- 20 Jul, 2019 2 commits
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Han-Wen Nienhuys authored
Change-Id: Iaf012013f81c29faeb84f4096dd31d5b6d58e0f5
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Han-Wen Nienhuys authored
Change-Id: I87db804ce6df8b21f4cfba8557395b0067a177da
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- 19 Jul, 2019 1 commit
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Han-Wen Nienhuys authored
Add dynamic_example_test.go to Readdir/Lookup. Change-Id: If7cd2a29166b9952af0ca362cba89df1d98b634b
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- 14 Jul, 2019 4 commits
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Han-Wen Nienhuys authored
Change-Id: I36aea1eee9937fab4d33657ca4514866750ac55a
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Han-Wen Nienhuys authored
Change-Id: I1fe9bf5c77a332002b3b0a15b75853102549b511
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Han-Wen Nienhuys authored
Change-Id: Iffe9bf5c77a332002b3b0a15b75853102549b511
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Han-Wen Nienhuys authored
Change-Id: Iefe9bf5c77a332002b3b0a15b75853102549b511
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- 03 Jul, 2019 2 commits
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Han-Wen Nienhuys authored
In cooperation with GerritHub, a repo-specific deploy key was setup, which avoids granting blanket r/w access to the Gerrithub server. This reverts commit 09a2813e. Change-Id: I09a2813e
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Han-Wen Nienhuys authored
This apparently happens in NFS mounts of FUSE file systems when combined with lots of FS activity. Maybe some part of the client is caching readdir results in the wrong way? In any event, returning OK (signifying EOF on the dirstream) is harmless. Change-Id: Ib09d77eae0f1af8bce46b07f386fdda20b2ccb95
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- 03 May, 2019 2 commits
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Han-Wen Nienhuys authored
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Han-Wen Nienhuys authored
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- 28 Apr, 2019 2 commits
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Han-Wen Nienhuys authored
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Han-Wen Nienhuys authored
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- 25 Apr, 2019 9 commits
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Kirill Smelkov authored
This complements commit "fuse: allow filesystems to disable CAP_AUTO_INVAL_DATA" and teaches go-fuse to request explicit data cache invalidation mode if fuse.MountOptions.ExplicitDataCacheControl is set. See https://git.kernel.org/pub/scm/linux/kernel/git/mszeredi/fuse.git/commit/?id=ad2ba64dd489 and https://lwn.net/ml/linux-fsdevel/20190315212556.9315-1-kirr%40nexedi.com/ for rationale and details.
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Kirill Smelkov authored
This test was flaky even before ce2558b4 (fuse/test: disable TestFopenKeepCache) because after file change it was reporting to kernel both different size (before=6, after=5) and potentially different mtime. The kernel is known to invalidate file's data cache on size change, and also to invalidate file's data cache on mtime change if CAP_AUTO_INVAL_DATA was negotiated at FUSE handshake. Until recently go-fuse was always using CAP_AUTO_INVAL_DATA mode. The test was somehow passing on kernels < Linux 4.20 due to the fact that the write was coming soon after previous