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view tests/test-cat.t @ 40132:e67522413ca8
wireprotov2: define and use stream encoders
Now that we have basic support for defining stream encoding, it is
time to start doing something with it.
We define various classes implementing stream encoders/decoders for
the defined encoding profiles. This is relatively straightforward.
We teach the inputstream and outputstream classes how to encode,
decode, and flush data.
We then teach the clientreactor how to filter received data through
the inputstream decoder.
One of the features of the framing format is that streams can span
requests. This is a differentiating feature from say HTTP/2, which
associates streams with requests. By allowing streams to span requests,
we can reuse compression context data across requests/responses. But
in order to do this, we need a mechanism to "flush" the encoder at
logical boundaries so that receivers receive all data where it is
expected. And a "flush" event is distinct from a "finish" event from
the perspective of certain compressors because a "flush" will retain
compression context state whereas a "finish" operation will not. This
is why encoders have both a flush() and a finish() and each uses
specific flushing semantics on the underlying compressor.
The added tests verify various behavior of decoders via clientreactor.
These tests do test some compression behavior via use of outputstream.
But for all intents and purposes, server reactor support for encoding
is not yet implemented.
Differential Revision: https://phab.mercurial-scm.org/D4921
| author | Gregory Szorc <gregory.szorc@gmail.com> |
|---|---|
| date | Mon, 08 Oct 2018 17:10:59 -0700 |
| parents | 34ba47117164 |
| children | 55c6ebd11cb9 |
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$ hg init $ echo 0 > a $ echo 0 > b $ hg ci -A -m m adding a adding b $ hg rm a $ hg cat a 0 $ hg cat --decode a # more tests in test-encode 0 $ echo 1 > b $ hg ci -m m $ echo 2 > b $ hg cat -r 0 a 0 $ hg cat -r 0 b 0 $ hg cat -r 1 a a: no such file in rev 7040230c159c [1] $ hg cat -r 1 b 1 Test multiple files $ echo 3 > c $ hg ci -Am addmore c $ hg cat b c 1 3 $ hg cat . 1 3 $ hg cat . c 1 3 Test fileset $ hg cat 'set:not(b) or a' 3 $ hg cat 'set:c or b' 1 3 $ mkdir tmp $ hg cat --output tmp/HH_%H c $ hg cat --output tmp/RR_%R c $ hg cat --output tmp/h_%h c $ hg cat --output tmp/r_%r c $ hg cat --output tmp/%s_s c $ hg cat --output tmp/%d%%_d c $ hg cat --output tmp/%p_p c $ hg log -r . --template "{rev}: {node|short}\n" 2: 45116003780e $ find tmp -type f | sort tmp/.%_d tmp/HH_45116003780e3678b333fb2c99fa7d559c8457e9 tmp/RR_2 tmp/c_p tmp/c_s tmp/h_45116003780e tmp/r_2 Test template output $ hg --cwd tmp cat ../b ../c -T '== {path|relpath} ({path}) r{rev} ==\n{data}' == ../b (b) r2 == 1 == ../c (c) r2 == 3 $ hg cat b c -Tjson --output - [ { "data": "1\n", "path": "b" }, { "data": "3\n", "path": "c" } ] $ hg cat b c -Tjson --output 'tmp/%p.json' $ cat tmp/b.json [ { "data": "1\n", "path": "b" } ] $ cat tmp/c.json [ { "data": "3\n", "path": "c" } ] Test working directory $ echo b-wdir > b $ hg cat -r 'wdir()' b b-wdir Environment variables are not visible by default $ PATTERN='t4' hg log -r '.' -T "{ifcontains('PATTERN', envvars, 'yes', 'no')}\n" no Environment variable visibility can be explicit $ PATTERN='t4' hg log -r '.' -T "{envvars % '{key} -> {value}\n'}" \ > --config "experimental.exportableenviron=PATTERN" PATTERN -> t4 Test behavior of output when directory structure does not already exist $ mkdir foo $ echo a > foo/a $ hg add foo/a $ hg commit -qm "add foo/a" $ hg cat --output "output/%p" foo/a $ cat output/foo/a a