dpkg-1.16.1.1/dpkg-deb/build.c - nest-learning-thermostat/5.1.6/dpkg - Git at Google

 /*
  * dpkg-deb - construction and deconstruction of *.deb archives
  * build.c - building archives
  *
  * Copyright © 1994,1995 Ian Jackson <ian@chiark.greenend.org.uk>
  * Copyright © 2000,2001 Wichert Akkerman <wakkerma@debian.org>
  *
  * This is free software; you can redistribute it and/or modify
  * it under the terms of the GNU General Public License as published by
  * the Free Software Foundation; either version 2 of the License, or
  * (at your option) any later version.
  *
  * This is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * along with this program.  If not, see <http://www.gnu.org/licenses/>.
  */

 #include <config.h>
 #include <compat.h>

 #include <sys/types.h>
 #include <sys/stat.h>
 #include <sys/wait.h>

 #include <errno.h>
 #include <limits.h>
 #include <ctype.h>
 #include <string.h>
 #include <dirent.h>
 #include <fcntl.h>
 #include <unistd.h>
 #include <stdbool.h>
 #include <stdint.h>
 #include <stdlib.h>
 #include <stdio.h>

 #include <dpkg/i18n.h>
 #include <dpkg/dpkg.h>
 #include <dpkg/dpkg-db.h>
 #include <dpkg/path.h>
 #include <dpkg/varbuf.h>
 #include <dpkg/fdio.h>
 #include <dpkg/buffer.h>
 #include <dpkg/subproc.h>
 #include <dpkg/compress.h>
 #include <dpkg/ar.h>
 #include <dpkg/options.h>

 #include "dpkg-deb.h"

 /**
  * Simple structure to store information about a file.
  */
 struct file_info {
   struct file_info *next;
   struct stat	st;
   char*	fn;
 };

 static struct file_info *
 file_info_new(const char *filename)
 {
   struct file_info *fi;

   fi = m_malloc(sizeof(*fi));
   fi->fn = m_strdup(filename);
   fi->next = NULL;

   return fi;
 }

 static void
 file_info_free(struct file_info *fi)
 {
   free(fi->fn);
   free(fi);
 }

 static struct file_info *
 file_info_find_name(struct file_info *list, const char *filename)
 {
   struct file_info *node;

   for (node = list; node; node = node->next)
     if (strcmp(node->fn, filename) == 0)
       return node;

   return NULL;
 }

 /**
  * Read a filename from the file descriptor and create a file_info struct.
  *
  * @return A file_info struct or NULL if there is nothing to read.
  */
 static struct file_info *
 file_info_get(const char *root, int fd)
 {
   static struct varbuf fn = VARBUF_INIT;
   struct file_info *fi;
   size_t root_len;

   varbuf_reset(&fn);
   root_len = varbuf_printf(&fn, "%s/", root);

   while (1) {
     int	res;

     varbuf_grow(&fn, 1);
     res = fd_read(fd, (fn.buf + fn.used), 1);
     if (res < 0)
       return NULL;
     if (res == 0) /* EOF -> parent died. */
       return NULL;
     if (fn.buf[fn.used] == '\0')
       break;

     varbuf_trunc(&fn, fn.used + 1);
     if (fn.used >= MAXFILENAME)
       ohshit(_("file name '%.50s...' is too long"), fn.buf + root_len);
   }

   fi = file_info_new(fn.buf + root_len);
   if (lstat(fn.buf, &(fi->st)) != 0)
     ohshite(_("unable to stat file name '%.250s'"), fn.buf);

   return fi;
 }

 /**
  * Add a new file_info struct to a single linked list of file_info structs.
  *
  * We perform a slight optimization to work around a ‘feature’ in tar: tar
  * always recurses into subdirectories if you list a subdirectory. So if an
  * entry is added and the previous entry in the list is its subdirectory we
  * remove the subdirectory.
  *
  * After a file_info struct is added to a list it may no longer be freed, we
  * assume full responsibility for its memory.
  */
 static void
 file_info_list_append(struct file_info **head, struct file_info **tail,
                       struct file_info *fi)
 {
   if (*head == NULL)
     *head = *tail = fi;
   else
     *tail = (*tail)->next =fi;
 }

 /**
  * Free the memory for all entries in a list of file_info structs.
  */
 static void
 file_info_list_free(struct file_info *fi)
 {
   while (fi) {
     struct file_info *fl;

     fl=fi; fi=fi->next;
     file_info_free(fl);
   }
 }

 static const char *const maintainerscripts[] = {
   PREINSTFILE,
   POSTINSTFILE,
   PRERMFILE,
   POSTRMFILE,
   NULL,
 };

