Commit 2db69de8 authored by Michael Haggerty's avatar Michael Haggerty Committed by Junio C Hamano

lockfile: move documentation to lockfile.h and lockfile.c

Rearrange/rewrite it somewhat to fit its new environment.
Signed-off-by: default avatarMichael Haggerty <mhagger@alum.mit.edu>
Signed-off-by: default avatarJunio C Hamano <gitster@pobox.com>
parent 7974889a
lockfile API
============
The lockfile API serves two purposes:
* Mutual exclusion and atomic file updates. When we want to change a
file, we create a lockfile `<filename>.lock`, write the new file
contents into it, and then rename the lockfile to its final
destination `<filename>`. We create the `<filename>.lock` file with
`O_CREAT|O_EXCL` so that we can notice and fail if somebody else has
already locked the file, then atomically rename the lockfile to its
final destination to commit the changes and unlock the file.
* Automatic cruft removal. If the program exits after we lock a file
but before the changes have been committed, we want to make sure
that we remove the lockfile. This is done by remembering the
lockfiles we have created in a linked list and setting up an
`atexit(3)` handler and a signal handler that clean up the
lockfiles. This mechanism ensures that outstanding lockfiles are
cleaned up if the program exits (including when `die()` is called)
or if the program dies on a signal.
Please note that lockfiles only block other writers. Readers do not
block, but they are guaranteed to see either the old contents of the
file or the new contents of the file (assuming that the filesystem
implements `rename(2)` atomically).
Calling sequence
----------------
The caller:
* Allocates a `struct lock_file` either as a static variable or on the
heap, initialized to zeros. Once you use the structure to call the
`hold_lock_file_*` family of functions, it belongs to the lockfile
subsystem and its storage must remain valid throughout the life of
the program (i.e. you cannot use an on-stack variable to hold this
structure).
* Attempts to create a lockfile by passing that variable and the path
of the final destination (e.g. `$GIT_DIR/index`) to
`hold_lock_file_for_update` or `hold_lock_file_for_append`.
* Writes new content for the destination file by either:
* writing to the file descriptor returned by the `hold_lock_file_*`
functions (also available via `lock->fd`).
* calling `fdopen_lock_file` to get a `FILE` pointer for the open
file and writing to the file using stdio.
When finished writing, the caller can:
* Close the file descriptor and rename the lockfile to its final
destination by calling `commit_lock_file` or `commit_lock_file_to`.
* Close the file descriptor and remove the lockfile by calling
`rollback_lock_file`.
* Close the file descriptor without removing or renaming the lockfile
by calling `close_lock_file`, and later call `commit_lock_file`,
`commit_lock_file_to`, `rollback_lock_file`, or `reopen_lock_file`.
Even after the lockfile is committed or rolled back, the `lock_file`
object must not be freed or altered by the caller. However, it may be
reused; just pass it to another call of `hold_lock_file_for_update` or
`hold_lock_file_for_append`.
If the program exits before you have called one of `commit_lock_file`,
`commit_lock_file_to`, `rollback_lock_file`, or `close_lock_file`, an
`atexit(3)` handler will close and remove the lockfile, rolling back
any uncommitted changes.
If you need to close the file descriptor you obtained from a
`hold_lock_file_*` function yourself, do so by calling
`close_lock_file`. You should never call `close(2)` or `fclose(3)`
yourself! Otherwise the `struct lock_file` structure would still think
that the file descriptor needs to be closed, and a commit or rollback
would result in duplicate calls to `close(2)`. Worse yet, if you close
and then later open another file descriptor for a completely different
purpose, then a commit or rollback might close that unrelated file
descriptor.
Error handling
--------------
The `hold_lock_file_*` functions return a file descriptor on success
or -1 on failure (unless `LOCK_DIE_ON_ERROR` is used; see below). On
errors, `errno` describes the reason for failure. Errors can be
reported by passing `errno` to one of the following helper functions:
unable_to_lock_message::
Append an appropriate error message to a `strbuf`.
unable_to_lock_error::
Emit an appropriate error message using `error()`.
unable_to_lock_die::
Emit an appropriate error message and `die()`.
Similarly, `commit_lock_file`, `commit_lock_file_to`, and
`close_lock_file` return 0 on success. On failure they set `errno`
appropriately, do their best to roll back the lockfile, and return -1.
Flags
-----
The following flags can be passed to `hold_lock_file_for_update` or
`hold_lock_file_for_append`:
LOCK_NO_DEREF::
Usually symbolic links in the destination path are resolved
and the lockfile is created by adding ".lock" to the resolved
path. If `LOCK_NO_DEREF` is set, then the lockfile is created
by adding ".lock" to the path argument itself. This option is
used, for example, when locking a symbolic reference, which
for backwards-compatibility reasons can be a symbolic link
containing the name of the referred-to-reference.
LOCK_DIE_ON_ERROR::
If a lock is already taken for the file, `die()` with an error
message. If this option is not specified, trying to lock a
file that is already locked returns -1 to the caller.
