- 18 Jul, 2024 20 commits
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Kirill Smelkov authored
Previously, like with FileStorage, we were testing btree/go only with data generated by python and pickle protocol=2. However even on py2 there are more pickle protocols that are in use, and also there is python3. -> Modernize testdata/gen-testdata to use run_with_all_zodb_pickle_kinds that was recently added as part of nexedi/zodbtools@f9d36ba7 and generate test data with both python2 and python3. It is handy to use py2py3-venv(*) to prepare python environment to do that. Adjust tests on Go side to verify how btree handles all generated zkinds. All py2_pickle1, py2_pickle2, py2_pickle3 and py3_pickle3 are handled well out of the box. (*) see nexedi/zodbtools@fac2f190
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Kirill Smelkov authored
We recently modrnized FileStorage/go tests to have all ZODB kinds of data which live in testdata/<zkind>/ for example testdata/py2_pickle3/ - see recent patch "go/zodb/fs1: Test FileStorage on all py2/py3 ZODB kinds of data we care about". We also updated all other packages to use that new FileStorage testdata. -> Now is the time for old testdata to go.
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Kirill Smelkov authored
Old fs1/testdata/1.fs will be going away -> we need to switch to using newly generated multi-zkind testdata. However for this test using only one zkind should be enough. Let's pick what we currently primarily use: py2_pickle3.
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Kirill Smelkov authored
Pickle protocol 3 allows to natively support all py bytes and string types and is supported by zodbpickle/py on both py2 and py3 out of the box. ZODB/py3 is using protocol=3 since 2013 and ZODB/py2 since 2018. In other words nowdays protocol=3 is the default protocol with which ZODB emits pickles, and it can be read practically everywhere. The difference in between protocol=2 and protocol=3 is addition of BINBYTES and SHORT_BINBYTES opcodes to represent bytes. Without those opcodes bytes are encoded as `_codecs.encode(byt.decode('latin1'), 'latin1')` which, when unpickled, results in bytes on py3 and str on py2. Compared to using `BINBYTES byt` this form is much bigger in size, but what is more important might turn bytes back into str when decoded and reencoded on py2. This form of bytes encoding is also not accepted by ZEO/py which rejects it with 2024-07-18T20:44:39 ERROR ZEO.asyncio.server Can't deserialize message Traceback (most recent call last): File "/home/kirr/src/wendelin/z/ZEO5/src/ZEO/asyncio/server.py", line 100, in message_received message_id, async_, name, args = self.decode(message) File "/home/kirr/src/wendelin/z/ZEO5/src/ZEO/asyncio/marshal.py", line 119, in pickle_server_decode return unpickler.load() # msgid, flags, name, args File "/home/kirr/src/wendelin/z/ZEO5/src/ZEO/asyncio/marshal.py", line 176, in server_find_global raise ImportError("Module not allowed: %s" % (module,)) ImportError: Module not allowed: _codecs All in all using pickle protocol=3 is ok from both py2 and py3 point of view, brings size optimization and correctness, and fixes ZEO and probably other issues. So let the pickles ZODB/go saves and other Go places emit be encoded with protocol=3 now as well. For the reference, the // TODO 2 -> 3 since ZODB5 switched to it and uses zodbpickle. is from 2019 added in a16c9e06 (go/zodb: Teach Persistent to serialize itself).
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Kirill Smelkov authored
ZEO/go client was asserting "method" field to be bytestring. As the result interoperation with ZEO/py3 server was failing as e.g. 2024-07-18T20:41:14 INFO ZEO.asyncio.server received handshake 'Z5' 2024/07/18 20:41:14 zlink @ - /tmp/zeo2281880331/1.fs.zeosock: serveRecv1: decode: .0: method: got string; expected str zeo_test.go:221: openzeo /tmp/zeo2281880331/1.fs.zeosock: zeo: open /tmp/zeo2281880331/1.fs.zeosock: zlink @ - /tmp/zeo2281880331/1.fs.zeosock: call register: zlink is closed because ZEO/py3 sends "method" as unicode. -> Fix it by using pickle.AsString when decoding "method" field. Similarly ZEO/go client was sending strings as bytestr, which on py3 decode to unicode ok only if they are ASCII. Adjust string encoding to be emitted as unicode always which works wrt both ZEO/py3 and ZEO/py2. -------- ZEO/go client was sending binary ZRPC arguments as bytestr as well, which was resulting in the following exception on ZEO/py3 side: 2024-07-18T20:42:31 ERROR ZEO.asyncio.server Can't deserialize message Traceback (most recent call last): File "/home/kirr/src/wendelin/z/ZEO/src/ZEO/asyncio/server.py", line 102, in message_received