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authorAnton Altaparmakov <aia21@cantab.net>2005-10-04 10:39:02 -0400
committerAnton Altaparmakov <aia21@cantab.net>2005-10-04 10:39:02 -0400
commitdd072330d1a60be11a5c284fa1e645350750a4fc (patch)
treed0282b4667e3fcedc893802bd54c90c9e12b2dc7
parent2d86829b846d1447a6ab5af4060fc9f301521317 (diff)
NTFS: Implement fs/ntfs/inode.[hc]::ntfs_truncate(). It only supports
uncompressed and unencrypted files. Signed-off-by: Anton Altaparmakov <aia21@cantab.net>
-rw-r--r--fs/ntfs/ChangeLog20
-rw-r--r--fs/ntfs/inode.c491
2 files changed, 468 insertions, 43 deletions
diff --git a/fs/ntfs/ChangeLog b/fs/ntfs/ChangeLog
index 6c5bdfbb7bbf..70ad4be7a7fe 100644
--- a/fs/ntfs/ChangeLog
+++ b/fs/ntfs/ChangeLog
@@ -3,16 +3,14 @@ ToDo/Notes:
3 - In between ntfs_prepare/commit_write, need exclusion between 3 - In between ntfs_prepare/commit_write, need exclusion between
4 simultaneous file extensions. This is given to us by holding i_sem 4 simultaneous file extensions. This is given to us by holding i_sem
5 on the inode. The only places in the kernel when a file is resized 5 on the inode. The only places in the kernel when a file is resized
6 are prepare/commit write and truncate for both of which i_sem is 6 are prepare/commit write and ntfs_truncate() for both of which i_sem
7 held. Just have to be careful in readpage/writepage and all other 7 is held. Just have to be careful in read-/writepage and other helpers
8 helpers not running under i_sem that we play nice... 8 not running under i_sem that we play nice... Also need to be careful
9 Also need to be careful with initialized_size extention in 9 with initialized_size extention in ntfs_prepare_write and writepage.
10 ntfs_prepare_write. Basically, just be _very_ careful in this code... 10 UPDATE: The only things that need to be checked are
11 UPDATE: The only things that need to be checked are read/writepage 11 prepare/commit_write as well as the compressed write and the other
12 which do not hold i_sem. Note writepage cannot change i_size but it 12 attribute resize/write cases like index attributes, etc. For now
13 needs to cope with a concurrent i_size change, just like readpage. 13 none of these are implemented so are safe.
14 Also both need to cope with concurrent changes to the other sizes,
15 i.e. initialized/allocated/compressed size, as well.
16 - Implement mft.c::sync_mft_mirror_umount(). We currently will just 14 - Implement mft.c::sync_mft_mirror_umount(). We currently will just
17 leave the volume dirty on umount if the final iput(vol->mft_ino) 15 leave the volume dirty on umount if the final iput(vol->mft_ino)
18 causes a write of any mirrored mft records due to the mft mirror 16 causes a write of any mirrored mft records due to the mft mirror
@@ -50,6 +48,8 @@ ToDo/Notes:
50 - Add fs/ntfs/attrib.[hc]::ntfs_attr_extend_allocation(), a function to 48 - Add fs/ntfs/attrib.[hc]::ntfs_attr_extend_allocation(), a function to
51 extend the allocation of an attributes. Optionally, the data size, 49 extend the allocation of an attributes. Optionally, the data size,
52 but not the initialized size can be extended, too. 50 but not the initialized size can be extended, too.
51 - Implement fs/ntfs/inode.[hc]::ntfs_truncate(). It only supports
52 uncompressed and unencrypted files.
53 53
542.1.24 - Lots of bug fixes and support more clean journal states. 542.1.24 - Lots of bug fixes and support more clean journal states.