 /**
  * Check control directory and file permissions.
  */
 static void
 check_file_perms(const char *dir)
 {
   struct varbuf path = VARBUF_INIT;
   const char *const *mscriptp;
   struct stat mscriptstab;

   varbuf_printf(&path, "%s/%s/", dir, BUILDCONTROLDIR);
   if (lstat(path.buf, &mscriptstab))
     ohshite(_("unable to stat control directory"));
   if (!S_ISDIR(mscriptstab.st_mode))
     ohshit(_("control directory is not a directory"));
   if ((mscriptstab.st_mode & 07757) != 0755)
     ohshit(_("control directory has bad permissions %03lo "
              "(must be >=0755 and <=0775)"),
            (unsigned long)(mscriptstab.st_mode & 07777));

   for (mscriptp = maintainerscripts; *mscriptp; mscriptp++) {
     varbuf_reset(&path);
     varbuf_printf(&path, "%s/%s/%s", dir, BUILDCONTROLDIR, *mscriptp);
     if (!lstat(path.buf, &mscriptstab)) {
       if (S_ISLNK(mscriptstab.st_mode))
         continue;
       if (!S_ISREG(mscriptstab.st_mode))
         ohshit(_("maintainer script `%.50s' is not a plain file or symlink"),
                *mscriptp);
       if ((mscriptstab.st_mode & 07557) != 0555)
         ohshit(_("maintainer script `%.50s' has bad permissions %03lo "
                  "(must be >=0555 and <=0775)"),
                *mscriptp, (unsigned long)(mscriptstab.st_mode & 07777));
     } else if (errno != ENOENT) {
       ohshite(_("maintainer script `%.50s' is not stattable"), *mscriptp);
     }
   }

   varbuf_destroy(&path);
 }

 /**
  * Check if conffiles contains sane information.
  */
 static void
 check_conffiles(const char *dir)
 {
   FILE *cf;
   struct varbuf controlfile = VARBUF_INIT;
   char conffilename[MAXCONFFILENAME + 1];
   struct file_info *conffiles_head = NULL;
   struct file_info *conffiles_tail = NULL;

   varbuf_printf(&controlfile, "%s/%s/%s", dir, BUILDCONTROLDIR, CONFFILESFILE);

   cf = fopen(controlfile.buf, "r");
   if (cf == NULL) {
     if (errno == ENOENT)
       return;

     ohshite(_("error opening conffiles file"));
   }

   while (fgets(conffilename, MAXCONFFILENAME + 1, cf)) {
     struct stat controlstab;
     int n;

     n = strlen(conffilename);
     if (!n)
       ohshite(_("empty string from fgets reading conffiles"));

     if (conffilename[n - 1] != '\n') {
       int c;

       warning(_("conffile name '%.50s...' is too long, or missing final newline"),
               conffilename);
       while ((c = getc(cf)) != EOF && c != '\n');

       continue;
     }

     conffilename[n - 1] = '\0';
     varbuf_reset(&controlfile);
     varbuf_printf(&controlfile, "%s/%s", dir, conffilename);
     if (lstat(controlfile.buf, &controlstab)) {
       if (errno == ENOENT) {
         if ((n > 1) && isspace(conffilename[n - 2]))
           warning(_("conffile filename '%s' contains trailing white spaces"),
                   conffilename);
         ohshit(_("conffile `%.250s' does not appear in package"), conffilename);
       } else
         ohshite(_("conffile `%.250s' is not stattable"), conffilename);
     } else if (!S_ISREG(controlstab.st_mode)) {
       warning(_("conffile '%s' is not a plain file"), conffilename);
     }

     if (file_info_find_name(conffiles_head, conffilename)) {
       warning(_("conffile name '%s' is duplicated"), conffilename);
     } else {
       struct file_info *conffile;

       conffile = file_info_new(conffilename);
       file_info_list_append(&conffiles_head, &conffiles_tail, conffile);
     }
   }

   file_info_list_free(conffiles_head);
   varbuf_destroy(&controlfile);

   if (ferror(cf))
     ohshite(_("error reading conffiles file"));
   fclose(cf);
 }

 static const char *arbitrary_fields[] = {
   "Built-Using",
   "Package-Type",
   "Subarchitecture",
   "Kernel-Version",
   "Installer-Menu-Item",
   "Homepage",
   "Tag",
   NULL
 };

 static const char private_prefix[] = "Private-";

 static bool
 known_arbitrary_field(const struct arbitraryfield *field)
 {
   const char **known;

   /* Always accept fields starting with a private field prefix. */
   if (strncasecmp(field->name, private_prefix, strlen(private_prefix)) == 0)
     return true;

   for (known = arbitrary_fields; *known; known++)
     if (strcasecmp(field->name, *known) == 0)
       return true;

   return false;
 }

 /**
  * Perform some sanity checks on the to-be-built package.
  *
  * @return The pkginfo struct from the parsed control file.
  */
 static struct pkginfo *
 check_new_pkg(const char *dir)
 {
   struct pkginfo *pkg;
   struct arbitraryfield *field;
   char *controlfile;
   int warns;