message_id, async_, name, args = self.decode(message) File "/home/kirr/src/wendelin/z/ZEO/src/ZEO/asyncio/marshal.py", line 122, in pickle_server_decode return unpickler.load() # msgid, flags, name, args UnicodeDecodeError: 'ascii' codec can't decode byte 0x85 in position 1: ordinal not in range(128) 2024/07/18 20:42:31 zlink @ - /tmp/zeo627526011/1.fs.zeosock: recvPkt: EOF xtesting.go:361: load 0285cbac70a3d733:0000000000000001: returned err unexpected: have: /tmp/zeo627526011/1.fs.zeosock: load 0285cbac70a3d733:0000000000000001: zlink @ - /tmp/zeo627526011/1.fs.zeosock: call loadBefore: zlink is closed want: nil -> Fix it by using pickle.Bytes which should be encoded as bytes in the pickle stream. This fix is ok but depends on the next patch to upgrade ZODB serialization protocol to 3, because on pickle protocol 2 bytes are serialized as `_codecs.encode(byt.decode('latin1'), 'latin1')` and ZEO/py forbids import of _codecs: 2024-07-18T20:44:39 ERROR ZEO.asyncio.server Can't deserialize message Traceback (most recent call last): File "/home/kirr/src/wendelin/z/ZEO5/src/ZEO/asyncio/server.py", line 100, in message_received message_id, async_, name, args = self.decode(message) File "/home/kirr/src/wendelin/z/ZEO5/src/ZEO/asyncio/marshal.py", line 119, in pickle_server_decode return unpickler.load() # msgid, flags, name, args File "/home/kirr/src/wendelin/z/ZEO5/src/ZEO/asyncio/marshal.py", line 176, in server_find_global raise ImportError("Module not allowed: %s" % (module,)) ImportError: Module not allowed: _codecs We will address this in the next patch.
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Kirill Smelkov authored
go/zodb/zeo: Test it on all py2/py3 ZODB kinds of data we care about and wrt both ZEO/py2 and ZEO/py3 Similarly to FileStorage, fs1tools and other Go packages previously we were testing ZEO/go client only with old FileStorage testdata generated by python and pickle protocol=2. However even on py2 there are more pickle protocols that are in use, and also there is python3. We were also testing our ZEO/go client only wrt ZEO/py2 but there is also ZEO/py3. -> Adjust ZEO/go testing to automatically load and test agains all ZODB kinds from recently updated FileStorage testdata and wrt both ZEO/py2 and ZEO/py3. All py2_pickle1, py2_pickle2, py2_pickle3 and py3_pickle3 are handled well out of the box. However only ZEO/py2 succeeds: tests wrt ZEO/py3 server currently fails and so are marked with "xfail". We will fix tests for ZEO/py3 in the next patch.
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Kirill Smelkov authored
Similarly to FileStorage, fs1tools and zodbtools previously we were testing demo only with old FileStorage testdata generated by python and pickle protocol=2. However even on py2 there are more pickle protocols that are in use, and also there is python3. -> Adjust demo testing to automatically load and test agains all ZODB kinds from recently updated FileStorage testdata. All py2_pickle1, py2_pickle2, py2_pickle3 and py3_pickle3 are handled well out of the box.
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Kirill Smelkov authored
Like with FileStorage and fs1tools previously we were testing zodbtools/go only with data generated by python and pickle protocol=2. However even on py2 there are more pickle protocols that are in use, and also there is python3. -> Modernize testdata generation to automatically pick up all ZODB kinds from recently-updated FileStorage/go testdata. Adjust tests on Go side to verify how zodbtools/go handle all generated zkinds. All py2_pickle1, py2_pickle2, py2_pickle3 and py3_pickle3 are handled well out of the box.
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Kirill Smelkov authored
Because else, py3_pickle3 tests fail e.g. as --- FAIL: TestFsDump/py3_pickle3/db=1 (0.00s) dump_test.go:70: fsdump: dump different: Trans #00000 tid=0285cbac70a3d733 size=211 time=1979-01-03 21:00:26.400001 offset=117 - status='p' user=b'user0.12' description=b'step 0.12' + status='p' user='user0.12' description='step 0.12' --- FAIL: TestFsDumpv/py3_pickle3/db=1 (0.00s) dump_test.go:70: fsdumpv: dump different: ************************************************************ -file identifier: b'FS30' +file identifier: 'FS30' ... fs1tools/go sticks to py2 syntax because in my view it is more user friendly. The preference of py2 or py3 syntax needs to be made anyway because for fs1tools/go it is not possible to know beforehand to which py kind its output will be compared against. I think it is not very good for fstools/py output to be dependent on python version. For the reference on this topic: output of zodbtools/py is designed to be the same on both py2 and py3.
