scheduler/util.c - platform/external/libcups - Git at Google

 /*
  * Mini-daemon utility functions for CUPS.
  *
  * Copyright 2007-2014 by Apple Inc.
  * Copyright 1997-2005 by Easy Software Products.
  *
  * Licensed under Apache License v2.0.  See the file "LICENSE" for more information.
  */

 /*
  * Include necessary headers...
  */

 #include "util.h"
 #include <unistd.h>
 #include <sys/stat.h>
 #include <fcntl.h>
 #ifdef __APPLE__
 #  include <libgen.h>
 extern char **environ;
 #endif /* __APPLE__ */


 /*
  * 'cupsdCompareNames()' - Compare two names.
  *
  * This function basically does a _cups_strcasecmp() of the two strings,
  * but is also aware of numbers so that "a2" < "a100".
  */

 int					/* O - Result of comparison */
 cupsdCompareNames(const char *s,	/* I - First string */
                   const char *t)	/* I - Second string */
 {
   int		diff,			/* Difference between digits */
 		digits;			/* Number of digits */


  /*
   * Loop through both names, returning only when a difference is
   * seen.  Also, compare whole numbers rather than just characters, too!
   */

   while (*s && *t)
   {
     if (isdigit(*s & 255) && isdigit(*t & 255))
     {
      /*
       * Got a number; start by skipping leading 0's...
       */

       while (*s == '0')
         s ++;
       while (*t == '0')
         t ++;

      /*
       * Skip equal digits...
       */

       while (isdigit(*s & 255) && *s == *t)
       {
         s ++;
 	t ++;
       }

      /*
       * Bounce out if *s and *t aren't both digits...
       */

       if (isdigit(*s & 255) && !isdigit(*t & 255))
         return (1);
       else if (!isdigit(*s & 255) && isdigit(*t & 255))
         return (-1);
       else if (!isdigit(*s & 255) || !isdigit(*t & 255))
         continue;

       if (*s < *t)
         diff = -1;
       else
         diff = 1;

      /*
       * Figure out how many more digits there are...
       */

       digits = 0;
       s ++;
       t ++;

       while (isdigit(*s & 255))
       {
         digits ++;
 	s ++;
       }

       while (isdigit(*t & 255))
       {
         digits --;
 	t ++;
       }

      /*
       * Return if the number or value of the digits is different...
       */

       if (digits < 0)
         return (-1);
       else if (digits > 0)
         return (1);
       else if (diff)
         return (diff);
     }
     else if (tolower(*s) < tolower(*t))
       return (-1);
     else if (tolower(*s) > tolower(*t))
       return (1);
     else
     {
       s ++;
       t ++;
     }
   }

  /*
   * Return the results of the final comparison...
   */

   if (*s)
     return (1);
   else if (*t)
     return (-1);
   else
     return (0);
 }


 /*
  * 'cupsdCreateStringsArray()' - Create a CUPS array of strings.
  */

 cups_array_t *				/* O - CUPS array */
 cupsdCreateStringsArray(const char *s)	/* I - Comma-delimited strings */
 {
   if (!s || !*s)
     return (NULL);
   else
     return (_cupsArrayNewStrings(s, ','));
 }


 /*
  * 'cupsdExec()' - Run a program with the correct environment.
  *
  * On macOS, we need to update the CFProcessPath environment variable that
  * is passed in the environment so the child can access its bundled resources.
  */

 int					/* O - exec() status */
 cupsdExec(const char *command,		/* I - Full path to program */
           char       **argv)		/* I - Command-line arguments */
 {
 #ifdef __APPLE__
   int	i, j;				/* Looping vars */
   char	*envp[500],			/* Array of environment variables */
 	cfprocesspath[1024],		/* CFProcessPath environment variable */
 	linkpath[1024];			/* Link path for symlinks... */
   int	linkbytes;			/* Bytes for link path */


