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findcmd.c
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findcmd.c
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/* findcmd.c -- Functions to search for commands by name. */
/* Copyright (C) 1997-2020 Free Software Foundation, Inc.
This file is part of GNU Bash, the Bourne Again SHell.
Bash 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 3 of the License, or
(at your option) any later version.
Bash 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 Bash. If not, see <http://www.gnu.org/licenses/>.
*/
#include "config.h"
#include <stdio.h>
#include "chartypes.h"
#include "bashtypes.h"
#if !defined (_MINIX) && defined (HAVE_SYS_FILE_H)
# include <sys/file.h>
#endif
#include "filecntl.h"
#include "posixstat.h"
#if defined (HAVE_UNISTD_H)
# include <unistd.h>
#endif
#include <errno.h>
#include "bashansi.h"
#include "memalloc.h"
#include "shell.h"
#include "execute_cmd.h"
#include "flags.h"
#include "hashlib.h"
#include "pathexp.h"
#include "hashcmd.h"
#include "findcmd.h" /* matching prototypes and declarations */
#include <glob/strmatch.h>
#if !defined (errno)
extern int errno;
#endif
/* Static functions defined and used in this file. */
static char *_find_user_command_internal PARAMS((const char *, int));
static char *find_user_command_internal PARAMS((const char *, int));
static char *find_user_command_in_path PARAMS((const char *, char *, int));
static char *find_in_path_element PARAMS((const char *, char *, int, int, struct stat *));
static char *find_absolute_program PARAMS((const char *, int));
static char *get_next_path_element PARAMS((char *, int *));
/* The file name which we would try to execute, except that it isn't
possible to execute it. This is the first file that matches the
name that we are looking for while we are searching $PATH for a
suitable one to execute. If we cannot find a suitable executable
file, then we use this one. */
static char *file_to_lose_on;
/* Non-zero if we should stat every command found in the hash table to
make sure it still exists. */
int check_hashed_filenames = CHECKHASH_DEFAULT;
/* DOT_FOUND_IN_SEARCH becomes non-zero when find_user_command ()
encounters a `.' as the directory pathname while scanning the
list of possible pathnames; i.e., if `.' comes before the directory
containing the file of interest. */
int dot_found_in_search = 0;
/* Set up EXECIGNORE; a blacklist of patterns that executable files should not
match. */
static struct ignorevar execignore =
{
"EXECIGNORE",
NULL,
0,
NULL,
NULL
};
void
setup_exec_ignore (varname)
char *varname;
{
setup_ignore_patterns (&execignore);
}
static int
exec_name_should_ignore (name)
const char *name;
{
struct ign *p;
for (p = execignore.ignores; p && p->val; p++)
if (strmatch (p->val, (char *)name, FNMATCH_EXTFLAG|FNM_CASEFOLD) != FNM_NOMATCH)
return 1;
return 0;
}
/* Return some flags based on information about this file.
The EXISTS bit is non-zero if the file is found.
The EXECABLE bit is non-zero the file is executble.
Zero is returned if the file is not found. */
int
file_status (name)
const char *name;
{
struct stat finfo;
int r;
/* Determine whether this file exists or not. */
if (stat (name, &finfo) < 0)
return (0);
/* If the file is a directory, then it is not "executable" in the
sense of the shell. */
if (S_ISDIR (finfo.st_mode))
return (FS_EXISTS|FS_DIRECTORY);
r = FS_EXISTS;
#if defined (HAVE_EACCESS)
/* Use eaccess(2) if we have it to take things like ACLs and other
file access mechanisms into account. eaccess uses the effective
user and group IDs, not the real ones. We could use sh_eaccess,
but we don't want any special treatment for /dev/fd. */
if (exec_name_should_ignore (name) == 0 && eaccess (name, X_OK) == 0)
r |= FS_EXECABLE;
if (eaccess (name, R_OK) == 0)
r |= FS_READABLE;
return r;
#elif defined (AFS)
/* We have to use access(2) to determine access because AFS does not
support Unix file system semantics. This may produce wrong
answers for non-AFS files when ruid != euid. I hate AFS. */
if (exec_name_should_ignore (name) == 0 && access (name, X_OK) == 0)
r |= FS_EXECABLE;
if (access (name, R_OK) == 0)
r |= FS_READABLE;
return r;
#else /* !HAVE_EACCESS && !AFS */
/* Find out if the file is actually executable. By definition, the
only other criteria is that the file has an execute bit set that
we can use. The same with whether or not a file is readable. */
/* Root only requires execute permission for any of owner, group or
others to be able to exec a file, and can read any file. */
if (current_user.euid == (uid_t)0)
{
r |= FS_READABLE;
if (exec_name_should_ignore (name) == 0 && (finfo.st_mode & S_IXUGO))
r |= FS_EXECABLE;
return r;
}
/* If we are the owner of the file, the owner bits apply. */
if (current_user.euid == finfo.st_uid)
{
if (exec_name_should_ignore (name) == 0 && (finfo.st_mode & S_IXUSR))
r |= FS_EXECABLE;
if (finfo.st_mode & S_IRUSR)
r |= FS_READABLE;
}
/* If we are in the owning group, the group permissions apply. */
else if (group_member (finfo.st_gid))
{
if (exec_name_should_ignore (name) == 0 && (finfo.st_mode & S_IXGRP))
r |= FS_EXECABLE;
if (finfo.st_mode & S_IRGRP)
r |= FS_READABLE;
}
/* Else we check whether `others' have permission to execute the file */
else
{
if (exec_name_should_ignore (name) == 0 && finfo.st_mode & S_IXOTH)
r |= FS_EXECABLE;
if (finfo.st_mode & S_IROTH)
r |= FS_READABLE;
}
return r;
#endif /* !AFS */
}
/* Return non-zero if FILE exists and is executable.