   /* Start by reading in the control file so we can check its contents. */
   m_asprintf(&controlfile, "%s/%s/%s", dir, BUILDCONTROLDIR, CONTROLFILE);
   parsedb(controlfile, pdb_recordavailable | pdb_rejectstatus, &pkg);

   if (strspn(pkg->name, "abcdefghijklmnopqrstuvwxyz0123456789+-.") !=
       strlen(pkg->name))
     ohshit(_("package name has characters that aren't lowercase alphanums or `-+.'"));
   if (pkg->priority == pri_other)
     warning(_("'%s' contains user-defined Priority value '%s'"),
             controlfile, pkg->otherpriority);
   for (field = pkg->available.arbs; field; field = field->next) {
     if (known_arbitrary_field(field))
       continue;

     warning(_("'%s' contains user-defined field '%s'"), controlfile,
             field->name);
   }

   free(controlfile);

   check_file_perms(dir);
   check_conffiles(dir);

   warns = warning_get_count();
   if (warns)
     warning(P_("ignoring %d warning about the control file(s)\n",
                "ignoring %d warnings about the control file(s)\n", warns),
             warns);

   return pkg;
 }

 /**
  * Generate the pathname for the to-be-built package.
  *
  * @return The pathname for the package being built.
  */
 static char *
 pkg_get_pathname(const char *dir, struct pkginfo *pkg)
 {
   char *path;
   const char *versionstring, *arch_sep;

   versionstring = versiondescribe(&pkg->available.version, vdew_never);
   arch_sep = pkg->available.arch[0] == '\0' ? "" : "_";
   m_asprintf(&path, "%s/%s_%s%s%s%s", dir, pkg->name, versionstring,
              arch_sep, pkg->available.arch, DEBEXT);

   return path;
 }

 /**
  * Overly complex function that builds a .deb file.
  */
 int
 do_build(const char *const *argv)
 {
   const char *debar, *dir;
   bool subdir;
   char *tfbuf;
   int arfd;
   int p1[2], p2[2], p3[2], gzfd;
   pid_t c1,c2,c3;
   struct file_info *fi;
   struct file_info *symlist = NULL;
   struct file_info *symlist_end = NULL;

   /* Decode our arguments. */
   dir = *argv++;
   if (!dir)
     badusage(_("--%s needs a <directory> argument"), cipaction->olong);
   subdir = false;
   debar = *argv++;
   if (debar != NULL) {
     struct stat debarstab;

     if (*argv) badusage(_("--build takes at most two arguments"));

     if (stat(debar, &debarstab)) {
       if (errno != ENOENT)
         ohshite(_("unable to check for existence of archive `%.250s'"), debar);
     } else if (S_ISDIR(debarstab.st_mode)) {
       subdir = true;
     }
   } else {
     char *m;

     m= m_malloc(strlen(dir) + sizeof(DEBEXT));
     strcpy(m, dir);
     path_trim_slash_slashdot(m);
     strcat(m, DEBEXT);
     debar= m;
   }

   /* Perform some sanity checks on the to-be-build package. */
   if (nocheckflag) {
     if (subdir)
       ohshit(_("target is directory - cannot skip control file check"));
     warning(_("not checking contents of control area."));
     printf(_("dpkg-deb: building an unknown package in '%s'.\n"), debar);
   } else {
     struct pkginfo *pkg;

     pkg = check_new_pkg(dir);
     if (subdir)
       debar = pkg_get_pathname(debar, pkg);
     printf(_("dpkg-deb: building package `%s' in `%s'.\n"), pkg->name, debar);
   }
   m_output(stdout, _("<standard output>"));

   /* Now that we have verified everything its time to actually
    * build something. Let's start by making the ar-wrapper. */
   arfd = creat(debar, 0644);
   if (arfd < 0)
     ohshite(_("unable to create `%.255s'"), debar);
   /* Fork a tar to package the control-section of the package. */
   unsetenv("TAR_OPTIONS");
   m_pipe(p1);
   c1 = subproc_fork();
   if (!c1) {
     m_dup2(p1[1],1); close(p1[0]); close(p1[1]);
     if (chdir(dir))
       ohshite(_("failed to chdir to `%.255s'"), dir);
     if (chdir(BUILDCONTROLDIR))
       ohshite(_("failed to chdir to `%.255s'"), ".../DEBIAN");
     execlp(TAR, "tar", "-cf", "-", "--format=gnu", ".", NULL);
     ohshite(_("unable to execute %s (%s)"), "tar -cf", TAR);
   }
   close(p1[1]);
   /* Create a temporary file to store the control data in. Immediately
    * unlink our temporary file so others can't mess with it. */
   tfbuf = path_make_temp_template("dpkg-deb");
   gzfd = mkstemp(tfbuf);
   if (gzfd == -1)
     ohshite(_("failed to make temporary file (%s)"), _("control member"));
   /* Make sure it's gone, the fd will remain until we close it. */
   if (unlink(tfbuf))
     ohshit(_("failed to unlink temporary file (%s), %s"), _("control member"),
            tfbuf);
   free(tfbuf);

   /* And run gzip to compress our control archive. */
   c2 = subproc_fork();
   if (!c2) {
     compress_filter(&compressor_gzip, p1[0], gzfd, 9, _("control member"));
     exit(0);
   }
   close(p1[0]);
   subproc_wait_check(c2, "gzip -9c", 0);
   subproc_wait_check(c1, "tar -cf", 0);

   if (lseek(gzfd, 0, SEEK_SET))
     ohshite(_("failed to rewind temporary file (%s)"), _("control member"));