lookup/getattr and thus likely before attributes timeout. The kernel was still seeing old mtime and size and was not invalidating file cache. If I add just "sleep enough time for file attributes to expire..." + followup stat from the patch, the test fails reliably even on older kernels where it used to be passing: === RUN TestFopenKeepCache 17:44:33.397329 rx 1: INIT i0 {7.27 Ra 0x20000 SPLICE_READ,HANDLE_KILLPRIV,IOCTL_DIR,READDIRPLUS,PARALLEL_DIROPS,ABORT_ERROR,POSIX_LOCKS,DONT_MASK,SPLICE_WRITE,SPLICE_MOVE,ASYNC_READ,FLOCK_LOCKS,WRITEBACK_CACHE,POSIX 17:44:33.397413 tx 1: OK, {7.23 Ra 0x20000 ASYNC_READ,NO_OPEN_SUPPORT,BIG_WRITES,AUTO_INVAL_DATA,READDIRPLUS,PARALLEL_DIROPS 0/0 Wr 0x10000 Tg 0x0} 17:44:33.398589 rx 2: LOOKUP i1 [".go-fuse-epoll-hack"] 20b 17:44:33.398644 tx 2: 2=no such file or directory, {i0 g0 tE=0s tA=0s {M00 SZ=0 L=0 0:0 B0*0 i0:0 A 0.000000 M 0.000000 C 0.000000}} 17:44:33.398686 rx 3: CREATE i1 {0100100 [WRONLY,TRUNC,CREAT,0x8000] (022)} [".go-fuse-epoll-hack"] 20b 17:44:33.398710 tx 3: OK, {i18446744073709551615 g0 {M0100644 SZ=0 L=1 0:0 B0*0 i0:18446744073709551615 A 0.000000 M 0.000000 C 0.000000} &{18446744073709551615 0 0}} 17:44:33.398745 rx 4: POLL i18446744073709551615 17:44:33.398753 tx 4: 38=function not implemented 17:44:33.399446 rx 5: FLUSH i18446744073709551615 {Fh 18446744073709551615} 17:44:33.399466 tx 5: 5=input/output error 17:44:33.399540 rx 6: RELEASE i18446744073709551615 {Fh 18446744073709551615 WRONLY,0x8000 L0} 17:44:33.399548 tx 6: 5=input/output error 17:44:33.399567 rx 7: LOOKUP i1 ["file.txt"] 9b 17:44:33.399648 tx 7: OK, {i3 g2 tE=1s tA=0.01s {M0100644 SZ=6 L=1 1000:1000 B8*4096 i0:841351 A 1552833873.399069 M 1552833873.399069 C 1552833873.399069}} 17:44:33.399936 rx 8: OPEN i3 {O_RDONLY,0x8000} 17:44:33.399976 tx 8: OK, {Fh 2 CACHE} 17:44:33.400045 rx 9: READ i3 {Fh 2 [0 +4096) L 0 NONBLOCK,0x8000} 17:44:33.400065 tx 9: OK, 4096b data (fd data) 17:44:33.400185 rx 10: GETATTR i3 {Fh 2} 17:44:33.400261 tx 10: OK, {tA=0.01s {M0100644 SZ=6 L=1 1000:1000 B8*4096 i0:841351 A 1552833873.399069 M 1552833873.399069 C 1552833873.399069}} 17:44:33.400296 rx 11: FLUSH i3 {Fh 2} 17:44:33.400305 tx 11: OK 17:44:33.400324 rx 12: RELEASE i3 {Fh 2 NONBLOCK,0x8000 L0} 17:44:33.400334 tx 12: OK sleep here 17:44:33.500843 rx 13: GETATTR i3 {Fh 0} 17:44:33.500939 tx 13: OK, {tA=0.01s {M0100644 SZ=5 L=1 1000:1000 B8*4096 i0:841351 A 1552833873.399069 M 1552833873.399069 C 1552833873.399069}} 17:44:33.501118 rx 14: OPEN i3 {O_RDONLY,0x8000} 17:44:33.501195 tx 14: OK, {Fh 2 CACHE} 17:44:33.501468 rx 15: READ i3 {Fh 2 [0 +4096) L 0 NONBLOCK,0x8000} 17:44:33.501500 tx 15: OK, 4096b data (fd data) 17:44:33.501582 rx 16: GETATTR i3 {Fh 2} 17:44:33.501625 tx 16: OK, {tA=0.01s {M0100644 SZ=5 L=1 1000:1000 B8*4096 i0:841351 A 1552833873.499071 M 1552833873.399069 C 1552833873.399069}} 17:44:33.502176 rx 17: FLUSH i3 {Fh 2} 17:44:33.502210 tx 17: OK 17:44:33.502268 rx 18: RELEASE i3 {Fh 2 NONBLOCK,0x8000 L0} 17:44:33.502296 tx 18: OK 17:44:33.547469 received ENODEV (unmount request), thread exiting 17:44:33.547471 received ENODEV (unmount request), thread exiting 17:44:33.547469 received ENODEV (unmount request), thread exiting --- FAIL: TestFopenKeepCache (0.15s) cache_test.go:147: ReadFile: got "after", want cached "before" In other words the test was racy and was passing only due to likely conditions to win a race in particular environment. Here is example debug trace when that particular conditions are met: 17:52:00.119419 rx 7: LOOKUP i1 ["file.txt"] 9b 17:52:00.119818 