Note that this function is the definition of what an
executable file is; do not change this unless YOU know
what an executable file is. */
int
executable_file (file)
const char *file;
{
int s;
s = file_status (file);
#if defined (EISDIR)
if (s & FS_DIRECTORY)
errno = EISDIR; /* let's see if we can improve error messages */
#endif
return ((s & FS_EXECABLE) && ((s & FS_DIRECTORY) == 0));
}
int
is_directory (file)
const char *file;
{
return (file_status (file) & FS_DIRECTORY);
}
int
executable_or_directory (file)
const char *file;
{
int s;
s = file_status (file);
return ((s & FS_EXECABLE) || (s & FS_DIRECTORY));
}
/* Locate the executable file referenced by NAME, searching along
the contents of the shell PATH variable. Return a new string
which is the full pathname to the file, or NULL if the file
couldn't be found. If a file is found that isn't executable,
and that is the only match, then return that. */
char *
find_user_command (name)
const char *name;
{
return (find_user_command_internal (name, FS_EXEC_PREFERRED|FS_NODIRS));
}
/* Locate the file referenced by NAME, searching along the contents
of the shell PATH variable. Return a new string which is the full
pathname to the file, or NULL if the file couldn't be found. This
returns the first readable file found; designed to be used to look
for shell scripts or files to source. */
char *
find_path_file (name)
const char *name;
{
return (find_user_command_internal (name, FS_READABLE));
}
static char *
_find_user_command_internal (name, flags)
const char *name;
int flags;
{
char *path_list, *cmd;
SHELL_VAR *var;
/* Search for the value of PATH in both the temporary environments and
in the regular list of variables. */
if (var = find_variable_tempenv ("PATH")) /* XXX could be array? */
path_list = value_cell (var);
else
path_list = (char *)NULL;
if (path_list == 0 || *path_list == '\0')
return (savestring (name));
cmd = find_user_command_in_path (name, path_list, flags);
return (cmd);
}
static char *
find_user_command_internal (name, flags)
const char *name;
int flags;
{
#ifdef __WIN32__
char *res, *dotexe;
dotexe = (char *)xmalloc (strlen (name) + 5);
strcpy (dotexe, name);
strcat (dotexe, ".exe");
res = _find_user_command_internal (dotexe, flags);
free (dotexe);
if (res == 0)
res = _find_user_command_internal (name, flags);
return res;
#else
return (_find_user_command_internal (name, flags));
#endif
}
/* Return the next element from PATH_LIST, a colon separated list of
paths. PATH_INDEX_POINTER is the address of an index into PATH_LIST;
the index is modified by this function.
Return the next element of PATH_LIST or NULL if there are no more. */
static char *
get_next_path_element (path_list, path_index_pointer)
char *path_list;
int *path_index_pointer;
{
char *path;
path = extract_colon_unit (path_list, path_index_pointer);
if (path == 0)
return (path);
if (*path == '\0')
{
free (path);
path = savestring (".");
}
return (path);
}
/* Look for PATHNAME in $PATH. Returns either the hashed command
corresponding to PATHNAME or the first instance of PATHNAME found
in $PATH. If (FLAGS&CMDSRCH_HASH) is non-zero, insert the instance of
PATHNAME found in $PATH into the command hash table. If (FLAGS&CMDSRCH_STDPATH)
is non-zero, we are running in a `command -p' environment and should use
the Posix standard path.
