- 14 May, 2015 1 commit
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Kirill Smelkov authored
In 5755a6b3 (Basic setup.py / Makefile to build/install/sdist stuff + bigfile.so skeleton) we overlooked one thing: when tailing from setup.py to make level, we forgot to setup the PYTHON env variable properly, and that leads to changing building with std python. Look e.g. $ python3 setup.py build_ext -i running build_ext python setup.py ll_build_ext --inplace ^^^ which is obviously not correct. Fix it. The tox setup we have setup for testing with multiple interpreters (7af2b2d7 "Tox setup to test things with py27 & py34 and several versions of ZODB") did not caught this, because for every python and environment versions tox initializes separate virtualenv, in which .../bin/python is a link to chosen python, and this way both python and my-selected-for-build-python are the same. Cc: @Tyagov
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- 29 Apr, 2015 2 commits
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Kirill Smelkov authored
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Kirill Smelkov authored
For example on Debian 7 Wheezy the kernel (linux 3.2) supports holepunching, because holepunching was added in linux 2.6.38: http://git.kernel.org/linus/79124f18b335172e1916075c633745e12dae1dac but glibc does not provide fallocate mode constants, and compilation fails: gcc -pthread -fno-strict-aliasing -g -O2 -DNDEBUG -g -fwrapv -O3 -Wall -Wstrict-prototypes -fPIC -D_GNU_SOURCE -I./include -I./3rdparty/ccan -I./3rdparty/include -I/opt/slapgrid/f2a5f59d0d2b521681b9333ee76a2859/parts/python2.7/include/python2.7 -c bigfile/ram_shmfs.c -o build/temp.linux-x86_64-2.7/bigfile/ram_shmfs.o -std=gnu99 -fplan9-extensions -fvisibility=hidden -Wno-declaration-after-statement -Wno-error=declaration-after-statement bigfile/ram_shmfs.c: In function ‘shmfs_drop_memory’: bigfile/ram_shmfs.c:135:31: error: ‘FALLOC_FL_PUNCH_HOLE’ undeclared (first use in this function) bigfile/ram_shmfs.c:135:31: note: each undeclared identifier is reported only once for each function it appears in bigfile/ram_shmfs.c:135:54: error: ‘FALLOC_FL_KEEP_SIZE’ undeclared (first use in this function) error: command 'gcc' failed with exit status 1 Try to fix it via fallbacking to provide the needed defines on older systems ourselves. Cc: Klaus Wölfel <klaus@nexedi.com> Cc: Ivan Tyagov <ivan@tyagov.com>
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- 15 Apr, 2015 1 commit
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Kirill Smelkov authored
In C99 declaration after statement is ok, and we explicitly compile with -std=gnu99. Python >= 3.4 however adds -Werror=declaration-after-statement even for extension modules irregardless of their compilation flags: https://bugs.python.org/issue21121 and the build fails this way: building 'wendelin.bigfile._bigfile' extension creating build/temp.linux-x86_64-3.4 creating build/temp.linux-x86_64-3.4/bigfile creating build/temp.linux-x86_64-3.4/lib gcc -pthread -Wno-unused-result -Werror=declaration-after-statement -DNDEBUG -fmessage-length=0 -grecord-gcc-switches -O2 -Wall -D_FORTIFY_SOURCE=2 -fstack-protector -funwind-tables -fasynchronous-unwind-tables -g -DOPENSSL_LOAD_CONF -fPIC -D_GNU_SOURCE -I./include -I./3rdparty/ccan -I./3rdparty/include -I/usr/include/python3.4m -c bigfile/_bigfile.c -o build/temp.linux-x86_64-3.4/bigfile/_bigfile.o -std=gnu99 -fplan9-extensions -fvisibility=hidden bigfile/_bigfile.c: In function ‘pyfile_new’: bigfile/_bigfile.c:679:5: error: ISO C90 forbids mixed declarations and code [-Werror=declaration-after-statement] static char *kw_list[] = {"blksize", NULL}; ^ cc1: some warnings being treated as errors error: command 'gcc' failed with exit status 1 Ensure we turn off this warning and error because we already rely on compiling in C99 mode. Reported-and-tested-by: Ivan Tyagov <ivan@tyagov.com>
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- 03 Apr, 2015 32 commits
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Kirill Smelkov authored
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Kirill Smelkov authored
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Kirill Smelkov authored
This shows how to first generate such arrays (in steps, as every transaction change should fit in memory), and then gather data from whole array using C/Fortran/etc code. It shows how to compute mean via NumPy's ndarray.mean() It also shows that e.g. ndarray.var() wants to create temporaries in size of original ndarray and that would fail, because it does not fit into RAM. ndarray.var() should not need to create such temporaries in principle - all it has to do is to first compute mean, and then compute sum (Xi - <X>)^2 in a loop. <X> is scalar, Xi - is just access to original array. ~~~~ So this also show NumPy can be incrementally improved to avoid creating such temporaries, and then it will work.