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Kirill Smelkov authored
Like with FileStorage previously we were testing fs1tools only with data generated by python and pickle protocol=2. However even on py2 there are more pickle protocols that are in use, and also there is python3. -> Modernize testdata generation to automatically pick up all ZODB kinds from recently-updated FileStorage/go testdata. Adjust tests on Go side to verify how fs1tools handles all generated zkinds. py2_pickle1, py2_pickle2 and py2_pickle3 are handled well. Tests for py3_pickle3 currently fail and so are marked with "xfail". We will fix tests for py3_pickle3 in follow-up patches.
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Kirill Smelkov authored
Like fsdump/py does. https://github.com/zopefoundation/ZODB/commit/403f9869 started to print size of every transaction record saying that it readded it. And indeed this printing was there starting from https://github.com/zopefoundation/ZODB/commit/06e757b3 authored in 2003. Both commits use `size(txn) = trans._tend - trans._tpos` which is wrong by 8 because during file iteration tpos points to the beginning of transaction and tend points to tpos + tlen, but tlen is full transaction length - 8: https://github.com/zopefoundation/ZODB/blob/5.8.1/src/ZODB/FileStorage/FileStorage.py#L1997-L1998 https://github.com/zopefoundation/ZODB/blob/5.8.1/src/ZODB/FileStorage/format.py#L28 Mimic fsdump/py behaviour exactly for compatibility, even if it is a bit buggy, since it was there for such a long time. Without the fix TestFsDump was failing like this: --- FAIL: TestFsDump/db=1 (0.00s) dump_test.go:70: fsdump: dump different: -Trans #00000 tid=0285cbac258bf266 size=151 time=1979-01-03 21:00:08.800000 offset=52 +Trans #00000 tid=0285cbac258bf266 time=1979-01-03 21:00:08.800000 offset=52 status=' ' user='' description='initial database creation' data #00000 oid=0000000000000000 size=61 class=persistent.mapping.PersistentMapping ...
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Kirill Smelkov authored
https://github.com/zopefoundation/ZODB/commit/403f9869 adjusted fsdump to emit size of transaction record. Everything else remains unchanged. Our fsdump becomes broken, because it does not yet emit that size(txn). We will fix it in the next patch.
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Kirill Smelkov authored
We were saving index data with bytestrings inside index records. This works for py2 but on py3 it causes failure on unpickling because, by default, *STRING opcodes are unpickled into unicode on py3: === RUN TestIndexSaveToPy/py2_pickle1/py3 UnicodeDecodeError: 'ascii' codec can't decode byte 0x8d in position 25: ordinal not in range(128) The above exception was the direct cause of the following exception: Traceback (most recent call last): File "/home/kirr/src/neo/src/lab.nexedi.com/kirr/neo/go/zodb/storage/fs1/./py/indexcmp", line 43, in <module> main() File "/home/kirr/src/neo/src/lab.nexedi.com/kirr/neo/go/zodb/storage/fs1/./py/indexcmp", line 30, in main d1 = fsIndex.load(path1) File "/home/kirr/src/wendelin/z/ZODB/src/ZODB/fsIndex.py", line 138, in load v = unpickler.load() SystemError: <built-in method read of _io.BufferedReader object at 0x7fb631a86670> returned a result with an error set index_test.go:229: zodb/py read/compare index: exit status 1 -> Fix it by explicitly emitting index entries in binary form. To be able to compare "index from py2 -> loaded into go -> saved by go -> compared by py3" implement a bit of backward compatibility for loading py2 index files on py3. Do this compatibility only for known-good py2 files, not index produced by go code which is loaded by py3 without any compatibility shims.
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Kirill Smelkov authored
Python3 emits index entries using bytes, but index.go was expecting only bytestrings. As the result loading index produced by py3 was failing e.g. as index_test.go:201: index load: testdata/py3_pickle3/1.fs.index: pickle @6: invalid oidPrefix: type ogórek.Bytes -> Fix it by accepting both bytes and bytestrings inside the index.
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Kirill Smelkov authored
FileStorage/py2 saves data with FS21 magic, while FileStorage/py3 with FS30 magic: https://github.com/zopefoundation/ZODB/blob/5.8.1/src/ZODB/_compat.py#L25-L77 Up till now FileStorage/go was accepting only FS21 and so with py3-generated data it was leading to e.g. the following failure: === RUN TestEmptyDB/py3_pickle3 filestorage_test.go:90: testdata/py3_pickle3/empty.fs: invalid fs1 magic "FS30" -> Fix it by accepting both py2 and py3 FileStorage magics. We do accept them both without any other change because FileStorage format, even when it comes with those two different magic, is really the same.
