Hi,
Christoph Hellwig wrote:
>> + case FIFREEZE: {
>
> This would be better to split intot a small helper ala ioctl_fibmap()
>
>> + case FITHAW: {
>
> Same here.
I have added two new helper functions (ioctl_freeze and ioctl_thaw)
in "[PATCH 1/3] Implement generic freeze feature".
>>> I think the protection against double freezes would be better done by
>>> using a trylock on bd_mount_sem.
>>
>> bd_mount_sem can protect against only freezes and cannot protect against
>> unfreezes. If multiple unfreezes run in parallel, the multiple up() for
>> bd_mount_sem might occur incorrectly.
>
> Indeed. The bit flag would fix that because unfreeze could then check
> for the bit beeing set first. So that's probably the easiest way to go.
I have replaced the semaphore (bd_freeze_sem) with new bit flag
in "[PATCH 1/3] Implement generic freeze feature".
When a thread is in freeze operation, subsequent freeze operations
will fail immediately.
(They waited for the thread in the previous patches.)
I think this change of the behavior doesn't matter because
freezes and unfreezes don't run in parallel in usual situation.
In addition, the patches are re-based from linux-2.6.25 to
linux-2.6.26-rc2.
The patch-set consists of the following three patches.
Only [PATCH 1/3] is modified as above from the previous version.
[PATCH 1/3] Implement generic freeze feature
I have modified the following two points from the previous version.
These are suggested by Christoph Hellwig.
o Two helper functions for ioctls (ioctl_freeze and ioctl_thaw) are
added for the readability.
o The semaphore for the freeze operation is replaced with new bit
flag (bd_state) for the efficiency of the locking.
The ioctls for the generic freeze feature are below.
o Freeze the filesystem
int ioctl(int fd, int FIFREEZE, arg)
fd: The file descriptor of the mountpoint
FIFREEZE: request code for the freeze
arg: Ignored
Return value: 0 if the operation succeeds. Otherwise, -1
o Unfreeze the filesystem
int ioctl(int fd, int FITHAW, arg)
fd: The file descriptor of the mountpoint
FITHAW: request code for unfreeze
arg: Ignored
Return value: 0 if the operation succeeds. Otherwise, -1
[PATCH 2/3] Remove XFS specific ioctl interfaces for freeze feature
It removes XFS specific ioctl interfaces and request codes
for freeze feature.
This patch has been supplied by David Chinner.
[PATCH 3/3] Add timeout feature
The timeout feature is added to freeze ioctl. And new ioctl
to reset the timeout period is added.
o Freeze the filesystem
int ioctl(int fd, int FIFREEZE, long *timeval)
fd: The file descriptor of the mountpoint
FIFREEZE: request code for the freeze
timeval: the timeout period in seconds
If it's 0 or 1, the timeout isn't set.
This special case of "1" is implemented to keep
the compatibility with XFS applications.
Return value: 0 if the operation succeeds. Otherwise, -1
o Reset the timeout period
This is useful for the application to set the timeval more accurately.
For example, the freezer resets the timeval to 10 seconds every 5
seconds. In this approach, even if the freezer causes a deadlock
by accessing the frozen filesystem, it will be solved by the timeout
in 10 seconds and the freezer can recognize that at the next reset
of timeval.
int ioctl(int fd, int FIFREEZE_RESET_TIMEOUT, long *timeval)
fd:file descriptor of mountpoint
FIFREEZE_RESET_TIMEOUT: request code for reset of timeout period
timeval: new timeout period in seconds
Return value: 0 if the operation succeeds. Otherwise, -1
Error number: If the filesystem has already been unfrozen,
errno is set to EINVAL.
Any comments are very welcome.
Cheers, Takashi
--
To unsubscribe from this list: send the line "unsubscribe linux-ext4" in
the body of a message to majordomo@xxxxxxxxxxxxxxx
More majordomo info at http://vger.kernel.org/majordomo-info.html