Returns a newly-allocated string. */
char *
search_for_command (pathname, flags)
const char *pathname;
int flags;
{
char *hashed_file, *command, *path_list;
int temp_path, st;
SHELL_VAR *path;
hashed_file = command = (char *)NULL;
/* If PATH is in the temporary environment for this command, don't use the
hash table to search for the full pathname. */
path = find_variable_tempenv ("PATH");
temp_path = path && tempvar_p (path);
/* Don't waste time trying to find hashed data for a pathname
that is already completely specified or if we're using a command-
specific value for PATH. */
if (temp_path == 0 && absolute_program (pathname) == 0)
hashed_file = phash_search (pathname);
/* If a command found in the hash table no longer exists, we need to
look for it in $PATH. Thank you Posix.2. This forces us to stat
every command found in the hash table. */
if (hashed_file && (posixly_correct || check_hashed_filenames))
{
st = file_status (hashed_file);
if ((st & (FS_EXISTS|FS_EXECABLE)) != (FS_EXISTS|FS_EXECABLE))
{
phash_remove (pathname);
free (hashed_file);
hashed_file = (char *)NULL;
}
}
if (hashed_file)
command = hashed_file;
else if (absolute_program (pathname))
/* A command containing a slash is not looked up in PATH or saved in
the hash table. */
command = savestring (pathname);
else
{
if (flags & CMDSRCH_STDPATH)
path_list = conf_standard_path ();
else if (temp_path || path)
path_list = value_cell (path);
else
path_list = 0;
command = find_user_command_in_path (pathname, path_list, FS_EXEC_PREFERRED|FS_NODIRS);
if (command && hashing_enabled && temp_path == 0 && (flags & CMDSRCH_HASH))
{
/* If we found the full pathname the same as the command name, the
command probably doesn't exist. Don't put it into the hash
table. */
if (STREQ (command, pathname))
{
st = file_status (command);
if (st & FS_EXECABLE)
phash_insert ((char *)pathname, command, dot_found_in_search, 1);
}
/* If we're in posix mode, don't add files without the execute bit
to the hash table. */
else if (posixly_correct)
{
st = file_status (command);
if (st & FS_EXECABLE)
phash_insert ((char *)pathname, command, dot_found_in_search, 1);
}
else
phash_insert ((char *)pathname, command, dot_found_in_search, 1);
}
if (flags & CMDSRCH_STDPATH)
free (path_list);
}
return (command);
}
char *
user_command_matches (name, flags, state)
const char *name;
int flags, state;
{
register int i;
int path_index, name_len;
char *path_list, *path_element, *match;
struct stat dotinfo;
static char **match_list = NULL;
static int match_list_size = 0;
static int match_index = 0;
if (state == 0)
{
/* Create the list of matches. */
if (match_list == 0)
{
match_list_size = 5;
match_list = strvec_create (match_list_size);
}
/* Clear out the old match list. */
for (i = 0; i < match_list_size; i++)
match_list[i] = 0;
/* We haven't found any files yet. */
match_index = 0;
if (absolute_program (name))
{
match_list[0] = find_absolute_program (name, flags);
match_list[1] = (char *)NULL;
path_list = (char *)NULL;
}
else
{
name_len = strlen (name);
file_to_lose_on = (char *)NULL;
dot_found_in_search = 0;
if (stat (".", &dotinfo) < 0)
dotinfo.st_dev = dotinfo.st_ino = 0; /* so same_file won't match */
path_list = get_string_value ("PATH");
path_index = 0;
}
while (path_list && path_list[path_index])
{
path_element = get_next_path_element (path_list, &path_index);
if (path_element == 0)
break;
match = find_in_path_element (name, path_element, flags, name_len, &dotinfo);
free (path_element);
if (match == 0)
continue;
if (match_index + 1 == match_list_size)
{
match_list_size += 10;
match_list = strvec_resize (match_list, (match_list_size + 1));
}
match_list[match_index++] = match;
match_list[match_index] = (char *)NULL;
FREE (file_to_lose_on);
file_to_lose_on = (char *)NULL;
}
/* We haven't returned any strings yet. */
match_index = 0;
}
match = match_list[match_index];
if (match)
match_index++;
return (match);
}
static char *
find_absolute_program (name, flags)
const char *name;
int flags;
{
int st;
st = file_status (name);
/* If the file doesn't exist, quit now. */
if ((st & FS_EXISTS) == 0)
return ((char *)NULL);
/* If we only care about whether the file exists or not, return
this filename. Otherwise, maybe we care about whether this
file is executable. If it is, and that is what we want, return it. */
if ((flags & FS_EXISTS) || ((flags & FS_EXEC_ONLY) && (st & FS_EXECABLE)))
return (savestring (name));
return (NULL);
}
static char *
find_in_path_element (name, path, flags, name_len, dotinfop)
const char *name;
char *path;
int flags, name_len;
struct stat *dotinfop;
{
int status;
char *full_path, *xpath;
xpath = (posixly_correct == 0 && *path == '~') ? bash_tilde_expand (path, 0) : path;
/* Remember the location of "." in the path, in all its forms
(as long as they begin with a `.', e.g. `./.') */
if (dot_found_in_search == 0 && *xpath == '.')