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Kirill Smelkov authored
Previously we were testing FileStorage/go only with data generated by python and pickle protocol=2. However even on py2 there are more pickle protocols that are in use, and also there is python3. -> Modernize py/gen-testdata to use run_with_all_zodb_pickle_kinds that was recently added as part of nexedi/zodbtools@f9d36ba7 and generate test data with both python2 and python3. It is handy to use py2py3-venv(*) to prepare python environment to do that. Adjust tests on Go side to verify how FileStorage handles all generated zkinds. py2_pickle1, py2_pickle2 and py2_pickle3 are handled well. Tests for py3_pickle3 currently fail and so are marked with "xfail". We will fix tests for py3_pickle3 in follow-up patches. Old testdata are not yet removed because e.g. fs1tools and zodbdump tests depend on them. We will remove old fs1 testdata after adjusting tests in dependent packages step-by-step. (*) see nexedi/zodbtools@fac2f190
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Kirill Smelkov authored
Test for PyData.ClassName currently fails for py3_pickle3 zkind: === RUN TestPyClassName/py3_pickle3 pydata_test.go:50: class name for "\x80\x03X\x18\x00\x00\x00ZODB.tests.testSerializeq\x00X\x13\x00\x00\x00ClassWithoutNewargsq\x01\x86q\x02N\x86q\x03.": have: "?.?" want: "ZODB.tests.testSerialize.ClassWithoutNewargs" pydata_test.go:50: class name for "\x80\x03X\x18\x00\x00\x00ZODB.tests.testSerializeq\x00X\x10\x00\x00\x00ClassWithNewargsq\x01\x86q\x02K\x01\x85q\x03\x86q\x04.": have: "?.?" want: "ZODB.tests.testSerialize.ClassWithNewargs" This happens because classname decoder was expecting class and module names to come as py2 bytestrings, while py3 emits them as unicode. -> Fix it by accepting both py2 bytestring and unicode for class and module names.
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Kirill Smelkov authored
Previously we were testing PyData only with data generated by python2 and pickle protocol=2. However even on py2 there are more pickle protocols that are in use, and also there is python3. -> Modernize py/pydata-gen-testdata to use run_with_all_zodb_pickle_kinds that was recently added as part of nexedi/zodbtools@f9d36ba7 and generate test data with both python2 and python3. It is handy to use py2py3-venv(*) to prepare python environment to do that. Adjust tests on Go side to verify how PyData handles all generated zkinds. py2_pickle1, py2_pickle2 and py2_pickle3 are handled well. Tests for py3_pickle3 currently fail and so are marked with "xfail". We will fix tests for py3_pickle3 in the next patch. (*) see nexedi/zodbtools@fac2f190
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Kirill Smelkov authored
Tests, that want to verify something wrt both py2 and py3 will do WithEachPy(tested_func) which will run tested_func two times: 1) under environment where python on $PATH points to python2, and 2) under environment where python on $PATH points to python3. Client tests will now need to use just "python" instead of e.g. "python2" or "python3" to run some python program, and each time "python" will correspond to current phase of WithEachPy execution. This will be soon handy to test things wrt e.g. ZEO/py2 and ZEO/py3 servers and similar situations. Tests that merely want to use some python program just for their inner working, for example to run `zodb commit`, no longer indicate their preference for py2. For such tests it is a matter of preference in pre-setup environment to where "python" points. For the reference under environments created with py2py3-venv(*) default "python" currently points to "python2". (*) see nexedi/zodbtools@fac2f190
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Kirill Smelkov authored
ZTestData is Go counterpart of ztestdata on zodbtools/py side from https://lab.nexedi.com/nexedi/zodbtools/-/blob/f9d36ba7/zodbtools/test/conftest.py#L31-65 that was recently added in nexedi/zodbtools@bf772ce0. On Go side each ZTestData describes testdata files on the filesystem + carry arbitrary extra information. For example FileStorage tests will use it to place there "what is expected to load" information corresponding to on-filesystem database.
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- 17 Jul, 2024 8 commits
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Kirill Smelkov authored
Currently with the only utility to retrieve map keys in sorted order. We will need this in several tests in follow-up patches.
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Kirill Smelkov authored
Similarly to ZODB/py which provides u64 and p64 utilities. Add zodbpickle.Pack64 for symmetry.
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Kirill Smelkov authored
Because without StrictUnicode both bytestrings (str from py2) and unicode (unicode from py2 and str from py3) load into the same Go type string so it becomes impossible to distinguish them from each other. Re-saving data, thus, also generally introduces changes as e.g. string loaded via bytestring will be saved as unicode when pickling with protocol 3. Or a loaded unicode will be saved as bytestring with pickling via protocol=2. -> Switching to StrictUnicode mode solves all those problems. Please see updated documentatin for zodbpickle.go and https://github.com/kisielk/og-rek/commit/b28613c2 for more details about StrictUnicode mode. For ZODB/go this is change in behaviour exposed to outside. However there is currently only one known ZODB/go user - WCFS in Wendelin.core - and that user will be updated correspondingly as well.
