Reid 'arrdem' McKenzie
5b0062468f
This patch teaches Zapp! to introspect the `sources` of a manifest, and look for the well-known `WHEEL` file(s) indicative of an unzipped/installed wheel in the input sources. A wheel can be (somewhat*) correctly reassembled by zipping its unzipped state, so in the presence of unzipped wheels Zapp! will re-zip them and enter them into the manifest appropriately for inclusion. This fixes #6 the nasty way, as there's no good way to make `rules_python` provide wheel dependencies or to translate unrolled wheels back to wheels during rule execution as this would violate Bazel's file dependency model. |
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example | ||
zapp | ||
.gitignore | ||
README.md | ||
WORKSPACE | ||
zapp.jpg |
Zapp
Zapp is a comically-named tool for making Python zipapps.
Zipapps or zapps as we call them (hence the raygun theme) are packagings of Python programs into zip files. It's comparable to Pex, Subpar and Shiv in intent, but shares the most with Subpar in particulars as like subpar Zapp is designed for use with Bazel (and is co-developed with appropriate Bazel build rules).
A quick overview of zipapps
A Python zipapp is a file with two parts - a "plain" text file with a "shebang" specifying a Python interpreter, followed by a ZIP formatted archive after the newline. This is (for better or worse) a valid ZIP format archive, as the specification does not preclude prepended data.
When Python encounters a zipapp, it assumes you meant PYTHONPATH=your.zip <shebang> -m __main__
.
See the upstream docs.
So not only must zapp
generate a prefix script, it needs to insert a __main__.py
that'll to your application.
A quick overview of zapp
Zapp is really two artifacts - zapp.bzl
which defines rules_python
(zapp_binary
, zapp_test
) macros and implementations.
These Bazel macros work together with the zappc
"compiler" to make producing zapps from Bazel convenient.
A demo
So let's give zapp a spin
$ cd examples
$ cat WORKSPACE
workspace(
name = "zapp_examples",
)
# ...
git_repository(
name = "rules_zapp",
remote = "https://github.com/arrdem/rules_zapp.git",
tag = "0.1.1",
)
$ cat BUILD
load("@rules_zapp//zapp:zapp.bzl",
"zapp_binary",
)
# ...
zapp_binary(
name = "hello_deps",
main = "hello.py",
deps = [
py_requirement("pyyaml"),
]
)
In this directory there's a couple of hello_*
targets that are variously zapped. This one uses an external dependency via rules_python
's py_requirement
machinery.
Let's try bazel build :hello_deps
to see how it gets zapped.
$ bazel build :hello_deps
INFO: Analyzed target //:hello_deps (21 packages loaded, 74 targets configured).
INFO: Found 1 target...
INFO: From Building zapp file //:hello_deps:
{'manifest': {'entry_point': 'hello',
'prelude_points': ['zapp.support.unpack:unpack_deps'],
'shebang': '/usr/bin/env python3',
'sources': {'__init__.py': None,
'hello.py': 'hello.py',
'zapp/__init__.py': None,
'zapp/support/__init__.py': None,
'zapp/support/manifest.py': 'external/rules_zapp/zapp/support/manifest.py',
'zapp/support/unpack.py': 'external/rules_zapp/zapp/support/unpack.py',
'zapp/manifest.json': 'bazel-out/k8-fastbuild/bin/hello_deps.zapp-manifest.json'},
'wheels': {'PyYAML-5.4.1-cp39-cp39-manylinux1_x86_64.whl': {'hashes': [],
'source': 'external/my_deps/pypi__pyyaml/PyYAML-5.4.1-cp39-cp39-manylinux1_x86_64.whl'}},
'zip_safe': True},
'opts': {'debug': True,
'manifest': 'bazel-out/k8-fastbuild/bin/hello_deps.zapp-manifest.json',
'output': 'bazel-out/k8-fastbuild/bin/hello_deps'}}
Target //:hello_deps up-to-date:
bazel-bin/hello_deps
INFO: Elapsed time: 0.749s, Critical Path: 0.15s
INFO: 9 processes: 8 internal, 1 linux-sandbox.
INFO: Build completed successfully, 9 total actions
Here, I've got the zapp
compiler configured to debug what it's doing.
This is a bit unusual, but it's convenient for peeking under the hood.
The manifest which zapp
consumes describes the relocation of files (and wheels, more on that in a bit) from the Bazel source tree per python import = [...]
specifiers to locations in the container/logical filesystem within the zip archive.
We can see that the actual hello.py
file (known as projects/zapp/hello.py
within the repo) is being mapped into the zip archive without relocation.
We can also see that a PyYAML
wheel is marked for inclusion in the archive.
If we run the produced zipapp -
$ bazel run :hello_deps
INFO: Analyzed target //projects/zapp/example:hello_deps (0 packages loaded, 0 targets configured).
INFO: Found 1 target...
Target //projects/zapp/example:hello_deps up-to-date:
bazel-bin/projects/zapp/example/hello_deps
INFO: Elapsed time: 0.068s, Critical Path: 0.00s
INFO: 1 process: 1 internal.
INFO: Build completed successfully, 1 total action
INFO: Build completed successfully, 1 total action
- /home/arrdem/.cache/zapp/wheels/PyYAML-5.4.1-cp39-cp39-manylinux1_x86_64.whl
- /home/arrdem/.cache/bazel/_bazel_arrdem/6259d2555f41e1db0292a7d7f00f78ca/execroot/arrdem_source/bazel-out/k8-fastbuild/bin/projects/zapp/example/hello_deps
- /usr/lib/python39.zip
- /usr/lib/python3.9
- /usr/lib/python3.9/lib-dynload
- /home/arrdem/.virtualenvs/source/lib/python3.9/site-packages
hello, world!
I have YAML! and nothing to do with it. /home/arrdem/.cache/zapp/wheels/PyYAML-5.4.1-cp39-cp39-manylinux1_x86_64.whl/yaml/__init__.py
Here we can see that zapp when executed unpacked the wheel into a cache, inserted that cached wheel into the sys.path
, and correctly delegated to our hello.py
script, which was able to import yaml
from the packaged wheel! 🎉
License
Copyright Reid 'arrdem' McKenzie August 2021.
Published under the terms of the MIT license.