   /* We have our first file for the ar-archive. Write a header for it
    * to the package and insert it. */
   if (oldformatflag) {
     struct stat controlstab;
     char versionbuf[40];

     if (fstat(gzfd, &controlstab))
       ohshite(_("failed to stat temporary file (%s)"), _("control member"));
     sprintf(versionbuf, "%-8s\n%jd\n", OLDARCHIVEVERSION,
             (intmax_t)controlstab.st_size);
     if (fd_write(arfd, versionbuf, strlen(versionbuf)) < 0)
       ohshite(_("error writing `%s'"), debar);
     fd_fd_copy(gzfd, arfd, -1, _("control member"));
   } else {
     const char deb_magic[] = ARCHIVEVERSION "\n";

     dpkg_ar_put_magic(debar, arfd);
     dpkg_ar_member_put_mem(debar, arfd, DEBMAGIC, deb_magic, strlen(deb_magic));
     dpkg_ar_member_put_file(debar, arfd, ADMINMEMBER, gzfd, -1);
   }
   close(gzfd);

   /* Control is done, now we need to archive the data. */
   if (oldformatflag) {
     /* In old format, the data member is just concatenated after the
      * control member, so we do not need a temporary file and can use
      * the compression file descriptor. */
     gzfd = arfd;
   } else {
     /* Start by creating a new temporary file. Immediately unlink the
      * temporary file so others can't mess with it. */
     tfbuf = path_make_temp_template("dpkg-deb");
     gzfd = mkstemp(tfbuf);
     if (gzfd == -1)
       ohshite(_("failed to make temporary file (%s)"), _("data member"));
     /* Make sure it's gone, the fd will remain until we close it. */
     if (unlink(tfbuf))
       ohshit(_("failed to unlink temporary file (%s), %s"), _("data member"),
              tfbuf);
     free(tfbuf);
   }
   /* Fork off a tar. We will feed it a list of filenames on stdin later. */
   m_pipe(p1);
   m_pipe(p2);
   c1 = subproc_fork();
   if (!c1) {
     m_dup2(p1[0],0); close(p1[0]); close(p1[1]);
     m_dup2(p2[1],1); close(p2[0]); close(p2[1]);
     if (chdir(dir))
       ohshite(_("failed to chdir to `%.255s'"), dir);
     execlp(TAR, "tar", "-cf", "-", "--format=gnu", "--null", "-T", "-", "--no-recursion", NULL);
     ohshite(_("unable to execute %s (%s)"), "tar -cf", TAR);
   }
   close(p1[0]);
   close(p2[1]);
   /* Of course we should not forget to compress the archive as well. */
   c2 = subproc_fork();
   if (!c2) {
     close(p1[1]);
     compress_filter(compressor, p2[0], gzfd, compress_level, _("data member"));
     exit(0);
   }
   close(p2[0]);

   /* All the pipes are set, now lets run find, and start feeding
    * filenames to tar. */
   m_pipe(p3);
   c3 = subproc_fork();
   if (!c3) {
     m_dup2(p3[1],1); close(p3[0]); close(p3[1]);
     if (chdir(dir))
       ohshite(_("failed to chdir to `%.255s'"), dir);
     execlp(FIND, "find", ".", "-path", "./" BUILDCONTROLDIR, "-prune", "-o",
            "-print0", NULL);
     ohshite(_("unable to execute %s (%s)"), "find", FIND);
   }
   close(p3[1]);
   /* We need to reorder the files so we can make sure that symlinks
    * will not appear before their target. */
   while ((fi = file_info_get(dir, p3[0])) != NULL)
     if (S_ISLNK(fi->st.st_mode))
       file_info_list_append(&symlist, &symlist_end, fi);
     else {
       if (fd_write(p1[1], fi->fn, strlen(fi->fn) + 1) < 0)
         ohshite(_("failed to write filename to tar pipe (%s)"),
                 _("data member"));
       file_info_free(fi);
     }
   close(p3[0]);
   subproc_wait_check(c3, "find", 0);

   for (fi= symlist;fi;fi= fi->next)
     if (fd_write(p1[1], fi->fn, strlen(fi->fn) + 1) < 0)
       ohshite(_("failed to write filename to tar pipe (%s)"), _("data member"));
   /* All done, clean up wait for tar and gzip to finish their job. */
   close(p1[1]);
   file_info_list_free(symlist);
   subproc_wait_check(c2, _("<compress> from tar -cf"), 0);
   subproc_wait_check(c1, "tar -cf", 0);
   /* Okay, we have data.tar as well now, add it to the ar wrapper. */
   if (!oldformatflag) {
     char datamember[16 + 1];

     sprintf(datamember, "%s%s", DATAMEMBER, compressor->extension);

     if (lseek(gzfd, 0, SEEK_SET))
       ohshite(_("failed to rewind temporary file (%s)"), _("data member"));

     dpkg_ar_member_put_file(debar, arfd, datamember, gzfd, -1);
   }
   if (fsync(arfd))
     ohshite(_("unable to sync file '%s'"), debar);
   if (close(arfd))
     ohshite(_("unable to close file '%s'"), debar);

   return 0;
 }
	/*
	* dpkg-deb - construction and deconstruction of *.deb archives
	* build.c - building archives
	*
	* Copyright © 1994,1995 Ian Jackson <ian@chiark.greenend.org.uk>
	* Copyright © 2000,2001 Wichert Akkerman <wakkerma@debian.org>
	*
	* This is free software; you can redistribute it and/or modify
	* it under the terms of the GNU General Public License as published by
	* the Free Software Foundation; either version 2 of the License, or
	* (at your option) any later version.
	*
	* This is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* GNU General Public License for more details.
	*
	* You should have received a copy of the GNU General Public License
	* along with this program. If not, see <http://www.gnu.org/licenses/>.
	*/

