Merge pull request #1 from channelcat/master

vv
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rickxu 2018-08-10 10:03:11 +08:00 committed by GitHub
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149 changed files with 14901 additions and 1202 deletions

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[run]
branch = True
source = sanic, tests
omit = site-packages
source = sanic
omit = site-packages, sanic/utils.py, sanic/__main__.py
[html]
directory = coverage

8
.gitignore vendored
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*~
*.egg-info
*.egg
*.eggs
*.pyc
.coverage
.coverage.*
coverage
.tox
settings.py
*.pyc
.idea/*
.cache/*
.python-version
docs/_build/
docs/_api/
build/*
.DS_Store

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sudo: false
language: python
python:
- '3.5'
install:
- pip install -r requirements.txt
- pip install -r requirements-dev.txt
- python setup.py install
- pip install flake8
- pip install pytest
before_script: flake8 sanic
script: py.test -v tests
cache:
directories:
- $HOME/.cache/pip
matrix:
include:
- env: TOX_ENV=py35
python: 3.5
- env: TOX_ENV=py35-no-ext
python: 3.5
- env: TOX_ENV=py36
python: 3.6
- env: TOX_ENV=py36-no-ext
python: 3.6
- env: TOX_ENV=py37
python: 3.7
dist: xenial
sudo: true
- env: TOX_ENV=py37-no-ext
python: 3.7
dist: xenial
sudo: true
- env: TOX_ENV=flake8
python: 3.6
- env: TOX_ENV=check
python: 3.6
install: pip install -U tox
script: travis_retry tox -e $TOX_ENV
deploy:
provider: pypi
user: channelcat
password:
secure: 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
secure: 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
on:
tags: true
distributions: "sdist bdist_wheel"

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CHANGELOG.md Normal file
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Version 0.1
-----------
- 0.1.7
- Reversed static url and directory arguments to meet spec
- 0.1.6
- Static files
- Lazy Cookie Loading
- 0.1.5
- Cookies
- Blueprint listeners and ordering
- Faster Router
- Fix: Incomplete file reads on medium+ sized post requests
- Breaking: after_start and before_stop now pass sanic as their first argument
- 0.1.4
- Multiprocessing
- 0.1.3
- Blueprint support
- Faster Response processing
- 0.1.1 - 0.1.2
- Struggling to update pypi via CI
- 0.1.0
- Released to public

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# Contributor Covenant Code of Conduct
## Our Pledge
In the interest of fostering an open and welcoming environment, we as
contributors and maintainers pledge to making participation in our project and
our community a harassment-free experience for everyone, regardless of age, body
size, disability, ethnicity, gender identity and expression, level of experience,
nationality, personal appearance, race, religion, or sexual identity and
orientation.
## Our Standards
Examples of behavior that contributes to creating a positive environment
include:
* Using welcoming and inclusive language
* Being respectful of differing viewpoints and experiences
* Gracefully accepting constructive criticism
* Focusing on what is best for the community
* Showing empathy towards other community members
Examples of unacceptable behavior by participants include:
* The use of sexualized language or imagery and unwelcome sexual attention or
advances
* Trolling, insulting/derogatory comments, and personal or political attacks
* Public or private harassment
* Publishing others' private information, such as a physical or electronic
address, without explicit permission
* Other conduct which could reasonably be considered inappropriate in a
professional setting
## Our Responsibilities
Project maintainers are responsible for clarifying the standards of acceptable
behavior and are expected to take appropriate and fair corrective action in
response to any instances of unacceptable behavior.
Project maintainers have the right and responsibility to remove, edit, or
reject comments, commits, code, wiki edits, issues, and other contributions
that are not aligned to this Code of Conduct, or to ban temporarily or
permanently any contributor for other behaviors that they deem inappropriate,
threatening, offensive, or harmful.
## Scope
This Code of Conduct applies both within project spaces and in public spaces
when an individual is representing the project or its community. Examples of
representing a project or community include using an official project e-mail
address, posting via an official social media account, or acting as an appointed
representative at an online or offline event. Representation of a project may be
further defined and clarified by project maintainers.
## Enforcement
Instances of abusive, harassing, or otherwise unacceptable behavior may be
reported by contacting the project team at sanic-maintainers@googlegroups.com. All
complaints will be reviewed and investigated and will result in a response that
is deemed necessary and appropriate to the circumstances. The project team is
obligated to maintain confidentiality with regard to the reporter of an incident.
Further details of specific enforcement policies may be posted separately.
Project maintainers who do not follow or enforce the Code of Conduct in good
faith may face temporary or permanent repercussions as determined by other
members of the project's leadership.
## Attribution
This Code of Conduct is adapted from the [Contributor Covenant][homepage], version 1.4,
available at [http://contributor-covenant.org/version/1/4][version]
[homepage]: http://contributor-covenant.org
[version]: http://contributor-covenant.org/version/1/4/

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# Contributing
Thank you for your interest! Sanic is always looking for contributors. If you
don't feel comfortable contributing code, adding docstrings to the source files
is very appreciated.
We are committed to providing a friendly, safe and welcoming environment for all,
regardless of gender, sexual orientation, disability, ethnicity, religion,
or similar personal characteristic.
Our [code of conduct](./CONDUCT.md) sets the standards for behavior.
## Installation
To develop on sanic (and mainly to just run the tests) it is highly recommend to
install from sources.
So assume you have already cloned the repo and are in the working directory with
a virtual environment already set up, then run:
```bash
python setup.py develop && pip install -r requirements-dev.txt
```
## Running tests
To run the tests for sanic it is recommended to use tox like so:
```bash
tox
```
See it's that simple!
## Pull requests!
So the pull request approval rules are pretty simple:
1. All pull requests must pass unit tests.
2. All pull requests must be reviewed and approved by at least
one current collaborator on the project.
3. All pull requests must pass flake8 checks.
4. All pull requests must be consistent with the existing code.
5. If you decide to remove/change anything from any common interface
a deprecation message should accompany it.
6. If you implement a new feature you should have at least one unit
test to accompany it.
7. An example must be one of the following:
* Example of how to use Sanic
* Example of how to use Sanic extensions
* Example of how to use Sanic and asynchronous library
## Documentation
Sanic's documentation is built
using [sphinx](http://www.sphinx-doc.org/en/1.5.1/). Guides are written in
Markdown and can be found in the `docs` folder, while the module reference is
automatically generated using `sphinx-apidoc`.
To generate the documentation from scratch:
```bash
sphinx-apidoc -fo docs/_api/ sanic
sphinx-build -b html docs docs/_build
```
The HTML documentation will be created in the `docs/_build` folder.
## Warning
One of the main goals of Sanic is speed. Code that lowers the performance of
Sanic without significant gains in usability, security, or features may not be
merged. Please don't let this intimidate you! If you have any concerns about an
idea, open an issue for discussion and help.

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MIT License
Copyright (c) [year] [fullname]
Copyright (c) 2016-present Channel Cat
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal

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MANIFEST.in Normal file
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include README.rst
include MANIFEST.in
include LICENSE
include setup.py
recursive-exclude * __pycache__
recursive-exclude * *.py[co]

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test:
find . -name "*.pyc" -delete
docker build -t sanic/test-image -f docker/Dockerfile .
docker run -t sanic/test-image tox

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# Sanic
[![Build Status](https://travis-ci.org/channelcat/sanic.svg?branch=master)](https://travis-ci.org/channelcat/sanic)
[![PyPI](https://img.shields.io/pypi/v/sanic.svg)](https://pypi.python.org/pypi/sanic/)
[![PyPI](https://img.shields.io/pypi/pyversions/sanic.svg)](https://pypi.python.org/pypi/sanic/)
Sanic is a Flask-like Python 3.5+ web server that's written to go fast. It's based off the work done by the amazing folks at magicstack, and was inspired by this article: https://magic.io/blog/uvloop-blazing-fast-python-networking/.
On top of being flask-like, sanic supports async request handlers. This means you can use the new shiny async/await syntax from Python 3.5, making your code non-blocking and speedy.
## Benchmarks
All tests were run on a AWS medium instance running ubuntu, using 1 process. Each script delivered a small JSON response and was tested with wrk using 100 connections. Pypy was tested for falcon and flask, but did not speed up requests.
| Server | Implementation | Requests/sec | Avg Latency |
| ------- | ------------------- | ------------:| -----------:|
| Sanic | Python 3.5 + uvloop | 30,601 | 3.23ms |
| Wheezy | gunicorn + meinheld | 20,244 | 4.94ms |
| Falcon | gunicorn + meinheld | 18,972 | 5.27ms |
| Bottle | gunicorn + meinheld | 13,596 | 7.36ms |
| Flask | gunicorn + meinheld | 4,988 | 20.08ms |
| Kyoukai | Python 3.5 + uvloop | 3,889 | 27.44ms |
| Aiohttp | Python 3.5 + uvloop | 2,979 | 33.42ms |
## Hello World
```python
from sanic import Sanic
from sanic.response import json
app = Sanic(__name__)
@app.route("/")
async def test(request):
return json({ "hello": "world" })
app.run(host="0.0.0.0", port=8000)
```
## Installation
* `python -m pip install sanic`
## Documentation
* [Getting started](docs/getting_started.md)
* [Request Data](docs/request_data.md)
* [Routing](docs/routing.md)
* [Middleware](docs/middleware.md)
* [Exceptions](docs/exceptions.md)
* [Blueprints](docs/blueprints.md)
* [Contributing](docs/contributing.md)
* [License](LICENSE)
## TODO:
* Streamed file processing
* File output
* Examples of integrations with 3rd-party modules
* RESTful router
## Limitations:
* No wheels for uvloop and httptools on Windows :(
## Final Thoughts:
▄▄▄▄▄
▀▀▀██████▄▄▄ _______________
▄▄▄▄▄ █████████▄ / \
▀▀▀▀█████▌ ▀▐▄ ▀▐█ | Gotta go fast! |
▀▀█████▄▄ ▀██████▄██ | _________________/
▀▄▄▄▄▄ ▀▀█▄▀█════█▀ |/
▀▀▀▄ ▀▀███ ▀ ▄▄
▄███▀▀██▄████████▄ ▄▀▀▀▀▀▀█▌
██▀▄▄▄██▀▄███▀ ▀▀████ ▄██
▄▀▀▀▄██▄▀▀▌████▒▒▒▒▒▒███ ▌▄▄▀
▌ ▐▀████▐███▒▒▒▒▒▐██▌
▀▄▄▄▄▀ ▀▀████▒▒▒▒▄██▀
▀▀█████████▀
▄▄██▀██████▀█
▄██▀ ▀▀▀ █
▄█ ▐▌
▄▄▄▄█▌ ▀█▄▄▄▄▀▀▄
▌ ▐ ▀▀▄▄▄▀
▀▀▄▄▀

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Sanic
=====
|Join the chat at https://gitter.im/sanic-python/Lobby| |Build Status| |PyPI| |PyPI version|
Sanic is a Flask-like Python 3.5+ web server that's written to go fast. It's based on the work done by the amazing folks at magicstack, and was inspired by `this article <https://magic.io/blog/uvloop-blazing-fast-python-networking/>`_.
On top of being Flask-like, Sanic supports async request handlers. This means you can use the new shiny async/await syntax from Python 3.5, making your code non-blocking and speedy.
Sanic is developed `on GitHub <https://github.com/channelcat/sanic/>`_. Contributions are welcome!
If you have a project that utilizes Sanic make sure to comment on the `issue <https://github.com/channelcat/sanic/issues/396>`_ that we use to track those projects!
Hello World Example
-------------------
.. code:: python
from sanic import Sanic
from sanic.response import json
app = Sanic()
@app.route('/')
async def test(request):
return json({'hello': 'world'})
if __name__ == '__main__':
app.run(host='0.0.0.0', port=8000)
Installation
------------
- ``pip install sanic``
To install sanic without uvloop or ujson using bash, you can provide either or both of these environmental variables
using any truthy string like `'y', 'yes', 't', 'true', 'on', '1'` and setting the NO_X to true will stop that features
installation.
- ``SANIC_NO_UVLOOP=true SANIC_NO_UJSON=true pip install sanic``
Documentation
-------------
`Documentation on Readthedocs <http://sanic.readthedocs.io/>`_.
.. |Join the chat at https://gitter.im/sanic-python/Lobby| image:: https://badges.gitter.im/sanic-python/Lobby.svg
:target: https://gitter.im/sanic-python/Lobby?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge&utm_content=badge
.. |Build Status| image:: https://travis-ci.org/channelcat/sanic.svg?branch=master
:target: https://travis-ci.org/channelcat/sanic
.. |Documentation| image:: https://readthedocs.org/projects/sanic/badge/?version=latest
:target: http://sanic.readthedocs.io/en/latest/?badge=latest
.. |PyPI| image:: https://img.shields.io/pypi/v/sanic.svg
:target: https://pypi.python.org/pypi/sanic/
.. |PyPI version| image:: https://img.shields.io/pypi/pyversions/sanic.svg
:target: https://pypi.python.org/pypi/sanic/
Examples
--------
`Non-Core examples <https://github.com/channelcat/sanic/wiki/Examples/>`_. Examples of plugins and Sanic that are outside the scope of Sanic core.
`Extensions <https://github.com/channelcat/sanic/wiki/Extensions/>`_. Sanic extensions created by the community.
`Projects <https://github.com/channelcat/sanic/wiki/Projects/>`_. Sanic in production use.
TODO
----
* http2
Limitations
-----------
* No wheels for uvloop and httptools on Windows :(
Final Thoughts
--------------
::
▄▄▄▄▄
▀▀▀██████▄▄▄ _______________
▄▄▄▄▄ █████████▄ / \
▀▀▀▀█████▌ ▀▐▄ ▀▐█ | Gotta go fast! |
▀▀█████▄▄ ▀██████▄██ | _________________/
▀▄▄▄▄▄ ▀▀█▄▀█════█▀ |/
▀▀▀▄ ▀▀███ ▀ ▄▄
▄███▀▀██▄████████▄ ▄▀▀▀▀▀▀█▌
██▀▄▄▄██▀▄███▀ ▀▀████ ▄██
▄▀▀▀▄██▄▀▀▌████▒▒▒▒▒▒███ ▌▄▄▀
▌ ▐▀████▐███▒▒▒▒▒▐██▌
▀▄▄▄▄▀ ▀▀████▒▒▒▒▄██▀
▀▀█████████▀
▄▄██▀██████▀█
▄██▀ ▀▀▀ █
▄█ ▐▌
▄▄▄▄█▌ ▀█▄▄▄▄▀▀▄
▌ ▐ ▀▀▄▄▄▀
▀▀▄▄▀

