- 13 Jun, 2016 2 commits
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Kirill Smelkov authored
>= 1.6 was already using latest in 1.6 series, but >= 1.6.2 is more explicit. Also: in 1.6.2 NEO switched from MySQL-python to mysqlclient: neoppod@5f0c93f5 so we switch it too.
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Kirill Smelkov authored
Namely 1.8.x, 1.9.x -> 1.10.x -> 1.11.x
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- 12 Jun, 2016 1 commit
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Kirill Smelkov authored
Just update to latest CCAN for it to be a fresh one. Throught the modules we use there are no real updates, just a fix for one warning in array_size.
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- 20 Apr, 2016 1 commit
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Kirill Smelkov authored
For ZBlk1 we already compare ZData content about whether it was changed compared to data already stored to DB, and do not store it twice if data is the same. However ZBlk itself is always marked as changed, if corresponding memory page was dirtied. This results in transactions like Trans #33915309 tid=03b6944919befeee time=2016-04-17 22:01:06.034237 offset=140320105842 status=' ' user='...' description='...' # ... other parts, but no ZData here data #2 oid=000000000026fc4c size=79 class=wendelin.bigfile.file_zodb.ZBlk1 where ZBlk1 is committed the same without necessity. NOTE we cannot avoid committing ZBlk in all cases, because it is used to signal other DB clients that a ZBlk needs to be invalidated and this way associated fileh pages are invalidated too. This cannot work via ZData, because ZData don't have back-pointer to ZBlk1 or to corresponding zfile.
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- 05 Apr, 2016 1 commit
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Kirill Smelkov authored
Starting from setuptools 19.4, more concrete from the following commit: https://github.com/pypa/setuptools/commit/ebc54982 setuptools sorts namespaced packages .__path__ to be in sync with sys.path . That however breaks for wendelin.core used from in-tree or installed in development mode, because we are doing tricks in top-level import redirector (see e870781d "Top-level in-tree import redirector"): (z+numpy.v2)kirr@teco:~/tmp/trashme/wendelin.core$ python -c 'import wendelin' Traceback (most recent call last): File "<string>", line 1, in <module> File "wendelin.py", line 39, in <module> __import__('pkg_resources').declare_namespace(__name__) File "/home/kirr/src/wendelin/venv/z+numpy.v2/local/lib/python2.7/site-packages/pkg_resources/__init__.py", line 2081, in declare_namespace _handle_ns(packageName, path_item) File "/home/kirr/src/wendelin/venv/z+numpy.v2/local/lib/python2.7/site-packages/pkg_resources/__init__.py", line 2026, in _handle_ns _rebuild_mod_path(path, packageName, module) File "/home/kirr/src/wendelin/venv/z+numpy.v2/local/lib/python2.7/site-packages/pkg_resources/__init__.py", line 2050, in _rebuild_mod_path orig_path.sort(key=position_in_sys_path) File "/home/kirr/src/wendelin/venv/z+numpy.v2/local/lib/python2.7/site-packages/pkg_resources/__init__.py", line 2045, in position_in_sys_path return sys_path.index(_normalize_cached(os.sep.join(parts))) ValueError: '/home/kirr/tmp/trashme' is not in list Here wendelin.py added /home/kirr/tmp/trashme/wendelin.core to .__path__ and setuptools' _handle_ns() wants to order that dir's parent in correspondence with sys.path, but parent path is not there - oops. We can workaround the problem, by first not initializing .__path__ and letting __import__('pkg_resources').declare_namespace(__name__) fully handle and initialize it, and only after it is done we make the correction for wendelin modules located not under .../wendelin.core/wendelin/ but under .../wendelin.core/ . Importing was tested to work with the fix with both setuptools 20.6.7 and older setuptools 17.1.1, i.e. here we should not be breaking backward compatibility. /reported-by @tatuya, @Camata, @Tyagov /reviewed-on kirr/wendelin.core!1
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- 18 Dec, 2015 1 commit
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Kirill Smelkov authored
