src/cmd/lp/lpsend.c

#ifdef plan9

#include <u.h>
#include <libc.h>
#define 	stderr	2

#define RDNETIMEOUT	60000
#define WRNETIMEOUT	60000

#else

/* not for plan 9 */
#include <stdio.h>
#include <errno.h>
#include <time.h>
#include <fcntl.h>
#include <signal.h>

#define	create	creat
#define	seek	lseek
#define	fprint	fprintf
#define	sprint	sprintf
#define	exits	exit

#define	ORDWR	O_RDWR
#define	OTRUNC	O_TRUNC
#define	ORCLOSE	0

#define RDNETIMEOUT	60
#define WRNETIMEOUT	60

#endif

#define MIN(a,b)	((a<b)?a:b)

#define	ACK(a)	write(a, "", 1)
#define NAK(a)	write(a, "\001", 1)

#define LPDAEMONLOG	"/tmp/lpdaemonl"

#define LNBFSZ	4096
char lnbuf[LNBFSZ];
int dbgstate = 0;
char *dbgstrings[] = {
	"",
	"rcvack1",
	"send",
	"rcvack2",
	"response",
	"done"
};

#ifdef plan9

void
error(int level, char *s1, ...)
{
	va_list ap;
	long thetime;
	char *chartime;
	char *args[8];
	int argno = 0;

	if (level == 0) {
		time(&thetime);
		chartime = ctime(thetime);
		fprint(stderr, "%.15s ", &(chartime[4]));
	}
	va_start(ap, s1);
	while(args[argno++] = va_arg(ap, char*));
	va_end(ap);
	fprint(stderr, s1, *args);
	return;
}

int
alarmhandler(void *foo, char *note) {
	USED(foo);
	if(strcmp(note, "alarm")==0) {
		fprint(stderr, "alarm at %d - %s\n", dbgstate, dbgstrings[dbgstate]);
		return(1);
	} else return(0);
}

#else

void
error(int level, char *s1, ...)
{
	time_t thetime;
	char *chartime;

	if (level == 0) {
		time(&thetime);
		chartime = ctime(&thetime);
		fprintf(stderr, "%.15s ", &(chartime[4]));
	}
	fprintf(stderr, s1, (&s1+1));
	return;
}

void
alarmhandler() {
	fprintf(stderr, "alarm at %d - %s\n", dbgstate, dbgstrings[dbgstate]);
}

#endif

/* get a line from inpfd using nonbuffered input.  The line is truncated if it is too
 * long for the buffer.  The result is left in lnbuf and the number of characters
 * read in is returned.
 */
int
readline(int inpfd)
{
	register char *ap;
	register int i;

	ap = lnbuf;
	i = 0;
	do {
		if (read(inpfd, ap, 1) != 1) {
			error(0, "read error in readline, fd=%d\n", inpfd);
			break;
		}
	} while ((++i < LNBFSZ - 2) && *ap++ != '\n');
	if (i == LNBFSZ - 2) {
		*ap = '\n';
		i++;
	}
	*ap = '\0';
	return(i);
}

#define	RDSIZE 512
char jobbuf[RDSIZE];

int
pass(int inpfd, int outfd, int bsize)
{
	int bcnt = 0;
	int rv = 0;

	for(bcnt=bsize; bcnt > 0; bcnt -= rv) {
		alarm(WRNETIMEOUT);	/* to break hanging */
		if((rv=read(inpfd, jobbuf, MIN(bcnt,RDSIZE))) < 0) {
			error(0, "read error during pass, %d remaining\n", bcnt);
			break;
		} else if((write(outfd, jobbuf, rv)) != rv) {
			error(0, "write error during pass, %d remaining\n", bcnt);
			break;
		}
	}
	alarm(0);
	return(bcnt);
}
	
