printutils/lpd.c - busybox - Git at Google

 /* vi: set sw=4 ts=4: */
 /*
  * micro lpd
  *
  * Copyright (C) 2008 by Vladimir Dronnikov <dronnikov@gmail.com>
  *
  * Licensed under GPLv2, see file LICENSE in this source tree.
  */

 /*
  * A typical usage of BB lpd looks as follows:
  * # tcpsvd -E 0 515 lpd [SPOOLDIR] [HELPER-PROG [ARGS...]]
  *
  * This starts TCP listener on port 515 (default for LP protocol).
  * When a client connection is made (via lpr) lpd first changes its
  * working directory to SPOOLDIR (current dir is the default).
  *
  * SPOOLDIR is the spool directory which contains printing queues
  * and should have the following structure:
  *
  * SPOOLDIR/
  *      <queue1>
  *      ...
  *      <queueN>
  *
  * <queueX> can be of two types:
  *      A. a printer character device, an ordinary file or a link to such;
  *      B. a directory.
  *
  * In case A lpd just dumps the data it receives from client (lpr) to the
  * end of queue file/device. This is non-spooling mode.
  *
  * In case B lpd enters spooling mode. It reliably saves client data along
  * with control info in two unique files under the queue directory. These
  * files are named dfAXXXHHHH and cfAXXXHHHH, where XXX is the job number
  * and HHHH is the client hostname. Unless a printing helper application
  * is specified lpd is done at this point.
  *
  * NB: file names are produced by peer! They actually may be anything at all.
  * lpd only sanitizes them (by removing most non-alphanumerics).
  *
  * If HELPER-PROG (with optional arguments) is specified then lpd continues
  * to process client data:
  *      1. it reads and parses control file (cfA...). The parse process
  *      results in setting environment variables whose values were passed
  *      in control file; when parsing is complete, lpd deletes control file.
  *      2. it spawns specified helper application. It is then
  *      the helper application who is responsible for both actual printing
  *      and deleting of processed data file.
  *
  * A good lpr passes control files which when parsed provides the following
  * variables:
  * $H = host which issues the job
  * $P = user who prints
  * $C = class of printing (what is printed on banner page)
  * $J = the name of the job
  * $L = print banner page
  * $M = the user to whom a mail should be sent if a problem occurs
  *
  * We specifically filter out and NOT provide:
  * $l = name of datafile ("dfAxxx") - file whose content are to be printed
  *
  * lpd provides $DATAFILE instead - the ACTUAL name
  * of the datafile under which it was saved.
  * $l would be not reliable (you would be at mercy of remote peer).
  *
  * Thus, a typical helper can be something like this:
  * #!/bin/sh
  * cat ./"$DATAFILE" >/dev/lp0
  * mv -f ./"$DATAFILE" save/
  */

 //usage:#define lpd_trivial_usage
 //usage:       "SPOOLDIR [HELPER [ARGS]]"
 //usage:#define lpd_full_usage "\n\n"
 //usage:       "SPOOLDIR must contain (symlinks to) device nodes or directories"
 //usage:     "\nwith names matching print queue names. In the first case, jobs are"
 //usage:     "\nsent directly to the device. Otherwise each job is stored in queue"
 //usage:     "\ndirectory and HELPER program is called. Name of file to print"
 //usage:     "\nis passed in $DATAFILE variable."
 //usage:     "\nExample:"
 //usage:     "\n	tcpsvd -E 0 515 softlimit -m 999999 lpd /var/spool ./print"

 #include "libbb.h"

 // strip argument of bad chars
 static char *sane(char *str)
 {
 	char *s = str;
 	char *p = s;
 	while (*s) {
 		if (isalnum(*s) || '-' == *s || '_' == *s) {
 			*p++ = *s;
 		}
 		s++;
 	}
 	*p = '\0';
 	return str;
 }

 static char *xmalloc_read_stdin(void)
 {
 	// SECURITY:
 	size_t max = 4 * 1024; // more than enough for commands!
 	return xmalloc_reads(STDIN_FILENO, &max);
 }

 int lpd_main(int argc, char *argv[]) MAIN_EXTERNALLY_VISIBLE;
 int lpd_main(int argc UNUSED_PARAM, char *argv[])
 {
 	int spooling = spooling; // for compiler
 	char *s, *queue;
 	char *filenames[2];