The functions
-------------
hold_lock_file_for_update::
Take a pointer to `struct lock_file`, the path of the file to
be locked (e.g. `$GIT_DIR/index`) and a flags argument (see
above). Attempt to create a lockfile for the destination and
return the file descriptor for writing to the file.
hold_lock_file_for_append::
Like `hold_lock_file_for_update`, but before returning copy
the existing contents of the file (if any) to the lockfile and
position its write pointer at the end of the file.
fdopen_lock_file::
Associate a stdio stream with the lockfile. Return NULL
(*without* rolling back the lockfile) on error. The stream is
closed automatically when `close_lock_file` is called or when
the file is committed or rolled back.
get_locked_file_path::
Return the path of the file that is locked by the specified
lock_file object. The caller must free the memory.
commit_lock_file::
Take a pointer to the `struct lock_file` initialized with an
earlier call to `hold_lock_file_for_update` or
`hold_lock_file_for_append`, close the file descriptor, and
rename the lockfile to its final destination. Return 0 upon
success. On failure, roll back the lock file and return -1,
with `errno` set to the value from the failing call to
`close(2)` or `rename(2)`. It is a bug to call
`commit_lock_file` for a `lock_file` object that is not
currently locked.
commit_lock_file_to::
Like `commit_lock_file()`, except that it takes an explicit
`path` argument to which the lockfile should be renamed. The
`path` must be on the same filesystem as the lock file.
rollback_lock_file::
Take a pointer to the `struct lock_file` initialized with an
earlier call to `hold_lock_file_for_update` or
`hold_lock_file_for_append`, close the file descriptor and
remove the lockfile. It is a NOOP to call
`rollback_lock_file()` for a `lock_file` object that has
already been committed or rolled back.
close_lock_file::
Take a pointer to the `struct lock_file` initialized with an
earlier call to `hold_lock_file_for_update` or
`hold_lock_file_for_append`. Close the file descriptor (and
the file pointer if it has been opened using
`fdopen_lock_file`). Return 0 upon success. On failure to
`close(2)`, return a negative value and roll back the lock
file. Usually `commit_lock_file`, `commit_lock_file_to`, or
`rollback_lock_file` should eventually be called if
`close_lock_file` succeeds.
reopen_lock_file::
Re-open a lockfile that has been closed (using
`close_lock_file`) but not yet committed or rolled back. This
can be used to implement a sequence of operations like the
following:
* Lock file.
* Write new contents to lockfile, then `close_lock_file` to
cause the contents to be written to disk.
* Pass the name of the lockfile to another program to allow it
(and nobody else) to inspect the contents you wrote, while
still holding the lock yourself.
* `reopen_lock_file` to reopen the lockfile. Make further
updates to the contents.
* `commit_lock_file` to make the final version permanent.
/*
* Copyright (c) 2005, Junio C Hamano
*/
/*
* State diagram and cleanup
* -------------------------
*
* This module keeps track of all locked files in `lock_file_list` for
* use at cleanup. This list and the `lock_file` objects that comprise
* it must be kept in self-consistent states at all time, because the
* program can be interrupted any time by a signal, in which case the
* signal handler will walk through the list attempting to clean up
* any open lock files.
*
* The possible states of a `lock_file` object are as follows:
*
* - Uninitialized. In this state the object's `on_list` field must be
* zero but the rest of its contents need not be initialized. As
* soon as the object is used in any way, it is irrevocably
* registered in `lock_file_list`, and `on_list` is set.
*
* - Locked, lockfile open (after `hold_lock_file_for_update()`,
* `hold_lock_file_for_append()`, or `reopen_lock_file()`). In this
* state:
*
* - the lockfile exists
* - `active` is set
* - `filename` holds the filename of the lockfile
* - `fd` holds a file descriptor open for writing to the lockfile
* - `fp` holds a pointer to an open `FILE` object if and only if
* `fdopen_lock_file()` has been called on the object
* - `owner` holds the PID of the process that locked the file
*
* - Locked, lockfile closed (after successful `close_lock_file()`).
* Same as the previous state, except that the lockfile is closed
* and `fd` is -1.
*
* - Unlocked (after `commit_lock_file()`, `commit_lock_file_to()`,
* `rollback_lock_file()`, a failed attempt to lock, or a failed
* `close_lock_file()`). In this state:
*
* - `active` is unset
* - `filename` is empty (usually, though there are transitory
* states in which this condition doesn't hold). Client code should
* *not* rely on the filename being empty in this state.
* - `fd` is -1
* - the object is left registered in the `lock_file_list`, and
* `on_list` is set.
*
* A lockfile is owned by the process that created it. The `lock_file`
* has an `owner` field that records the owner's PID. This field is
* used to prevent a forked process from closing a lockfile created by
* its parent.
*/
#include "cache.h"
#include "lockfile.h"
#include "sigchain.h"
......
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