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Kirill Smelkov authored
We already have 3 places where we create picklers and unpicklers: zodb/pydata.go, fs1/index.go and zeo/proto.go and they are already diverging a bit: for example pydata was explicitly specifying protocol for pickle encoder, while other places were using defaults. We will soon want to use StrictUnicode option for all picklers and unpicklers we create, which means it is better to keep this customization only in one place instead of copy-pasting it in between callsites increasing the possibility for divergence and errors. -> Move the code to create pickler and unpickler to internal zodbpickle package as a preparatory step for that. For the reference: this package is merely a wrapper around ogórek, not a fork of any code like zodbpickle/py is.
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Kirill Smelkov authored
We will soon want to use generics and `any` which are available only for go >= 1.18 . The other changes in go.sum and go.mod are there because after just -go 1.14 +go 1.18 the build stopped to work and asked to do `go mod tidy`
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Kirill Smelkov authored
ogórek.AsInt64 was added in https://github.com/kisielk/og-rek/commit/010fbd2e with functionality similar to what we had in pickletools.Xint64 before.
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Kirill Smelkov authored
This brings in support for StrictUnicode mode, AsInt64, AsBytes and AsString helpers, and other fixes. See https://github.com/kisielk/og-rek/compare/v1.2.0...7d520718eea5 for details.
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Kirill Smelkov authored
So that building and using ZODB/go works not only in GOPATH mode.
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- 02 Feb, 2024 1 commit
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Kirill Smelkov authored
Offload drivers from handling options such as ?read-only=1 and force them to deal with such options only via DriverOptions, never zurl. See added comment for details. /reviewed-by @levin.zimmermann /reviewed-on !4
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- 17 Jul, 2023 3 commits
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Levin Zimmermann authored
go/neo/neonet: Fix client handshake not to accept server encoding if it is different from what client indicated If the peers encoding is different than our encoding two different scenarios can happen, because the handshake order is undefined (e.g. we don't know if our handshake is received before the peer sends its handshake): 1. Our handshake is received before peer sends its handshake, NEO/py closes connection if it sees unexpected magic, version, etc. 2. The client already sends a handshake before it proceeds our handshake. In this case it initally sends us it version, we can extract its encoding, and only later, once it proceeded our handshake with the bad encoding, it closes the connection. Before this patch case (2) wasn't handled correctly by the automatic encoding detection of 'DialLink'. 'DialLink' simply accepted the different-than-expected encoding, but once the peer proceeded the nodes handshake the peer closed the connection and the initially established and returned link was immediately closed again. Due to this it was good luck whether connecting with a peer different with an encoding different from the expected one worked or didn't work (it depended on which handshake was faster). Now 'DialLink' should reliably find the correct encoding and return a stable link. -------- kirr: this is based on the following original patch by Levin: levin.zimmermann/neoppod@f6b59772 I updated documentation throughout correspondingly and also added corresponding handshake-specific test in the previous patch. See !5 and b2da69e2 (go/neo/neonet: Demonstrate problem in handshake with NEO/py) for more in-depth description of the problem.
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Kirill Smelkov authored
Levin Zimmerman discovered that sometimes NEO/py accepts our handshake hello with encoding 'M', then replies its owh handshake ehlo with encoding 'N' and then further terminates the connection. In other words it looks like that the handshake went successful, but it actually did not and NEO/py terminates the link after some time. This manifests itself e.g. as infrequent TestLoad failures on t branch with the following output: === RUN TestLoad/py/!ssl I: runneo.py: /tmp/neo776618506/1 !ssl: started master(s): 127.0.0.1:21151 === RUN TestLoad/py/!ssl/enc=N(dialTryOrder=N,M) client_test.go:598: skip: does not excercise client redial === RUN TestLoad/py/!ssl/enc=N(dialTryOrder=M,N) xtesting.go:330: load 