55 55
diff --git a/fs/ntfs/inode.c b/fs/ntfs/inode.c
index 7ec045131808..a1682342baa6 100644
--- a/fs/ntfs/inode.c
+++ b/fs/ntfs/inode.c
@@ -30,6 +30,7 @@
30#include "debug.h" 30#include "debug.h"
31#include "inode.h" 31#include "inode.h"
32#include "attrib.h" 32#include "attrib.h"
33#include "lcnalloc.h"
33#include "malloc.h" 34#include "malloc.h"
34#include "mft.h" 35#include "mft.h"
35#include "time.h" 36#include "time.h"
@@ -2291,11 +2292,16 @@ int ntfs_show_options(struct seq_file *sf, struct vfsmount *mnt)
2291 2292
2292#ifdef NTFS_RW 2293#ifdef NTFS_RW
2293 2294
2295static const char *es = " Leaving inconsistent metadata. Unmount and run "
2296 "chkdsk.";
2297
2294/** 2298/**
2295 * ntfs_truncate - called when the i_size of an ntfs inode is changed 2299 * ntfs_truncate - called when the i_size of an ntfs inode is changed
2296 * @vi: inode for which the i_size was changed 2300 * @vi: inode for which the i_size was changed
2297 * 2301 *
2298 * We do not support i_size changes yet. 2302 * We only support i_size changes for normal files at present, i.e. not
2303 * compressed and not encrypted. This is enforced in ntfs_setattr(), see
2304 * below.
2299 * 2305 *
2300 * The kernel guarantees that @vi is a regular file (S_ISREG() is true) and 2306 * The kernel guarantees that @vi is a regular file (S_ISREG() is true) and
2301 * that the change is allowed. 2307 * that the change is allowed.
@@ -2306,80 +2312,499 @@ int ntfs_show_options(struct seq_file *sf, struct vfsmount *mnt)
2306 * Returns 0 on success or -errno on error. 2312 * Returns 0 on success or -errno on error.
2307 * 2313 *
2308 * Called with ->i_sem held. In all but one case ->i_alloc_sem is held for 2314 * Called with ->i_sem held. In all but one case ->i_alloc_sem is held for
2309 * writing. The only case where ->i_alloc_sem is not held is 2315 * writing. The only case in the kernel where ->i_alloc_sem is not held is
2310 * mm/filemap.c::generic_file_buffered_write() where vmtruncate() is called 2316 * mm/filemap.c::generic_file_buffered_write() where vmtruncate() is called
2311 * with the current i_size as the offset which means that it is a noop as far 2317 * with the current i_size as the offset. The analogous place in NTFS is in
2312 * as ntfs_truncate() is concerned. 2318 * fs/ntfs/file.c::ntfs_file_buffered_write() where we call vmtruncate() again
2319 * without holding ->i_alloc_sem.
2313 */ 2320 */
2314int ntfs_truncate(struct inode *vi) 2321int ntfs_truncate(struct inode *vi)
2315{ 2322{
2316 ntfs_inode *ni = NTFS_I(vi); 2323 s64 new_size, old_size, nr_freed, new_alloc_size, old_alloc_size;
2324 VCN highest_vcn;
2325 unsigned long flags;
2326 ntfs_inode *base_ni, *ni = NTFS_I(vi);
2317 ntfs_volume *vol = ni->vol; 2327 ntfs_volume *vol = ni->vol;
2318 ntfs_attr_search_ctx *ctx; 2328 ntfs_attr_search_ctx *ctx;
2319 MFT_RECORD *m; 2329 MFT_RECORD *m;
2320 ATTR_RECORD *a; 2330 ATTR_RECORD *a;
2321 const char *te = " Leaving file length out of sync with i_size."; 2331 const char *te = " Leaving file length out of sync with i_size.";
2322 int err; 2332 int err, mp_size, size_change, alloc_change;
2333 u32 attr_len;
2323 2334
2324 ntfs_debug("Entering for inode 0x%lx.", vi->i_ino); 2335 ntfs_debug("Entering for inode 0x%lx.", vi->i_ino);
2325 BUG_ON(NInoAttr(ni)); 2336 BUG_ON(NInoAttr(ni));
2337 BUG_ON(S_ISDIR(vi->i_mode));
2338 BUG_ON(NInoMstProtected(ni));
2326 BUG_ON(ni->nr_extents < 0); 2339 BUG_ON(ni->nr_extents < 0);
2327 m = map_mft_record(ni); 2340retry_truncate:
2341 /*
2342 * Lock the runlist for writing and map the mft record to ensure it is
2343 * safe to mess with the attribute runlist and sizes.