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FROM alpine:3.7
RUN apk add --no-cache --update \
curl \
bash \
build-base \
ca-certificates \
git \
bzip2-dev \
linux-headers \
ncurses-dev \
openssl \
openssl-dev \
readline-dev \
sqlite-dev
RUN update-ca-certificates
RUN rm -rf /var/cache/apk/*
ENV PYENV_ROOT="/root/.pyenv"
ENV PATH="$PYENV_ROOT/bin:$PATH"
ADD . /app
WORKDIR /app
RUN /app/docker/bin/install_python.sh 3.5.4 3.6.4
ENTRYPOINT ["./docker/bin/entrypoint.sh"]

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#!/bin/bash
set -e
eval "$(pyenv init -)"
eval "$(pyenv virtualenv-init -)"
source /root/.pyenv/completions/pyenv.bash
pip install tox
exec $@

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@ -0,0 +1,17 @@
#!/bin/bash
set -e
export CFLAGS='-O2'
export EXTRA_CFLAGS="-DTHREAD_STACK_SIZE=0x100000"
curl -L https://raw.githubusercontent.com/pyenv/pyenv-installer/master/bin/pyenv-installer | bash
eval "$(pyenv init -)"
for ver in $@
do
pyenv install $ver
done
pyenv global $@
pip install --upgrade pip
pyenv rehash

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# Makefile for Sphinx documentation
#
# You can set these variables from the command line.
SPHINXOPTS =
SPHINXBUILD = sphinx-build
PAPER =
BUILDDIR = _build
# Internal variables.
PAPEROPT_a4 = -D latex_paper_size=a4
PAPEROPT_letter = -D latex_paper_size=letter
ALLSPHINXOPTS = -d $(BUILDDIR)/doctrees $(PAPEROPT_$(PAPER)) $(SPHINXOPTS) .
# the i18n builder cannot share the environment and doctrees with the others
I18NSPHINXOPTS = $(PAPEROPT_$(PAPER)) $(SPHINXOPTS) .
.PHONY: help
help:
@echo "Please use \`make <target>' where <target> is one of"
@echo " html to make standalone HTML files"
@echo " dirhtml to make HTML files named index.html in directories"
@echo " singlehtml to make a single large HTML file"
@echo " pickle to make pickle files"
@echo " json to make JSON files"
@echo " htmlhelp to make HTML files and a HTML help project"
@echo " qthelp to make HTML files and a qthelp project"
@echo " applehelp to make an Apple Help Book"
@echo " devhelp to make HTML files and a Devhelp project"
@echo " epub to make an epub"
@echo " epub3 to make an epub3"
@echo " latex to make LaTeX files, you can set PAPER=a4 or PAPER=letter"
@echo " latexpdf to make LaTeX files and run them through pdflatex"
@echo " latexpdfja to make LaTeX files and run them through platex/dvipdfmx"
@echo " text to make text files"
@echo " man to make manual pages"
@echo " texinfo to make Texinfo files"
@echo " info to make Texinfo files and run them through makeinfo"
@echo " gettext to make PO message catalogs"
@echo " changes to make an overview of all changed/added/deprecated items"
@echo " xml to make Docutils-native XML files"
@echo " pseudoxml to make pseudoxml-XML files for display purposes"
@echo " linkcheck to check all external links for integrity"
@echo " doctest to run all doctests embedded in the documentation (if enabled)"
@echo " coverage to run coverage check of the documentation (if enabled)"
@echo " dummy to check syntax errors of document sources"
.PHONY: clean
clean:
rm -rf $(BUILDDIR)/*
.PHONY: html
html:
$(SPHINXBUILD) -b html $(ALLSPHINXOPTS) $(BUILDDIR)/html
@echo
@echo "Build finished. The HTML pages are in $(BUILDDIR)/html."
.PHONY: dirhtml
dirhtml:
$(SPHINXBUILD) -b dirhtml $(ALLSPHINXOPTS) $(BUILDDIR)/dirhtml
@echo
@echo "Build finished. The HTML pages are in $(BUILDDIR)/dirhtml."
.PHONY: singlehtml
singlehtml:
$(SPHINXBUILD) -b singlehtml $(ALLSPHINXOPTS) $(BUILDDIR)/singlehtml
@echo
@echo "Build finished. The HTML page is in $(BUILDDIR)/singlehtml."
.PHONY: pickle
pickle:
$(SPHINXBUILD) -b pickle $(ALLSPHINXOPTS) $(BUILDDIR)/pickle
@echo
@echo "Build finished; now you can process the pickle files."
.PHONY: json
json:
$(SPHINXBUILD) -b json $(ALLSPHINXOPTS) $(BUILDDIR)/json
@echo
@echo "Build finished; now you can process the JSON files."
.PHONY: htmlhelp
htmlhelp:
$(SPHINXBUILD) -b htmlhelp $(ALLSPHINXOPTS) $(BUILDDIR)/htmlhelp
@echo
@echo "Build finished; now you can run HTML Help Workshop with the" \
".hhp project file in $(BUILDDIR)/htmlhelp."
.PHONY: qthelp
qthelp:
$(SPHINXBUILD) -b qthelp $(ALLSPHINXOPTS) $(BUILDDIR)/qthelp
@echo
@echo "Build finished; now you can run "qcollectiongenerator" with the" \
".qhcp project file in $(BUILDDIR)/qthelp, like this:"
@echo "# qcollectiongenerator $(BUILDDIR)/qthelp/aiographite.qhcp"
@echo "To view the help file:"
@echo "# assistant -collectionFile $(BUILDDIR)/qthelp/aiographite.qhc"
.PHONY: applehelp
applehelp:
$(SPHINXBUILD) -b applehelp $(ALLSPHINXOPTS) $(BUILDDIR)/applehelp
@echo
@echo "Build finished. The help book is in $(BUILDDIR)/applehelp."
@echo "N.B. You won't be able to view it unless you put it in" \
"~/Library/Documentation/Help or install it in your application" \
"bundle."
.PHONY: devhelp
devhelp:
$(SPHINXBUILD) -b devhelp $(ALLSPHINXOPTS) $(BUILDDIR)/devhelp
@echo
@echo "Build finished."
@echo "To view the help file:"
@echo "# mkdir -p $$HOME/.local/share/devhelp/aiographite"
@echo "# ln -s $(BUILDDIR)/devhelp $$HOME/.local/share/devhelp/aiographite"
@echo "# devhelp"
.PHONY: epub
epub:
$(SPHINXBUILD) -b epub $(ALLSPHINXOPTS) $(BUILDDIR)/epub
@echo
@echo "Build finished. The epub file is in $(BUILDDIR)/epub."
.PHONY: epub3
epub3:
$(SPHINXBUILD) -b epub3 $(ALLSPHINXOPTS) $(BUILDDIR)/epub3
@echo
@echo "Build finished. The epub3 file is in $(BUILDDIR)/epub3."
.PHONY: latex
latex:
$(SPHINXBUILD) -b latex $(ALLSPHINXOPTS) $(BUILDDIR)/latex
@echo
@echo "Build finished; the LaTeX files are in $(BUILDDIR)/latex."
@echo "Run \`make' in that directory to run these through (pdf)latex" \
"(use \`make latexpdf' here to do that automatically)."
.PHONY: latexpdf
latexpdf:
$(SPHINXBUILD) -b latex $(ALLSPHINXOPTS) $(BUILDDIR)/latex
@echo "Running LaTeX files through pdflatex..."
$(MAKE) -C $(BUILDDIR)/latex all-pdf
@echo "pdflatex finished; the PDF files are in $(BUILDDIR)/latex."
.PHONY: latexpdfja
latexpdfja:
$(SPHINXBUILD) -b latex $(ALLSPHINXOPTS) $(BUILDDIR)/latex
@echo "Running LaTeX files through platex and dvipdfmx..."
$(MAKE) -C $(BUILDDIR)/latex all-pdf-ja
@echo "pdflatex finished; the PDF files are in $(BUILDDIR)/latex."
.PHONY: text
text:
$(SPHINXBUILD) -b text $(ALLSPHINXOPTS) $(BUILDDIR)/text
@echo
@echo "Build finished. The text files are in $(BUILDDIR)/text."
.PHONY: man
man:
$(SPHINXBUILD) -b man $(ALLSPHINXOPTS) $(BUILDDIR)/man
@echo
@echo "Build finished. The manual pages are in $(BUILDDIR)/man."
.PHONY: texinfo
texinfo:
$(SPHINXBUILD) -b texinfo $(ALLSPHINXOPTS) $(BUILDDIR)/texinfo
@echo
@echo "Build finished. The Texinfo files are in $(BUILDDIR)/texinfo."
@echo "Run \`make' in that directory to run these through makeinfo" \
"(use \`make info' here to do that automatically)."
.PHONY: info
info:
$(SPHINXBUILD) -b texinfo $(ALLSPHINXOPTS) $(BUILDDIR)/texinfo
@echo "Running Texinfo files through makeinfo..."
make -C $(BUILDDIR)/texinfo info
@echo "makeinfo finished; the Info files are in $(BUILDDIR)/texinfo."
.PHONY: gettext
gettext:
$(SPHINXBUILD) -b gettext $(I18NSPHINXOPTS) $(BUILDDIR)/locale
@echo
@echo "Build finished. The message catalogs are in $(BUILDDIR)/locale."
.PHONY: changes
changes:
$(SPHINXBUILD) -b changes $(ALLSPHINXOPTS) $(BUILDDIR)/changes
@echo
@echo "The overview file is in $(BUILDDIR)/changes."
.PHONY: linkcheck
linkcheck:
$(SPHINXBUILD) -b linkcheck $(ALLSPHINXOPTS) $(BUILDDIR)/linkcheck
@echo
@echo "Link check complete; look for any errors in the above output " \
"or in $(BUILDDIR)/linkcheck/output.txt."
.PHONY: doctest
doctest:
$(SPHINXBUILD) -b doctest $(ALLSPHINXOPTS) $(BUILDDIR)/doctest
@echo "Testing of doctests in the sources finished, look at the " \
"results in $(BUILDDIR)/doctest/output.txt."
.PHONY: coverage
coverage:
$(SPHINXBUILD) -b coverage $(ALLSPHINXOPTS) $(BUILDDIR)/coverage
@echo "Testing of coverage in the sources finished, look at the " \
"results in $(BUILDDIR)/coverage/python.txt."
.PHONY: xml
xml:
$(SPHINXBUILD) -b xml $(ALLSPHINXOPTS) $(BUILDDIR)/xml
@echo
@echo "Build finished. The XML files are in $(BUILDDIR)/xml."
.PHONY: pseudoxml
pseudoxml:
$(SPHINXBUILD) -b pseudoxml $(ALLSPHINXOPTS) $(BUILDDIR)/pseudoxml
@echo
@echo "Build finished. The pseudo-XML files are in $(BUILDDIR)/pseudoxml."
.PHONY: dummy
dummy:
$(SPHINXBUILD) -b dummy $(ALLSPHINXOPTS) $(BUILDDIR)/dummy
@echo
@echo "Build finished. Dummy builder generates no files."