	#include <config.h>
	#include <compat.h>

	#include <sys/types.h>
	#include <sys/stat.h>
	#include <sys/wait.h>

	#include <errno.h>
	#include <limits.h>
	#include <ctype.h>
	#include <string.h>
	#include <dirent.h>
	#include <fcntl.h>
	#include <unistd.h>
	#include <stdbool.h>
	#include <stdint.h>
	#include <stdlib.h>
	#include <stdio.h>

	#include <dpkg/i18n.h>
	#include <dpkg/dpkg.h>
	#include <dpkg/dpkg-db.h>
	#include <dpkg/path.h>
	#include <dpkg/varbuf.h>
	#include <dpkg/fdio.h>
	#include <dpkg/buffer.h>
	#include <dpkg/subproc.h>
	#include <dpkg/compress.h>
	#include <dpkg/ar.h>
	#include <dpkg/options.h>

	#include "dpkg-deb.h"

	/**
	* Simple structure to store information about a file.
	*/
	struct file_info {
	struct file_info *next;
	struct stat st;
	char* fn;
	};

	static struct file_info *
	file_info_new(const char *filename)
	{
	struct file_info *fi;

	fi = m_malloc(sizeof(*fi));
	fi->fn = m_strdup(filename);
	fi->next = NULL;

	return fi;
	}

	static void
	file_info_free(struct file_info *fi)
	{
	free(fi->fn);
	free(fi);
	}

	static struct file_info *
	file_info_find_name(struct file_info list, const char filename)
	{
	struct file_info *node;

	for (node = list; node; node = node->next)
	if (strcmp(node->fn, filename) == 0)
	return node;

	return NULL;
	}

	/**
	* Read a filename from the file descriptor and create a file_info struct.
	*
	* @return A file_info struct or NULL if there is nothing to read.
	*/
	static struct file_info *
	file_info_get(const char *root, int fd)
	{
	static struct varbuf fn = VARBUF_INIT;
	struct file_info *fi;
	size_t root_len;

	varbuf_reset(&fn);
	root_len = varbuf_printf(&fn, "%s/", root);

	while (1) {
	int res;

	varbuf_grow(&fn, 1);
	res = fd_read(fd, (fn.buf + fn.used), 1);
	if (res < 0)
	return NULL;
	if (res == 0) /* EOF -> parent died. */
	return NULL;
	if (fn.buf[fn.used] == '\0')
	break;

	varbuf_trunc(&fn, fn.used + 1);
	if (fn.used >= MAXFILENAME)
	ohshit(_("file name '%.50s...' is too long"), fn.buf + root_len);
	}

	fi = file_info_new(fn.buf + root_len);
	if (lstat(fn.buf, &(fi->st)) != 0)
	ohshite(_("unable to stat file name '%.250s'"), fn.buf);

	return fi;
	}

	/**
	* Add a new file_info struct to a single linked list of file_info structs.
	*
	* We perform a slight optimization to work around a ‘feature’ in tar: tar
	* always recurses into subdirectories if you list a subdirectory. So if an
	* entry is added and the previous entry in the list is its subdirectory we
	* remove the subdirectory.
	*
	* After a file_info struct is added to a list it may no longer be freed, we
	* assume full responsibility for its memory.
	*/
	static void
	file_info_list_append(struct file_info head, struct file_info tail,
	struct file_info *fi)
	{
	if (*head == NULL)
	head = tail = fi;
	else
	tail = (tail)->next =fi;
	}

	/**
	* Free the memory for all entries in a list of file_info structs.
	*/
	static void
	file_info_list_free(struct file_info *fi)
	{
	while (fi) {
	struct file_info *fl;

	fl=fi; fi=fi->next;
	file_info_free(fl);
	}
	}

	static const char *const maintainerscripts[] = {
	PREINSTFILE,
	POSTINSTFILE,
	PRERMFILE,
	POSTRMFILE,
	NULL,
	};