2344 */
2345 down_write(&ni->runlist.lock);
2346 if (!NInoAttr(ni))
2347 base_ni = ni;
2348 else
2349 base_ni = ni->ext.base_ntfs_ino;
2350 m = map_mft_record(base_ni);
2328 if (IS_ERR(m)) { 2351 if (IS_ERR(m)) {
2329 err = PTR_ERR(m); 2352 err = PTR_ERR(m);
2330 ntfs_error(vi->i_sb, "Failed to map mft record for inode 0x%lx " 2353 ntfs_error(vi->i_sb, "Failed to map mft record for inode 0x%lx "
2331 "(error code %d).%s", vi->i_ino, err, te); 2354 "(error code %d).%s", vi->i_ino, err, te);
2332 ctx = NULL; 2355 ctx = NULL;
2333 m = NULL; 2356 m = NULL;
2334 goto err_out; 2357 goto old_bad_out;
2335 } 2358 }
2336 ctx = ntfs_attr_get_search_ctx(ni, m); 2359 ctx = ntfs_attr_get_search_ctx(base_ni, m);
2337 if (unlikely(!ctx)) { 2360 if (unlikely(!ctx)) {
2338 ntfs_error(vi->i_sb, "Failed to allocate a search context for " 2361 ntfs_error(vi->i_sb, "Failed to allocate a search context for "
2339 "inode 0x%lx (not enough memory).%s", 2362 "inode 0x%lx (not enough memory).%s",
2340 vi->i_ino, te); 2363 vi->i_ino, te);
2341 err = -ENOMEM; 2364 err = -ENOMEM;
2342 goto err_out; 2365 goto old_bad_out;
2343 } 2366 }
2344 err = ntfs_attr_lookup(ni->type, ni->name, ni->name_len, 2367 err = ntfs_attr_lookup(ni->type, ni->name, ni->name_len,
2345 CASE_SENSITIVE, 0, NULL, 0, ctx); 2368 CASE_SENSITIVE, 0, NULL, 0, ctx);
2346 if (unlikely(err)) { 2369 if (unlikely(err)) {
2347 if (err == -ENOENT) 2370 if (err == -ENOENT) {
2348 ntfs_error(vi->i_sb, "Open attribute is missing from " 2371 ntfs_error(vi->i_sb, "Open attribute is missing from "
2349 "mft record. Inode 0x%lx is corrupt. " 2372 "mft record. Inode 0x%lx is corrupt. "
2350 "Run chkdsk.", vi->i_ino); 2373 "Run chkdsk.%s", vi->i_ino, te);
2351 else 2374 err = -EIO;
2375 } else
2352 ntfs_error(vi->i_sb, "Failed to lookup attribute in " 2376 ntfs_error(vi->i_sb, "Failed to lookup attribute in "
2353 "inode 0x%lx (error code %d).", 2377 "inode 0x%lx (error code %d).%s",
2354 vi->i_ino, err); 2378 vi->i_ino, err, te);
2355 goto err_out; 2379 goto old_bad_out;
2356 } 2380 }
2381 m = ctx->mrec;
2357 a = ctx->attr; 2382 a = ctx->attr;
2358 /* If the size has not changed there is nothing to do. */ 2383 /*
2359 if (ntfs_attr_size(a) == i_size_read(vi)) 2384 * The i_size of the vfs inode is the new size for the attribute value.