0285cbac258bf266:0000000000000000: returned err unexpected: have: neo://127.0.0.1:21151/1: load 0285cbac258bf266:0000000000000000: dial S1: dial 127.0.0.1:40345 (STORAGE): 127.0.0.1:56678 - 127.0.0.1:40345: request identification: 127.0.0.1:56678 - 127.0.0.1:40345 .1: recv: EOF want: nil xtesting.go:330: load 0285cbac258bf266:0000000000000000: returned tid unexpected: 0000000000000000 ; want: 0285cbac258bf266 xtesting.go:330: load 0285cbac258bf266:0000000000000000: returned buf = nil xtesting.go:339: load 0285cbac258bf265:0000000000000000: returned err unexpected: have: neo://127.0.0.1:21151/1: load 0285cbac258bf265:0000000000000000: dial S1: dial 127.0.0.1:40345 (STORAGE): 127.0.0.1:56688 - 127.0.0.1:40345: request identification: 127.0.0.1:56688 - 127.0.0.1:40345 .1: recv: EOF want: neo://127.0.0.1:21151/1: load 0285cbac258bf265:0000000000000000: 0000000000000000: object was not yet created ... client_test.go:588: NEO log tail: log file 'storage_0.log' tail: 2023-07-17 17:21:57.1519 DEBUG S1 connection completed for <ServerConnection(nid=None, address=127.0.0.1:51230, handler=IdentificationHandler, fd=20, server) at 7f3583fd4f50> (from 127.0.0.1:40345) 2023-07-17 17:21:57.1537 WARNING S1 Protocol version mismatch with <ServerConnection(nid=None, address=127.0.0.1:51230, handler=IdentificationHandler, fd=20, server) at 7f3583fd4f50> 2023-07-17 17:21:57.1548 DEBUG S1 connection closed for <ServerConnection(nid=None, address=127.0.0.1:51230, handler=IdentificationHandler, closed, server) at 7f3583fd4f50> 2023-07-17 17:21:57.1551 WARNING S1 A connection was lost during identification 2023-07-17 17:22:00.1582 DEBUG S1 accepted a connection from 127.0.0.1:51236 2023-07-17 17:22:00.1585 DEBUG S1 connection completed for <ServerConnection(nid=None, address=127.0.0.1:51236, handler=IdentificationHandler, fd=20, server) at 7f3583fd4e90> (from 127.0.0.1:40345) 2023-07-17 17:22:00.1604 WARNING S1 Protocol version mismatch with <ServerConnection(nid=None, address=127.0.0.1:51236, handler=IdentificationHandler, fd=20, server) at 7f3583fd4e90> 2023-07-17 17:22:00.1622 DEBUG S1 connection closed for <ServerConnection(nid=None, address=127.0.0.1:51236, handler=IdentificationHandler, closed, server) at 7f3583fd4e90> 2023-07-17 17:22:00.1625 WARNING S1 A connection was lost during identification 2023-07-17 17:22:03.1663 DEBUG S1 accepted a connection from 127.0.0.1:51238 2023-07-17 17:22:03.1666 DEBUG S1 connection completed for <ServerConnection(nid=None, address=127.0.0.1:51238, handler=IdentificationHandler, fd=20, server) at 7f3583fd4d10> (from 127.0.0.1:40345) 2023-07-17 17:22:03.1674 WARNING S1 Protocol version mismatch with <ServerConnection(nid=None, address=127.0.0.1:51238, handler=IdentificationHandler, fd=20, server) at 7f3583fd4d10> 2023-07-17 17:22:03.1688 DEBUG S1 connection closed for <ServerConnection(nid=None, address=127.0.0.1:51238, handler=IdentificationHandler, closed, server) at 7f3583fd4d10> 2023-07-17 17:22:03.1691 WARNING S1 A connection was lost during identification 2023-07-17 17:22:06.1714 DEBUG S1 accepted a connection from 127.0.0.1:57072 2023-07-17 17:22:06.1719 DEBUG S1 connection completed for <ServerConnection(nid=None, address=127.0.0.1:57072, handler=IdentificationHandler, fd=20, server) at 7f3583fd4b50> (from 127.0.0.1:40345) 2023-07-17 17:22:06.1727 WARNING S1 Protocol version mismatch with <ServerConnection(nid=None, address=127.0.0.1:57072, handler=IdentificationHandler, fd=20, server) at 7f3583fd4b50> 2023-07-17 17:22:06.1738 DEBUG S1 connection closed for <ServerConnection(nid=None, address=127.0.0.1:57072, handler=IdentificationHandler, closed, server) at 7f3583fd4b50> 2023-07-17 17:22:06.1738 WARNING S1 A connection was lost during identification log file 'master_0.log' tail: 2023-07-17 17:21:21.0799 PACKET M1 #0x0012 NotifyNodeInformation > A1 (127.0.0.1:37906) 2023-07-17 17:21:21.0799 PACKET M1 ! C0 | CLIENT | | RUNNING | 2023-07-17 14:21:21.079838 2023-07-17 17:21:21.0800 PACKET M1 #0x0102 NotifyNodeInformation > S1 (127.0.0.1:37918) 2023-07-17 17:21:21.0800 PACKET M1 ! C0 | CLIENT | | RUNNING | 2023-07-17 14:21:21.079838 2023-07-17 17:21:21.0801 DEBUG M1 Handler changed on <ServerConnection(nid=None, address=127.0.0.1:37966, handler=ClientServiceHandler, fd=18, server) at 7f3584245910> 2023-07-17 17:21:21.0802 PACKET M1 #0x0001 AnswerRequestIdentification > C0 (127.0.0.1:37966) 2023-07-17 17:21:21.0804 PACKET M1 #0x0000 NotifyNodeInformation > C0 (127.0.0.1:37966) 2023-07-17 17:21:21.0804 PACKET M1 ! C0 | CLIENT | | RUNNING | 2023-07-17 14:21:21.079838 2023-07-17 17:21:21.0804 PACKET M1 ! M1 | MASTER | 127.0.0.1:21151 | RUNNING | None 2023-07-17 17:21:21.0804 PACKET M1 ! S1 | STORAGE | 127.0.0.1:40345 | RUNNING | 2023-07-17 