View File

@ -1,82 +0,0 @@
# Blueprints
Blueprints are objects that can be used for sub-routing within an application.
Instead of adding routes to the application object, blueprints define similar
methods for adding routes, which are then registered with the application in a
flexible and pluggable manner.
## Why?
Blueprints are especially useful for larger applications, where your application
logic can be broken down into several groups or areas of responsibility.
It is also useful for API versioning, where one blueprint may point at
`/v1/<routes>`, and another pointing at `/v2/<routes>`.
## My First Blueprint
The following shows a very simple blueprint that registers a handler-function at
the root `/` of your application.
Suppose you save this file as `my_blueprint.py`, this can be imported in your
main application later.
```python
from sanic.response import json
from sanic import Blueprint
bp = Blueprint('my_blueprint')
@bp.route('/')
async def bp_root():
return json({'my': 'blueprint'})
```
## Registering Blueprints
Blueprints must be registered with the application.
```python
from sanic import Sanic
from my_blueprint import bp
app = Sanic(__name__)
app.register_blueprint(bp)
app.run(host='0.0.0.0', port=8000, debug=True)
```
This will add the blueprint to the application and register any routes defined
by that blueprint.
In this example, the registered routes in the `app.router` will look like:
```python
[Route(handler=<function bp_root at 0x7f908382f9d8>, methods=None, pattern=re.compile('^/$'), parameters=[])]
```
## Middleware
Using blueprints allows you to also register middleware globally.
```python
@bp.middleware
async def halt_request(request):
print("I am a spy")
@bp.middleware('request')
async def halt_request(request):
return text('I halted the request')
@bp.middleware('response')
async def halt_response(request, response):
return text('I halted the response')
```
## Exceptions
Exceptions can also be applied exclusively to blueprints globally.
```python
@bp.exception(NotFound)
def ignore_404s(request, exception):
return text("Yep, I totally found the page: {}".format(request.url))
```

154
docs/conf.py Normal file
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@ -0,0 +1,154 @@
#!/usr/bin/env python3
# -*- coding: utf-8 -*-
#
# Sanic documentation build configuration file, created by
# sphinx-quickstart on Sun Dec 25 18:07:21 2016.
#
# This file is execfile()d with the current directory set to its
# containing dir.
import os
import sys
# Add support for Markdown documentation using Recommonmark
from recommonmark.parser import CommonMarkParser
# Add support for auto-doc
from recommonmark.transform import AutoStructify
# Ensure that sanic is present in the path, to allow sphinx-apidoc to
# autogenerate documentation from docstrings
root_directory = os.path.dirname(os.getcwd())
sys.path.insert(0, root_directory)
import sanic
# -- General configuration ------------------------------------------------
extensions = ['sphinx.ext.autodoc', 'sphinxcontrib.asyncio']
templates_path = ['_templates']
# Enable support for both Restructured Text and Markdown
source_parsers = {'.md': CommonMarkParser}
source_suffix = ['.rst', '.md']
# The master toctree document.
master_doc = 'index'
# General information about the project.
project = 'Sanic'
copyright = '2016, Sanic contributors'
author = 'Sanic contributors'
# The version info for the project you're documenting, acts as replacement for
# |version| and |release|, also used in various other places throughout the
# built documents.
#
# The short X.Y version.
version = sanic.__version__
# The full version, including alpha/beta/rc tags.
release = sanic.__version__
# The language for content autogenerated by Sphinx. Refer to documentation
# for a list of supported languages.
#
# This is also used if you do content translation via gettext catalogs.
# Usually you set "language" from the command line for these cases.
language = 'en'
# List of patterns, relative to source directory, that match files and
# directories to ignore when looking for source files.
# This patterns also effect to html_static_path and html_extra_path
#
# modules.rst is generated by sphinx-apidoc but is unused. This suppresses
# a warning about it.
exclude_patterns = ['_build', 'Thumbs.db', '.DS_Store', 'modules.rst']
# The name of the Pygments (syntax highlighting) style to use.
pygments_style = 'sphinx'
# If true, `todo` and `todoList` produce output, else they produce nothing.
todo_include_todos = False
# -- Options for HTML output ----------------------------------------------
# The theme to use for HTML and HTML Help pages. See the documentation for
# a list of builtin themes.
html_theme = 'sphinx_rtd_theme'
# Add any paths that contain custom static files (such as style sheets) here,
# relative to this directory. They are copied after the builtin static files,
# so a file named "default.css" will overwrite the builtin "default.css".
html_static_path = ['_static']
# -- Options for HTMLHelp output ------------------------------------------
# Output file base name for HTML help builder.
htmlhelp_basename = 'Sanicdoc'
# -- Options for LaTeX output ---------------------------------------------
latex_elements = {
# The paper size ('letterpaper' or 'a4paper').
#
# 'papersize': 'letterpaper',
# The font size ('10pt', '11pt' or '12pt').
#
# 'pointsize': '10pt',
# Additional stuff for the LaTeX preamble.
#
# 'preamble': '',
# Latex figure (float) alignment
#
# 'figure_align': 'htbp',
}
# Grouping the document tree into LaTeX files. List of tuples
# (source start file, target name, title,
# author, documentclass [howto, manual, or own class]).
latex_documents = [(master_doc, 'Sanic.tex', 'Sanic Documentation',
'Sanic contributors', 'manual'), ]
# -- Options for manual page output ---------------------------------------
# One entry per manual page. List of tuples
# (source start file, name, description, authors, manual section).
man_pages = [(master_doc, 'sanic', 'Sanic Documentation', [author], 1)]
# -- Options for Texinfo output -------------------------------------------
# Grouping the document tree into Texinfo files. List of tuples
# (source start file, target name, title, author,
# dir menu entry, description, category)
texinfo_documents = [
(master_doc, 'Sanic', 'Sanic Documentation', author, 'Sanic',
'One line description of project.', 'Miscellaneous'),
]
# -- Options for Epub output ----------------------------------------------
# Bibliographic Dublin Core info.
epub_title = project
epub_author = author
epub_publisher = author
epub_copyright = copyright
# A list of files that should not be packed into the epub file.
epub_exclude_files = ['search.html']
# -- Custom Settings -------------------------------------------------------
suppress_warnings = ['image.nonlocal_uri']
# app setup hook
def setup(app):
app.add_config_value('recommonmark_config', {
'enable_eval_rst': True,
'enable_auto_doc_ref': True,
}, True)
app.add_transform(AutoStructify)

View File

@ -1,10 +0,0 @@
# How to contribute to Sanic
Thank you for your interest!
## Running tests
* `python -m pip install pytest`
* `python -m pytest tests`
## Warning
One of the main goals of Sanic is speed. Code that lowers the performance of Sanic without significant gains in usability, security, or features may not be merged.

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@ -1,28 +0,0 @@
# Exceptions
Exceptions can be thrown from within request handlers and will automatically be handled by Sanic. Exceptions take a message as their first argument, and can also take a status_code to be passed back in the HTTP response. Check sanic.exceptions for the full list of exceptions to throw.
## Throwing an exception
```python
from sanic import Sanic
from sanic.exceptions import ServerError
@app.route('/killme')
def i_am_ready_to_die(request):
raise ServerError("Something bad happened")
```
## Handling Exceptions
Just use the @exception decorator. The decorator expects a list of exceptions to handle as arguments. You can pass SanicException to catch them all! The exception handler must expect a request and exception object as arguments.
```python
from sanic import Sanic
from sanic.response import text
from sanic.exceptions import NotFound
@app.exception(NotFound)
def ignore_404s(request, exception):
return text("Yep, I totally found the page: {}".format(request.url))
```

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@ -1,25 +0,0 @@
# Getting Started
Make sure you have pip and python 3.5 before starting
## Benchmarks
* Install Sanic
* `python3 -m pip install sanic`
* Edit main.py to include:
```python
from sanic import Sanic
from sanic.response import json
app = Sanic(__name__)
@app.route("/")
async def test(request):
return json({ "hello": "world" })
app.run(host="0.0.0.0", port=8000, debug=True)
```
* Run `python3 main.py`
You now have a working Sanic server! To continue on, check out:
* [Request Data](request_data.md)
* [Routing](routing.md)

40
docs/index.rst Normal file
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@ -0,0 +1,40 @@
.. include:: sanic/index.rst
Guides
======
.. toctree::
:maxdepth: 2
sanic/getting_started
sanic/routing
sanic/request_data
sanic/response
sanic/static_files
sanic/exceptions
sanic/middleware
sanic/blueprints
sanic/websocket
sanic/config
sanic/cookies
sanic/decorators
sanic/streaming
sanic/class_based_views
sanic/custom_protocol
sanic/ssl
sanic/logging
sanic/testing
sanic/deploying
sanic/extensions
sanic/contributing
sanic/api_reference
Module Documentation
====================
.. toctree::
* :ref:`genindex`
* :ref:`modindex`
* :ref:`search`

281
docs/make.bat Normal file
View File

@ -0,0 +1,281 @@
@ECHO OFF
REM Command file for Sphinx documentation
if "%SPHINXBUILD%" == "" (
set SPHINXBUILD=sphinx-build
)
set BUILDDIR=_build
set ALLSPHINXOPTS=-d %BUILDDIR%/doctrees %SPHINXOPTS% .
set I18NSPHINXOPTS=%SPHINXOPTS% .
if NOT "%PAPER%" == "" (
set ALLSPHINXOPTS=-D latex_paper_size=%PAPER% %ALLSPHINXOPTS%
set I18NSPHINXOPTS=-D latex_paper_size=%PAPER% %I18NSPHINXOPTS%
)
if "%1" == "" goto help
if "%1" == "help" (
:help
echo.Please use `make ^<target^>` where ^<target^> is one of
echo. html to make standalone HTML files
echo. dirhtml to make HTML files named index.html in directories
echo. singlehtml to make a single large HTML file
echo. pickle to make pickle files
echo. json to make JSON files
echo. htmlhelp to make HTML files and a HTML help project
echo. qthelp to make HTML files and a qthelp project
echo. devhelp to make HTML files and a Devhelp project
echo. epub to make an epub
echo. epub3 to make an epub3
echo. latex to make LaTeX files, you can set PAPER=a4 or PAPER=letter
echo. text to make text files
echo. man to make manual pages
echo. texinfo to make Texinfo files
echo. gettext to make PO message catalogs
echo. changes to make an overview over all changed/added/deprecated items
echo. xml to make Docutils-native XML files
echo. pseudoxml to make pseudoxml-XML files for display purposes
echo. linkcheck to check all external links for integrity
echo. doctest to run all doctests embedded in the documentation if enabled
echo. coverage to run coverage check of the documentation if enabled
echo. dummy to check syntax errors of document sources
goto end
)
if "%1" == "clean" (
for /d %%i in (%BUILDDIR%\*) do rmdir /q /s %%i
del /q /s %BUILDDIR%\*
goto end
)
REM Check if sphinx-build is available and fallback to Python version if any
%SPHINXBUILD% 1>NUL 2>NUL
if errorlevel 9009 goto sphinx_python
goto sphinx_ok
:sphinx_python
set SPHINXBUILD=python -m sphinx.__init__
%SPHINXBUILD% 2> nul
if errorlevel 9009 (
echo.
echo.The 'sphinx-build' command was not found. Make sure you have Sphinx
echo.installed, then set the SPHINXBUILD environment variable to point
echo.to the full path of the 'sphinx-build' executable. Alternatively you
echo.may add the Sphinx directory to PATH.
echo.
echo.If you don't have Sphinx installed, grab it from
echo.http://sphinx-doc.org/
exit /b 1
)
:sphinx_ok
if "%1" == "html" (
%SPHINXBUILD% -b html %ALLSPHINXOPTS% %BUILDDIR%/html
if errorlevel 1 exit /b 1
echo.
echo.Build finished. The HTML pages are in %BUILDDIR%/html.
goto end
)
if "%1" == "dirhtml" (
%SPHINXBUILD% -b dirhtml %ALLSPHINXOPTS% %BUILDDIR%/dirhtml
if errorlevel 1 exit /b 1
echo.
echo.Build finished. The HTML pages are in %BUILDDIR%/dirhtml.
goto end
)
if "%1" == "singlehtml" (
%SPHINXBUILD% -b singlehtml %ALLSPHINXOPTS% %BUILDDIR%/singlehtml
if errorlevel 1 exit /b 1
echo.
echo.Build finished. The HTML pages are in %BUILDDIR%/singlehtml.
goto end
)
if "%1" == "pickle" (
%SPHINXBUILD% -b pickle %ALLSPHINXOPTS% %BUILDDIR%/pickle
if errorlevel 1 exit /b 1
echo.
echo.Build finished; now you can process the pickle files.
goto end
)
if "%1" == "json" (
%SPHINXBUILD% -b json %ALLSPHINXOPTS% %BUILDDIR%/json
if errorlevel 1 exit /b 1
echo.
echo.Build finished; now you can process the JSON files.
goto end
)
if "%1" == "htmlhelp" (
%SPHINXBUILD% -b htmlhelp %ALLSPHINXOPTS% %BUILDDIR%/htmlhelp
if errorlevel 1 exit /b 1
echo.
echo.Build finished; now you can run HTML Help Workshop with the ^
.hhp project file in %BUILDDIR%/htmlhelp.
goto end
)
if "%1" == "qthelp" (
%SPHINXBUILD% -b qthelp %ALLSPHINXOPTS% %BUILDDIR%/qthelp
if errorlevel 1 exit /b 1
echo.
echo.Build finished; now you can run "qcollectiongenerator" with the ^
.qhcp project file in %BUILDDIR%/qthelp, like this:
echo.^> qcollectiongenerator %BUILDDIR%\qthelp\aiographite.qhcp
echo.To view the help file:
echo.^> assistant -collectionFile %BUILDDIR%\qthelp\aiographite.ghc
goto end
)
if "%1" == "devhelp" (
%SPHINXBUILD% -b devhelp %ALLSPHINXOPTS% %BUILDDIR%/devhelp
if errorlevel 1 exit /b 1
echo.
echo.Build finished.
goto end
)
if "%1" == "epub" (
%SPHINXBUILD% -b epub %ALLSPHINXOPTS% %BUILDDIR%/epub
if errorlevel 1 exit /b 1
echo.
echo.Build finished. The epub file is in %BUILDDIR%/epub.
goto end
)
if "%1" == "epub3" (
%SPHINXBUILD% -b epub3 %ALLSPHINXOPTS% %BUILDDIR%/epub3
if errorlevel 1 exit /b 1
echo.
echo.Build finished. The epub3 file is in %BUILDDIR%/epub3.
goto end
)
if "%1" == "latex" (
%SPHINXBUILD% -b latex %ALLSPHINXOPTS% %BUILDDIR%/latex
if errorlevel 1 exit /b 1
echo.
echo.Build finished; the LaTeX files are in %BUILDDIR%/latex.
goto end
)
if "%1" == "latexpdf" (
%SPHINXBUILD% -b latex %ALLSPHINXOPTS% %BUILDDIR%/latex
cd %BUILDDIR%/latex
make all-pdf
cd %~dp0
echo.
echo.Build finished; the PDF files are in %BUILDDIR%/latex.
goto end
)
if "%1" == "latexpdfja" (
%SPHINXBUILD% -b latex %ALLSPHINXOPTS% %BUILDDIR%/latex
cd %BUILDDIR%/latex
make all-pdf-ja
cd %~dp0
echo.
echo.Build finished; the PDF files are in %BUILDDIR%/latex.
goto end
)
if "%1" == "text" (
%SPHINXBUILD% -b text %ALLSPHINXOPTS% %BUILDDIR%/text
if errorlevel 1 exit /b 1
echo.
echo.Build finished. The text files are in %BUILDDIR%/text.
goto end
)
if "%1" == "man" (
%SPHINXBUILD% -b man %ALLSPHINXOPTS% %BUILDDIR%/man
if errorlevel 1 exit /b 1
echo.
echo.Build finished. The manual pages are in %BUILDDIR%/man.
goto end
)
if "%1" == "texinfo" (
%SPHINXBUILD% -b texinfo %ALLSPHINXOPTS% %BUILDDIR%/texinfo
if errorlevel 1 exit /b 1
echo.
echo.Build finished. The Texinfo files are in %BUILDDIR%/texinfo.
goto end
)
if "%1" == "gettext" (
%SPHINXBUILD% -b gettext %I18NSPHINXOPTS% %BUILDDIR%/locale
if errorlevel 1 exit /b 1
echo.
echo.Build finished. The message catalogs are in %BUILDDIR%/locale.
goto end
)
if "%1" == "changes" (
%SPHINXBUILD% -b changes %ALLSPHINXOPTS% %BUILDDIR%/changes
if errorlevel 1 exit /b 1
echo.
echo.The overview file is in %BUILDDIR%/changes.
goto end
)
if "%1" == "linkcheck" (
%SPHINXBUILD% -b linkcheck %ALLSPHINXOPTS% %BUILDDIR%/linkcheck
if errorlevel 1 exit /b 1
echo.
echo.Link check complete; look for any errors in the above output ^
or in %BUILDDIR%/linkcheck/output.txt.
goto end
)
if "%1" == "doctest" (
%SPHINXBUILD% -b doctest %ALLSPHINXOPTS% %BUILDDIR%/doctest
if errorlevel 1 exit /b 1
echo.
echo.Testing of doctests in the sources finished, look at the ^
results in %BUILDDIR%/doctest/output.txt.
goto end
)
if "%1" == "coverage" (
%SPHINXBUILD% -b coverage %ALLSPHINXOPTS% %BUILDDIR%/coverage
if errorlevel 1 exit /b 1
echo.
echo.Testing of coverage in the sources finished, look at the ^
results in %BUILDDIR%/coverage/python.txt.
goto end
)
if "%1" == "xml" (
%SPHINXBUILD% -b xml %ALLSPHINXOPTS% %BUILDDIR%/xml
if errorlevel 1 exit /b 1
echo.
echo.Build finished. The XML files are in %BUILDDIR%/xml.
goto end
)
if "%1" == "pseudoxml" (
%SPHINXBUILD% -b pseudoxml %ALLSPHINXOPTS% %BUILDDIR%/pseudoxml
if errorlevel 1 exit /b 1
echo.
echo.Build finished. The pseudo-XML files are in %BUILDDIR%/pseudoxml.
goto end
)
if "%1" == "dummy" (
%SPHINXBUILD% -b dummy %ALLSPHINXOPTS% %BUILDDIR%/dummy
if errorlevel 1 exit /b 1
echo.
echo.Build finished. Dummy builder generates no files.
goto end
)
:end