tx 7: OK, {i3 g2 tE=1s tA=0.01s {M0100644 SZ=6 L=1 1000:1000 B8*4096 i0:853832 A 1552834320.116131 M 1552834320.116131 C 1552834320.116131}} 17:52:00.122865 rx 8: OPEN i3 {O_RDONLY,0x8000} 17:52:00.122889 tx 8: OK, {Fh 2 CACHE} 17:52:00.122933 rx 9: READ i3 {Fh 2 [0 +4096) L 0 NONBLOCK,0x8000} 17:52:00.122957 tx 9: OK, 4096b data (fd data) 17:52:00.123014 rx 10: GETATTR i3 {Fh 2} 17:52:00.123031 tx 10: OK, {tA=0.01s {M0100644 SZ=6 L=1 1000:1000 B8*4096 i0:853832 A 1552834320.116131 M 1552834320.116131 C 1552834320.116131}} 17:52:00.123050 rx 11: FLUSH i3 {Fh 2} 17:52:00.123056 tx 11: OK 17:52:00.123071 rx 12: RELEASE i3 {Fh 2 NONBLOCK,0x8000 L0} 17:52:00.123082 tx 12: OK 17:52:00.123105 rx 13: OPEN i3 {O_RDONLY,0x8000} <-- NOTE: OPEN, but no GETATTR around 17:52:00.123124 tx 13: OK, {Fh 2 CACHE} 17:52:00.123146 rx 14: FLUSH i3 {Fh 2} 17:52:00.123152 tx 14: OK 17:52:00.123164 rx 15: RELEASE i3 {Fh 2 NONBLOCK,0x8000 L0} 17:52:00.123183 tx 0: NOTIFY_INVAL_ENTRY, {parent i1 sz 8} "file.txt" 17:52:00.123186 tx 15: OK However starting from Linux 4.20 the kernel started to always issue GETATTR request around second OPEN, for example: 18:34:22.323238 rx 26: LOOKUP i1 ["file.txt"] 9b 18:34:22.323309 tx 26: OK, {i3 g2 tE=1s tA=1s {M0100644 SZ=6 L=1 1000:1000 B8*4096 i0:1531145 A 1550252062.321237 M 1550252062.321237 C 1550252062.321237}} 18:34:22.323339 rx 28: OPEN i3 {O_RDONLY,0x8000} 18:34:22.323384 tx 28: OK, {Fh 2 CACHE} 18:34:22.323441 rx 30: READ i3 {Fh 2 [0 +4096) L 0 NONBLOCK,0x8000} 18:34:22.323477 tx 30: OK, 4096b data (fd data) 18:34:22.323534 rx 32: FLUSH i3 {Fh 2} 18:34:22.323546 tx 32: OK 18:34:22.323577 rx 34: RELEASE i3 {Fh 2 NONBLOCK,0x8000 L0} 18:34:22.323594 tx 34: OK 18:34:22.323611 rx 36: OPEN i3 {O_RDONLY,0x8000} <-- NOTE: OPEN with GETATTR around 18:34:22.323636 tx 36: OK, {Fh 2 CACHE} 18:34:22.323661 rx 38: GETATTR i3 {Fh 0} 18:34:22.323684 tx 38: OK, {tA=1s {M0100644 SZ=5 L=1 1000:1000 B8*4096 i0:1531145 A 1550252062.322237 M 1550252062.322237 C 1550252062.322237}} 18:34:22.323729 rx 40: READ i3 {Fh 2 [0 +4096) L 0 NONBLOCK,0x8000} 18:34:22.323740 tx 40: OK, 4096b data (fd data) which almost always triggers conditions to invalidate data cache on kernel side (different size and different mtime). The kernel is not doing anything wrong here - it is allowed to issue GETATTR request at any time. It is thus only a kernel behaviour change, still being valid from FUSE protocol point of view, not a kernel regression. -> Fix the test - by disabling CAP_AUTO_INVAL_DATA via ExplicitDataCacheControl. This should stop kernel from dropping data cache on mtime change; - by using the same size for before and after states. This avoid hitting cache being dropped when kernel sees file size being changed. Make the test more picky trying to hit the pain points: - make sure that mtime of file.txt at before and after states are different. Without added sleep the panic on mtime δ == 0 is triggered reliably on my notebook. - issue explicit stat before second open to force kernel to relookup/regetattr the file and reread the attributes. Hopefully finally fixes https://github.com/hanwen/go-fuse/issues/168.
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Kirill Smelkov authored
We have many calls to ioutil.WriteFile and ioutil.ReadFile + checking for error. Move those calls into utility functions which call t.Fatal if they see any error. No need to use additional error prefix as both ioutil.WriteFile and ReadFile produce os.PathError which always has opertion and path on which it was performed.