 	// goto spool directory
 	if (*++argv)
 		xchdir(*argv++);

 	// error messages of xfuncs will be sent over network
 	xdup2(STDOUT_FILENO, STDERR_FILENO);

 	// nullify ctrl/data filenames
 	memset(filenames, 0, sizeof(filenames));

 	// read command
 	s = queue = xmalloc_read_stdin();
 	// we understand only "receive job" command
 	if (2 != *queue) {
  unsupported_cmd:
 		printf("Command %02x %s\n",
 			(unsigned char)s[0], "is not supported");
 		goto err_exit;
 	}

 	// parse command: "2 | QUEUE_NAME | '\n'"
 	queue++;
 	// protect against "/../" attacks
 	// *strchrnul(queue, '\n') = '\0'; - redundant, sane() will do
 	if (!*sane(queue))
 		return EXIT_FAILURE;

 	// queue is a directory -> chdir to it and enter spooling mode
 	spooling = chdir(queue) + 1; // 0: cannot chdir, 1: done
 	// we don't free(s), we might need "queue" var later

 	while (1) {
 		char *fname;
 		int fd;
 		// int is easier than ssize_t: can use xatoi_positive,
 		// and can correctly display error returns (-1)
 		int expected_len, real_len;

 		// signal OK
 		safe_write(STDOUT_FILENO, "", 1);

 		// get subcommand
 		// valid s must be of form: "SUBCMD | LEN | space | FNAME"
 		// N.B. we bail out on any error
 		s = xmalloc_read_stdin();
 		if (!s) { // (probably) EOF
 			char *p, *q, var[2];

 			// non-spooling mode or no spool helper specified
 			if (!spooling || !*argv)
 				return EXIT_SUCCESS; // the only non-error exit
 			// spooling mode but we didn't see both ctrlfile & datafile
 			if (spooling != 7)
 				goto err_exit; // reject job

 			// spooling mode and spool helper specified -> exec spool helper
 			// (we exit 127 if helper cannot be executed)
 			var[1] = '\0';
 			// read and delete ctrlfile
 			q = xmalloc_xopen_read_close(filenames[0], NULL);
 			unlink(filenames[0]);
 			// provide datafile name
 			// we can use leaky setenv since we are about to exec or exit
 			xsetenv("DATAFILE", filenames[1]);
 			// parse control file by "\n"
 			while ((p = strchr(q, '\n')) != NULL && isalpha(*q)) {
 				*p++ = '\0';
 				// q is a line of <SYM><VALUE>,
 				// we are setting environment string <SYM>=<VALUE>.
 				// Ignoring "l<datafile>", exporting others:
 				if (*q != 'l') {
 					var[0] = *q++;
 					xsetenv(var, q);
 				}
 				q = p; // next line
 			}
 			// helper should not talk over network.
 			// this call reopens stdio fds to "/dev/null"
 			// (no daemonization is done)
 			bb_daemonize_or_rexec(DAEMON_DEVNULL_STDIO | DAEMON_ONLY_SANITIZE, NULL);
 			BB_EXECVP_or_die(argv);
 		}

 		// validate input.
 		// we understand only "control file" or "data file" cmds
 		if (2 != s[0] && 3 != s[0])
 			goto unsupported_cmd;
 		if (spooling & (1 << (s[0]-1))) {
 			printf("Duplicated subcommand\n");
 			goto err_exit;
 		}
 		// get filename
 		*strchrnul(s, '\n') = '\0';
 		fname = strchr(s, ' ');
 		if (!fname) {
 // bad_fname:
 			printf("No or bad filename\n");
 			goto err_exit;
 		}
 		*fname++ = '\0';
 //		// s[0]==2: ctrlfile, must start with 'c'
 //		// s[0]==3: datafile, must start with 'd'
 //		if (fname[0] != s[0] + ('c'-2))
 //			goto bad_fname;
 		// get length
 		expected_len = bb_strtou(s + 1, NULL, 10);
 		if (errno || expected_len < 0) {
 			printf("Bad length\n");
 			goto err_exit;
 		}
 		if (2 == s[0] && expected_len > 16 * 1024) {
 			// SECURITY:
 			// ctrlfile can't be big (we want to read it back later!)
 			printf("File is too big\n");
 			goto err_exit;
 		}