View File

@ -1,29 +0,0 @@
# Middleware
Middleware can be executed before or after requests. It is executed in the order it was registered. If middleware returns a response object, the request will stop processing and a response will be returned.
Middleware is registered via the middleware decorator, and can either be added as 'request' or 'response' middleware, based on the argument provided in the decorator. Response middleware receives both the request and the response as arguments.
## Examples
```python
app = Sanic(__name__)
@app.middleware
async def halt_request(request):
print("I am a spy")
@app.middleware('request')
async def halt_request(request):
return text('I halted the request')
@app.middleware('response')
async def halt_response(request, response):
return text('I halted the response')
@app.route('/')
async def handler(request):
return text('I would like to speak now please')
app.run(host="0.0.0.0", port=8000)
```

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@ -1,43 +0,0 @@
# Request Data
## Properties
The following request variables are accessible as properties:
`request.files` (dictionary of File objects) - List of files that have a name, body, and type
`request.json` (any) - JSON body
`request.args` (dict) - Query String variables. Use getlist to get multiple of the same name
`request.form` (dict) - Posted form variables. Use getlist to get multiple of the same name
See request.py for more information
## Examples
```python
from sanic import Sanic
from sanic.response import json
@app.route("/json")
def post_json(request):
return json({ "received": True, "message": request.json })
@app.route("/form")
def post_json(request):
return json({ "received": True, "form_data": request.form, "test": request.form.get('test') })
@app.route("/files")
def post_json(request):
test_file = request.files.get('test')
file_parameters = {
'body': test_file.body,
'name': test_file.name,
'type': test_file.type,
}
return json({ "received": True, "file_names": request.files.keys(), "test_file_parameters": file_parameters })
@app.route("/query_string")
def query_string(request):
return json({ "parsed": True, "args": request.args, "url": request.url, "query_string": request.query_string })
```

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@ -1,32 +0,0 @@
# Routing
Sanic comes with a basic router that supports request parameters. To specify a parameter, surround it with carrots like so: `<PARAM>`. Request parameters will be passed to the request handler functions as keyword arguments. To specify a type, add a :type after the parameter name, in the carrots. If the parameter does not match the type supplied, Sanic will throw a NotFound exception, resulting in a 404 page not found error.
## Examples
```python
from sanic import Sanic
from sanic.response import text
@app.route('/tag/<tag>')
async def person_handler(request, tag):
return text('Tag - {}'.format(tag))
@app.route('/number/<integer_arg:int>')
async def person_handler(request, integer_arg):
return text('Integer - {}'.format(integer_arg))
@app.route('/number/<number_arg:number>')
async def person_handler(request, number_arg):
return text('Number - {}'.format(number))
@app.route('/person/<name:[A-z]>')
async def person_handler(request, name):
return text('Person - {}'.format(name))
@app.route('/folder/<folder_id:[A-z0-9]{0,4}>')
async def folder_handler(request, folder_id):
return text('Folder - {}'.format(folder_id))
```

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API Reference
=============
Submodules
----------
sanic.app module
----------------
.. automodule:: sanic.app
:members:
:undoc-members:
:show-inheritance:
sanic.blueprints module
-----------------------
.. automodule:: sanic.blueprints
:members:
:undoc-members:
:show-inheritance:
sanic.config module
-------------------
.. automodule:: sanic.config
:members:
:undoc-members:
:show-inheritance:
sanic.constants module
----------------------
.. automodule:: sanic.constants
:members:
:undoc-members:
:show-inheritance:
sanic.cookies module
--------------------
.. automodule:: sanic.cookies
:members:
:undoc-members:
:show-inheritance:
sanic.exceptions module
-----------------------
.. automodule:: sanic.exceptions
:members:
:undoc-members:
:show-inheritance:
sanic.handlers module
---------------------
.. automodule:: sanic.handlers
:members:
:undoc-members:
:show-inheritance:
sanic.log module
----------------
.. automodule:: sanic.log
:members:
:undoc-members:
:show-inheritance:
sanic.request module
--------------------
.. automodule:: sanic.request
:members:
:undoc-members:
:show-inheritance:
sanic.response module
---------------------
.. automodule:: sanic.response
:members:
:undoc-members:
:show-inheritance:
sanic.router module
-------------------
.. automodule:: sanic.router
:members:
:undoc-members:
:show-inheritance:
sanic.server module
-------------------
.. automodule:: sanic.server
:members:
:undoc-members:
:show-inheritance:
sanic.static module
-------------------
.. automodule:: sanic.static
:members:
:undoc-members:
:show-inheritance:
sanic.testing module
--------------------
.. automodule:: sanic.testing
:members:
:undoc-members:
:show-inheritance:
sanic.views module
------------------
.. automodule:: sanic.views
:members:
:undoc-members:
:show-inheritance:
sanic.websocket module
----------------------
.. automodule:: sanic.websocket
:members:
:undoc-members:
:show-inheritance:
sanic.worker module
-------------------
.. automodule:: sanic.worker
:members:
:undoc-members:
:show-inheritance:
Module contents
---------------
.. automodule:: sanic
:members:
:undoc-members:
:show-inheritance:

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# Blueprints
Blueprints are objects that can be used for sub-routing within an application.
Instead of adding routes to the application instance, blueprints define similar
methods for adding routes, which are then registered with the application in a
flexible and pluggable manner.
Blueprints are especially useful for larger applications, where your
application logic can be broken down into several groups or areas of
responsibility.
## My First Blueprint
The following shows a very simple blueprint that registers a handler-function at
the root `/` of your application.
Suppose you save this file as `my_blueprint.py`, which can be imported into your
main application later.
```python
from sanic.response import json
from sanic import Blueprint
bp = Blueprint('my_blueprint')
@bp.route('/')
async def bp_root(request):
return json({'my': 'blueprint'})
```
## Registering blueprints
Blueprints must be registered with the application.
```python
from sanic import Sanic
from my_blueprint import bp
app = Sanic(__name__)
app.blueprint(bp)
app.run(host='0.0.0.0', port=8000, debug=True)
```
This will add the blueprint to the application and register any routes defined
by that blueprint. In this example, the registered routes in the `app.router`
will look like:
```python
[Route(handler=<function bp_root at 0x7f908382f9d8>, methods=None, pattern=re.compile('^/$'), parameters=[])]
```
## Blueprint groups and nesting
Blueprints may also be registered as part of a list or tuple, where the registrar will recursively cycle through any sub-sequences of blueprints and register them accordingly. The `Blueprint.group` method is provided to simplify this process, allowing a 'mock' backend directory structure mimicking what's seen from the front end. Consider this (quite contrived) example:
```
api/
├──content/
│ ├──authors.py
│ ├──static.py
│ └──__init__.py
├──info.py
└──__init__.py
app.py
```
Initialization of this app's blueprint hierarchy could go as follows:
```python
# api/content/authors.py
from sanic import Blueprint
authors = Blueprint('content_authors', url_prefix='/authors')
```
```python
# api/content/static.py
from sanic import Blueprint
static = Blueprint('content_static', url_prefix='/static')
```
```python
# api/content/__init__.py
from sanic import Blueprint
from .static import static
from .authors import authors
content = Blueprint.group(assets, authors, url_prefix='/content')
```
```python
# api/info.py
from sanic import Blueprint
info = Blueprint('info', url_prefix='/info')
```
```python
# api/__init__.py
from sanic import Blueprint
from .content import content
from .info import info
api = Blueprint.group(content, info, url_prefix='/api')
```
And registering these blueprints in `app.py` can now be done like so:
```python
# app.py
from sanic import Sanic
from .api import api
app = Sanic(__name__)
app.blueprint(api)
```
## Using blueprints
Blueprints have much the same functionality as an application instance.
### WebSocket routes
WebSocket handlers can be registered on a blueprint using the `@bp.websocket`
decorator or `bp.add_websocket_route` method.
### Middleware
Using blueprints allows you to also register middleware globally.
```python
@bp.middleware
async def print_on_request(request):
print("I am a spy")
@bp.middleware('request')
async def halt_request(request):
return text('I halted the request')
@bp.middleware('response')
async def halt_response(request, response):
return text('I halted the response')
```
### Exceptions
Exceptions can be applied exclusively to blueprints globally.
```python
@bp.exception(NotFound)
def ignore_404s(request, exception):
return text("Yep, I totally found the page: {}".format(request.url))
```
### Static files
Static files can be served globally, under the blueprint prefix.
```python
# suppose bp.name == 'bp'
bp.static('/web/path', '/folder/to/serve')
# also you can pass name parameter to it for url_for
bp.static('/web/path', '/folder/to/server', name='uploads')
app.url_for('static', name='bp.uploads', filename='file.txt') == '/bp/web/path/file.txt'
```
## Start and stop
Blueprints can run functions during the start and stop process of the server.
If running in multiprocessor mode (more than 1 worker), these are triggered
after the workers fork.
Available events are:
- `before_server_start`: Executed before the server begins to accept connections
- `after_server_start`: Executed after the server begins to accept connections
- `before_server_stop`: Executed before the server stops accepting connections
- `after_server_stop`: Executed after the server is stopped and all requests are complete
```python
bp = Blueprint('my_blueprint')
@bp.listener('before_server_start')
async def setup_connection(app, loop):
global database
database = mysql.connect(host='127.0.0.1'...)
@bp.listener('after_server_stop')
async def close_connection(app, loop):
await database.close()
```
## Use-case: API versioning
Blueprints can be very useful for API versioning, where one blueprint may point
at `/v1/<routes>`, and another pointing at `/v2/<routes>`.
When a blueprint is initialised, it can take an optional `url_prefix` argument,
which will be prepended to all routes defined on the blueprint. This feature
can be used to implement our API versioning scheme.
```python
# blueprints.py
from sanic.response import text
from sanic import Blueprint
blueprint_v1 = Blueprint('v1', url_prefix='/v1')
blueprint_v2 = Blueprint('v2', url_prefix='/v2')
@blueprint_v1.route('/')
async def api_v1_root(request):
return text('Welcome to version 1 of our documentation')
@blueprint_v2.route('/')
async def api_v2_root(request):
return text('Welcome to version 2 of our documentation')
```
When we register our blueprints on the app, the routes `/v1` and `/v2` will now
point to the individual blueprints, which allows the creation of *sub-sites*
for each API version.
```python
# main.py
from sanic import Sanic
from blueprints import blueprint_v1, blueprint_v2
app = Sanic(__name__)
app.blueprint(blueprint_v1, url_prefix='/v1')
app.blueprint(blueprint_v2, url_prefix='/v2')
app.run(host='0.0.0.0', port=8000, debug=True)
```
## URL Building with `url_for`
If you wish to generate a URL for a route inside of a blueprint, remember that the endpoint name
takes the format `<blueprint_name>.<handler_name>`. For example:
```python
@blueprint_v1.route('/')
async def root(request):
url = request.app.url_for('v1.post_handler', post_id=5) # --> '/v1/post/5'
return redirect(url)
@blueprint_v1.route('/post/<post_id>')
async def post_handler(request, post_id):
return text('Post {} in Blueprint V1'.format(post_id))
```