2360 goto done; 2385 */
2361 // TODO: Implement the truncate... 2386 new_size = i_size_read(vi);
2362 ntfs_error(vi->i_sb, "Inode size has changed but this is not " 2387 /* The current size of the attribute value is the old size. */
2363 "implemented yet. Resetting inode size to old value. " 2388 old_size = ntfs_attr_size(a);
2364 " This is most likely a bug in the ntfs driver!"); 2389 /* Calculate the new allocated size. */
2365 i_size_write(vi, ntfs_attr_size(a)); 2390 if (NInoNonResident(ni))
2366done: 2391 new_alloc_size = (new_size + vol->cluster_size - 1) &
2392 ~(s64)vol->cluster_size_mask;
2393 else
2394 new_alloc_size = (new_size + 7) & ~7;
2395 /* The current allocated size is the old allocated size. */
2396 read_lock_irqsave(&ni->size_lock, flags);
2397 old_alloc_size = ni->allocated_size;
2398 read_unlock_irqrestore(&ni->size_lock, flags);
2399 /*
2400 * The change in the file size. This will be 0 if no change, >0 if the
2401 * size is growing, and <0 if the size is shrinking.
2402 */
2403 size_change = -1;
2404 if (new_size - old_size >= 0) {
2405 size_change = 1;
2406 if (new_size == old_size)
2407 size_change = 0;
2408 }
2409 /* As above for the allocated size. */
2410 alloc_change = -1;
2411 if (new_alloc_size - old_alloc_size >= 0) {
2412 alloc_change = 1;
2413 if (new_alloc_size == old_alloc_size)
2414 alloc_change = 0;
2415 }
2416 /*
2417 * If neither the size nor the allocation are being changed there is
2418 * nothing to do.
2419 */
2420 if (!size_change && !alloc_change)
2421 goto unm_done;
2422 /* If the size is changing, check if new size is allowed in $AttrDef. */
2423 if (size_change) {
2424 err = ntfs_attr_size_bounds_check(vol, ni->type, new_size);
2425 if (unlikely(err)) {
2426 if (err == -ERANGE) {
2427 ntfs_error(vol->sb, "Truncate would cause the "
2428 "inode 0x%lx to %simum size "
2429 "for its attribute type "
2430 "(0x%x). Aborting truncate.",
2431 vi->i_ino,
2432 new_size > old_size ? "exceed "
2433 "the max" : "go under the min",
2434 le32_to_cpu(ni->type));
2435 err = -EFBIG;
2436 } else {
2437 ntfs_error(vol->sb, "Inode 0x%lx has unknown "
2438 "attribute type 0x%x. "
2439 "Aborting truncate.",
2440 vi->i_ino,
2441 le32_to_cpu(ni->type));
2442 err = -EIO;
2443 }
2444 /* Reset the vfs inode size to the old size. */
2445 i_size_write(vi, old_size);
2446 goto err_out;
2447 }
2448 }
2449 if (NInoCompressed(ni) || NInoEncrypted(ni)) {
2450 ntfs_warning(vi->i_sb, "Changes in inode size are not "
2451 "supported yet for %s files, ignoring.",
2452 NInoCompressed(ni) ? "compressed" :
2453 "encrypted");
2454 err = -EOPNOTSUPP;
2455 goto bad_out;
2456 }
2457 if (a->non_resident)
2458 goto do_non_resident_truncate;
2459 BUG_ON(NInoNonResident(ni));
2460 /* Resize the attribute record to best fit the new attribute size. */
2461 if (new_size < vol->mft_record_size &&
2462 !ntfs_resident_attr_value_resize(m, a, new_size)) {
2463 unsigned long flags;
2464
2465 /* The resize succeeded! */
2466 flush_dcache_mft_record_page(ctx->ntfs_ino);
2467 mark_mft_record_dirty(ctx->ntfs_ino);
2468 write_lock_irqsave(&ni->size_lock, flags);
2469 /* Update the sizes in the ntfs inode and all is done. */
2470 ni->allocated_size = le32_to_cpu(a->length) -
2471 le16_to_cpu(a->data.resident.value_offset);
2472 /*
2473 * Note ntfs_resident_attr_value_resize() has already done any
2474 * necessary data clearing in the attribute record. When the
2475 * file is being shrunk vmtruncate() will already have cleared
2476 * the top part of the last partial page, i.e. since this is
2477 * the resident case this is the page with index 0. However,
2478 * when the file is being expanded, the page cache page data