/* get whatever stdin has and put it into the temporary file.
 * return the file size.
 */
int
prereadfile(int inpfd)
{
	int rv, bsize;

	bsize = 0;
	do {
		if((rv=read(0, jobbuf, RDSIZE))<0) {
			error(0, "read error while making temp file\n");
			exits("read error while making temp file");
		} else if((write(inpfd, jobbuf, rv)) != rv) {
			error(0, "write error while making temp file\n");
			exits("write error while making temp file");
		}
		bsize += rv;
	} while (rv!=0);
	return(bsize);
}

int
tempfile(void)
{
	static int tindx = 0;
	char tmpf[20];
	int tmpfd;

	sprint(tmpf, "/var/tmp/lp%d.%d", getpid(), tindx++);
	if((tmpfd=create(tmpf,

#ifdef plan9

						ORDWR|OTRUNC,

#endif

												0666)) < 0) {
		error(0, "cannot create temp file %s\n", tmpf);
		exits("cannot create temp file");
	}
	close(tmpfd);
	if((tmpfd=open(tmpf, ORDWR

#ifdef plan9

						|ORCLOSE|OTRUNC

#endif

									)) < 0) {
		error(0, "cannot open temp file %s\n", tmpf);
		exits("cannot open temp file");
	}
	return(tmpfd);
}

int
recvACK(int netfd)
{
	int rv;

	*jobbuf = '\0';
	alarm(RDNETIMEOUT);
	if (read(netfd, jobbuf, 1)!=1 || *jobbuf!='\0') {
		error(0, "failed to receive ACK, ");
		if (*jobbuf == '\0')
			error(1, "read failed\n");
		else
			error(1, "received <0x%x> instead\n", *jobbuf);
		rv = 0;
	} else rv = 1;
	alarm(0);
	return(rv);
}

void
main(int argc, char *argv[])
{
	char *devdir;
	int i, rv, netfd, bsize;
	int datafd;

#ifndef plan9

	void (*oldhandler)();

#endif

	devdir = nil;
	/* make connection */
	if (argc != 2) {
		fprint(stderr, "usage: %s network!destination!service\n", argv[0]);
		exits("incorrect number of arguments");
	}

	/* read options line from stdin into lnbuf */
	i = readline(0);

	/* read stdin into tempfile to get size */
	datafd = tempfile();
	bsize = prereadfile(datafd);

	/* network connection is opened after data is in to avoid timeout */
	if ((netfd=dial(argv[1], 0, 0, 0)) < 0) {
		fprint(stderr, "dialing %s\n", devdir);
		perror("dial");
		exits("can't dial");
	}

	/* write out the options we read above */
	if (write(netfd, lnbuf, i) != i) {
		error(0, "write error while sending options\n");
		exits("write error while sending options");
	}

	/* send the size of the file to be sent */
	sprint(lnbuf, "%d\n", bsize);
	i = strlen(lnbuf);
	if ((rv=write(netfd, lnbuf, i)) != i) {
		perror("write error while sending size");
		error(0, "write returned %d\n", rv);
		exits("write error while sending size");
	}

	if (seek(datafd, 0L, 0) < 0) {
		error(0, "error seeking temp file\n");
		exits("seek error");
	}
	/* mirror performance in readfile() in lpdaemon */

#ifdef plan9

	atnotify(alarmhandler, 1);

#else

	oldhandler = signal(SIGALRM, alarmhandler);

#endif

	dbgstate = 1;
	if(!recvACK(netfd)) {
		error(0, "failed to receive ACK before sending data\n");
		exits("recv ack1 failed");
	}
	dbgstate = 2;
	if ((i=pass(datafd, netfd, bsize)) != 0) {
		NAK(netfd);
		error(0, "failed to send %d bytes\n", i);
		exits("send data failed");
	}
	ACK(netfd);
	dbgstate = 3;
	if(!recvACK(netfd)) {
		error(0, "failed to receive ACK after sending data\n");
		exits("recv ack2 failed");
	}

	/* get response, as from lp -q */
	dbgstate = 4;
	while((rv=read(netfd, jobbuf, RDSIZE)) > 0) {
		if((write(1, jobbuf, rv)) != rv) {
			error(0, "write error while sending to stdout\n");
			exits("write error while sending to stdout");
		}
	}
	dbgstate = 5;

#ifdef plan9

	atnotify(alarmhandler, 0);
	/* close down network connections and go away */
	exits("");

#else

	signal(SIGALRM, oldhandler);
	exit(0);

#endif

}