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Kirill Smelkov authored
- for virtual memory subsytem - for ZBigFiles They are not currently great, e.g. for virtmem we have in-kernel overhead of page clearing - in perf profiles, for bigfile_mmap compared to file_read kernel's clear_page_c raises significantly. That is the worker for clearing page memory and we currently cannot avoid that - any memory obtained from kernel (MAP_ANONYMOUS, mmap(file) with hole, etc...) comes pre-initialized to zeros to userspace. This can be seen in the benchmarks as well: file_readbig differs from file_read in only that the latter uses 1 small buffer and the first allocates large memory (cleared by kernel + python does the memset). bigfile/tests/bench_virtmem.py@125::bench_file_mmap_adler32 0.47 (0.86 0.49 0.47) bigfile/tests/bench_virtmem.py@126::bench_file_read_adler32 0.69 (1.11 0.71 0.69) bigfile/tests/bench_virtmem.py@127::bench_file_readbig_adler32 1.41 (1.70 1.42 1.41) bigfile/tests/bench_virtmem.py@128::bench_bigfile_mmap_adler32 1.42 (1.45 1.42 1.51) bigfile/tests/bench_virtmem.py@130::bench_file_mmap_md5 1.52 (1.91 1.54 1.52) bigfile/tests/bench_virtmem.py@131::bench_file_read_md5 1.73 (2.10 1.75 1.73) bigfile/tests/bench_virtmem.py@132::bench_file_readbig_md5 2.44 (2.73 2.46 2.44) bigfile/tests/bench_virtmem.py@133::bench_bigfile_mmap_md5 2.40 (2.48 2.40 2.53) There is MAP_UNINITIALIZED which works only for non-mmu targets and only if explicitly allowed when configuring kernel (off by default). There were patches to disable that pages zeroing, as it gives significant speedup for people's workloads, e.g. [1,2] but all of them did not got merged for security reasons. [1] http://marc.info/?t=132691315900001&r=1&w=2 [2] http://thread.gmane.org/gmane.linux.kernel/548926 ~~~~ For ZBigFile - it is the storage who is dominating in profiles.
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Kirill Smelkov authored
For this, a small wrapper over py.test is developed (to discover/collect functions to benchmar, etc) and then it runs such functions several times in a boxed enveronment. Benchmarks should be named bench_*.py
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Kirill Smelkov authored
This is like to BigArray, like ZBigFile is to BigFile (4174b84a "bigfile: BigFile backend to store data in ZODB")
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Kirill Smelkov authored
I.e. something like numpy.memmap for numpy.ndarray and OS files. The whole bigarray cannot be used as a drop-in replacement for numpy arrays, but BigArray _slices_ are real ndarrays and can be used everywhere ndarray can be used, including in C/Fortran code. Slice size is limited by mapping-size (= address-space size) limit, i.e. to ~ max 127TB on Linux/amd64. Changes to bigarray memory are changes to bigfile memory mapping and as such can be discarded or saved back to bigfile using mapping (= BigFileH) dirty discard/writeout interface. For the same reason the whole amount of changes to memory is limited by amount of physical RAM.
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Kirill Smelkov authored
This adds transactionality and with e.g. NEO[1] allows to distribute objects to nodes into cluster. We hook into ZODB two-phase commit process as a separate data manager, and synchronize changes to memory, to changes to object only at that time. Alternative would be to get notified on every page change, and mark appropriate object as dirty right at that moment. But I wanted to stay close to filesystem design (we don't get notification for every file change from kernel) - that's why it is done the first way. [1] http://www.neoppod.org/
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Kirill Smelkov authored
In Python. To demonstrate how backends could be implemented and test system on simple things.
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Kirill Smelkov authored
Exposes BigFile - this way users can define BigFile backend in Python. Also exposed are BigFile handles, and VMA objects which are results of mmaping.
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Kirill Smelkov authored
We'll use py.test for unit-testing of Python part.
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Kirill Smelkov authored
Does similar things to what kernel does - users can mmap file parts into address space and access them read/write. The manager will be getting invoked by hardware/OS kernel for cases when there is no page loaded for read, or when a previousle read-only page is being written to. Additionally to features provided in kernel, it support to be used to store back changes in transactional way (see fileh_dirty_writeout()) and potentially use huge pages for mappings (though this is currently TODO)
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Kirill Smelkov authored
Users can inherit from BigFile and provide custom ->loadblk() and ->storeblk() to load/store file blocks from a database or some other storage. The system then could use such files to memory map them into user address space (see next patch).
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Kirill Smelkov authored
Useful to debug (via either printk or gdb) the kernel - one can boot it, and tweak compile test program on host and be ready to test it inside qemu on tested kernel. Another use case is to add tracing printk to kernel and to boot it on each iteration. Booting via qemu means the workflow is not disrupted as would with rebooting the hardware. With this tool it was straightforward to find out why mmap-alias through mremap does not work for huge pages: static struct vm_area_struct *vma_to_resize(unsigned long addr, unsigned long old_len, unsigned long new_len, unsigned long *p) { struct mm_struct *mm = current->mm; struct vm_area_struct *vma = find_vma(mm, addr); if (!vma || vma->vm_start > addr) goto Efault; if (is_vm_hugetlb_page(vma)) <-- goto Einval; mremap_to(...) { /* lots of checks, then */ vma_to_resize(...)