2479 * between the old data_size, i.e. old_size, and the new_size
2480 * has not been zeroed. Fortunately, we do not need to zero it
2481 * either since on one hand it will either already be zero due
2482 * to both readpage and writepage clearing partial page data
2483 * beyond i_size in which case there is nothing to do or in the
2484 * case of the file being mmap()ped at the same time, POSIX
2485 * specifies that the behaviour is unspecified thus we do not
2486 * have to do anything. This means that in our implementation
2487 * in the rare case that the file is mmap()ped and a write
2488 * occured into the mmap()ped region just beyond the file size
2489 * and writepage has not yet been called to write out the page
2490 * (which would clear the area beyond the file size) and we now
2491 * extend the file size to incorporate this dirty region
2492 * outside the file size, a write of the page would result in
2493 * this data being written to disk instead of being cleared.
2494 * Given both POSIX and the Linux mmap(2) man page specify that
2495 * this corner case is undefined, we choose to leave it like
2496 * that as this is much simpler for us as we cannot lock the
2497 * relevant page now since we are holding too many ntfs locks
2498 * which would result in a lock reversal deadlock.
2499 */
2500 ni->initialized_size = new_size;
2501 write_unlock_irqrestore(&ni->size_lock, flags);
2502 goto unm_done;
2503 }
2504 /* If the above resize failed, this must be an attribute extension. */
2505 BUG_ON(size_change < 0);
2506 /*
2507 * We have to drop all the locks so we can call
2508 * ntfs_attr_make_non_resident(). This could be optimised by try-
2509 * locking the first page cache page and only if that fails dropping
2510 * the locks, locking the page, and redoing all the locking and
2511 * lookups. While this would be a huge optimisation, it is not worth
2512 * it as this is definitely a slow code path as it only ever can happen
2513 * once for any given file.
2514 */
2367 ntfs_attr_put_search_ctx(ctx); 2515 ntfs_attr_put_search_ctx(ctx);
2368 unmap_mft_record(ni); 2516 unmap_mft_record(base_ni);
2369 NInoClearTruncateFailed(ni); 2517 up_write(&ni->runlist.lock);
2370 ntfs_debug("Done."); 2518 /*
2371 return 0; 2519 * Not enough space in the mft record, try to make the attribute
2372err_out: 2520 * non-resident and if successful restart the truncation process.
2373 if (err != -ENOMEM) { 2521 */
2522 err = ntfs_attr_make_non_resident(ni, old_size);
2523 if (likely(!err))
2524 goto retry_truncate;
2525 /*
2526 * Could not make non-resident. If this is due to this not being
2527 * permitted for this attribute type or there not being enough space,
2528 * try to make other attributes non-resident. Otherwise fail.
2529 */
2530 if (unlikely(err != -EPERM && err != -ENOSPC)) {
2531 ntfs_error(vol->sb, "Cannot truncate inode 0x%lx, attribute "
2532 "type 0x%x, because the conversion from "
2533 "resident to non-resident attribute failed "
2534 "with error code %i.", vi->i_ino,
2535 (unsigned)le32_to_cpu(ni->type), err);
2536 if (err != -ENOMEM)
2537 err = -EIO;
2538 goto conv_err_out;
2539 }
2540 /* TODO: Not implemented from here, abort. */
2541 if (err == -ENOSPC)
2542 ntfs_error(vol->sb, "Not enough space in the mft record/on "
2543 "disk for the non-resident attribute value. "
2544 "This case is not implemented yet.");
2545 else /* if (err == -EPERM) */
2546 ntfs_error(vol->sb, "This attribute type may not be "
2547 "non-resident. This case is not implemented "
2548 "yet.");
2549 err = -EOPNOTSUPP;
2550 goto conv_err_out;
2551#if 0
2552 // TODO: Attempt to make other attributes non-resident.