	/**
	* Check control directory and file permissions.
	*/
	static void
	check_file_perms(const char *dir)
	{
	struct varbuf path = VARBUF_INIT;
	const char const mscriptp;
	struct stat mscriptstab;

	varbuf_printf(&path, "%s/%s/", dir, BUILDCONTROLDIR);
	if (lstat(path.buf, &mscriptstab))
	ohshite(_("unable to stat control directory"));
	if (!S_ISDIR(mscriptstab.st_mode))
	ohshit(_("control directory is not a directory"));
	if ((mscriptstab.st_mode & 07757) != 0755)
	ohshit(_("control directory has bad permissions %03lo "
	"(must be >=0755 and <=0775)"),
	(unsigned long)(mscriptstab.st_mode & 07777));

	for (mscriptp = maintainerscripts; *mscriptp; mscriptp++) {
	varbuf_reset(&path);
	varbuf_printf(&path, "%s/%s/%s", dir, BUILDCONTROLDIR, *mscriptp);
	if (!lstat(path.buf, &mscriptstab)) {
	if (S_ISLNK(mscriptstab.st_mode))
	continue;
	if (!S_ISREG(mscriptstab.st_mode))
	ohshit(_("maintainer script `%.50s' is not a plain file or symlink"),
	*mscriptp);
	if ((mscriptstab.st_mode & 07557) != 0555)
	ohshit(_("maintainer script `%.50s' has bad permissions %03lo "
	"(must be >=0555 and <=0775)"),
	*mscriptp, (unsigned long)(mscriptstab.st_mode & 07777));
	} else if (errno != ENOENT) {
	ohshite(_("maintainer script `%.50s' is not stattable"), *mscriptp);
	}
	}

	varbuf_destroy(&path);
	}

	/**
	* Check if conffiles contains sane information.
	*/
	static void
	check_conffiles(const char *dir)
	{
	FILE *cf;
	struct varbuf controlfile = VARBUF_INIT;
	char conffilename[MAXCONFFILENAME + 1];
	struct file_info *conffiles_head = NULL;
	struct file_info *conffiles_tail = NULL;

	varbuf_printf(&controlfile, "%s/%s/%s", dir, BUILDCONTROLDIR, CONFFILESFILE);

	cf = fopen(controlfile.buf, "r");
	if (cf == NULL) {
	if (errno == ENOENT)
	return;

	ohshite(_("error opening conffiles file"));
	}

	while (fgets(conffilename, MAXCONFFILENAME + 1, cf)) {
	struct stat controlstab;
	int n;

	n = strlen(conffilename);
	if (!n)
	ohshite(_("empty string from fgets reading conffiles"));

	if (conffilename[n - 1] != '\n') {
	int c;

	warning(_("conffile name '%.50s...' is too long, or missing final newline"),
	conffilename);
	while ((c = getc(cf)) != EOF && c != '\n');

	continue;
	}

	conffilename[n - 1] = '\0';
	varbuf_reset(&controlfile);
	varbuf_printf(&controlfile, "%s/%s", dir, conffilename);
	if (lstat(controlfile.buf, &controlstab)) {
	if (errno == ENOENT) {
	if ((n > 1) && isspace(conffilename[n - 2]))
	warning(_("conffile filename '%s' contains trailing white spaces"),
	conffilename);
	ohshit(_("conffile `%.250s' does not appear in package"), conffilename);
	} else
	ohshite(_("conffile `%.250s' is not stattable"), conffilename);
	} else if (!S_ISREG(controlstab.st_mode)) {
	warning(_("conffile '%s' is not a plain file"), conffilename);
	}

	if (file_info_find_name(conffiles_head, conffilename)) {
	warning(_("conffile name '%s' is duplicated"), conffilename);
	} else {
	struct file_info *conffile;

	conffile = file_info_new(conffilename);
	file_info_list_append(&conffiles_head, &conffiles_tail, conffile);
	}
	}

	file_info_list_free(conffiles_head);
	varbuf_destroy(&controlfile);

	if (ferror(cf))
	ohshite(_("error reading conffiles file"));
	fclose(cf);
	}

	static const char *arbitrary_fields[] = {
	"Built-Using",
	"Package-Type",
	"Subarchitecture",
	"Kernel-Version",
	"Installer-Menu-Item",
	"Homepage",
	"Tag",
	NULL
	};

	static const char private_prefix[] = "Private-";

	static bool
	known_arbitrary_field(const struct arbitraryfield *field)
	{
	const char **known;

	/* Always accept fields starting with a private field prefix. */
	if (strncasecmp(field->name, private_prefix, strlen(private_prefix)) == 0)
	return true;

	for (known = arbitrary_fields; *known; known++)
	if (strcasecmp(field->name, *known) == 0)
	return true;

	return false;
	}

	/**
	* Perform some sanity checks on the to-be-built package.
	*
	* @return The pkginfo struct from the parsed control file.
	*/
	static struct pkginfo *
	check_new_pkg(const char *dir)
	{
	struct pkginfo *pkg;
	struct arbitraryfield *field;
	char *controlfile;
	int warns;