 		// open the file
 		if (spooling) {
 			// spooling mode: dump both files
 			// job in flight has mode 0200 "only writable"
 			sane(fname);
 			fd = open3_or_warn(fname, O_CREAT | O_WRONLY | O_TRUNC | O_EXCL, 0200);
 			if (fd < 0)
 				goto err_exit;
 			filenames[s[0] - 2] = xstrdup(fname);
 		} else {
 			// non-spooling mode:
 			// 2: control file (ignoring), 3: data file
 			fd = -1;
 			if (3 == s[0])
 				fd = xopen(queue, O_RDWR | O_APPEND);
 		}

 		// signal OK
 		safe_write(STDOUT_FILENO, "", 1);

 		// copy the file
 		real_len = bb_copyfd_size(STDIN_FILENO, fd, expected_len);
 		if (real_len != expected_len) {
 			printf("Expected %d but got %d bytes\n",
 				expected_len, real_len);
 			goto err_exit;
 		}
 		// get EOF indicator, see whether it is NUL (ok)
 		// (and don't trash s[0]!)
 		if (safe_read(STDIN_FILENO, &s[1], 1) != 1 || s[1] != 0) {
 			// don't send error msg to peer - it obviously
 			// doesn't follow the protocol, so probably
 			// it can't understand us either
 			goto err_exit;
 		}

 		if (spooling) {
 			// chmod completely downloaded file as "readable+writable"
 			fchmod(fd, 0600);
 			// accumulate dump state
 			// N.B. after all files are dumped spooling should be 1+2+4==7
 			spooling |= (1 << (s[0]-1)); // bit 1: ctrlfile; bit 2: datafile
 		}

 		free(s);
 		close(fd); // NB: can do close(-1). Who cares?

 		// NB: don't do "signal OK" write here, it will be done
 		// at the top of the loop
 	} // while (1)

  err_exit:
 	// don't keep corrupted files
 	if (spooling) {
 #define i spooling
 		for (i = 2; --i >= 0; )
 			if (filenames[i])
 				unlink(filenames[i]);
 	}
 	return EXIT_FAILURE;
 }
	/* vi: set sw=4 ts=4: */
	/*
	* micro lpd
	*
	* Copyright (C) 2008 by Vladimir Dronnikov <dronnikov@gmail.com>
	*
	* Licensed under GPLv2, see file LICENSE in this source tree.
	*/

	/*
	* A typical usage of BB lpd looks as follows:
	* # tcpsvd -E 0 515 lpd [SPOOLDIR] [HELPER-PROG [ARGS...]]
	*
	* This starts TCP listener on port 515 (default for LP protocol).
	* When a client connection is made (via lpr) lpd first changes its
	* working directory to SPOOLDIR (current dir is the default).
	*
	* SPOOLDIR is the spool directory which contains printing queues
	* and should have the following structure:
	*
	* SPOOLDIR/
	* <queue1>
	* ...
	* <queueN>
	*
	* <queueX> can be of two types:
	* A. a printer character device, an ordinary file or a link to such;
	* B. a directory.
	*
	* In case A lpd just dumps the data it receives from client (lpr) to the
	* end of queue file/device. This is non-spooling mode.
	*
	* In case B lpd enters spooling mode. It reliably saves client data along
	* with control info in two unique files under the queue directory. These
	* files are named dfAXXXHHHH and cfAXXXHHHH, where XXX is the job number
	* and HHHH is the client hostname. Unless a printing helper application
	* is specified lpd is done at this point.
	*
	* NB: file names are produced by peer! They actually may be anything at all.
	* lpd only sanitizes them (by removing most non-alphanumerics).
	*
	* If HELPER-PROG (with optional arguments) is specified then lpd continues
	* to process client data:
	* 1. it reads and parses control file (cfA...). The parse process
	* results in setting environment variables whose values were passed
	* in control file; when parsing is complete, lpd deletes control file.
	* 2. it spawns specified helper application. It is then
	* the helper application who is responsible for both actual printing
	* and deleting of processed data file.
	*
	* A good lpr passes control files which when parsed provides the following
	* variables:
	* $H = host which issues the job
	* $P = user who prints
	* $C = class of printing (what is printed on banner page)
	* $J = the name of the job
	* $L = print banner page
	* $M = the user to whom a mail should be sent if a problem occurs
	*
	* We specifically filter out and NOT provide:
	* $l = name of datafile ("dfAxxx") - file whose content are to be printed
	*
	* lpd provides $DATAFILE instead - the ACTUAL name
	* of the datafile under which it was saved.
	* $l would be not reliable (you would be at mercy of remote peer).
	*
	* Thus, a typical helper can be something like this:
	* #!/bin/sh
	* cat ./"$DATAFILE" >/dev/lp0
	* mv -f ./"$DATAFILE" save/
	*/