2553 if (!err)
2554 goto do_resident_extend;
2555 /*
2556 * Both the attribute list attribute and the standard information
2557 * attribute must remain in the base inode. Thus, if this is one of
2558 * these attributes, we have to try to move other attributes out into
2559 * extent mft records instead.
2560 */
2561 if (ni->type == AT_ATTRIBUTE_LIST ||
2562 ni->type == AT_STANDARD_INFORMATION) {
2563 // TODO: Attempt to move other attributes into extent mft
2564 // records.
2565 err = -EOPNOTSUPP;
2566 if (!err)
2567 goto do_resident_extend;
2568 goto err_out;
2569 }
2570 // TODO: Attempt to move this attribute to an extent mft record, but
2571 // only if it is not already the only attribute in an mft record in
2572 // which case there would be nothing to gain.
2573 err = -EOPNOTSUPP;
2574 if (!err)
2575 goto do_resident_extend;
2576 /* There is nothing we can do to make enough space. )-: */
2577 goto err_out;
2578#endif
2579do_non_resident_truncate:
2580 BUG_ON(!NInoNonResident(ni));
2581 if (alloc_change < 0) {
2582 highest_vcn = sle64_to_cpu(a->data.non_resident.highest_vcn);
2583 if (highest_vcn > 0 &&
2584 old_alloc_size >> vol->cluster_size_bits >
2585 highest_vcn + 1) {
2586 /*
2587 * This attribute has multiple extents. Not yet
2588 * supported.
2589 */
2590 ntfs_error(vol->sb, "Cannot truncate inode 0x%lx, "
2591 "attribute type 0x%x, because the "
2592 "attribute is highly fragmented (it "
2593 "consists of multiple extents) and "
2594 "this case is not implemented yet.",
2595 vi->i_ino,
2596 (unsigned)le32_to_cpu(ni->type));
2597 err = -EOPNOTSUPP;
2598 goto bad_out;
2599 }
2600 }
2601 /*
2602 * If the size is shrinking, need to reduce the initialized_size and
2603 * the data_size before reducing the allocation.
2604 */
2605 if (size_change < 0) {
2606 /*
2607 * Make the valid size smaller (i_size is already up-to-date).
2608 */
2609 write_lock_irqsave(&ni->size_lock, flags);
2610 if (new_size < ni->initialized_size) {
2611 ni->initialized_size = new_size;
2612 a->data.non_resident.initialized_size =
2613 cpu_to_sle64(new_size);
2614 }
2615 a->data.non_resident.data_size = cpu_to_sle64(new_size);
2616 write_unlock_irqrestore(&ni->size_lock, flags);
2617 flush_dcache_mft_record_page(ctx->ntfs_ino);
2618 mark_mft_record_dirty(ctx->ntfs_ino);
2619 /* If the allocated size is not changing, we are done. */
2620 if (!alloc_change)
2621 goto unm_done;
2622 /*
2623 * If the size is shrinking it makes no sense for the
2624 * allocation to be growing.
2625 */
2626 BUG_ON(alloc_change > 0);
2627 } else /* if (size_change >= 0) */ {
2628 /*
2629 * The file size is growing or staying the same but the
2630 * allocation can be shrinking, growing or staying the same.
2631 */
2632 if (alloc_change > 0) {
2633 /*
2634 * We need to extend the allocation and possibly update
2635 * the data size. If we are updating the data size,
2636 * since we are not touching the initialized_size we do
2637 * not need to worry about the actual data on disk.
2638 * And as far as the page cache is concerned, there
2639 * will be no pages beyond the old data size and any
2640 * partial region in the last page between the old and
2641 * new data size (or the end of the page if the new
2642 * data size is outside the page) does not need to be
2643 * modified as explained above for the resident
2644 * attribute truncate case. To do this, we simply drop
2645 * the locks we hold and leave all the work to our
2646 * friendly helper ntfs_attr_extend_allocation().