Commit ab9ca2df (bigarray: Add support for FORTRAN ordering) added ability to define array order, but there I made a mistake of not caring about how previously-saved to DB arrays would be read back. The thing is BigArray gained new data member ._order which is automatically saved to DB thanks to ZBigArray inheriting from Persistent; on load-from-db path we just read object state from DB, which for ZBigArray is dict, and restore object attributes from it. But for previously-saved data, obviously, there is no 'order' entry and thus this way restored objects are restored not in full to current code expectations and it can boom e.g. this way: zarray.resize((new_one,old_shape[1])) Module wendelin.bigarray, line 190, in resize self._init0(new_shape, self.dtype, order=self._order) AttributeError: 'ZBigArray' object has no attribute '_order' Solution to fix is: on restore-from-DB path, see if a data member is not present on restored object, and if it has default value in BigArray set it to that. ( code to get function defaults is from http://stackoverflow.com/questions/12627118/get-a-function-arguments-default-value ) /cc @Tyagov, @klaus
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- 15 Dec, 2015 6 commits
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Kirill Smelkov authored
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Kirill Smelkov authored
loadblk() calls are potentially slow and external code that serve the cal can take other locks in addition to virtmem lock taken by virtmem subsystem. If that "other locks" are also taken before external code calls e.g. fileh_invalidate_page() in different codepath a deadlock can happen, e.g. T1 T2 page-access invalidation-from-server received V -> loadblk Z <- ClientStorage.invalidateTransaction() Z -> zeo.load V <- fileh_invalidate_page The solution to avoid deadlock is to call loadblk() with virtmem lock released and upon loadblk() completion recheck virtmem data structures carefully. To make that happen: - new page state is introduces: PAGE_LOADING (file content loading is in progress) - virtmem releases virt_lock before calling loadblk() when serving pagefault - because loading is now done with virtmem lock released, now: 1. After loading completes we need to recheck fileh/vma data structures The recheck is done in full - vma_on_pagefault() just asks its driver (see VM_RETRY and VM_HANDLED codes) to retry handling the fault completely. This should work as the freshly loaded page was just inserted into fileh->pagemap and should be found there in the cache on next lookup. On the other hand this also works correctly, if there was concurrent change - e.g. vma was unmapped while we were loading the data - in that case the fault will be also processed correctly - but loaded data will stay in fileh->pagemap (and if not used will be evicted as not-needed eventually by RAM reclaim). 2. Similar to retrying mechanism is used for cases when two threads concurrently access the same page and would both try to load corresponding block - only one thread issues the actual loadblk() and another waits for load to complete with polling and VM_RETRY. 3. To correctly invalidate loading-in-progress pages another new page state is introduced: PAGE_LOADING_INVALIDATED (file content loading was in progress while request to invalidate the page came in) which fileh_invalidate_page() uses to propagate invalidation message to loadblk() caller. 4. Blocks loading can now happen in parallel with other block loading and other virtmem operations - e.g. invalidation. For such cases tests are added to test_thread.py 5. virtmem lock now becomes just regular lock, instead of being previously recursive. For virtmem lock to be recursive was needed for cases, when code under loadblk() could trigger other virtmem calls, e.g. due to GC and calling another VMA dtor that would want to lock virtmem, but virtmem lock was already held. This is no longer needed. 6. To catch double faults we now cannot use just on static variable in_on_pagefault. That variable thus becomes thread-local. 7. Old test in test_thread to "test that access vs access don't overlap" no longer holds true - and is thus removed. /cc @Tyagov, @klaus
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Kirill Smelkov authored
Previously we were doing virt_lock() / virt_unlock() which automatically were making sure to unlock GIL before locking virtmem, and to restore GIL state to previous after virtmem lock happened. virt_unlock() was unlocking just the virtmem lock without touching GIL at all - that works because the running code would eventually release GIL as python regularly does so to allowing multiple threads to run. In the next patch however, we'll need to wait for in-progress-loading page to complete, and that wait has to be done with GIL released (so other python threads could run), and for doing so we'll need functionality to make sure GIL is unlocked and retake it back, not tied to virt_lock(). So factor it out.