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Kirill Smelkov authored
This thing allows to get aliasable RAM from OS kernel and to manage it. Currently we get memory from a tmpfs mount, and hugetlbfs should also work, but is TODO because hugetlbfs in the kernel needs to be improved. We need aliasing because we'll need to be able to memory map the same page into several places in address space, e.g. for taking two slices overlapping slice of the same array at different times. Comes with test programs that show we aliasing does not work for anonymous memory.
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Kirill Smelkov authored
This will be the core of virtual memory subsystem. For now we just define a structure to describe pages of memory and add utility to allocate address space from OS.
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Kirill Smelkov authored
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Kirill Smelkov authored
We hook into SIGSEGV and handle read/write pagefaults this way. In this patch there goes stub code that only detects faults and determines (in arch specific way) whether fault was for read or write and there is a TODO to pass that information to higher level. It also comes with tests to detect we still crash if we access something incorrectly, so people could have coredumps and investigate them.
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Kirill Smelkov authored
For BigFiles we'll needs to maintain `{} offset-in-file -> void *` mapping. A hash or a binary tree could be used there, but since we know files are most of the time accessed sequentially and locally in pages-batches, we can also organize the mapping in batches of keys. Specifically offset bits are so divided into parts, that every part addresses 1 entry in a table of hardware-page in size. To get to the actual value, the system lookups first table by first part of offset, then from first table and next part from address - second table, etc. To clients this looks like a dictionary with get/set/del & clear methods, but lookups are O(1) time always, and in contrast to hashes values are stored with locality (= adjacent lookups almost always access the same tables).
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Kirill Smelkov authored
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Kirill Smelkov authored
We'll be testing C code in a similiar-to-python way - keep test_*.c files nearby and compile/executing them as needed. Tests are run several times in several ways - as plainly compiled and also with additional error checkers: - AddressSanitizer - ThreadSanitizer - and similiar checkers from Valgrind
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Kirill Smelkov authored
Like C bzero / memset & memcopy - but work on python buffers. We leverage NumPy for doing actual work, and this way NumPy becomes a depenency. Having NumPy as a dependency is ok - we'll for sure need it later as we are trying to build out-of-core ndarrays.
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Kirill Smelkov authored
Like taking an exact integer log2, upcasting pointers for C-style inheritance done in a Plan9 way, and wrappers to functions which should never fail.
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Kirill Smelkov authored
Modelled by ones used in Linux kernel.
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Kirill Smelkov authored
It is an early project decision to use gnu99 & Plan9 C extensions, to simplify C code. So far we only build stub wendelin/bigfile/_bigfile.so . Makefile is introduced because there will be targets which are easier to handle at make level. For end users no make knowledge is required - usual `python setup.py build|install|...` work, redirecting to make where necessary. As was promised (e870781d "Top-level in-tree import redirector") setup.py contains install-time hooks to handle in-tree wendelin.py and install it as a module namespace. For sdist, we just use `git ls-files` info if we are in a checkout.
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Kirill Smelkov authored
Prepare for building stuff and add commonly produced files to our .gitignore .
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Kirill Smelkov authored
This will be a module to allow users to program custom file-like backends and latter memory-map content of files from the backend. For now just start the module structure.
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Kirill Smelkov authored
Unfortunately in CCAN they made separation of list_head into list_head & list_node (for better type safety I suppose), but that leads e.g. to inablility to insert element in the middle of the list. We take the code from util-linux.git (v2.25-165-g9138d6f)[1] which claims LGPL license for it, with which we are fine. [1] https://git.kernel.org/cgit/utils/util-linux/util-linux.git/tree/include/list.h?id=v2.25-165-g9138d6f
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Kirill Smelkov authored
CCAN[1] is a "Comprehensive C Archive Network" - a collection of useful C libraries to use. Wendelin.core will be a C project in big part, so having CCAN at hand is useful. We hook CCAN as git submodule, without copying it into git repo. Later on making source tarball distribution, the code will be injected into generated tarball, so there will be no additional dependencies to download something from network for end users. [1] http://ccodearchive.net/
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Kirill Smelkov authored
For working copy checkout we would like to work on the source right-away, without putting it under additional wendelin/ (and possibly /core/) subdirectories. Add in-tree modules redirector which tweaks plain-python and pkg_resources-based imports so that e.g. import wendelin.bigarray while in-tree resolves to bigarray/__init__.py In installed state, there will be no such redirector, and code will be installed with conventional structure.
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Kirill Smelkov authored
As a first step we want to make sure the code can be used by open-source projects without a problem. So GPLv3+ with wide exception for all open-source licenses.
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Kirill Smelkov authored
The project to implement Out-of-core NumPy arrays in backward-compatible way.
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