2、简单介绍一下:
《POSIX *** 作系统的串口编程指南》拍旁是在UNIX环境或PC上对串口进行编程的教程,李含每一章提供的例程都使用POSIX(Portable Standard for UNIX)终端控制函数,只需极少的修改就可运行在IRIX 、HP-UX、 SunOS、 Solaris、 Digital UNIX、 Linux等大多数哪贺笑类UNIX *** 作系统。
这有个搏游闹友善的串口例程,参考下吧,用gcc编译可以在linux下用# include <stdio.h>
# include <stdlib.h>
# include <termio.h>
# include <unistd.h>
# include <fcntl.h>
# include <磨岁getopt.h>
# include <time.h>
# include <errno.h>
# include <string.h>
int CommFd, TtyFd
static void Error(const char *Msg)
{
fprintf (stderr, "%s\n", Msg)
fprintf (stderr, "strerror() is %s\n", strerror(errno))
exit(1)
}
static void Warning(const char *Msg)
{
fprintf (stderr, "Warning: %s\n", Msg)
}
static int SerialSpeed(const char *SpeedString)
{
int SpeedNumber = atoi(SpeedString)
# define TestSpeed(Speed) if (SpeedNumber == Speed) return B##Speed
TestSpeed(1200)
TestSpeed(2400)
TestSpeed(4800)
TestSpeed(9600)
TestSpeed(19200)
TestSpeed(38400)
TestSpeed(57600)
TestSpeed(115200)
TestSpeed(230400)
Error("Bad speed")
return -1
}
static void PrintUsage(void)
{
fprintf(stderr, "comtest - interactive program of comm port\n")
fprintf(stderr, "press [ESC] 3 times to quit\n\n")
fprintf(stderr, "Usage: comtest [-d device] [-t tty] [-s speed] [-7] [-c] [-x] [-o] [-h]\n")
fprintf(stderr, " -7 7 bit\n")
fprintf(stderr, " -x hex mode\n")
fprintf(stderr, "基罩 -o output to stdout too\n")
fprintf(stderr, " -c stdout output use color\n")
fprintf(stderr, " -h print this help\n")
exit(-1)
}
static inline void WaitFdWriteable(int Fd)
{
fd_set WriteSetFD
FD_ZERO(&WriteSetFD)
FD_SET(Fd, &WriteSetFD)
if (select(Fd + 1, NULL, &WriteSetFD, NULL, NULL) <0) {
Error(strerror(errno))
}
}
int sendUart(char c)
{
WaitFdWriteable(CommFd)
return write(CommFd, &c, 1)
}
char recUart()
{
char c='\0'
if (FD_ISSET(CommFd, &ReadSetFD))
{
if(read(CommFd, &c, 1) == 1) return c
else printf("No data to receive.\n")
}
}
int main(int argc, char **argv)
{
struct termios TtyAttr
struct termios BackupTtyAttr
int DeviceSpeed = B115200
int TtySpeed = B115200
int ByteBits = CS8
const char *DeviceName = "/dev/ttyS0"
const char *TtyName = "/dev/tty"
int OutputHex = 0
int OutputToStdout = 0
int UseColor = 0
printf("Now we start.\n")
opterr = 0
for () {
int c = getopt(argc, argv, "d:s:t:7xoch")
if (c == -1)
break
switch(c) {
case 'd':
DeviceName = optarg
break
case 't':
TtyName = optarg
break
case 's':
if (optarg[0] == 'd') {
DeviceSpeed = SerialSpeed(optarg + 1)
} else if (optarg[0] == 't') {
TtySpeed = SerialSpeed(optarg + 1)
} else
TtySpeed = DeviceSpeed = SerialSpeed(optarg)
break
case 'o':
OutputToStdout = 1
break
case '7':
ByteBits = CS7
break
case 'x':
OutputHex = 1
break
case 'c':
UseColor = 1
break
case '?':
case 'h':
default:
PrintUsage()
}
}
if (optind != argc)
PrintUsage()
CommFd = open(DeviceName, O_RDWR, 0)
if (CommFd <0)
Error("Unable to open device")
if (fcntl(CommFd, F_SETFL, O_NONBLOCK) <0)
Error("Unable set to NONBLOCK mode")
memset(&TtyAttr, 0, sizeof(struct termios))
TtyAttr.c_iflag = IGNPAR
TtyAttr.c_cflag = DeviceSpeed | HUPCL | ByteBits | CREAD | CLOCAL
TtyAttr.c_cc[VMIN] = 1
if (tcsetattr(CommFd, TCSANOW, &TtyAttr) <0)
Warning("Unable to set comm port")
TtyFd = open(TtyName, O_RDWR | O_NDELAY, 0)
if (TtyFd <0)
Error("Unable to open tty")
TtyAttr.c_cflag = TtySpeed | HUPCL | ByteBits | CREAD | CLOCAL
if (tcgetattr(TtyFd, &BackupTtyAttr) <0)
Error("Unable to get tty")
if (tcsetattr(TtyFd, TCSANOW, &TtyAttr) <0)
Error("Unable to set tty")
for () {
unsigned char Char = 0
fd_set ReadSetFD
void OutputStdChar(FILE *File) {
char Buffer[10]
int Len = sprintf(Buffer, OutputHex ? "%.2X " : "%c", Char)
fwrite(Buffer, 1, Len, File)
}
FD_ZERO(&ReadSetFD)
FD_SET(CommFd, &ReadSetFD)
FD_SET( TtyFd, &ReadSetFD)
# define max(x,y) ( ((x) >= (y)) ? (x) : (y) )
if (select(max(CommFd, TtyFd) + 1, &ReadSetFD, NULL, NULL, NULL) <0) {
Error(strerror(errno))
}
# undef max
if (FD_ISSET(CommFd, &ReadSetFD)) {
while (read(CommFd, &Char, 1) == 1) {
WaitFdWriteable(TtyFd)
if (write(TtyFd, &Char, 1) <0) {
Error(strerror(errno))
}
if (OutputToStdout) {
if (UseColor)
fwrite("\x1b[0134m", 1, 8, stdout)
OutputStdChar(stdout)
if (UseColor)
fwrite("\x1b[00m", 1, 8, stdout)
fflush(stdout)
}
}
}
if (FD_ISSET(TtyFd, &ReadSetFD)) {
while (read(TtyFd, &Char, 1) == 1) {
static int EscKeyCount = 0
WaitFdWriteable(CommFd)
if (write(CommFd, &Char, 1) <0) {
Error(strerror(errno))
}
if (OutputToStdout) {
if (UseColor)
fwrite("\x1b[0131m", 1, 8, stderr)
OutputStdChar(stderr)
if (UseColor)
fwrite("\x1b[00m", 1, 8, stderr)
fflush(stderr)
}
if (Char == '\x1b') {
EscKeyCount ++
if (EscKeyCount >= 3)
goto ExitLabel
} else
EscKeyCount = 0
}
}
}
ExitLabel:
if (tcsetattr(TtyFd, TCSANOW, &BackupTtyAttr) <0)
Error("Unable to set tty")
return 0
}
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