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Kirill Smelkov authored
NotifyChannel was introduced in c7c01ce4 (bigfile/zodb: ZODB.Connection can migrate between threads on close/open and we have to care) to test thread interaction specific to ZODB. We'll however need NotifyChannel to do more threading test of virtmem core, and this way the proper place for NotifyChannel is test_thread.py itself. Move it.
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Kirill Smelkov authored
Both comments are from the beginning - from 9a293c2d (bigfile/virtmem: Userspace Virtual Memory Manager) - but d53271b9 patch (bigfile/virtmem: Big Virtmem lock) missed to update them.
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Kirill Smelkov authored
No one was freeing RAMH structure itself, and thus ASAN reports e.g.: ==15935==ERROR: LeakSanitizer: detected memory leaks Direct leak of 32 byte(s) in 1 object(s) allocated from: #0 0x7f29c89f1001 in __interceptor_calloc (/usr/lib/x86_64-linux-gnu/libasan.so.2+0x94001) #1 0x401da1 in zalloc include/wendelin/utils.h:65 #2 0x408128 in shmfs_ramh_open bigfile/tests/../ram_shmfs.c:202 #3 0x407611 in ramh_open bigfile/tests/../ram.c:81 #4 0x402560 in fileh_open bigfile/tests/../virtmem.c:131 #5 0x427ca1 in test_pagefault_savestate bigfile/tests/test_virtmem.c:1022 #6 0x4281ba in main bigfile/tests/test_virtmem.c:1061 #7 0x7f29c83b8b44 in __libc_start_main (/lib/x86_64-linux-gnu/libc.so.6+0x21b44) NOTE similar leak remains open in ram_close(), but it is a bit involved to fix and the effort will be removed anyway after we switch to kernel virtual memory manager. Besides ramh are opened and closed all the time and ram only once.
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- 05 Nov, 2015 1 commit
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Kirill Smelkov authored
Currently wendelin.core does not work on e.g. Debian 7, because that distro has too old kernel without support for fallocate on tmpfs. But the diagnostics of failure is not clear and looks like just being out of memory: bigfile/tests/../virtmem.c:845 OOM BUG! what happens in fact is that - virtmem tries to allocate a page -> calls shmfs_alloc_page(), - fallocate() fails with "operation not supported" error code - virtmem sees this as page allocation failure, - tries to reclaim pages, - but there are no allocated pages at all -> OOM Detect whether fallocate() error is operational error, or simply "fallocate not supported" and if latter, report to user. Now it looks like: bigfile/tests/../ram_shmfs.c:129 shmfs_alloc_page WARN: fallocate() not supported bigfile/tests/../virtmem.c:845 OOM BUG! /cc @Tyagov
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- 02 Nov, 2015 1 commit
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Kirill Smelkov authored
Until now BigArrays could use only C-style ordering - where major index is the first one. Fortran ordering is the opposite - where major index is the last one - and is used in Fortran world and sometimes by scientists in other areas. As people keep on asking for Fortran-ordered BigArrays, let's add support for it. The essential code change is to change 0'th index to major index in __getitem__ and rest of the code. For the reference: ndarray memory layout for different orders is described here: http://docs.scipy.org/doc/numpy/reference/arrays.ndarray.html#internal-memory-layout-of-an-ndarray
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- 02 Oct, 2015 9 commits
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Kirill Smelkov authored
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Kirill Smelkov authored
Since 13c0c17c (bigfile/zodb: Format #1 which is optimized for small changes) each ZBlk is split into chunks, and the procedure to load/save blk data collects/disassembles the chunks. Previously in bigfile/zodb tests, we were testing by verifying only [0] element in each block, so this way most code for chunks collection/disassembling was not tested. Fix this aspect by making sure whole block content is as would-be expected in tests.
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Kirill Smelkov authored
It was reStructuredText already, but links showing was ugly, especially when there were several links in the same line. Use kernelnewbies style to refer to commits, when particular commit url is not shown to user, only hyperlinked. This way it looks nicer.
