/* core functions for copying files and directories
Copyright (C) 89, 90, 91, 1995-2008 Free Software Foundation, Inc.
This program 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.
This program 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 . */
/* Extracted from cp.c and librarified by Jim Meyering. */
#ifndef COPY_H
# define COPY_H
# include
# include "hash.h"
/* Control creation of sparse files (files with holes). */
enum Sparse_type
{
SPARSE_UNUSED,
/* Never create holes in DEST. */
SPARSE_NEVER,
/* This is the default. Use a crude (and sometimes inaccurate)
heuristic to determine if SOURCE has holes. If so, try to create
holes in DEST. */
SPARSE_AUTO,
/* For every sufficiently long sequence of bytes in SOURCE, try to
create a corresponding hole in DEST. There is a performance penalty
here because CP has to search for holes in SRC. But if the holes are
big enough, that penalty can be offset by the decrease in the amount
of data written to disk. */
SPARSE_ALWAYS
};
/* This type is used to help mv (via copy.c) distinguish these cases. */
enum Interactive
{
I_ALWAYS_YES = 1,
I_ALWAYS_NO,
I_ASK_USER,
I_UNSPECIFIED
};
/* How to handle symbolic links. */
enum Dereference_symlink
{
DEREF_UNDEFINED = 1,
/* Copy the symbolic link itself. -P */
DEREF_NEVER,
/* If the symbolic is a command line argument, then copy
its referent. Otherwise, copy the symbolic link itself. -H */
DEREF_COMMAND_LINE_ARGUMENTS,
/* Copy the referent of the symbolic link. -L */
DEREF_ALWAYS
};
# define VALID_SPARSE_MODE(Mode) \
((Mode) == SPARSE_NEVER \
|| (Mode) == SPARSE_AUTO \
|| (Mode) == SPARSE_ALWAYS)
/* These options control how files are copied by at least the
following programs: mv (when rename doesn't work), cp, install.
So, if you add a new member, be sure to initialize it in
mv.c, cp.c, and install.c. */
struct cp_options
{
enum backup_type backup_type;
/* How to handle symlinks in the source. */
enum Dereference_symlink dereference;
/* This value is used to determine whether to prompt before removing
each existing destination file. It works differently depending on
whether move_mode is set. See code/comments in copy.c. */
enum Interactive interactive;
/* Control creation of sparse files. */
enum Sparse_type sparse_mode;
/* Set the mode of the destination file to exactly this value
if SET_MODE is nonzero. */
mode_t mode;
/* If true, copy all files except (directories and, if not dereferencing
them, symbolic links,) as if they were regular files. */
bool copy_as_regular;
/* If true, remove each existing destination nondirectory before
trying to open it. */
bool unlink_dest_before_opening;
/* If true, first try to open each existing destination nondirectory,
then, if the open fails, unlink and try again.
This option must be set for `cp -f', in case the destination file
exists when the open is attempted. It is irrelevant to `mv' since
any destination is sure to be removed before the open. */
bool unlink_dest_after_failed_open;
/* If true, create hard links instead of copying files.
Create destination directories as usual. */
bool hard_link;
/* If true, rather than copying, first attempt to use rename.
If that fails, then resort to copying. */
bool move_mode;
/* Whether this process has appropriate privileges to chown a file
whose owner is not the effective user ID. */
bool chown_privileges;
/* Whether this process has appropriate privileges to do the
following operations on a file even when it is owned by some
other user: set the file's atime, mtime, mode, or ACL; remove or
rename an entry in the file even though it is a sticky directory,
or to mount on the file. */
bool owner_privileges;
/* If true, when copying recursively, skip any subdirectories that are
on different file systems from the one we started on. */
bool one_file_system;
/* If true, attempt to give the copies the original files' permissions,
owner, group, and timestamps. */
bool preserve_ownership;
bool preserve_mode;
bool preserve_timestamps;
/* Enabled for mv, and for cp by the --preserve=links option.
If true, attempt to preserve in the destination files any
logical hard links between the source files. If used with cp's
--no-dereference option, and copying two hard-linked files,
the two corresponding destination files will also be hard linked.
If used with cp's --dereference (-L) option, then, as that option implies,
hard links are *not* preserved. However, when copying a file F and
a symlink S to F, the resulting S and F in the destination directory
will be hard links to the same file (a copy of F). */
bool preserve_links;
/* If true and any of the above (for preserve) file attributes cannot
be applied to a destination file, treat it as a failure and return
nonzero immediately. E.g. for cp -p this must be true, for mv it
must be false. */
bool require_preserve;
/* If true, attempt to preserve the SELinux security context, too.
Set this only if the kernel is SELinux enabled. */
bool preserve_security_context;
/* Useful only when preserve_security_context is true.
If true, a failed attempt to preserve a file's security context
propagates failure "out" to the caller. If false, a failure to
preserve a file's security context does not change the invoking
application's exit status. Give diagnostics for failed syscalls
regardless of this setting. For example, with "cp --preserve=context"
this flag is "true", while with "cp -a", it is false. That means
"cp -a" attempts to preserve any security context, but does not
fail if it is unable to do so. */
bool require_preserve_context;
/* If true, copy directories recursively and copy special files
as themselves rather than copying their contents. */
bool recursive;
/* If true, set file mode to value of MODE. Otherwise,
set it based on current umask modified by UMASK_KILL. */
bool set_mode;
/* If true, create symbolic links instead of copying files.
Create destination directories as usual. */
bool symbolic_link;
/* If true, do not copy a nondirectory that has an existing destination
with the same or newer modification time. */
bool update;
/* If true, display the names of the files before copying them. */
bool verbose;
/* If true, stdin is a tty. */
bool stdin_tty;
/* If true, open a dangling destination symlink when not in move_mode.
Otherwise, copy_reg gives a diagnostic (it refuses to write through
such a symlink) and returns false. */
bool open_dangling_dest_symlink;
/* This is a set of destination name/inode/dev triples. Each such triple
represents a file we have created corresponding to a source file name
that was specified on the command line. Use it to avoid clobbering
source files in commands like this:
rm -rf a b c; mkdir a b c; touch a/f b/f; mv a/f b/f c
For now, it protects only regular files when copying (i.e. not renaming).
When renaming, it protects all non-directories.
Use dest_info_init to initialize it, or set it to NULL to disable
this feature. */
Hash_table *dest_info;
/* FIXME */
Hash_table *src_info;
};
# define XSTAT(X, Src_name, Src_sb) \
((X)->dereference == DEREF_NEVER \
? lstat (Src_name, Src_sb) \
: stat (Src_name, Src_sb))
/* Arrange to make rename calls go through the wrapper function
on systems with a rename function that fails for a source file name
specified with a trailing slash. */
# if RENAME_TRAILING_SLASH_BUG
int rpl_rename (const char *, const char *);
# undef rename
# define rename rpl_rename
# endif
bool copy (char const *src_name, char const *dst_name,
bool nonexistent_dst, const struct cp_options *options,
bool *copy_into_self, bool *rename_succeeded);
void dest_info_init (struct cp_options *);
void src_info_init (struct cp_options *);
void cp_options_default (struct cp_options *);
bool chown_failure_ok (struct cp_options const *);
mode_t cached_umask (void);
#endif