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# Class-Based Views
Class-based views are simply classes which implement response behaviour to
requests. They provide a way to compartmentalise handling of different HTTP
request types at the same endpoint. Rather than defining and decorating three
different handler functions, one for each of an endpoint's supported request
type, the endpoint can be assigned a class-based view.
## Defining views
A class-based view should subclass `HTTPMethodView`. You can then implement
class methods for every HTTP request type you want to support. If a request is
received that has no defined method, a `405: Method not allowed` response will
be generated.
To register a class-based view on an endpoint, the `app.add_route` method is
used. The first argument should be the defined class with the method `as_view`
invoked, and the second should be the URL endpoint.
The available methods are `get`, `post`, `put`, `patch`, and `delete`. A class
using all these methods would look like the following.
```python
from sanic import Sanic
from sanic.views import HTTPMethodView
from sanic.response import text
app = Sanic('some_name')
class SimpleView(HTTPMethodView):
def get(self, request):
return text('I am get method')
def post(self, request):
return text('I am post method')
def put(self, request):
return text('I am put method')
def patch(self, request):
return text('I am patch method')
def delete(self, request):
return text('I am delete method')
app.add_route(SimpleView.as_view(), '/')
```
You can also use `async` syntax.
```python
from sanic import Sanic
from sanic.views import HTTPMethodView
from sanic.response import text
app = Sanic('some_name')
class SimpleAsyncView(HTTPMethodView):
async def get(self, request):
return text('I am async get method')
app.add_route(SimpleAsyncView.as_view(), '/')
```
## URL parameters
If you need any URL parameters, as discussed in the routing guide, include them
in the method definition.
```python
class NameView(HTTPMethodView):
def get(self, request, name):
return text('Hello {}'.format(name))
app.add_route(NameView.as_view(), '/<name>')
```
## Decorators
If you want to add any decorators to the class, you can set the `decorators`
class variable. These will be applied to the class when `as_view` is called.
```python
class ViewWithDecorator(HTTPMethodView):
decorators = [some_decorator_here]
def get(self, request, name):
return text('Hello I have a decorator')
def post(self, request, name):
return text("Hello I also have a decorator")
app.add_route(ViewWithDecorator.as_view(), '/url')
```
But if you just want to decorate some functions and not all functions, you can do as follows:
```python
class ViewWithSomeDecorator(HTTPMethodView):
@staticmethod
@some_decorator_here
def get(request, name):
return text("Hello I have a decorator")
def post(self, request, name):
return text("Hello I don't have any decorators")
```
## URL Building
If you wish to build a URL for an HTTPMethodView, remember that the class name will be the endpoint
that you will pass into `url_for`. For example:
```python
@app.route('/')
def index(request):
url = app.url_for('SpecialClassView')
return redirect(url)
class SpecialClassView(HTTPMethodView):
def get(self, request):
return text('Hello from the Special Class View!')
app.add_route(SpecialClassView.as_view(), '/special_class_view')
```
## Using CompositionView
As an alternative to the `HTTPMethodView`, you can use `CompositionView` to
move handler functions outside of the view class.
Handler functions for each supported HTTP method are defined elsewhere in the
source, and then added to the view using the `CompositionView.add` method. The
first parameter is a list of HTTP methods to handle (e.g. `['GET', 'POST']`),
and the second is the handler function. The following example shows
`CompositionView` usage with both an external handler function and an inline
lambda:
```python
from sanic import Sanic
from sanic.views import CompositionView
from sanic.response import text
app = Sanic(__name__)
def get_handler(request):
return text('I am a get method')
view = CompositionView()
view.add(['GET'], get_handler)
view.add(['POST', 'PUT'], lambda request: text('I am a post/put method'))
# Use the new view to handle requests to the base URL
app.add_route(view, '/')
```
Note: currently you cannot build a URL for a CompositionView using `url_for`.

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# Configuration
Any reasonably complex application will need configuration that is not baked into the actual code. Settings might be different for different environments or installations.
## Basics
Sanic holds the configuration in the `config` attribute of the application object. The configuration object is merely an object that can be modified either using dot-notation or like a dictionary:
```
app = Sanic('myapp')
app.config.DB_NAME = 'appdb'
app.config.DB_USER = 'appuser'
```
Since the config object actually is a dictionary, you can use its `update` method in order to set several values at once:
```
db_settings = {
'DB_HOST': 'localhost',
'DB_NAME': 'appdb',
'DB_USER': 'appuser'
}
app.config.update(db_settings)
```
In general the convention is to only have UPPERCASE configuration parameters. The methods described below for loading configuration only look for such uppercase parameters.
## Loading Configuration
There are several ways how to load configuration.
### From Environment Variables
Any variables defined with the `SANIC_` prefix will be applied to the sanic config. For example, setting `SANIC_REQUEST_TIMEOUT` will be loaded by the application automatically and fed into the `REQUEST_TIMEOUT` config variable. You can pass a different prefix to Sanic:
```python
app = Sanic(load_env='MYAPP_')
```
Then the above variable would be `MYAPP_REQUEST_TIMEOUT`. If you want to disable loading from environment variables you can set it to `False` instead:
```python
app = Sanic(load_env=False)
```
### From an Object
If there are a lot of configuration values and they have sensible defaults it might be helpful to put them into a module:
```
import myapp.default_settings
app = Sanic('myapp')
app.config.from_object(myapp.default_settings)
```
You could use a class or any other object as well.
### From a File
Usually you will want to load configuration from a file that is not part of the distributed application. You can load configuration from a file using `from_pyfile(/path/to/config_file)`. However, that requires the program to know the path to the config file. So instead you can specify the location of the config file in an environment variable and tell Sanic to use that to find the config file:
```
app = Sanic('myapp')
app.config.from_envvar('MYAPP_SETTINGS')
```
Then you can run your application with the `MYAPP_SETTINGS` environment variable set:
```
$ MYAPP_SETTINGS=/path/to/config_file python3 myapp.py
INFO: Goin' Fast @ http://0.0.0.0:8000
```
The config files are regular Python files which are executed in order to load them. This allows you to use arbitrary logic for constructing the right configuration. Only uppercase variables are added to the configuration. Most commonly the configuration consists of simple key value pairs:
```
# config_file
DB_HOST = 'localhost'
DB_NAME = 'appdb'
DB_USER = 'appuser'
```
## Builtin Configuration Values
Out of the box there are just a few predefined values which can be overwritten when creating the application.
| Variable | Default | Description |
| ------------------ | --------- | --------------------------------------------- |
| REQUEST_MAX_SIZE | 100000000 | How big a request may be (bytes) |
| REQUEST_TIMEOUT | 60 | How long a request can take to arrive (sec) |
| RESPONSE_TIMEOUT | 60 | How long a response can take to process (sec) |
| KEEP_ALIVE | True | Disables keep-alive when False |
| KEEP_ALIVE_TIMEOUT | 5 | How long to hold a TCP connection open (sec) |
### The different Timeout variables:
A request timeout measures the duration of time between the instant when a new open TCP connection is passed to the Sanic backend server, and the instant when the whole HTTP request is received. If the time taken exceeds the `REQUEST_TIMEOUT` value (in seconds), this is considered a Client Error so Sanic generates a HTTP 408 response and sends that to the client. Adjust this value higher if your clients routinely pass very large request payloads or upload requests very slowly.
A response timeout measures the duration of time between the instant the Sanic server passes the HTTP request to the Sanic App, and the instant a HTTP response is sent to the client. If the time taken exceeds the `RESPONSE_TIMEOUT` value (in seconds), this is considered a Server Error so Sanic generates a HTTP 503 response and sets that to the client. Adjust this value higher if your application is likely to have long-running process that delay the generation of a response.
### What is Keep Alive? And what does the Keep Alive Timeout value do?
Keep-Alive is a HTTP feature indroduced in HTTP 1.1. When sending a HTTP request, the client (usually a web browser application) can set a Keep-Alive header to indicate for the http server (Sanic) to not close the TCP connection after it has send the response. This allows the client to reuse the existing TCP connection to send subsequent HTTP requests, and ensures more efficient network traffic for both the client and the server.
The `KEEP_ALIVE` config variable is set to `True` in Sanic by default. If you don't need this feature in your application, set it to `False` to cause all client connections to close immediately after a response is sent, regardless of the Keep-Alive header on the request.
The amount of time the server holds the TCP connection open is decided by the server itself. In Sanic, that value is configured using the `KEEP_ALIVE_TIMEOUT` value. By default, it is set to 5 seconds, this is the same default setting as the Apache HTTP server and is a good balance between allowing enough time for the client to send a new request, and not holding open too many connections at once. Do not exceed 75 seconds unless you know your clients are using a browser which supports TCP connections held open for that long.
For reference:
```
Apache httpd server default keepalive timeout = 5 seconds
Nginx server default keepalive timeout = 75 seconds
Nginx performance tuning guidelines uses keepalive = 15 seconds
IE (5-9) client hard keepalive limit = 60 seconds
Firefox client hard keepalive limit = 115 seconds
Opera 11 client hard keepalive limit = 120 seconds
Chrome 13+ client keepalive limit > 300+ seconds
```

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# Contributing
Thank you for your interest! Sanic is always looking for contributors. If you
don't feel comfortable contributing code, adding docstrings to the source files
is very appreciated.
## Installation
To develop on sanic (and mainly to just run the tests) it is highly recommend to
install from sources.
So assume you have already cloned the repo and are in the working directory with
a virtual environment already set up, then run:
```bash
python setup.py develop && pip install -r requirements-dev.txt
```
## Running tests
To run the tests for sanic it is recommended to use tox like so:
```bash
tox
```
See it's that simple!
## Pull requests!
So the pull request approval rules are pretty simple:
1. All pull requests must pass unit tests
* All pull requests must be reviewed and approved by at least
one current collaborator on the project
* All pull requests must pass flake8 checks
* If you decide to remove/change anything from any common interface
a deprecation message should accompany it.
* If you implement a new feature you should have at least one unit
test to accompany it.
## Documentation
Sanic's documentation is built
using [sphinx](http://www.sphinx-doc.org/en/1.5.1/). Guides are written in
Markdown and can be found in the `docs` folder, while the module reference is
automatically generated using `sphinx-apidoc`.
To generate the documentation from scratch:
```bash
sphinx-apidoc -fo docs/_api/ sanic
sphinx-build -b html docs docs/_build
```
The HTML documentation will be created in the `docs/_build` folder.
## Warning
One of the main goals of Sanic is speed. Code that lowers the performance of
Sanic without significant gains in usability, security, or features may not be
merged. Please don't let this intimidate you! If you have any concerns about an
idea, open an issue for discussion and help.

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Cookies
=======
Cookies are pieces of data which persist inside a user's browser. Sanic can
both read and write cookies, which are stored as key-value pairs.
.. warning::
Cookies can be freely altered by the client. Therefore you cannot just store
data such as login information in cookies as-is, as they can be freely altered
by the client. To ensure data you store in cookies is not forged or tampered
with by the client, use something like `itsdangerous`_ to cryptographically
sign the data.
Reading cookies
---------------
A user's cookies can be accessed via the ``Request`` object's ``cookies`` dictionary.
.. code-block:: python
from sanic.response import text
@app.route("/cookie")
async def test(request):
test_cookie = request.cookies.get('test')
return text("Test cookie set to: {}".format(test_cookie))
Writing cookies
---------------
When returning a response, cookies can be set on the ``Response`` object.
.. code-block:: python
from sanic.response import text
@app.route("/cookie")
async def test(request):
response = text("There's a cookie up in this response")
response.cookies['test'] = 'It worked!'
response.cookies['test']['domain'] = '.gotta-go-fast.com'
response.cookies['test']['httponly'] = True
return response
Deleting cookies
----------------
Cookies can be removed semantically or explicitly.
.. code-block:: python
from sanic.response import text
@app.route("/cookie")
async def test(request):
response = text("Time to eat some cookies muahaha")
# This cookie will be set to expire in 0 seconds
del response.cookies['kill_me']
# This cookie will self destruct in 5 seconds
response.cookies['short_life'] = 'Glad to be here'
response.cookies['short_life']['max-age'] = 5
del response.cookies['favorite_color']
# This cookie will remain unchanged
response.cookies['favorite_color'] = 'blue'
response.cookies['favorite_color'] = 'pink'
del response.cookies['favorite_color']
return response
Response cookies can be set like dictionary values and have the following
parameters available:
- ``expires`` (datetime): The time for the cookie to expire on the client's browser.
- ``path`` (string): The subset of URLs to which this cookie applies. Defaults to /.
- ``comment`` (string): A comment (metadata).
- ``domain`` (string): Specifies the domain for which the cookie is valid. An
explicitly specified domain must always start with a dot.
- ``max-age`` (number): Number of seconds the cookie should live for.
- ``secure`` (boolean): Specifies whether the cookie will only be sent via HTTPS.
- ``httponly`` (boolean): Specifies whether the cookie cannot be read by Javascript.
.. _itsdangerous: https://pythonhosted.org/itsdangerous/