14:21:18.737469 2023-07-17 17:21:21.0805 PACKET M1 #0x0002 NotifyPartitionTable > C0 (127.0.0.1:37966) 2023-07-17 17:21:21.0810 PACKET M1 #0x0003 LastTransaction < C0 (127.0.0.1:37966) 2023-07-17 17:21:21.0811 PACKET M1 #0x0003 AnswerLastTransaction > C0 (127.0.0.1:37966) 2023-07-17 17:22:06.2053 DEBUG M1 <SocketConnectorIPv4 at 0x7f3584252d10 fileno 18 ('127.0.0.1', 21151), opened from ('127.0.0.1', 37966)> closed in recv 2023-07-17 17:22:06.2056 DEBUG M1 connection closed for <ServerConnection(nid=C0, address=127.0.0.1:37966, handler=ClientServiceHandler, closed, server) at 7f3584245910> 2023-07-17 17:22:06.2058 PACKET M1 #0x0014 NotifyNodeInformation > A1 (127.0.0.1:37906) 2023-07-17 17:22:06.2058 PACKET M1 ! C0 | CLIENT | | UNKNOWN | 2023-07-17 14:21:21.079838 2023-07-17 17:22:06.2059 PACKET M1 #0x0104 NotifyNodeInformation > S1 (127.0.0.1:37918) 2023-07-17 17:22:06.2059 PACKET M1 ! C0 | CLIENT | | UNKNOWN | 2023-07-17 14:21:21.079838 The problem is due to that my analysis from e407f725 (go/neo/neonet: Rework handshake to differentiate client and server parts) turned out to be incorrect. Quoting that patch: -> Rework handshake so that client always sends its hello first, and only then the server side replies. This matches actual NEO/py behaviour: https://lab.nexedi.com/nexedi/neoppod/blob/v1.12-67-g261dd4b4/neo/lib/connector.py#L293-294 even though the "NEO protocol" states that Handshake transmissions are not ordered with respect to each other and can go in parallel. ( https://neo.nexedi.com/P-NEO-Protocol.Specification.2019?portal_skin=CI_slideshow#/9/2 ) If I recall correctly that sentence was authored by me in 2018 based on previous understanding of should-be full symmetry in-between client and server. so here "This matches actual NEO/py behaviour" was wrong: even though https://lab.nexedi.com/nexedi/neoppod/blob/v1.12-67-g261dd4b4/neo/lib/connector.py#L293-294 indeed says that # The NEO protocol is such that a client connection is always the # first to send a packet, as soon as the connection is established, in reality it is not the case as SocketConnector always queues handshake hello upon its creation before receiving anything from remote side: https://lab.nexedi.com/nexedi/neoppod/blob/v1.12-93-gfd87e153/neo/lib/connector.py#L77-78 . In practice this leads to that in non-SSL case NEO/py server might be fast enough to send its prepared hello before receiving hello from us. Levin also explains at !5 (comment 187429): I think what happens is this: the NEO protocol doesn't specify in which order handshakes happen after initial dial. If the peer sends a handshake before receiving our handshake and if this peers handshake is received by us, 'DialLink' assumes everything is fine (no err is returned), it breaks the loop and returns the link. But then, very little time later, when the peer finally receives our handshake, this looks strange for the peer and it closes the connection. So in my understanding this should be fixed by explicitly comparing the encodings between our expected one and what the peer provided us. If encodings don't match we should retry with a new encoding in order to prevent the peer from closing the connection. For me this also explains why sometimes the tests passed and sometimes didn't: it depended on which node was faster ('race condition'). -> In this patch we add correspondig handshake test that demonstrates this problem. It currently fails as --- FAIL: TestHandshake (0.01s) --- FAIL: TestHandshake/enc=N (0.00s) newlink_test.go:154: handshake encoding mismatch: client: unexpected error: have: <nil> "<nil>" want: &neonet._HandshakeError{LocalRole:1, LocalAddr:net.pipeAddr{}, RemoteAddr:net.pipeAddr{}, Err:(*neonet._EncodingMismatchError)(0xc0000a4190)} "pipe - pipe: handshake (client): protocol encoding mismatch: peer = 'M' ; our side = 'N'" --- FAIL: TestHandshake/enc=M (0.00s) newlink_test.go:154: handshake encoding mismatch: client: unexpected error: have: <nil> "<nil>" want: &neonet._HandshakeError{LocalRole:1, LocalAddr:net.pipeAddr{}, RemoteAddr:net.pipeAddr{}, Err:(*neonet._EncodingMismatchError)(0xc0001a22cc)} "pipe - pipe: handshake (client): protocol encoding mismatch: peer = 'N' ; our side = 'M'" We will fix it in the next patch. /reported-by @levin.zimmermann /reported-on !5
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Kirill Smelkov authored
go/neo/neonet: Dedicate an error type to indicate "protocol version mismatch" as handshake failure cause We will soon need to detect if a handshake failure was due to mismatch of protocol encodings and that would require introduction of dedicated error type for that cause. As a preparatory step first refactor "version mismatch cause" to follow the same style for symmetry.