	/* Start by reading in the control file so we can check its contents. */
	m_asprintf(&controlfile, "%s/%s/%s", dir, BUILDCONTROLDIR, CONTROLFILE);
	parsedb(controlfile, pdb_recordavailable \| pdb_rejectstatus, &pkg);

	if (strspn(pkg->name, "abcdefghijklmnopqrstuvwxyz0123456789+-.") !=
	strlen(pkg->name))
	ohshit(_("package name has characters that aren't lowercase alphanums or `-+.'"));
	if (pkg->priority == pri_other)
	warning(_("'%s' contains user-defined Priority value '%s'"),
	controlfile, pkg->otherpriority);
	for (field = pkg->available.arbs; field; field = field->next) {
	if (known_arbitrary_field(field))
	continue;

	warning(_("'%s' contains user-defined field '%s'"), controlfile,
	field->name);
	}

	free(controlfile);

	check_file_perms(dir);
	check_conffiles(dir);

	warns = warning_get_count();
	if (warns)
	warning(P_("ignoring %d warning about the control file(s)\n",
	"ignoring %d warnings about the control file(s)\n", warns),
	warns);

	return pkg;
	}

	/**
	* Generate the pathname for the to-be-built package.
	*
	* @return The pathname for the package being built.
	*/
	static char *
	pkg_get_pathname(const char dir, struct pkginfo pkg)
	{
	char *path;
	const char versionstring, arch_sep;

	versionstring = versiondescribe(&pkg->available.version, vdew_never);
	arch_sep = pkg->available.arch[0] == '\0' ? "" : "_";
	m_asprintf(&path, "%s/%s_%s%s%s%s", dir, pkg->name, versionstring,
	arch_sep, pkg->available.arch, DEBEXT);

	return path;
	}

	/**
	* Overly complex function that builds a .deb file.
	*/
	int
	do_build(const char const argv)
	{
	const char debar, dir;
	bool subdir;
	char *tfbuf;
	int arfd;
	int p1[2], p2[2], p3[2], gzfd;
	pid_t c1,c2,c3;
	struct file_info *fi;
	struct file_info *symlist = NULL;
	struct file_info *symlist_end = NULL;

	/* Decode our arguments. */
	dir = *argv++;
	if (!dir)
	badusage(_("--%s needs a <directory> argument"), cipaction->olong);
	subdir = false;
	debar = *argv++;
	if (debar != NULL) {
	struct stat debarstab;

	if (*argv) badusage(_("--build takes at most two arguments"));

	if (stat(debar, &debarstab)) {
	if (errno != ENOENT)
	ohshite(_("unable to check for existence of archive `%.250s'"), debar);
	} else if (S_ISDIR(debarstab.st_mode)) {
	subdir = true;
	}
	} else {
	char *m;

	m= m_malloc(strlen(dir) + sizeof(DEBEXT));
	strcpy(m, dir);
	path_trim_slash_slashdot(m);
	strcat(m, DEBEXT);
	debar= m;
	}

	/* Perform some sanity checks on the to-be-build package. */
	if (nocheckflag) {
	if (subdir)
	ohshit(_("target is directory - cannot skip control file check"));
	warning(_("not checking contents of control area."));
	printf(_("dpkg-deb: building an unknown package in '%s'.\n"), debar);
	} else {
	struct pkginfo *pkg;

	pkg = check_new_pkg(dir);
	if (subdir)
	debar = pkg_get_pathname(debar, pkg);
	printf(_("dpkg-deb: building package `%s' in `%s'.\n"), pkg->name, debar);
	}
	m_output(stdout, _("<standard output>"));

	/* Now that we have verified everything its time to actually
	* build something. Let's start by making the ar-wrapper. */
	arfd = creat(debar, 0644);
	if (arfd < 0)
	ohshite(_("unable to create `%.255s'"), debar);
	/* Fork a tar to package the control-section of the package. */
	unsetenv("TAR_OPTIONS");
	m_pipe(p1);
	c1 = subproc_fork();
	if (!c1) {
	m_dup2(p1[1],1); close(p1[0]); close(p1[1]);
	if (chdir(dir))
	ohshite(_("failed to chdir to `%.255s'"), dir);
	if (chdir(BUILDCONTROLDIR))
	ohshite(_("failed to chdir to `%.255s'"), ".../DEBIAN");
	execlp(TAR, "tar", "-cf", "-", "--format=gnu", ".", NULL);
	ohshite(_("unable to execute %s (%s)"), "tar -cf", TAR);
	}
	close(p1[1]);
	/* Create a temporary file to store the control data in. Immediately
	* unlink our temporary file so others can't mess with it. */
	tfbuf = path_make_temp_template("dpkg-deb");
	gzfd = mkstemp(tfbuf);
	if (gzfd == -1)
	ohshite(_("failed to make temporary file (%s)"), _("control member"));
	/* Make sure it's gone, the fd will remain until we close it. */
	if (unlink(tfbuf))
	ohshit(_("failed to unlink temporary file (%s), %s"), _("control member"),
	tfbuf);
	free(tfbuf);

	/* And run gzip to compress our control archive. */
	c2 = subproc_fork();
	if (!c2) {
	compress_filter(&compressor_gzip, p1[0], gzfd, 9, _("control member"));
	exit(0);
	}
	close(p1[0]);
	subproc_wait_check(c2, "gzip -9c", 0);
	subproc_wait_check(c1, "tar -cf", 0);

	if (lseek(gzfd, 0, SEEK_SET))
	ohshite(_("failed to rewind temporary file (%s)"), _("control member"));