	//usage:#define lpd_trivial_usage
	//usage: "SPOOLDIR [HELPER [ARGS]]"
	//usage:#define lpd_full_usage "\n\n"
	//usage: "SPOOLDIR must contain (symlinks to) device nodes or directories"
	//usage: "\nwith names matching print queue names. In the first case, jobs are"
	//usage: "\nsent directly to the device. Otherwise each job is stored in queue"
	//usage: "\ndirectory and HELPER program is called. Name of file to print"
	//usage: "\nis passed in $DATAFILE variable."
	//usage: "\nExample:"
	//usage: "\n tcpsvd -E 0 515 softlimit -m 999999 lpd /var/spool ./print"

	#include "libbb.h"

	// strip argument of bad chars
	static char sane(char str)
	{
	char *s = str;
	char *p = s;
	while (*s) {
	if (isalnum(s) \|\| '-' == s \|\| '_' == *s) {
	p++ = s;
	}
	s++;
	}
	*p = '\0';
	return str;
	}

	static char *xmalloc_read_stdin(void)
	{
	// SECURITY:
	size_t max = 4 * 1024; // more than enough for commands!
	return xmalloc_reads(STDIN_FILENO, &max);
	}

	int lpd_main(int argc, char *argv[]) MAIN_EXTERNALLY_VISIBLE;
	int lpd_main(int argc UNUSED_PARAM, char *argv[])
	{
	int spooling = spooling; // for compiler
	char s, queue;
	char *filenames[2];

	// goto spool directory
	if (*++argv)
	xchdir(*argv++);

	// error messages of xfuncs will be sent over network
	xdup2(STDOUT_FILENO, STDERR_FILENO);

	// nullify ctrl/data filenames
	memset(filenames, 0, sizeof(filenames));

	// read command
	s = queue = xmalloc_read_stdin();
	// we understand only "receive job" command
	if (2 != *queue) {
	unsupported_cmd:
	printf("Command %02x %s\n",
	(unsigned char)s[0], "is not supported");
	goto err_exit;
	}

	// parse command: "2 \| QUEUE_NAME \| '\n'"
	queue++;
	// protect against "/../" attacks
	// *strchrnul(queue, '\n') = '\0'; - redundant, sane() will do
	if (!*sane(queue))
	return EXIT_FAILURE;

	// queue is a directory -> chdir to it and enter spooling mode
	spooling = chdir(queue) + 1; // 0: cannot chdir, 1: done
	// we don't free(s), we might need "queue" var later

	while (1) {
	char *fname;
	int fd;
	// int is easier than ssize_t: can use xatoi_positive,
	// and can correctly display error returns (-1)
	int expected_len, real_len;

	// signal OK
	safe_write(STDOUT_FILENO, "", 1);

	// get subcommand
	// valid s must be of form: "SUBCMD \| LEN \| space \| FNAME"
	// N.B. we bail out on any error
	s = xmalloc_read_stdin();
	if (!s) { // (probably) EOF
	char p, q, var[2];

	// non-spooling mode or no spool helper specified
	if (!spooling \|\| !*argv)
	return EXIT_SUCCESS; // the only non-error exit
	// spooling mode but we didn't see both ctrlfile & datafile
	if (spooling != 7)
	goto err_exit; // reject job