  /*
   * Some macOS programs are bundled and need the CFProcessPath environment
   * variable defined.  If the command is a symlink, resolve the link and point
   * to the resolved location, otherwise, use the command path itself.
   */

   if ((linkbytes = readlink(command, linkpath, sizeof(linkpath) - 1)) > 0)
   {
    /*
     * Yes, this is a symlink to the actual program, nul-terminate and
     * use it...
     */

     linkpath[linkbytes] = '\0';

     if (linkpath[0] == '/')
       snprintf(cfprocesspath, sizeof(cfprocesspath), "CFProcessPath=%s",
 	       linkpath);
     else
       snprintf(cfprocesspath, sizeof(cfprocesspath), "CFProcessPath=%s/%s",
 	       dirname((char *)command), linkpath);
   }
   else
     snprintf(cfprocesspath, sizeof(cfprocesspath), "CFProcessPath=%s", command);

   envp[0] = cfprocesspath;

  /*
   * Copy the rest of the environment except for any CFProcessPath that may
   * already be there...
   */

   for (i = 1, j = 0;
        environ[j] && i < (int)(sizeof(envp) / sizeof(envp[0]) - 1);
        j ++)
     if (strncmp(environ[j], "CFProcessPath=", 14))
       envp[i ++] = environ[j];

   envp[i] = NULL;

  /*
   * Use execve() to run the program...
   */

   return (execve(command, argv, envp));

 #else
  /*
   * On other operating systems, just call execv() to use the same environment
   * variables as the parent...
   */

   return (execv(command, argv));
 #endif /* __APPLE__ */
 }


 /*
  * 'cupsdPipeCommand()' - Read output from a command.
  */

 cups_file_t *				/* O - CUPS file or NULL on error */
 cupsdPipeCommand(int        *pid,	/* O - Process ID or 0 on error */
                  const char *command,	/* I - Command to run */
                  char       **argv,	/* I - Arguments to pass to command */
 		 uid_t      user)	/* I - User to run as or 0 for current */
 {
   int	fd,				/* Temporary file descriptor */
 	fds[2];				/* Pipe file descriptors */


  /*
   * First create the pipe...
   */

   if (pipe(fds))
   {
     *pid = 0;
     return (NULL);
   }

  /*
   * Set the "close on exec" flag on each end of the pipe...
   */

   if (fcntl(fds[0], F_SETFD, fcntl(fds[0], F_GETFD) | FD_CLOEXEC))
   {
     close(fds[0]);
     close(fds[1]);

     *pid = 0;

     return (NULL);
   }

   if (fcntl(fds[1], F_SETFD, fcntl(fds[1], F_GETFD) | FD_CLOEXEC))
   {
     close(fds[0]);
     close(fds[1]);

     *pid = 0;

     return (NULL);
   }

  /*
   * Then run the command...
   */

   if ((*pid = fork()) < 0)
   {
    /*
     * Unable to fork!
     */

     *pid = 0;
     close(fds[0]);
     close(fds[1]);

     return (NULL);
   }
   else if (!*pid)
   {
    /*
     * Child comes here...
     */

     if (!getuid() && user)
       setuid(user);			/* Run as restricted user */

     if ((fd = open("/dev/null", O_RDONLY)) > 0)
     {
       dup2(fd, 0);			/* </dev/null */
       close(fd);
     }

     dup2(fds[1], 1);			/* >pipe */
     close(fds[1]);

     cupsdExec(command, argv);
     exit(errno);
   }

  /*
   * Parent comes here, open the input side of the pipe...
   */

   close(fds[1]);

   return (cupsFileOpenFd(fds[0], "r"));
 }


 /*
  * 'cupsdSendIPPGroup()' - Send a group tag.
  */

 void
 cupsdSendIPPGroup(ipp_tag_t group_tag)	/* I - Group tag */
 {
  /*
   * Send IPP group tag (1 byte)...
   */

   putchar(group_tag);
 }


 /*
  * 'cupsdSendIPPHeader()' - Send the IPP response header.
  */

 void
 cupsdSendIPPHeader(
     ipp_status_t status_code,		/* I - Status code */
     int          request_id)		/* I - Request ID */
 {
  /*
   * Send IPP/1.1 response header: version number (2 bytes), status code
   * (2 bytes), and request ID (4 bytes)...
   *
   * TODO: Add version number (IPP/2.x and IPP/1.0) support.
   */

   putchar(1);
   putchar(1);

   putchar(status_code >> 8);
   putchar(status_code);

   putchar(request_id >> 24);
   putchar(request_id >> 16);
   putchar(request_id >> 8);
   putchar(request_id);
 }


