;
}
enum CSerial_Stop_Bits c_serial_get_stop_bits( c_serial_port_t* port ) {
CHECK_INVALID_PORT( port );
{
GET_SERIAL_PORT_STRUCT( port, newio );
#ifdef _WIN32
port->stop_bits = newio.StopBits;
if( newio.StopBits == 1 ) {
return 1;
} else if( newio.StopBits == 2 ) {
return 2;
} else {
return -1;
}
#else
if( newio.c_cflag & CSTOPB ) {
port->stop_bits = 2;
return 2;
} else {
port->stop_bits = 1;
return 1;
}
#endif
}
}
int c_serial_set_parity( c_serial_port_t* port,
enum CSerial_Parity parity ) {
CHECK_INVALID_PORT( port );
port->parity = parity;
if( port->is_open ) {
return set_parity( port, port->parity );
}
return CSERIAL_OK;
}
enum CSerial_Parity c_serial_get_parity( c_serial_port_t* port ) {
CHECK_INVALID_PORT( port );
{
GET_SERIAL_PORT_STRUCT( port, newio );
#ifdef _WIN32
if( newio.Parity == NOPARITY ) {
return 0;
} else if( newio.Parity == ODDPARITY ) {
return 1;
} else if( newio.Parity == EVENPARITY ) {
return 2;
} else {
return -1;
}
#else
if( !( newio.c_cflag & PARENB ) ) {
/* No parity */
return 0;
} else if( newio.c_cflag & PARODD ) {
/* Odd parity */
return 1;
} else if( !( newio.c_cflag & PARODD ) ) {
/* Even parity */
return 2;
} else {
return -1;
}
#endif
}
}
int c_serial_set_flow_control( c_serial_port_t* port,
enum CSerial_Flow_Control control ) {
int ok = CSERIAL_OK;
enum CSerial_Flow_Control old;
CHECK_INVALID_PORT( port );
old = port->flow;
port->flow = control;
ok = check_rts_handling( port );
if( ok != CSERIAL_OK ){
port->flow = old;
LOG_ERROR( LOGGER_NAME, "Unable to set flow control: invalid flow "
"control has been specified. Ignoring." );
return ok;
}
if( port->is_open ) {
ok = set_flow_control( port, port->flow, port->rs485 );
}
return ok;
}
enum CSerial_Flow_Control c_serial_get_flow_control( c_serial_port_t* port ) {
CHECK_INVALID_PORT( port );
{
GET_SERIAL_PORT_STRUCT( port, newio );
#ifdef _WIN32
if( newio.fOutX == TRUE && newio.fInX == TRUE ) {
return 2;
} else if( newio.fRtsControl == TRUE && newio.fOutxCtsFlow == TRUE ) {
return 1;
} else {
return 0;
}
#else
if( newio.c_cflag & ~( IXON ) &&
newio.c_cflag & ~( IXOFF ) &&
newio.c_cflag & ~( IXANY ) ) {
return 0;
} else if( newio.c_cflag & HW_FLOW ) {
return 1;
} else if( newio.c_cflag & ( IXON ) &&
newio.c_cflag & ( IXOFF ) &&
newio.c_cflag & ( IXANY ) ) {
return 2;
}
#endif /* _WIN32 */
}
return 0;
}
int c_serial_write_data( c_serial_port_t* port,
void* data,
int* length ) {
#ifdef _WIN32
DWORD bytes_written;
#else
int bytes_written;
#endif
CHECK_INVALID_PORT( port );
SET_RTS_IF_REQUIRED( port );
#ifdef _WIN32
if( !WriteFile( port->port, data, *length, NULL, &(port->overlap) ) ) {
port->last_errnum = GetLastError();
if( GetLastError() == ERROR_IO_PENDING ) {
/* Probably not an error, we're just doing this in an async fasion */
if( WaitForSingleObject( port->overlap.hEvent, INFINITE ) == WAIT_FAILED ) {
port->last_errnum = GetLastError();
LOG_ERROR( LOGGER_NAME, "Unable to write data out: OVERLAPPED operation failed" );
return CSERIAL_ERROR_GENERIC;
}
} else {
LOG_ERROR( LOGGER_NAME, "Unable to write data" );
return CSERIAL_ERROR_GENERIC;
}
}
if( GetOverlappedResult( port->port, &(port->overlap), &bytes_written, 1 ) == 0 ){
LOG_ERROR( LOGGER_NAME, "Unable to write data" );
return CSERIAL_ERROR_GENERIC;
}
#else
bytes_written = write( port->port, data, *length );
if( bytes_written < 0 ) {
port->last_errnum = errno;
LOG_ERROR( LOGGER_NAME, "Unable to write data to serial port" );
return CSERIAL_ERROR_GENERIC;
}
#endif
*length = bytes_written;
CLEAR_RTS_IF_REQUIRED( port );
return CSERIAL_OK;
}
int c_serial_read_data( c_serial_port_t* port,
void* data,
int* data_length,
c_serial_control_lines_t* lines ) {
#ifdef _WIN32
DWORD ret = 0;
int current_available = 0;
int bytesGot;
int originalControlState;
int gotData = 0;
#else
fd_set fdset;
struct timeval timeout;
int originalControlState;
int selectStatus;
int newControlState;
#endif
CHECK_INVALID_PORT( port );
if( data == NULL && lines == NULL ) {
return CSERIAL_ERROR_INCORRECT_READ_PARAMS;
}
#ifdef _WIN32
WaitForSingleObject( port->mutex, INFINITE );