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# Custom Protocols
*Note: this is advanced usage, and most readers will not need such functionality.*
You can change the behavior of Sanic's protocol by specifying a custom
protocol, which should be a subclass
of
[asyncio.protocol](https://docs.python.org/3/library/asyncio-protocol.html#protocol-classes).
This protocol can then be passed as the keyword argument `protocol` to the `sanic.run` method.
The constructor of the custom protocol class receives the following keyword
arguments from Sanic.
- `loop`: an `asyncio`-compatible event loop.
- `connections`: a `set` to store protocol objects. When Sanic receives
`SIGINT` or `SIGTERM`, it executes `protocol.close_if_idle` for all protocol
objects stored in this set.
- `signal`: a `sanic.server.Signal` object with the `stopped` attribute. When
Sanic receives `SIGINT` or `SIGTERM`, `signal.stopped` is assigned `True`.
- `request_handler`: a coroutine that takes a `sanic.request.Request` object
and a `response` callback as arguments.
- `error_handler`: a `sanic.exceptions.Handler` which is called when exceptions
are raised.
- `request_timeout`: the number of seconds before a request times out.
- `request_max_size`: an integer specifying the maximum size of a request, in bytes.
## Example
An error occurs in the default protocol if a handler function does not return
an `HTTPResponse` object.
By overriding the `write_response` protocol method, if a handler returns a
string it will be converted to an `HTTPResponse object`.
```python
from sanic import Sanic
from sanic.server import HttpProtocol
from sanic.response import text
app = Sanic(__name__)
class CustomHttpProtocol(HttpProtocol):
def __init__(self, *, loop, request_handler, error_handler,
signal, connections, request_timeout, request_max_size):
super().__init__(
loop=loop, request_handler=request_handler,
error_handler=error_handler, signal=signal,
connections=connections, request_timeout=request_timeout,
request_max_size=request_max_size)
def write_response(self, response):
if isinstance(response, str):
response = text(response)
self.transport.write(
response.output(self.request.version)
)
self.transport.close()
@app.route('/')
async def string(request):
return 'string'
@app.route('/1')
async def response(request):
return text('response')
app.run(host='0.0.0.0', port=8000, protocol=CustomHttpProtocol)
```

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Debug Mode
=============
When enabling Sanic's debug mode, Sanic will provide a more verbose logging output
and by default will enable the Auto Reload feature.
.. warning::
Sanic's debug more will slow down the server's performance
and is therefore advised to enable it only in development environments.
Setting the debug mode
----------------------
By setting the ``debug`` mode a more verbose output from Sanic will be outputed
and the Automatic Reloader will be activated.
.. code-block:: python
from sanic import Sanic
from sanic.response import json
app = Sanic()
@app.route('/')
async def hello_world(request):
return json({"hello": "world"})
if __name__ == '__main__':
app.run(host="0.0.0.0", port=8000, debug=True)
Manually setting auto reload
----------------------------
Sanic offers a way to enable or disable the Automatic Reloader manually,
the ``auto_reload`` argument will activate or deactivate the Automatic Reloader.
.. code-block:: python
from sanic import Sanic
from sanic.response import json
app = Sanic()
@app.route('/')
async def hello_world(request):
return json({"hello": "world"})
if __name__ == '__main__':
app.run(host="0.0.0.0", port=8000, auto_reload=True)

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# Handler Decorators
Since Sanic handlers are simple Python functions, you can apply decorators to them in a similar manner to Flask. A typical use case is when you want some code to run before a handler's code is executed.
## Authorization Decorator
Let's say you want to check that a user is authorized to access a particular endpoint. You can create a decorator that wraps a handler function, checks a request if the client is authorized to access a resource, and sends the appropriate response.
```python
from functools import wraps
from sanic.response import json
def authorized():
def decorator(f):
@wraps(f)
async def decorated_function(request, *args, **kwargs):
# run some method that checks the request
# for the client's authorization status
is_authorized = check_request_for_authorization_status(request)
if is_authorized:
# the user is authorized.
# run the handler method and return the response
response = await f(request, *args, **kwargs)
return response
else:
# the user is not authorized.
return json({'status': 'not_authorized'}, 403)
return decorated_function
return decorator
@app.route("/")
@authorized()
async def test(request):
return json({status: 'authorized'})
```

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# Deploying
Deploying Sanic is made simple by the inbuilt webserver. After defining an
instance of `sanic.Sanic`, we can call the `run` method with the following
keyword arguments:
- `host` *(default `"127.0.0.1"`)*: Address to host the server on.
- `port` *(default `8000`)*: Port to host the server on.
- `debug` *(default `False`)*: Enables debug output (slows server).
- `ssl` *(default `None`)*: `SSLContext` for SSL encryption of worker(s).
- `sock` *(default `None`)*: Socket for the server to accept connections from.
- `workers` *(default `1`)*: Number of worker processes to spawn.
- `loop` *(default `None`)*: An `asyncio`-compatible event loop. If none is
specified, Sanic creates its own event loop.
- `protocol` *(default `HttpProtocol`)*: Subclass
of
[asyncio.protocol](https://docs.python.org/3/library/asyncio-protocol.html#protocol-classes).
## Workers
By default, Sanic listens in the main process using only one CPU core. To crank
up the juice, just specify the number of workers in the `run` arguments.
```python
app.run(host='0.0.0.0', port=1337, workers=4)
```
Sanic will automatically spin up multiple processes and route traffic between
them. We recommend as many workers as you have available cores.
## Running via command
If you like using command line arguments, you can launch a Sanic server by
executing the module. For example, if you initialized Sanic as `app` in a file
named `server.py`, you could run the server like so:
`python -m sanic server.app --host=0.0.0.0 --port=1337 --workers=4`
With this way of running sanic, it is not necessary to invoke `app.run` in your
Python file. If you do, make sure you wrap it so that it only executes when
directly run by the interpreter.
```python
if __name__ == '__main__':
app.run(host='0.0.0.0', port=1337, workers=4)
```
## Running via Gunicorn
[Gunicorn](http://gunicorn.org/) Green Unicorn is a WSGI HTTP Server for UNIX.
Its a pre-fork worker model ported from Rubys Unicorn project.
In order to run Sanic application with Gunicorn, you need to use the special `sanic.worker.GunicornWorker`
for Gunicorn `worker-class` argument:
```
gunicorn myapp:app --bind 0.0.0.0:1337 --worker-class sanic.worker.GunicornWorker
```
If your application suffers from memory leaks, you can configure Gunicorn to gracefully restart a worker
after it has processed a given number of requests. This can be a convenient way to help limit the effects
of the memory leak.
See the [Gunicorn Docs](http://docs.gunicorn.org/en/latest/settings.html#max-requests) for more information.
## Asynchronous support
This is suitable if you *need* to share the sanic process with other applications, in particular the `loop`.
However be advised that this method does not support using multiple processes, and is not the preferred way
to run the app in general.
Here is an incomplete example (please see `run_async.py` in examples for something more practical):
```python
server = app.create_server(host="0.0.0.0", port=8000)
loop = asyncio.get_event_loop()
task = asyncio.ensure_future(server)
loop.run_forever()
```

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# Exceptions
Exceptions can be thrown from within request handlers and will automatically be
handled by Sanic. Exceptions take a message as their first argument, and can
also take a status code to be passed back in the HTTP response.
## Throwing an exception
To throw an exception, simply `raise` the relevant exception from the
`sanic.exceptions` module.
```python
from sanic.exceptions import ServerError
@app.route('/killme')
async def i_am_ready_to_die(request):
raise ServerError("Something bad happened", status_code=500)
```
You can also use the `abort` function with the appropriate status code:
```python
from sanic.exceptions import abort
from sanic.response import text
@app.route('/youshallnotpass')
async def no_no(request):
abort(401)
# this won't happen
text("OK")
```
## Handling exceptions
To override Sanic's default handling of an exception, the `@app.exception`
decorator is used. The decorator expects a list of exceptions to handle as
arguments. You can pass `SanicException` to catch them all! The decorated
exception handler function must take a `Request` and `Exception` object as
arguments.
```python
from sanic.response import text
from sanic.exceptions import NotFound
@app.exception(NotFound)
async def ignore_404s(request, exception):
return text("Yep, I totally found the page: {}".format(request.url))
```
## Useful exceptions
Some of the most useful exceptions are presented below:
- `NotFound`: called when a suitable route for the request isn't found.
- `ServerError`: called when something goes wrong inside the server. This
usually occurs if there is an exception raised in user code.
See the `sanic.exceptions` module for the full list of exceptions to throw.

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# Extensions
A list of Sanic extensions created by the community.
- [Sanic-Plugins-Framework](https://github.com/ashleysommer/sanicpluginsframework): Library for easily creating and using Sanic plugins.
- [Sessions](https://github.com/subyraman/sanic_session): Support for sessions.
Allows using redis, memcache or an in memory store.
- [CORS](https://github.com/ashleysommer/sanic-cors): A port of flask-cors.
- [Compress](https://github.com/subyraman/sanic_compress): Allows you to easily gzip Sanic responses. A port of Flask-Compress.
- [Jinja2](https://github.com/lixxu/sanic-jinja2): Support for Jinja2 template.
- [Sanic JWT](https://github.com/ahopkins/sanic-jwt): Authentication, JWT, and permission scoping for Sanic.
- [OpenAPI/Swagger](https://github.com/channelcat/sanic-openapi): OpenAPI support, plus a Swagger UI.
- [Pagination](https://github.com/lixxu/python-paginate): Simple pagination support.
- [Motor](https://github.com/lixxu/sanic-motor): Simple motor wrapper.
- [Sanic CRUD](https://github.com/Typhon66/sanic_crud): CRUD REST API generation with peewee models.
- [UserAgent](https://github.com/lixxu/sanic-useragent): Add `user_agent` to request
- [Limiter](https://github.com/bohea/sanic-limiter): Rate limiting for sanic.
- [Sanic EnvConfig](https://github.com/jamesstidard/sanic-envconfig): Pull environment variables into your sanic config.
- [Babel](https://github.com/lixxu/sanic-babel): Adds i18n/l10n support to Sanic applications with the help of the
`Babel` library
- [Dispatch](https://github.com/ashleysommer/sanic-dispatcher): A dispatcher inspired by `DispatcherMiddleware` in werkzeug. Can act as a Sanic-to-WSGI adapter.
- [Sanic-OAuth](https://github.com/Sniedes722/Sanic-OAuth): OAuth Library for connecting to & creating your own token providers.
- [sanic-oauth](https://gitlab.com/SirEdvin/sanic-oauth): OAuth Library with many provider and OAuth1/OAuth2 support.
- [Sanic-nginx-docker-example](https://github.com/itielshwartz/sanic-nginx-docker-example): Simple and easy to use example of Sanic behined nginx using docker-compose.
- [sanic-graphql](https://github.com/graphql-python/sanic-graphql): GraphQL integration with Sanic
- [sanic-prometheus](https://github.com/dkruchinin/sanic-prometheus): Prometheus metrics for Sanic
- [Sanic-RestPlus](https://github.com/ashleysommer/sanic-restplus): A port of Flask-RestPlus for Sanic. Full-featured REST API with SwaggerUI generation.
- [sanic-transmute](https://github.com/yunstanford/sanic-transmute): A Sanic extension that generates APIs from python function and classes, and also generates Swagger UI/documentation automatically.
- [pytest-sanic](https://github.com/yunstanford/pytest-sanic): A pytest plugin for Sanic. It helps you to test your code asynchronously.
- [jinja2-sanic](https://github.com/yunstanford/jinja2-sanic): a jinja2 template renderer for Sanic.([Documentation](http://jinja2-sanic.readthedocs.io/en/latest/))
- [GINO](https://github.com/fantix/gino): An asyncio ORM on top of SQLAlchemy core, delivered with a Sanic extension. ([Documentation](https://python-gino.readthedocs.io/))
- [Sanic-Auth](https://github.com/pyx/sanic-auth): A minimal backend agnostic session-based user authentication mechanism for Sanic.
- [Sanic-CookieSession](https://github.com/pyx/sanic-cookiesession): A client-side only, cookie-based session, similar to the built-in session in Flask.
- [Sanic-WTF](https://github.com/pyx/sanic-wtf): Sanic-WTF makes using WTForms with Sanic and CSRF (Cross-Site Request Forgery) protection a little bit easier.

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# Getting Started
Make sure you have both [pip](https://pip.pypa.io/en/stable/installing/) and at
least version 3.5 of Python before starting. Sanic uses the new `async`/`await`
syntax, so earlier versions of python won't work.
1. Install Sanic: `python3 -m pip install sanic`
2. Create a file called `main.py` with the following code:
```python
from sanic import Sanic
from sanic.response import json
app = Sanic()
@app.route("/")
async def test(request):
return json({"hello": "world"})
if __name__ == "__main__":
app.run(host="0.0.0.0", port=8000)
```
3. Run the server: `python3 main.py`
4. Open the address `http://0.0.0.0:8000` in your web browser. You should see
the message *Hello world!*.
You now have a working Sanic server!