 /*
  * 'cupsdSendIPPInteger()' - Send an integer attribute.
  */

 void
 cupsdSendIPPInteger(
     ipp_tag_t  value_tag,		/* I - Value tag */
     const char *name,			/* I - Attribute name */
     int        value)			/* I - Attribute value */
 {
   size_t	len;			/* Length of attribute name */


  /*
   * Send IPP integer value: value tag (1 byte), name length (2 bytes),
   * name string (without nul), value length (2 bytes), and value (4 bytes)...
   */

   putchar(value_tag);

   len = strlen(name);
   putchar((int)(len >> 8));
   putchar((int)len);

   fputs(name, stdout);

   putchar(0);
   putchar(4);

   putchar(value >> 24);
   putchar(value >> 16);
   putchar(value >> 8);
   putchar(value);
 }


 /*
  * 'cupsdSendIPPString()' - Send a string attribute.
  */

 void
 cupsdSendIPPString(
     ipp_tag_t  value_tag,		/* I - Value tag */
     const char *name,			/* I - Attribute name */
     const char *value)			/* I - Attribute value */
 {
   size_t	len;			/* Length of attribute name */


  /*
   * Send IPP string value: value tag (1 byte), name length (2 bytes),
   * name string (without nul), value length (2 bytes), and value string
   * (without nul)...
   */

   putchar(value_tag);

   len = strlen(name);
   putchar((int)(len >> 8));
   putchar((int)len);

   fputs(name, stdout);

   len = strlen(value);
   putchar((int)(len >> 8));
   putchar((int)len);

   fputs(value, stdout);
 }


 /*
  * 'cupsdSendIPPTrailer()' - Send the end-of-message tag.
  */

 void
 cupsdSendIPPTrailer(void)
 {
   putchar(IPP_TAG_END);
   fflush(stdout);
 }
	/*
	* Mini-daemon utility functions for CUPS.
	*
	* Copyright 2007-2014 by Apple Inc.
	* Copyright 1997-2005 by Easy Software Products.
	*
	* Licensed under Apache License v2.0. See the file "LICENSE" for more information.
	*/

	/*
	* Include necessary headers...
	*/

	#include "util.h"
	#include <unistd.h>
	#include <sys/stat.h>
	#include <fcntl.h>
	#ifdef __APPLE__
	# include <libgen.h>
	extern char **environ;
	#endif /* __APPLE__ */


	/*
	* 'cupsdCompareNames()' - Compare two names.
	*
	* This function basically does a _cups_strcasecmp() of the two strings,
	* but is also aware of numbers so that "a2" < "a100".
	*/

	int /* O - Result of comparison */
	cupsdCompareNames(const char s, / I - First string */
	const char t) / I - Second string */
	{
	int diff, /* Difference between digits */
	digits; /* Number of digits */


	/*
	* Loop through both names, returning only when a difference is
	* seen. Also, compare whole numbers rather than just characters, too!
	*/

	while (s && t)
	{
	if (isdigit(s & 255) && isdigit(t & 255))
	{
	/*
	* Got a number; start by skipping leading 0's...
	*/

	while (*s == '0')
	s ++;
	while (*t == '0')
	t ++;

	/*
	* Skip equal digits...
	*/

	while (isdigit(s & 255) && s == *t)
	{
	s ++;
	t ++;
	}

	/*
	* Bounce out if s and t aren't both digits...
	*/

	if (isdigit(s & 255) && !isdigit(t & 255))
	return (1);
	else if (!isdigit(s & 255) && isdigit(t & 255))
	return (-1);
	else if (!isdigit(s & 255) \|\| !isdigit(t & 255))
	continue;

	if (s < t)
	diff = -1;
	else
	diff = 1;