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Kirill Smelkov authored
Add nodefs.Mount - utility to mount root over mountpoint with given options. We already had nodefs.MountRoot, but that was taking only nodefs.Options and there was no way to pass fuse.MountOptions in. The new utility accepts both fuse.MountOptions and nodefs.Options, each covering their level. This should be generally useful(*), as well as it will be used in a next patch in TestFopenKeepCache where fuse.MountOptions.PreciseDataCacheControl will need to be used. (*) see e.g. https://lab.nexedi.com/kirr/wendelin.core/blob/8f497094/wcfs/misc.go#L258 as example that users unroll their Mount versions to be able to pass in fuse.MountOptions.
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Kirill Smelkov authored
CAP_AUTO_INVAL_DATA is capability of kernel, but from the point of view of a filesystem it is not a capability, but a behaviour request: if set, it requests to kernel - filesystem client - to perform data cache invalidations based on heuristics. Current heuristic is to drop data cache for a file if kernel sees file's mtime being changed: https://git.kernel.org/pub/scm/linux/kernel/git/torvalds/linux.git/tree/fs/fuse/inode.c?id=v5.0-0-g1c163f4c7b3f#n238 https://git.kernel.org/linus/eed2179efe However this could be unwanted behaviour if filesystem is careful to explicitly invalidate local file cache: despite filesystem attempts to preciously keep data cache, the whole cache of the file is unnecessarily dropped. -> To fix add a new mount options for filesystems to indicate they are careful with respect to data cache invalidations and thus should be fully responsible for invalidating data cache. Teach go-fuse to not send CAP_AUTO_INVAL_DATA in this mode to kernel on FUSE handshake. Note, as of upcoming Linux 5.1 (estimated to be released mid 2019), FUSE client in kernel still automatically and unconditionally drops whole data cache of a file if its sees size change. Kernel and go-fuse patches to fix that are here: https://git.kernel.org/pub/scm/linux/kernel/git/mszeredi/fuse.git/commit/?id=ad2ba64dd489 https://github.com/hanwen/go-fuse/pull/273 The kernel patch is likely to enter mainline kernel when 5.2 merge window opens. We'll remove XXX in a follow-up go-fuse patch that adds support for CAP_EXPLICIT_INVAL_DATA.
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Kirill Smelkov authored
FOPEN_STREAM, together with FOPEN_NONSEEKABLE must be used on stream-like file handles that provide both read and write to avoid hitting deadlock in the kernel. Please see the following kernel patch for details on how the deadlock can happen: git.kernel.org/linus/10dce8af3422 Adding FOPEN_STREAM to kernel FUSE is in fuse.git#for-next now and is likely to enter mainline kernel when 5.2 merge window opens way or another: https://git.kernel.org/pub/scm/linux/kernel/git/mszeredi/fuse.git/commit/?id=bbd84f33652 https://lore.kernel.org/linux-fsdevel/CAHk-=whQQdoQsgEx1vO7OkfPDcV5hurPnMRLgzfXAPN63n5Sbg@mail.gmail.com/ https://lore.kernel.org/linux-fsdevel/CAHk-=wjEOyba5As1PEMk6RitNVOJH9oJ_Jbg4y=5B0fcX1iKGw@mail.gmail.com/ https://lore.kernel.org/linux-fsdevel/CAHk-=wgh234SyBG810=vB360PCzVkAhQRqGg8aFdATZd+daCFw@mail.gmail.com/ https://lore.kernel.org/linux-fsdevel/20190424183012.GB3798@deco.navytux.spb.ru/ Here is example for FOPEN_STREAM usage: https://lab.nexedi.com/kirr/wendelin.core/blob/7783ecf4/wcfs/misc.go#L327-335 https://lab.nexedi.com/kirr/wendelin.core/blob/7783ecf4/wcfs/misc.go#L276-428
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Han-Wen Nienhuys authored
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Han-Wen Nienhuys authored
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Han-Wen Nienhuys authored
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- 23 Apr, 2019 1 commit
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Kirill Smelkov authored