	// spooling mode and spool helper specified -> exec spool helper
	// (we exit 127 if helper cannot be executed)
	var[1] = '\0';
	// read and delete ctrlfile
	q = xmalloc_xopen_read_close(filenames[0], NULL);
	unlink(filenames[0]);
	// provide datafile name
	// we can use leaky setenv since we are about to exec or exit
	xsetenv("DATAFILE", filenames[1]);
	// parse control file by "\n"
	while ((p = strchr(q, '\n')) != NULL && isalpha(*q)) {
	*p++ = '\0';
	// q is a line of <SYM><VALUE>,
	// we are setting environment string <SYM>=<VALUE>.
	// Ignoring "l<datafile>", exporting others:
	if (*q != 'l') {
	var[0] = *q++;
	xsetenv(var, q);
	}
	q = p; // next line
	}
	// helper should not talk over network.
	// this call reopens stdio fds to "/dev/null"
	// (no daemonization is done)
	bb_daemonize_or_rexec(DAEMON_DEVNULL_STDIO \| DAEMON_ONLY_SANITIZE, NULL);
	BB_EXECVP_or_die(argv);
	}

	// validate input.
	// we understand only "control file" or "data file" cmds
	if (2 != s[0] && 3 != s[0])
	goto unsupported_cmd;
	if (spooling & (1 << (s[0]-1))) {
	printf("Duplicated subcommand\n");
	goto err_exit;
	}
	// get filename
	*strchrnul(s, '\n') = '\0';
	fname = strchr(s, ' ');
	if (!fname) {
	// bad_fname:
	printf("No or bad filename\n");
	goto err_exit;
	}
	*fname++ = '\0';
	// // s[0]==2: ctrlfile, must start with 'c'
	// // s[0]==3: datafile, must start with 'd'
	// if (fname[0] != s[0] + ('c'-2))
	// goto bad_fname;
	// get length
	expected_len = bb_strtou(s + 1, NULL, 10);
	if (errno \|\| expected_len < 0) {
	printf("Bad length\n");
	goto err_exit;
	}
	if (2 == s[0] && expected_len > 16 * 1024) {
	// SECURITY:
	// ctrlfile can't be big (we want to read it back later!)
	printf("File is too big\n");
	goto err_exit;
	}

	// open the file
	if (spooling) {
	// spooling mode: dump both files
	// job in flight has mode 0200 "only writable"
	sane(fname);
	fd = open3_or_warn(fname, O_CREAT \| O_WRONLY \| O_TRUNC \| O_EXCL, 0200);
	if (fd < 0)
	goto err_exit;
	filenames[s[0] - 2] = xstrdup(fname);
	} else {
	// non-spooling mode:
	// 2: control file (ignoring), 3: data file
	fd = -1;
	if (3 == s[0])
	fd = xopen(queue, O_RDWR \| O_APPEND);
	}

	// signal OK
	safe_write(STDOUT_FILENO, "", 1);

	// copy the file
	real_len = bb_copyfd_size(STDIN_FILENO, fd, expected_len);
	if (real_len != expected_len) {
	printf("Expected %d but got %d bytes\n",
	expected_len, real_len);
	goto err_exit;
	}
	// get EOF indicator, see whether it is NUL (ok)
	// (and don't trash s[0]!)
	if (safe_read(STDIN_FILENO, &s[1], 1) != 1 \|\| s[1] != 0) {
	// don't send error msg to peer - it obviously
	// doesn't follow the protocol, so probably
	// it can't understand us either
	goto err_exit;
	}

	if (spooling) {
	// chmod completely downloaded file as "readable+writable"
	fchmod(fd, 0600);
	// accumulate dump state
	// N.B. after all files are dumped spooling should be 1+2+4==7
	spooling \|= (1 << (s[0]-1)); // bit 1: ctrlfile; bit 2: datafile
	}

	free(s);
	close(fd); // NB: can do close(-1). Who cares?

	// NB: don't do "signal OK" write here, it will be done
	// at the top of the loop
	} // while (1)

	err_exit:
	// don't keep corrupted files
	if (spooling) {
	#define i spooling
	for (i = 2; --i >= 0; )
	if (filenames[i])
	unlink(filenames[i]);
	}
	return EXIT_FAILURE;
	}