	/*
	* Figure out how many more digits there are...
	*/

	digits = 0;
	s ++;
	t ++;

	while (isdigit(*s & 255))
	{
	digits ++;
	s ++;
	}

	while (isdigit(*t & 255))
	{
	digits --;
	t ++;
	}

	/*
	* Return if the number or value of the digits is different...
	*/

	if (digits < 0)
	return (-1);
	else if (digits > 0)
	return (1);
	else if (diff)
	return (diff);
	}
	else if (tolower(s) < tolower(t))
	return (-1);
	else if (tolower(s) > tolower(t))
	return (1);
	else
	{
	s ++;
	t ++;
	}
	}

	/*
	* Return the results of the final comparison...
	*/

	if (*s)
	return (1);
	else if (*t)
	return (-1);
	else
	return (0);
	}


	/*
	* 'cupsdCreateStringsArray()' - Create a CUPS array of strings.
	*/

	cups_array_t * /* O - CUPS array */
	cupsdCreateStringsArray(const char s) / I - Comma-delimited strings */
	{
	if (!s \|\| !*s)
	return (NULL);
	else
	return (_cupsArrayNewStrings(s, ','));
	}


	/*
	* 'cupsdExec()' - Run a program with the correct environment.
	*
	* On macOS, we need to update the CFProcessPath environment variable that
	* is passed in the environment so the child can access its bundled resources.
	*/

	int /* O - exec() status */
	cupsdExec(const char command, / I - Full path to program */
	char *argv) / I - Command-line arguments */
	{
	#ifdef __APPLE__
	int i, j; /* Looping vars */
	char envp[500], / Array of environment variables */
	cfprocesspath[1024], /* CFProcessPath environment variable */
	linkpath[1024]; /* Link path for symlinks... */
	int linkbytes; /* Bytes for link path */


	/*
	* Some macOS programs are bundled and need the CFProcessPath environment
	* variable defined. If the command is a symlink, resolve the link and point
	* to the resolved location, otherwise, use the command path itself.
	*/

	if ((linkbytes = readlink(command, linkpath, sizeof(linkpath) - 1)) > 0)
	{
	/*
	* Yes, this is a symlink to the actual program, nul-terminate and
	* use it...
	*/

	linkpath[linkbytes] = '\0';

	if (linkpath[0] == '/')
	snprintf(cfprocesspath, sizeof(cfprocesspath), "CFProcessPath=%s",
	linkpath);
	else
	snprintf(cfprocesspath, sizeof(cfprocesspath), "CFProcessPath=%s/%s",
	dirname((char *)command), linkpath);
	}
	else
	snprintf(cfprocesspath, sizeof(cfprocesspath), "CFProcessPath=%s", command);

	envp[0] = cfprocesspath;

	/*
	* Copy the rest of the environment except for any CFProcessPath that may
	* already be there...
	*/

	for (i = 1, j = 0;
	environ[j] && i < (int)(sizeof(envp) / sizeof(envp[0]) - 1);
	j ++)
	if (strncmp(environ[j], "CFProcessPath=", 14))
	envp[i ++] = environ[j];

	envp[i] = NULL;

	/*
	* Use execve() to run the program...
	*/

	return (execve(command, argv, envp));

	#else
	/*
	* On other operating systems, just call execv() to use the same environment
	* variables as the parent...
	*/

	return (execv(command, argv));
	#endif /* __APPLE__ */
	}


	/*
	* 'cupsdPipeCommand()' - Read output from a command.
	*/

	cups_file_t * /* O - CUPS file or NULL on error */
	cupsdPipeCommand(int pid, / O - Process ID or 0 on error */
	const char command, / I - Command to run */
	char *argv, / I - Arguments to pass to command */
	uid_t user) /* I - User to run as or 0 for current */
	{
	int fd, /* Temporary file descriptor */
	fds[2]; /* Pipe file descriptors */


	/*
	* First create the pipe...
	*/

	if (pipe(fds))
	{
	*pid = 0;
	return (NULL);
	}

	/*
	* Set the "close on exec" flag on each end of the pipe...
	*/

	if (fcntl(fds[0], F_SETFD, fcntl(fds[0], F_GETFD) \| FD_CLOEXEC))
	{
	close(fds[0]);
	close(fds[1]);