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Sanic
=================================
Sanic is a Flask-like Python 3.5+ web server that's written to go fast. It's based on the work done by the amazing folks at magicstack, and was inspired by `this article <https://magic.io/blog/uvloop-blazing-fast-python-networking/>`_.
On top of being Flask-like, Sanic supports async request handlers. This means you can use the new shiny async/await syntax from Python 3.5, making your code non-blocking and speedy.
Sanic is developed `on GitHub <https://github.com/channelcat/sanic/>`_. Contributions are welcome!
Sanic aspires to be simple
---------------------------
.. code:: python
from sanic import Sanic
from sanic.response import json
app = Sanic()
@app.route("/")
async def test(request):
return json({"hello": "world"})
if __name__ == "__main__":
app.run(host="0.0.0.0", port=8000)

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# Logging
Sanic allows you to do different types of logging (access log, error log) on the requests based on the [python3 logging API](https://docs.python.org/3/howto/logging.html). You should have some basic knowledge on python3 logging if you want to create a new configuration.
### Quick Start
A simple example using default settings would be like this:
```python
from sanic import Sanic
app = Sanic('test')
@app.route('/')
async def test(request):
return response.text('Hello World!')
if __name__ == "__main__":
app.run(debug=True, access_log=True)
```
To use your own logging config, simply use `logging.config.dictConfig`, or
pass `log_config` when you initialize `Sanic` app:
```python
app = Sanic('test', log_config=LOGGING_CONFIG)
```
And to close logging, simply assign access_log=False:
```python
if __name__ == "__main__":
app.run(access_log=False)
```
This would skip calling logging functions when handling requests.
And you could even do further in production to gain extra speed:
```python
if __name__ == "__main__":
# disable debug messages
app.run(debug=False, access_log=False)
```
### Configuration
By default, log_config parameter is set to use sanic.log.LOGGING_CONFIG_DEFAULTS dictionary for configuration.
There are three `loggers` used in sanic, and **must be defined if you want to create your own logging configuration**:
- root:<br>
Used to log internal messages.
- sanic.error:<br>
Used to log error logs.
- sanic.access:<br>
Used to log access logs.
#### Log format:
In addition to default parameters provided by python (asctime, levelname, message),
Sanic provides additional parameters for access logger with:
- host (str)<br>
request.ip
- request (str)<br>
request.method + " " + request.url
- status (int)<br>
response.status
- byte (int)<br>
len(response.body)
The default access log format is
```python
%(asctime)s - (%(name)s)[%(levelname)s][%(host)s]: %(request)s %(message)s %(status)d %(byte)d
```