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Kirill Smelkov authored
With the target being to show it on pypi project page.
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Kirill Smelkov authored
Now we have at least some readme, so this way it is more convenient.
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Kirill Smelkov authored
This is a general readme about what wendelin.core is and how to use ZBigArray from user point of view.
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Kirill Smelkov authored
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Kirill Smelkov authored
It was already there but very brief. Here we add text which tries to explain to reader what is generally going on in the program.
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Kirill Smelkov authored
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- 30 Sep, 2015 1 commit
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Kirill Smelkov authored
ZBlk* objects are intermediate ZODB object in between data stored in ZODB and memory pages managed by virtmem. As such, after they do their job to either load data from DB to memory, or store from memory to DB, it is not needed to keep them alive with duplicate content thus only wasting memory. ZBlk0 cares about this detail via "deactivating" ._v_blkdata in loadblkdata() and __getstate__() prologues. ZBlk1 did the same for load path in loadblkdata() prologue, but for .__getstate__() it was not directly possible, because for ZBlk1 the state is IOBTree, not one non-persistent object, and thus it first needs to be processed by ZODB together with its subobjects on its way to storage and only then all they deactivated. So 13c0c17c (bigfile/zodb: Format #1 which is optimized for small changes) only put TODO for memory-page -> DB path about not wasting memory this way. But the problem is relatively easy to solve: - we can deactivate ZData objects (leaf objects in ZBlk1.chunktab btree) by hooking into ZData.__getstate__() prologue; - we also need to care to deactivate chunks right away, which setblkdata() loaded to compare .data and found them to be not changed This way we do not waste memory keeping intermediate ZData objects alive with the same content as memory page after commit. /cc @Tyagov
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- 28 Sep, 2015 5 commits
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Kirill Smelkov authored
ZBlk1.setblkdata() has logic to detect CHUNKSIZE change, and if so recreate whole chunktab from scratch for simplicity. There was a thinko however - len(chunk.data) == CHUNKSIZE is ok and actually very often happens when data does not have zeroes. Because of this off-by-1 comparison mistake, ZData objects were constantly created and thrown out instead of being reused which led to fast ZODB growth. Fix it. /reported-by @Tyagov
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Kirill Smelkov authored
Our current workloads are mostly a lot of small data changes and this is what ZBlk1 was created for. Yes it has larger overhead for accessing data, but we already painted the way how to handle this in 13c0c17c (bigfile/zodb: Format #1 which is optimized for small changes) -> move data deduplication/management to server side. So be it ZBlk1 the default for now. /cc @Tyagov, @klaus
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Kirill Smelkov authored
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Kirill Smelkov authored
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Kirill Smelkov authored
We check all pairs of possible formats and for every pair write some data at file 0 block, check that it is in source format; then change default format, write another data, check that file.blktab[0] changed its type. I.e. with this test we verify that the we can read data in old format and change it incrementally to new. Or the other way, if data is in new format, and we decide to migrate to old one, it also works. /cc @Tyagov, @klaus
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- 24 Sep, 2015 9 commits
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Kirill Smelkov authored
Our current approach is that each file block is represented by 1 zodb object, with block size being 2M. Even with trailing \0 trimming, which halves the overhead on average, DB size grows very fast if we do a lot of small appends or changes. So another format needs to be introduced which has lower overhead for storing small changes: In general, to represent BigFile as ZODB objects, each file block could be represented separately either as 1) one ZODB object, or (ZBlk0 - this what we have already) 2) group of ZODB objects (ZBlk1 - this is what we introduce) with top-level BTree directory #blk -> objects representing block. For "1" we have - low-overhead access time (only 1 object loaded from DB), but - high-overhead in terms of ZODB size (with FileStorage / ZEO, every change to a block causes it to be written into DB in full again) For "2" we have - low-overhead in terms of ZODB size (only part of a block is overwritten