dot_found_in_search = same_file (".", xpath, dotinfop, (struct stat *)NULL);
full_path = sh_makepath (xpath, name, 0);
status = file_status (full_path);
if (xpath != path)
free (xpath);
if ((status & FS_EXISTS) == 0)
{
free (full_path);
return ((char *)NULL);
}
/* The file exists. If the caller simply wants the first file, here it is. */
if (flags & FS_EXISTS)
return (full_path);
/* If we have a readable file, and the caller wants a readable file, this
is it. */
if ((flags & FS_READABLE) && (status & FS_READABLE))
return (full_path);
/* If the file is executable, then it satisfies the cases of
EXEC_ONLY and EXEC_PREFERRED. Return this file unconditionally. */
if ((status & FS_EXECABLE) && (flags & (FS_EXEC_ONLY|FS_EXEC_PREFERRED)) &&
(((flags & FS_NODIRS) == 0) || ((status & FS_DIRECTORY) == 0)))
{
FREE (file_to_lose_on);
file_to_lose_on = (char *)NULL;
return (full_path);
}
/* The file is not executable, but it does exist. If we prefer
an executable, then remember this one if it is the first one
we have found. */
if ((flags & FS_EXEC_PREFERRED) && file_to_lose_on == 0 && exec_name_should_ignore (full_path) == 0)
file_to_lose_on = savestring (full_path);
/* If we want only executable files, or we don't want directories and
this file is a directory, or we want a readable file and this file
isn't readable, fail. */
if ((flags & (FS_EXEC_ONLY|FS_EXEC_PREFERRED)) ||
((flags & FS_NODIRS) && (status & FS_DIRECTORY)) ||
((flags & FS_READABLE) && (status & FS_READABLE) == 0))
{
free (full_path);
return ((char *)NULL);
}
else
return (full_path);
}
/* This does the dirty work for find_user_command_internal () and
user_command_matches ().
NAME is the name of the file to search for.
PATH_LIST is a colon separated list of directories to search.
FLAGS contains bit fields which control the files which are eligible.
Some values are:
FS_EXEC_ONLY: The file must be an executable to be found.
FS_EXEC_PREFERRED: If we can't find an executable, then the
the first file matching NAME will do.
FS_EXISTS: The first file found will do.
FS_NODIRS: Don't find any directories.
*/
static char *
find_user_command_in_path (name, path_list, flags)
const char *name;
char *path_list;
int flags;
{
char *full_path, *path;
int path_index, name_len;
struct stat dotinfo;
/* We haven't started looking, so we certainly haven't seen
a `.' as the directory path yet. */
dot_found_in_search = 0;
if (absolute_program (name))
{
full_path = find_absolute_program (name, flags);
return (full_path);
}
if (path_list == 0 || *path_list == '\0')
return (savestring (name)); /* XXX */
file_to_lose_on = (char *)NULL;
name_len = strlen (name);
if (stat (".", &dotinfo) < 0)
dotinfo.st_dev = dotinfo.st_ino = 0;
path_index = 0;
while (path_list[path_index])
{
/* Allow the user to interrupt out of a lengthy path search. */
QUIT;
path = get_next_path_element (path_list, &path_index);
if (path == 0)
break;
/* Side effects: sets dot_found_in_search, possibly sets
file_to_lose_on. */
full_path = find_in_path_element (name, path, flags, name_len, &dotinfo);
free (path);
/* This should really be in find_in_path_element, but there isn't the
right combination of flags. */
if (full_path && is_directory (full_path))
{
free (full_path);
continue;
}
if (full_path)
{
FREE (file_to_lose_on);
return (full_path);
}
}
/* We didn't find exactly what the user was looking for. Return
the contents of FILE_TO_LOSE_ON which is NULL when the search
required an executable, or non-NULL if a file was found and the
search would accept a non-executable as a last resort. If the
caller specified FS_NODIRS, and file_to_lose_on is a directory,
return NULL. */
if (file_to_lose_on && (flags & FS_NODIRS) && is_directory (file_to_lose_on))
{
free (file_to_lose_on);
file_to_lose_on = (char *)NULL;
}
return (file_to_lose_on);
}
/* External interface to find a command given a $PATH. Separate from
find_user_command_in_path to allow future customization. */
char *
find_in_path (name, path_list, flags)
const char *name;
char *path_list;
int flags;
{
return (find_user_command_in_path (name, path_list, flags));
}