	*pid = 0;

	return (NULL);
	}

	if (fcntl(fds[1], F_SETFD, fcntl(fds[1], F_GETFD) \| FD_CLOEXEC))
	{
	close(fds[0]);
	close(fds[1]);

	*pid = 0;

	return (NULL);
	}

	/*
	* Then run the command...
	*/

	if ((*pid = fork()) < 0)
	{
	/*
	* Unable to fork!
	*/

	*pid = 0;
	close(fds[0]);
	close(fds[1]);

	return (NULL);
	}
	else if (!*pid)
	{
	/*
	* Child comes here...
	*/

	if (!getuid() && user)
	setuid(user); /* Run as restricted user */

	if ((fd = open("/dev/null", O_RDONLY)) > 0)
	{
	dup2(fd, 0); /* </dev/null */
	close(fd);
	}

	dup2(fds[1], 1); /* >pipe */
	close(fds[1]);

	cupsdExec(command, argv);
	exit(errno);
	}

	/*
	* Parent comes here, open the input side of the pipe...
	*/

	close(fds[1]);

	return (cupsFileOpenFd(fds[0], "r"));
	}


	/*
	* 'cupsdSendIPPGroup()' - Send a group tag.
	*/

	void
	cupsdSendIPPGroup(ipp_tag_t group_tag) /* I - Group tag */
	{
	/*
	* Send IPP group tag (1 byte)...
	*/

	putchar(group_tag);
	}


	/*
	* 'cupsdSendIPPHeader()' - Send the IPP response header.
	*/

	void
	cupsdSendIPPHeader(
	ipp_status_t status_code, /* I - Status code */
	int request_id) /* I - Request ID */
	{
	/*
	* Send IPP/1.1 response header: version number (2 bytes), status code
	* (2 bytes), and request ID (4 bytes)...
	*
	* TODO: Add version number (IPP/2.x and IPP/1.0) support.
	*/

	putchar(1);
	putchar(1);

	putchar(status_code >> 8);
	putchar(status_code);

	putchar(request_id >> 24);
	putchar(request_id >> 16);
	putchar(request_id >> 8);
	putchar(request_id);
	}


	/*
	* 'cupsdSendIPPInteger()' - Send an integer attribute.
	*/

	void
	cupsdSendIPPInteger(
	ipp_tag_t value_tag, /* I - Value tag */
	const char name, / I - Attribute name */
	int value) /* I - Attribute value */
	{
	size_t len; /* Length of attribute name */


	/*
	* Send IPP integer value: value tag (1 byte), name length (2 bytes),
	* name string (without nul), value length (2 bytes), and value (4 bytes)...
	*/

	putchar(value_tag);

	len = strlen(name);
	putchar((int)(len >> 8));
	putchar((int)len);

	fputs(name, stdout);

	putchar(0);
	putchar(4);

	putchar(value >> 24);
	putchar(value >> 16);
	putchar(value >> 8);
	putchar(value);
	}


	/*
	* 'cupsdSendIPPString()' - Send a string attribute.
	*/

	void
	cupsdSendIPPString(
	ipp_tag_t value_tag, /* I - Value tag */
	const char name, / I - Attribute name */
	const char value) / I - Attribute value */
	{
	size_t len; /* Length of attribute name */


	/*
	* Send IPP string value: value tag (1 byte), name length (2 bytes),
	* name string (without nul), value length (2 bytes), and value string
	* (without nul)...
	*/

	putchar(value_tag);

	len = strlen(name);
	putchar((int)(len >> 8));
	putchar((int)len);

	fputs(name, stdout);

	len = strlen(value);
	putchar((int)(len >> 8));
	putchar((int)len);

	fputs(value, stdout);
	}


	/*
	* 'cupsdSendIPPTrailer()' - Send the end-of-message tag.
	*/

	void
	cupsdSendIPPTrailer(void)
	{
	putchar(IPP_TAG_END);
	fflush(stdout);
	}