2647 */
2648 ntfs_attr_put_search_ctx(ctx);
2649 unmap_mft_record(base_ni);
2650 up_write(&ni->runlist.lock);
2651 err = ntfs_attr_extend_allocation(ni, new_size,
2652 size_change > 0 ? new_size : -1, -1);
2653 /*
2654 * ntfs_attr_extend_allocation() will have done error
2655 * output already.
2656 */
2657 goto done;
2658 }
2659 if (!alloc_change)
2660 goto alloc_done;
2661 }
2662 /* alloc_change < 0 */
2663 /* Free the clusters. */
2664 nr_freed = ntfs_cluster_free(ni, new_alloc_size >>
2665 vol->cluster_size_bits, -1, ctx);
2666 m = ctx->mrec;
2667 a = ctx->attr;
2668 if (unlikely(nr_freed < 0)) {
2669 ntfs_error(vol->sb, "Failed to release cluster(s) (error code "
2670 "%lli). Unmount and run chkdsk to recover "
2671 "the lost cluster(s).", (long long)nr_freed);
2374 NVolSetErrors(vol); 2672 NVolSetErrors(vol);
2673 nr_freed = 0;
2674 }
2675 /* Truncate the runlist. */
2676 err = ntfs_rl_truncate_nolock(vol, &ni->runlist,
2677 new_alloc_size >> vol->cluster_size_bits);
2678 /*
2679 * If the runlist truncation failed and/or the search context is no
2680 * longer valid, we cannot resize the attribute record or build the
2681 * mapping pairs array thus we mark the inode bad so that no access to
2682 * the freed clusters can happen.
2683 */
2684 if (unlikely(err || IS_ERR(m))) {
2685 ntfs_error(vol->sb, "Failed to %s (error code %li).%s",
2686 IS_ERR(m) ?
2687 "restore attribute search context" :
2688 "truncate attribute runlist",
2689 IS_ERR(m) ? PTR_ERR(m) : err, es);
2690 err = -EIO;
2691 goto bad_out;
2692 }
2693 /* Get the size for the shrunk mapping pairs array for the runlist. */
2694 mp_size = ntfs_get_size_for_mapping_pairs(vol, ni->runlist.rl, 0, -1);
2695 if (unlikely(mp_size <= 0)) {
2696 ntfs_error(vol->sb, "Cannot shrink allocation of inode 0x%lx, "
2697 "attribute type 0x%x, because determining the "
2698 "size for the mapping pairs failed with error "
2699 "code %i.%s", vi->i_ino,
2700 (unsigned)le32_to_cpu(ni->type), mp_size, es);
2701 err = -EIO;
2702 goto bad_out;
2703 }
2704 /*
2705 * Shrink the attribute record for the new mapping pairs array. Note,
2706 * this cannot fail since we are making the attribute smaller thus by
2707 * definition there is enough space to do so.
2708 */
2709 attr_len = le32_to_cpu(a->length);
2710 err = ntfs_attr_record_resize(m, a, mp_size +
2711 le16_to_cpu(a->data.non_resident.mapping_pairs_offset));
2712 BUG_ON(err);
2713 /*
2714 * Generate the mapping pairs array directly into the attribute record.