	/* We have our first file for the ar-archive. Write a header for it
	* to the package and insert it. */
	if (oldformatflag) {
	struct stat controlstab;
	char versionbuf[40];

	if (fstat(gzfd, &controlstab))
	ohshite(_("failed to stat temporary file (%s)"), _("control member"));
	sprintf(versionbuf, "%-8s\n%jd\n", OLDARCHIVEVERSION,
	(intmax_t)controlstab.st_size);
	if (fd_write(arfd, versionbuf, strlen(versionbuf)) < 0)
	ohshite(_("error writing `%s'"), debar);
	fd_fd_copy(gzfd, arfd, -1, _("control member"));
	} else {
	const char deb_magic[] = ARCHIVEVERSION "\n";

	dpkg_ar_put_magic(debar, arfd);
	dpkg_ar_member_put_mem(debar, arfd, DEBMAGIC, deb_magic, strlen(deb_magic));
	dpkg_ar_member_put_file(debar, arfd, ADMINMEMBER, gzfd, -1);
	}
	close(gzfd);

	/* Control is done, now we need to archive the data. */
	if (oldformatflag) {
	/* In old format, the data member is just concatenated after the
	* control member, so we do not need a temporary file and can use
	* the compression file descriptor. */
	gzfd = arfd;
	} else {
	/* Start by creating a new temporary file. Immediately unlink the
	* temporary file so others can't mess with it. */
	tfbuf = path_make_temp_template("dpkg-deb");
	gzfd = mkstemp(tfbuf);
	if (gzfd == -1)
	ohshite(_("failed to make temporary file (%s)"), _("data member"));
	/* Make sure it's gone, the fd will remain until we close it. */
	if (unlink(tfbuf))
	ohshit(_("failed to unlink temporary file (%s), %s"), _("data member"),
	tfbuf);
	free(tfbuf);
	}
	/* Fork off a tar. We will feed it a list of filenames on stdin later. */
	m_pipe(p1);
	m_pipe(p2);
	c1 = subproc_fork();
	if (!c1) {
	m_dup2(p1[0],0); close(p1[0]); close(p1[1]);
	m_dup2(p2[1],1); close(p2[0]); close(p2[1]);
	if (chdir(dir))
	ohshite(_("failed to chdir to `%.255s'"), dir);
	execlp(TAR, "tar", "-cf", "-", "--format=gnu", "--null", "-T", "-", "--no-recursion", NULL);
	ohshite(_("unable to execute %s (%s)"), "tar -cf", TAR);
	}
	close(p1[0]);
	close(p2[1]);
	/* Of course we should not forget to compress the archive as well. */
	c2 = subproc_fork();
	if (!c2) {
	close(p1[1]);
	compress_filter(compressor, p2[0], gzfd, compress_level, _("data member"));
	exit(0);
	}
	close(p2[0]);

	/* All the pipes are set, now lets run find, and start feeding
	* filenames to tar. */
	m_pipe(p3);
	c3 = subproc_fork();
	if (!c3) {
	m_dup2(p3[1],1); close(p3[0]); close(p3[1]);
	if (chdir(dir))
	ohshite(_("failed to chdir to `%.255s'"), dir);
	execlp(FIND, "find", ".", "-path", "./" BUILDCONTROLDIR, "-prune", "-o",
	"-print0", NULL);
	ohshite(_("unable to execute %s (%s)"), "find", FIND);
	}
	close(p3[1]);
	/* We need to reorder the files so we can make sure that symlinks
	* will not appear before their target. */
	while ((fi = file_info_get(dir, p3[0])) != NULL)
	if (S_ISLNK(fi->st.st_mode))
	file_info_list_append(&symlist, &symlist_end, fi);
	else {
	if (fd_write(p1[1], fi->fn, strlen(fi->fn) + 1) < 0)
	ohshite(_("failed to write filename to tar pipe (%s)"),
	_("data member"));
	file_info_free(fi);
	}
	close(p3[0]);
	subproc_wait_check(c3, "find", 0);

	for (fi= symlist;fi;fi= fi->next)
	if (fd_write(p1[1], fi->fn, strlen(fi->fn) + 1) < 0)
	ohshite(_("failed to write filename to tar pipe (%s)"), _("data member"));
	/* All done, clean up wait for tar and gzip to finish their job. */
	close(p1[1]);
	file_info_list_free(symlist);
	subproc_wait_check(c2, _("<compress> from tar -cf"), 0);
	subproc_wait_check(c1, "tar -cf", 0);
	/* Okay, we have data.tar as well now, add it to the ar wrapper. */
	if (!oldformatflag) {
	char datamember[16 + 1];

	sprintf(datamember, "%s%s", DATAMEMBER, compressor->extension);

	if (lseek(gzfd, 0, SEEK_SET))
	ohshite(_("failed to rewind temporary file (%s)"), _("data member"));

	dpkg_ar_member_put_file(debar, arfd, datamember, gzfd, -1);
	}
	if (fsync(arfd))
	ohshite(_("unable to sync file '%s'"), debar);
	if (close(arfd))
	ohshite(_("unable to close file '%s'"), debar);

	return 0;
	}