When kernel sends WRITE request it sends with it file handle, offset, size etc. We were not printing all this. Compare e.g. debug output sample for TestUtimesNano before and after the patch. before: rx 8: CREATE i1 {0100600 [CREAT,TRUNC,WRONLY,0x8000] (00)} ["hello.txt"] 10b tx 8: OK, {i3 g2 {M0100600 SZ=0 L=1 1000:1000 B0*4096 i0:733462 A 1556038355.426630 M 1556038355.426630 C 1556038355.426630} &{2 0 0}} rx 9: GETXATTR i3 {sz 0} ["security.capability"] 20b tx 9: 61=no data available rx 10: WRITE i3 3b <-- NOTE tx 10: OK after: rx 8: CREATE i1 {0100600 [WRONLY,CREAT,TRUNC,0x8000] (00)} ["hello.txt"] 10b tx 8: OK, {i3 g2 {M0100600 SZ=0 L=1 1000:1000 B0*4096 i0:736300 A 1556038379.359197 M 1556038379.359197 C 1556038379.359197} &{2 0 0}} rx 9: GETXATTR i3 {sz 0} ["security.capability"] 20b tx 9: 61=no data available rx 10: WRITE i3 {Fh 2 [0 +3) L 0 WRONLY,NONBLOCK,0x8000} 3b <-- NOTE tx 10: OK
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- 17 Apr, 2019 4 commits
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Han-Wen Nienhuys authored
The new naming makes clear that this is the One True API for Go-FUSE
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Han-Wen Nienhuys authored
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Han-Wen Nienhuys authored
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Han-Wen Nienhuys authored
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- 16 Apr, 2019 2 commits
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Jakob Unterwurzacher authored
There is a hang that appears when enabling CAP_PARALLEL_DIROPS on Linux 4.15.0: https://github.com/hanwen/go-fuse/issues/281 The hang was originally triggered by gvfs-udisks2-volume-monitor. This test emulates what gvfs-udisks2-volume-monitor does. On 4.15.0 kernels, the test will get stuck, and after 120 seconds you get a kernel backtrace like this: [ 1813.463679] INFO: task nodefs.test:2357 blocked for more than 120 seconds. [ 1813.463685] Not tainted 4.15.0-45-generic #48~16.04.1-Ubuntu [ 1813.463687] "echo 0 > /proc/sys/kernel/hung_task_timeout_secs" disables this message. [ 1813.463689] nodefs.test D 0 2357 2311 0x00000004 [ 1813.463691] Call Trace: [ 1813.463709] __schedule+0x3d6/0x8b0 [ 1813.463712] schedule+0x36/0x80 [ 1813.463714] schedule_preempt_disabled+0xe/0x10 [ 1813.463716] __mutex_lock.isra.2+0x2ae/0x4e0 [ 1813.463720] ? ___slab_alloc+0x223/0x4e0 [ 1813.463722] ? _cond_resched+0x1a/0x50 [ 1813.463724] __mutex_lock_slowpath+0x13/0x20 [ 1813.463725] ? __mutex_lock_slowpath+0x13/0x20 [ 1813.463727] mutex_lock+0x2f/0x40 [ 1813.463729] fuse_lock_inode+0x2a/0x30 [ 1813.463732] fuse_lookup+0x31/0x140 [ 1813.463735] ? d_alloc_parallel+0xc1/0x4c0 [ 1813.463738] fuse_atomic_open+0x6d/0xf0 [ 1813.463740] path_openat+0xc5d/0x13f0 [ 1813.463744] do_filp_open+0x99/0x110 [ 1813.463747] ? __check_object_size+0xfc/0x1a0 [ 1813.463749] ? __alloc_fd+0x46/0x170 [ 1813.463752] do_sys_open+0x12d/0x290 [ 1813.463754] ? do_sys_open+0x12d/0x290 [ 1813.463756] SyS_openat+0x14/0x20 [ 1813.463759] do_syscall_64+0x73/0x130 [ 1813.463762] entry_SYSCALL_64_after_hwframe+0x3d/0xa2
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Jakob Unterwurzacher authored
The old code searched for the first non-null byte from the end of the slice. This assumes that all bytes after the name are initialized to zero, which does not hold true on Linux 4.15. Instead, search for the first null byte from the start of the slice, which is guaranteed by man(3) readdir. Fixes https://github.com/hanwen/go-fuse/issues/287
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- 09 Apr, 2019 5 commits
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Han-Wen Nienhuys authored
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Han-Wen Nienhuys authored
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Han-Wen Nienhuys authored
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Han-Wen Nienhuys authored
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Han-Wen Nienhuys authored
This reduces the debug output from 25k lines to ~1k
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- 08 Apr, 2019 6 commits
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Kirill Smelkov authored
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Han-Wen Nienhuys authored
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Han-Wen Nienhuys authored
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Han-Wen Nienhuys authored
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Han-Wen Nienhuys authored
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Han-Wen Nienhuys authored
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