2715 */
2716 err = ntfs_mapping_pairs_build(vol, (u8*)a +
2717 le16_to_cpu(a->data.non_resident.mapping_pairs_offset),
2718 mp_size, ni->runlist.rl, 0, -1, NULL);
2719 if (unlikely(err)) {
2720 ntfs_error(vol->sb, "Cannot shrink allocation of inode 0x%lx, "
2721 "attribute type 0x%x, because building the "
2722 "mapping pairs failed with error code %i.%s",
2723 vi->i_ino, (unsigned)le32_to_cpu(ni->type),
2724 err, es);
2725 err = -EIO;
2726 goto bad_out;
2727 }
2728 /* Update the allocated/compressed size as well as the highest vcn. */
2729 a->data.non_resident.highest_vcn = cpu_to_sle64((new_alloc_size >>
2730 vol->cluster_size_bits) - 1);
2731 write_lock_irqsave(&ni->size_lock, flags);
2732 ni->allocated_size = new_alloc_size;
2733 a->data.non_resident.allocated_size = cpu_to_sle64(new_alloc_size);
2734 if (NInoSparse(ni) || NInoCompressed(ni)) {
2735 if (nr_freed) {
2736 ni->itype.compressed.size -= nr_freed <<
2737 vol->cluster_size_bits;
2738 BUG_ON(ni->itype.compressed.size < 0);
2739 a->data.non_resident.compressed_size = cpu_to_sle64(
2740 ni->itype.compressed.size);
2741 vi->i_blocks = ni->itype.compressed.size >> 9;
2742 }
2743 } else
2744 vi->i_blocks = new_alloc_size >> 9;
2745 write_unlock_irqrestore(&ni->size_lock, flags);
2746 /*
2747 * We have shrunk the allocation. If this is a shrinking truncate we
2748 * have already dealt with the initialized_size and the data_size above
2749 * and we are done. If the truncate is only changing the allocation
2750 * and not the data_size, we are also done. If this is an extending
2751 * truncate, need to extend the data_size now which is ensured by the
2752 * fact that @size_change is positive.
2753 */
2754alloc_done:
2755 /*
2756 * If the size is growing, need to update it now. If it is shrinking,
2757 * we have already updated it above (before the allocation change).
2758 */
2759 if (size_change > 0)
2760 a->data.non_resident.data_size = cpu_to_sle64(new_size);
2761 /* Ensure the modified mft record is written out. */
2762 flush_dcache_mft_record_page(ctx->ntfs_ino);
2763 mark_mft_record_dirty(ctx->ntfs_ino);
2764unm_done:
2765 ntfs_attr_put_search_ctx(ctx);
2766 unmap_mft_record(base_ni);
2767 up_write(&ni->runlist.lock);
2768done:
2769 /* Update the mtime and ctime on the base inode. */
2770 inode_update_time(VFS_I(base_ni), 1);
2771 if (likely(!err)) {
2772 NInoClearTruncateFailed(ni);
2773 ntfs_debug("Done.");
2774 }
2775 return err;
2776old_bad_out:
2777 old_size = -1;
2778bad_out:
2779 if (err != -ENOMEM && err != -EOPNOTSUPP) {
2375 make_bad_inode(vi); 2780 make_bad_inode(vi);
2781 make_bad_inode(VFS_I(base_ni));
2782 NVolSetErrors(vol);
2376 } 2783 }
2784 if (err != -EOPNOTSUPP)
2785 NInoSetTruncateFailed(ni);
2786 else if (old_size >= 0)
2787 i_size_write(vi, old_size);
2788err_out:
2377 if (ctx) 2789 if (ctx)
2378 ntfs_attr_put_search_ctx(ctx); 2790 ntfs_attr_put_search_ctx(ctx);
2379 if (m) 2791 if (m)
2380 unmap_mft_record(ni); 2792 unmap_mft_record(base_ni);
2381 NInoSetTruncateFailed(ni); 2793 up_write(&ni->runlist.lock);
2794out:
2795 ntfs_debug("Failed. Returning error code %i.", err);
2382 return err; 2796 return err;
2797conv_err_out:
2798 if (err != -ENOMEM && err != -EOPNOTSUPP) {
2799 make_bad_inode(vi);
2800 make_bad_inode(VFS_I(base_ni));
2801 NVolSetErrors(vol);
2802 }
2803 if (err != -EOPNOTSUPP)
2804 NInoSetTruncateFailed(ni);
2805 else
2806 i_size_write(vi, old_size);
2807 goto out;
2383} 2808}
2384 2809
2385/** 2810/**