in DB on single change), but - high-overhead in terms of access time (several objects need to be loaded for 1 block) In general it is not possible to have low-overhead for both i) access-time, and ii) DB size, with approach where we do block objects representation / management on *client* side. On the other hand, if object management is moved to DB *server* side, it is possible to deduplicate them there and this way have low-overhead for both access-time and DB size with just client storing 1 object per file block. This will be our future approach after we teach NEO about object deduplication. ~~~~ As shown above in the last paragraph it is not possible to perform optimally on client side. Thus ZBlk1 should be only an intermediate solution until we move data management to DB server side, with main criteria for ZBlk1 to keep it simple. In this patch a simple scheme is used, where every block is divided into chunks organized via BTree. When a block part changes, only corresponding chunk is updated. Chunk size is chosen to be 4K which creates ~ 512 fanout for 2M block. DB size after tests is changed as follows: bigfile bigarray ZBlk0 24K 6200K ZBlk1 36K 36K ( slight size increase for bigfile tests is because of btree structures overhead ) Time to run tests stays approximately the same. /cc @Tyagov, @klaus
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Kirill Smelkov authored
- current ZBlk becomes format 0 - write format can be selected via WENDELIN_CORE_ZBLK_FMT env var - upon writing a block we always make sure we write it in current write format - so if a block was previously written in one format, it could be changed on the next write. - tox is prepared to test all write formats (so far only ZBlk0 there). The reason is - in the next patch we'll introduce another format for blocks which is optimized for small changes.
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Kirill Smelkov authored
If we aim to have several kinds of ZBlk, the functionality to invalidate a block and bind it to zfile is common and thus should be shared. If we introduce a base class, it also makes sense to document what .loadblkdata() and .setblkdata() should do there - in one place.
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Kirill Smelkov authored
- we have logic to init ._v_zfile and ._v_blk there - the same for ._v_blkdata - logic to init it is there + it is better to set variables right from instance creation, not hoping "it will be set outside from master" NOTE ._v_blkdata = None means the block was not yet loaded and generally fits into logic how ZBlk operates and thus the change is ok.
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Kirill Smelkov authored
A lot of times data in blocks come shorter than block size and the rest of the memory page is zeros (because it was pre-filled zeros by OS when page was allocated). Do a simple heuristic and trim those trailing zeros and not store them into DB. With this change size of DB created by running bigfile and bigarray tests changes as following: bigfile bigarray old 145M 35M new 24K 6M Trimming trailing zeros is currently done with str.rstrip('\0') which creates a copy. When/if needed this could be optimized to work in-place.
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Kirill Smelkov authored
- to keep things uniform with counterpart .loadblkdata() - so that master do not mess with ZBlk internals and works only through interface - this way it will be possible to use several kinds of ZBlk.
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Kirill Smelkov authored
All those functions move data between DB and ._v_blkdata and only master then connects data to memory page. Make that fact explicit.
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Kirill Smelkov authored
Again, leftover from 4174b84a (bigfile: BigFile backend to store data in ZODB).
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Kirill Smelkov authored
The comment was a leftover there from 4174b84a (bigfile: BigFile backend to store data in ZODB).
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- 23 Sep, 2015 2 commits
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Kirill Smelkov authored
i.e. it is ok to copy smaller data into larger buffer.
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Kirill Smelkov authored
- not only multiple of 8. We can do it by using uint8 typed arrays, and it does not hurt performance: In [1]: from wendelin.lib.mem import bzero, memset, memcpy In [2]: A = bytearray(2*1024*1024) In [3]: B = bytearray(2*1024*1024) memcpy(B, A) bzero(A) memset(A, 0xff) old: 718 µs 227 µs / 1116 228 µs / 1055 (*) new: 718 µs 176 µs / 1080 175 µs / 1048 (*) the second number comes from e.g. In [8]: timeit bzero(A) The slowest run took 4.63 times longer than the fastest. This could mean that an intermediate result is being cached 10000 loops, best of 3: 228 µs per loop so the second number is more realistic and says performance stays aproximately the same and only slightly improves.
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