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- 18 Jan, 2023 2 commits
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Levin Zimmermann authored
This patch fixes a discrepancy between NEO/py and NEO/go: NEO/py expands the '~' and the '~username' prefix in the file path of the TLS certificate/key files [1]. This syntax is used in NEO/py SlapOS SR [2]. We need to fix this discrepancy in NEO/go in order to use TLS encryption with NEO + WCFS. [1] https://lab.nexedi.com/nexedi/neoppod/blob/7c539f0f/neo/lib/config.py#L149 and https://lab.nexedi.com/nexedi/neoppod/blob/fa63d856/neo/lib/app.py#L25-31 [2] https://lab.nexedi.com/nexedi/slapos/blob/397726e1/stack/erp5/instance-zodb-base.cfg.in#L18-20 and https://lab.nexedi.com/nexedi/slapos/blob/a8150a1a/software/neoppod/instance-neo-input-schema.json#L62 /reviewed-by @kirr /reviewed-on kirr/neo!1
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Levin Zimmermann authored
The xfilepath package supports resolving filepaths with a user prefix to absolute paths: it converts '~' and '~username' to $HOME of user (as it's done by for instance bash). No builtin golang module supports this functionality [1]. We need this functionality in order to imitate the behaviour of NEO/py in NEO/go [2]. --- [1] https://stackoverflow.com/questions/47261719/how-can-i-resolve-a-relative-path-to-absolute-path-in-golang) [2] nexedi/slapos!1307 (comment 17574) /reviewed-by @kirr /reviewed-on !1
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- 18 May, 2022 2 commits
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Kirill Smelkov authored
Without parenthesis it was failing on py3: (neo) (py3.venv) (g.env) kirr@deca:~/src/neo/src/lab.nexedi.com/kirr/neo/go/neo/t$ ./neotest info-local date: Wed, 18 May 2022 11:05:50 +0300 xnode: kirr@deca.navytux.spb.ru (2401:5180:0:af::1 192.168.0.3 (+ 1·ipv4)) uname: Linux deca 5.10.0-13-amd64 #1 SMP Debian 5.10.106-1 (2022-03-17) x86_64 GNU/Linux cpu: Intel(R) Core(TM) i7-7600U CPU @ 2.80GHz File "<string>", line 1 print '%.2fGHz' % (400000 / 1E6) ^ SyntaxError: invalid syntax
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Kirill Smelkov authored
On py3 dict.keys() returns iterator instead of list: $ ./tzodb.py zhash Traceback (most recent call last): File "/home/kirr/src/neo/src/lab.nexedi.com/kirr/neo/go/neo/t/./tzodb.py", line 141, in <module> main() File "/home/kirr/src/neo/src/lab.nexedi.com/kirr/neo/go/neo/t/./tzodb.py", line 138, in main zhash() File "/home/kirr/src/neo/src/lab.nexedi.com/kirr/neo/go/neo/t/./tzodb.py", line 59, in zhash optv, argv = getopt(sys.argv[2:], "h", ["help", "check=", "bench="] + hashRegistry.keys()) TypeError: can only concatenate list (not "dict_keys") to list
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- 25 Nov, 2021 1 commit
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Kirill Smelkov authored
With xurl.ParseQuery being simpler analog of url.ParseQuery. Simpler: It returns regular map instead of url.Values by not allowing duplicates.
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- 04 Oct, 2021 3 commits
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Kirill Smelkov authored
WCFS needs to know key coverage for every visited node. WARNING: this is API change.
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Kirill Smelkov authored
KeyRange represents [lo,hi) key range. It simplifies working with ranges of keys. We will use it in the next commit. KeyRange originated in WCFS and was copied from there: https://lab.nexedi.com/kirr/wendelin.core/blob/57be0126/wcfs/internal/xbtree/blib/keyrange.go
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Kirill Smelkov authored
We were already using math.Min<Key> in one place, but the number of such places is going to increase. -> Keep min/max definition in only one place.
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