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# Middleware And Listeners
Middleware are functions which are executed before or after requests to the
server. They can be used to modify the *request to* or *response from*
user-defined handler functions.
Additionally, Sanic provides listeners which allow you to run code at various points of your application's lifecycle.
## Middleware
There are two types of middleware: request and response. Both are declared
using the `@app.middleware` decorator, with the decorator's parameter being a
string representing its type: `'request'` or `'response'`.
* Request middleware receives only the `request` as argument.
* Response middleware receives both the `request` and `response`.
The simplest middleware doesn't modify the request or response at all:
```python
@app.middleware('request')
async def print_on_request(request):
print("I print when a request is received by the server")
@app.middleware('response')
async def print_on_response(request, response):
print("I print when a response is returned by the server")
```
## Modifying the request or response
Middleware can modify the request or response parameter it is given, *as long
as it does not return it*. The following example shows a practical use-case for
this.
```python
app = Sanic(__name__)
@app.middleware('response')
async def custom_banner(request, response):
response.headers["Server"] = "Fake-Server"
@app.middleware('response')
async def prevent_xss(request, response):
response.headers["x-xss-protection"] = "1; mode=block"
app.run(host="0.0.0.0", port=8000)
```
The above code will apply the two middleware in order. First, the middleware
**custom_banner** will change the HTTP response header *Server* to
*Fake-Server*, and the second middleware **prevent_xss** will add the HTTP
header for preventing Cross-Site-Scripting (XSS) attacks. These two functions
are invoked *after* a user function returns a response.
## Responding early
If middleware returns a `HTTPResponse` object, the request will stop processing
and the response will be returned. If this occurs to a request before the
relevant user route handler is reached, the handler will never be called.
Returning a response will also prevent any further middleware from running.
```python
@app.middleware('request')
async def halt_request(request):
return text('I halted the request')
@app.middleware('response')
async def halt_response(request, response):
return text('I halted the response')
```
## Listeners
If you want to execute startup/teardown code as your server starts or closes, you can use the following listeners:
- `before_server_start`
- `after_server_start`
- `before_server_stop`
- `after_server_stop`
These listeners are implemented as decorators on functions which accept the app object as well as the asyncio loop.
For example:
```python
@app.listener('before_server_start')
async def setup_db(app, loop):
app.db = await db_setup()
@app.listener('after_server_start')
async def notify_server_started(app, loop):
print('Server successfully started!')
@app.listener('before_server_stop')
async def notify_server_stopping(app, loop):
print('Server shutting down!')
@app.listener('after_server_stop')
async def close_db(app, loop):
await app.db.close()
```
It's also possible to register a listener using the `register_listener` method.
This may be useful if you define your listeners in another module besides
the one you instantiate your app in.
```python
app = Sanic()
async def setup_db(app, loop):
app.db = await db_setup()
app.register_listener(setup_db, 'before_server_start')
```
If you want to schedule a background task to run after the loop has started,
Sanic provides the `add_task` method to easily do so.
```python
async def notify_server_started_after_five_seconds():
await asyncio.sleep(5)
print('Server successfully started!')
app.add_task(notify_server_started_after_five_seconds())
```
Sanic will attempt to automatically inject the app, passing it as an argument to the task:
```python
async def notify_server_started_after_five_seconds(app):
await asyncio.sleep(5)
print(app.name)
app.add_task(notify_server_started_after_five_seconds)
```
Or you can pass the app explicitly for the same effect:
```python
async def notify_server_started_after_five_seconds(app):
await asyncio.sleep(5)
print(app.name)
app.add_task(notify_server_started_after_five_seconds(app))
`

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# Request Data
When an endpoint receives a HTTP request, the route function is passed a
`Request` object.
The following variables are accessible as properties on `Request` objects:
- `json` (any) - JSON body
```python
from sanic.response import json
@app.route("/json")
def post_json(request):
return json({ "received": True, "message": request.json })
```
- `args` (dict) - Query string variables. A query string is the section of a
URL that resembles `?key1=value1&key2=value2`. If that URL were to be parsed,
the `args` dictionary would look like `{'key1': ['value1'], 'key2': ['value2']}`.
The request's `query_string` variable holds the unparsed string value.
```python
from sanic.response import json
@app.route("/query_string")
def query_string(request):
return json({ "parsed": True, "args": request.args, "url": request.url, "query_string": request.query_string })
```
- `raw_args` (dict) - On many cases you would need to access the url arguments in
a less packed dictionary. For same previous URL `?key1=value1&key2=value2`, the
`raw_args` dictionary would look like `{'key1': 'value1', 'key2': 'value2'}`.
- `files` (dictionary of `File` objects) - List of files that have a name, body, and type
```python
from sanic.response import json
@app.route("/files")
def post_json(request):
test_file = request.files.get('test')
file_parameters = {
'body': test_file.body,
'name': test_file.name,
'type': test_file.type,
}
return json({ "received": True, "file_names": request.files.keys(), "test_file_parameters": file_parameters })
```
- `form` (dict) - Posted form variables.
```python
from sanic.response import json
@app.route("/form")
def post_json(request):
return json({ "received": True, "form_data": request.form, "test": request.form.get('test') })
```
- `body` (bytes) - Posted raw body. This property allows retrieval of the
request's raw data, regardless of content type.
```python
from sanic.response import text
@app.route("/users", methods=["POST",])
def create_user(request):
return text("You are trying to create a user with the following POST: %s" % request.body)
```
- `headers` (dict) - A case-insensitive dictionary that contains the request headers.
- `method` (str) - HTTP method of the request (ie `GET`, `POST`).
- `ip` (str) - IP address of the requester.
- `port` (str) - Port address of the requester.
- `socket` (tuple) - (IP, port) of the requester.
- `app` - a reference to the Sanic application object that is handling this request. This is useful when inside blueprints or other handlers in modules that do not have access to the global `app` object.
```python
from sanic.response import json
from sanic import Blueprint
bp = Blueprint('my_blueprint')
@bp.route('/')
async def bp_root(request):
if request.app.config['DEBUG']:
return json({'status': 'debug'})
else:
return json({'status': 'production'})
```
- `url`: The full URL of the request, ie: `http://localhost:8000/posts/1/?foo=bar`
- `scheme`: The URL scheme associated with the request: `http` or `https`
- `host`: The host associated with the request: `localhost:8080`
- `path`: The path of the request: `/posts/1/`
- `query_string`: The query string of the request: `foo=bar` or a blank string `''`
- `uri_template`: Template for matching route handler: `/posts/<id>/`
- `token`: The value of Authorization header: `Basic YWRtaW46YWRtaW4=`
## Accessing values using `get` and `getlist`
The request properties which return a dictionary actually return a subclass of
`dict` called `RequestParameters`. The key difference when using this object is
the distinction between the `get` and `getlist` methods.
- `get(key, default=None)` operates as normal, except that when the value of
the given key is a list, *only the first item is returned*.
- `getlist(key, default=None)` operates as normal, *returning the entire list*.
```python
from sanic.request import RequestParameters
args = RequestParameters()
args['titles'] = ['Post 1', 'Post 2']
args.get('titles') # => 'Post 1'
args.getlist('titles') # => ['Post 1', 'Post 2']
```

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# Response
Use functions in `sanic.response` module to create responses.
## Plain Text
```python
from sanic import response
@app.route('/text')
def handle_request(request):
return response.text('Hello world!')
```
## HTML
```python
from sanic import response
@app.route('/html')
def handle_request(request):
return response.html('<p>Hello world!</p>')
```
## JSON
```python
from sanic import response
@app.route('/json')
def handle_request(request):
return response.json({'message': 'Hello world!'})
```
## File
```python
from sanic import response
@app.route('/file')
async def handle_request(request):
return await response.file('/srv/www/whatever.png')
```
## Streaming
```python
from sanic import response
@app.route("/streaming")
async def index(request):
async def streaming_fn(response):
response.write('foo')
response.write('bar')
return response.stream(streaming_fn, content_type='text/plain')
```
## File Streaming
For large files, a combination of File and Streaming above
```python
from sanic import response
@app.route('/big_file.png')
async def handle_request(request):
return await response.file_stream('/srv/www/whatever.png')
```
## Redirect
```python
from sanic import response
@app.route('/redirect')
def handle_request(request):
return response.redirect('/json')
```
## Raw
Response without encoding the body
```python
from sanic import response
@app.route('/raw')
def handle_request(request):
return response.raw(b'raw data')
```
## Modify headers or status
To modify headers or status code, pass the `headers` or `status` argument to those functions:
```python
from sanic import response
@app.route('/json')
def handle_request(request):
return response.json(
{'message': 'Hello world!'},
headers={'X-Served-By': 'sanic'},
status=200
)
```

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# Routing
Routing allows the user to specify handler functions for different URL endpoints.
A basic route looks like the following, where `app` is an instance of the
`Sanic` class:
```python
from sanic.response import json
@app.route("/")
async def test(request):
return json({ "hello": "world" })
```
When the url `http://server.url/` is accessed (the base url of the server), the
final `/` is matched by the router to the handler function, `test`, which then
returns a JSON object.
Sanic handler functions must be defined using the `async def` syntax, as they
are asynchronous functions.
## Request parameters
Sanic comes with a basic router that supports request parameters.
To specify a parameter, surround it with angle quotes like so: `<PARAM>`.
Request parameters will be passed to the route handler functions as keyword
arguments.
```python
from sanic.response import text
@app.route('/tag/<tag>')
async def tag_handler(request, tag):
return text('Tag - {}'.format(tag))
```
To specify a type for the parameter, add a `:type` after the parameter name,
inside the quotes. If the parameter does not match the specified type, Sanic
will throw a `NotFound` exception, resulting in a `404: Page not found` error
on the URL.
```python
from sanic.response import text
@app.route('/number/<integer_arg:int>')
async def integer_handler(request, integer_arg):
return text('Integer - {}'.format(integer_arg))
@app.route('/number/<number_arg:number>')
async def number_handler(request, number_arg):
return text('Number - {}'.format(number_arg))
@app.route('/person/<name:[A-z]+>')
async def person_handler(request, name):
return text('Person - {}'.format(name))
@app.route('/folder/<folder_id:[A-z0-9]{0,4}>')
async def folder_handler(request, folder_id):
return text('Folder - {}'.format(folder_id))
```
## HTTP request types
By default, a route defined on a URL will be available for only GET requests to that URL.
However, the `@app.route` decorator accepts an optional parameter, `methods`,
which allows the handler function to work with any of the HTTP methods in the list.
```python
from sanic.response import text
@app.route('/post', methods=['POST'])
async def post_handler(request):
return text('POST request - {}'.format(request.json))
@app.route('/get', methods=['GET'])
async def get_handler(request):
return text('GET request - {}'.format(request.args))
```
There is also an optional `host` argument (which can be a list or a string). This restricts a route to the host or hosts provided. If there is a also a route with no host, it will be the default.
```python
@app.route('/get', methods=['GET'], host='example.com')
async def get_handler(request):
return text('GET request - {}'.format(request.args))
# if the host header doesn't match example.com, this route will be used
@app.route('/get', methods=['GET'])
async def get_handler(request):
return text('GET request in default - {}'.format(request.args))
```
There are also shorthand method decorators:
```python
from sanic.response import text
@app.post('/post')
async def post_handler(request):
return text('POST request - {}'.format(request.json))
@app.get('/get')
async def get_handler(request):
return text('GET request - {}'.format(request.args))
```
## The `add_route` method
As we have seen, routes are often specified using the `@app.route` decorator.
However, this decorator is really just a wrapper for the `app.add_route`
method, which is used as follows:
```python
from sanic.response import text
# Define the handler functions
async def handler1(request):
return text('OK')
async def handler2(request, name):
return text('Folder - {}'.format(name))
async def person_handler2(request, name):
return text('Person - {}'.format(name))
# Add each handler function as a route
app.add_route(handler1, '/test')
app.add_route(handler2, '/folder/<name>')
app.add_route(person_handler2, '/person/<name:[A-z]>', methods=['GET'])
```
## URL building with `url_for`
Sanic provides a `url_for` method, to generate URLs based on the handler method name. This is useful if you want to avoid hardcoding url paths into your app; instead, you can just reference the handler name. For example:
```python
from sanic.response import redirect
@app.route('/')
async def index(request):
# generate a URL for the endpoint `post_handler`
url = app.url_for('post_handler', post_id=5)
# the URL is `/posts/5`, redirect to it
return redirect(url)
@app.route('/posts/<post_id>')
async def post_handler(request, post_id):
return text('Post - {}'.format(post_id))
```
Other things to keep in mind when using `url_for`:
- Keyword arguments passed to `url_for` that are not request parameters will be included in the URL's query string. For example:
```python
url = app.url_for('post_handler', post_id=5, arg_one='one', arg_two='two')
# /posts/5?arg_one=one&arg_two=two
```
- Multivalue argument can be passed to `url_for`. For example:
```python
url = app.url_for('post_handler', post_id=5, arg_one=['one', 'two'])
# /posts/5?arg_one=one&arg_one=two
```
- Also some special arguments (`_anchor`, `_external`, `_scheme`, `_method`, `_server`) passed to `url_for` will have special url building (`_method` is not support now and will be ignored). For example:
```python
url = app.url_for('post_handler', post_id=5, arg_one='one', _anchor='anchor')
# /posts/5?arg_one=one#anchor
url = app.url_for('post_handler', post_id=5, arg_one='one', _external=True)
# //server/posts/5?arg_one=one
# _external requires passed argument _server or SERVER_NAME in app.config or url will be same as no _external
url = app.url_for('post_handler', post_id=5, arg_one='one', _scheme='http', _external=True)
# http://server/posts/5?arg_one=one
# when specifying _scheme, _external must be True
# you can pass all special arguments one time
url = app.url_for('post_handler', post_id=5, arg_one=['one', 'two'], arg_two=2, _anchor='anchor', _scheme='http', _external=True, _server='another_server:8888')
# http://another_server:8888/posts/5?arg_one=one&arg_one=two&arg_two=2#anchor
```
- All valid parameters must be passed to `url_for` to build a URL. If a parameter is not supplied, or if a parameter does not match the specified type, a `URLBuildError` will be thrown.
## WebSocket routes
Routes for the WebSocket protocol can be defined with the `@app.websocket`
decorator:
```python
@app.websocket('/feed')
async def feed(request, ws):
while True:
data = 'hello!'
print('Sending: ' + data)
await ws.send(data)
data = await ws.recv()
print('Received: ' + data)
```
Alternatively, the `app.add_websocket_route` method can be used instead of the
decorator:
```python
async def feed(request, ws):
pass
app.add_websocket_route(my_websocket_handler, '/feed')
```
Handlers for a WebSocket route are passed the request as first argument, and a
WebSocket protocol object as second argument. The protocol object has `send`
and `recv` methods to send and receive data respectively.
WebSocket support requires the [websockets](https://github.com/aaugustin/websockets)
package by Aymeric Augustin.
## About `strict_slashes`
You can make `routes` strict to trailing slash or not, it's configurable.
```python
# provide default strict_slashes value for all routes
app = Sanic('test_route_strict_slash', strict_slashes=True)
# you can also overwrite strict_slashes value for specific route
@app.get('/get', strict_slashes=False)
def handler(request):
return text('OK')
# It also works for blueprints
bp = Blueprint('test_bp_strict_slash', strict_slashes=True)
@bp.get('/bp/get', strict_slashes=False)
def handler(request):
return text('OK')
app.blueprint(bp)
```
## User defined route name
You can pass `name` to change the route name to avoid using the default name (`handler.__name__`).
```python
app = Sanic('test_named_route')
@app.get('/get', name='get_handler')
def handler(request):
return text('OK')
# then you need use `app.url_for('get_handler')`
# instead of # `app.url_for('handler')`
# It also works for blueprints
bp = Blueprint('test_named_bp')
@bp.get('/bp/get', name='get_handler')
def handler(request):
return text('OK')
app.blueprint(bp)
# then you need use `app.url_for('test_named_bp.get_handler')`
# instead of `app.url_for('test_named_bp.handler')`
# different names can be used for same url with different methods
@app.get('/test', name='route_test')
def handler(request):
return text('OK')
@app.post('/test', name='route_post')
def handler2(request):
return text('OK POST')
@app.put('/test', name='route_put')
def handler3(request):
return text('OK PUT')
# below url are the same, you can use any of them
# '/test'
app.url_for('route_test')
# app.url_for('route_post')
# app.url_for('route_put')
# for same handler name with different methods
# you need specify the name (it's url_for issue)
@app.get('/get')
def handler(request):
return text('OK')
@app.post('/post', name='post_handler')
def handler(request):
return text('OK')
# then
# app.url_for('handler') == '/get'
# app.url_for('post_handler') == '/post'
```
## Build URL for static files
You can use `url_for` for static file url building now.
If it's for file directly, `filename` can be ignored.
```python
app = Sanic('test_static')
app.static('/static', './static')
app.static('/uploads', './uploads', name='uploads')
app.static('/the_best.png', '/home/ubuntu/test.png', name='best_png')
bp = Blueprint('bp', url_prefix='bp')
bp.static('/static', './static')
bp.static('/uploads', './uploads', name='uploads')
bp.static('/the_best.png', '/home/ubuntu/test.png', name='best_png')
app.blueprint(bp)
# then build the url
app.url_for('static', filename='file.txt') == '/static/file.txt'
app.url_for('static', name='static', filename='file.txt') == '/static/file.txt'
app.url_for('static', name='uploads', filename='file.txt') == '/uploads/file.txt'
app.url_for('static', name='best_png') == '/the_best.png'
# blueprint url building
app.url_for('static', name='bp.static', filename='file.txt') == '/bp/static/file.txt'
app.url_for('static', name='bp.uploads', filename='file.txt') == '/bp/uploads/file.txt'
app.url_for('static', name='bp.best_png') == '/bp/static/the_best.png'
```

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SSL Example
-----------
Optionally pass in an SSLContext:
.. code:: python
import ssl
context = ssl.create_default_context(purpose=ssl.Purpose.CLIENT_AUTH)
context.load_cert_chain("/path/to/cert", keyfile="/path/to/keyfile")
app.run(host="0.0.0.0", port=8443, ssl=context)
You can also pass in the locations of a certificate and key as a dictionary:
.. code:: python
ssl = {'cert': "/path/to/cert", 'key': "/path/to/keyfile"}
app.run(host="0.0.0.0", port=8443, ssl=ssl)

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# Static Files
Static files and directories, such as an image file, are served by Sanic when
registered with the `app.static` method. The method takes an endpoint URL and a
filename. The file specified will then be accessible via the given endpoint.
```python
from sanic import Sanic
from sanic.blueprints import Blueprint
app = Sanic(__name__)
# Serves files from the static folder to the URL /static
app.static('/static', './static')
# use url_for to build the url, name defaults to 'static' and can be ignored
app.url_for('static', filename='file.txt') == '/static/file.txt'
app.url_for('static', name='static', filename='file.txt') == '/static/file.txt'
# Serves the file /home/ubuntu/test.png when the URL /the_best.png
# is requested
app.static('/the_best.png', '/home/ubuntu/test.png', name='best_png')
# you can use url_for to build the static file url
# you can ignore name and filename parameters if you don't define it
app.url_for('static', name='best_png') == '/the_best.png'
app.url_for('static', name='best_png', filename='any') == '/the_best.png'
# you need define the name for other static files
app.static('/another.png', '/home/ubuntu/another.png', name='another')
app.url_for('static', name='another') == '/another.png'
app.url_for('static', name='another', filename='any') == '/another.png'
# also, you can use static for blueprint
bp = Blueprint('bp', url_prefix='/bp')
bp.static('/static', './static')
# servers the file directly
bp.static('/the_best.png', '/home/ubuntu/test.png', name='best_png')
app.blueprint(bp)
app.url_for('static', name='bp.static', filename='file.txt') == '/bp/static/file.txt'
app.url_for('static', name='bp.best_png') == '/bp/test_best.png'
app.run(host="0.0.0.0", port=8000)
```

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# Streaming
## Request Streaming
Sanic allows you to get request data by stream, as below. When the request ends, `request.stream.get()` returns `None`. Only post, put and patch decorator have stream argument.
```python
from sanic import Sanic
from sanic.views import CompositionView
from sanic.views import HTTPMethodView
from sanic.views import stream as stream_decorator
from sanic.blueprints import Blueprint
from sanic.response import stream, text
bp = Blueprint('blueprint_request_stream')
app = Sanic('request_stream')
class SimpleView(HTTPMethodView):
@stream_decorator
async def post(self, request):
result = ''
while True:
body = await request.stream.get()
if body is None:
break
result += body.decode('utf-8')
return text(result)
@app.post('/stream', stream=True)
async def handler(request):
async def streaming(response):
while True:
body = await request.stream.get()
if body is None:
break
body = body.decode('utf-8').replace('1', 'A')
response.write(body)
return stream(streaming)
@bp.put('/bp_stream', stream=True)
async def bp_handler(request):
result = ''
while True:
body = await request.stream.get()
if body is None:
break
result += body.decode('utf-8').replace('1', 'A')
return text(result)
async def post_handler(request):
result = ''
while True:
body = await request.stream.get()
if body is None:
break
result += body.decode('utf-8')
return text(result)
app.blueprint(bp)
app.add_route(SimpleView.as_view(), '/method_view')
view = CompositionView()
view.add(['POST'], post_handler, stream=True)
app.add_route(view, '/composition_view')
if __name__ == '__main__':
app.run(host='127.0.0.1', port=8000)
```
## Response Streaming
Sanic allows you to stream content to the client with the `stream` method. This method accepts a coroutine callback which is passed a `StreamingHTTPResponse` object that is written to. A simple example is like follows:
```python
from sanic import Sanic
from sanic.response import stream
app = Sanic(__name__)
@app.route("/")
async def test(request):
async def sample_streaming_fn(response):
response.write('foo,')
response.write('bar')
return stream(sample_streaming_fn, content_type='text/csv')
```
This is useful in situations where you want to stream content to the client that originates in an external service, like a database. For example, you can stream database records to the client with the asynchronous cursor that `asyncpg` provides:
```python
@app.route("/")
async def index(request):
async def stream_from_db(response):
conn = await asyncpg.connect(database='test')
async with conn.transaction():
async for record in conn.cursor('SELECT generate_series(0, 10)'):
response.write(record[0])
return stream(stream_from_db)
```

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# Testing
Sanic endpoints can be tested locally using the `test_client` object, which
depends on the additional [aiohttp](https://aiohttp.readthedocs.io/en/stable/)
library.
The `test_client` exposes `get`, `post`, `put`, `delete`, `patch`, `head` and `options` methods
for you to run against your application. A simple example (using pytest) is like follows:
```python
# Import the Sanic app, usually created with Sanic(__name__)
from external_server import app
def test_index_returns_200():
request, response = app.test_client.get('/')
assert response.status == 200
def test_index_put_not_allowed():
request, response = app.test_client.put('/')
assert response.status == 405
```
Internally, each time you call one of the `test_client` methods, the Sanic app is run at `127.0.0.1:42101` and
your test request is executed against your application, using `aiohttp`.
The `test_client` methods accept the following arguments and keyword arguments:
- `uri` *(default `'/'`)* A string representing the URI to test.
- `gather_request` *(default `True`)* A boolean which determines whether the
original request will be returned by the function. If set to `True`, the
return value is a tuple of `(request, response)`, if `False` only the
response is returned.
- `server_kwargs` *(default `{}`) a dict of additional arguments to pass into `app.run` before the test request is run.
- `debug` *(default `False`)* A boolean which determines whether to run the server in debug mode.
The function further takes the `*request_args` and `**request_kwargs`, which are passed directly to the aiohttp ClientSession request.
For example, to supply data to a GET request, you would do the following:
```python
def test_get_request_includes_data():
params = {'key1': 'value1', 'key2': 'value2'}
request, response = app.test_client.get('/', params=params)
assert request.args.get('key1') == 'value1'
```
And to supply data to a JSON POST request:
```python
def test_post_json_request_includes_data():
data = {'key1': 'value1', 'key2': 'value2'}
request, response = app.test_client.post('/', data=json.dumps(data))
assert request.json.get('key1') == 'value1'
```
More information about
the available arguments to aiohttp can be found
[in the documentation for ClientSession](https://aiohttp.readthedocs.io/en/stable/client_reference.html#client-session).
## pytest-sanic
[pytest-sanic](https://github.com/yunstanford/pytest-sanic) is a pytest plugin, it helps you to test your code asynchronously.
Just write tests like,
```python
async def test_sanic_db_find_by_id(app):
"""
Let's assume that, in db we have,
{
"id": "123",
"name": "Kobe Bryant",
"team": "Lakers",
}
"""
doc = await app.db["players"].find_by_id("123")
assert doc.name == "Kobe Bryant"
assert doc.team == "Lakers"
```
[pytest-sanic](https://github.com/yunstanford/pytest-sanic) also provides some useful fixtures, like loop, unused_port,
test_server, test_client.
```python
@pytest.yield_fixture
def app():
app = Sanic("test_sanic_app")
@app.route("/test_get", methods=['GET'])
async def test_get(request):
return response.json({"GET": True})
@app.route("/test_post", methods=['POST'])
async def test_post(request):
return response.json({"POST": True})
yield app
@pytest.fixture
def test_cli(loop, app, test_client):
return loop.run_until_complete(test_client(app, protocol=WebSocketProtocol))
#########
# Tests #
#########
async def test_fixture_test_client_get(test_cli):
"""
GET request
"""
resp = await test_cli.get('/test_get')
assert resp.status == 200
resp_json = await resp.json()
assert resp_json == {"GET": True}
async def test_fixture_test_client_post(test_cli):
"""
POST request
"""
resp = await test_cli.post('/test_post')
assert resp.status == 200
resp_json = await resp.json()
assert resp_json == {"POST": True}
```

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# Versioning
You can pass the `version` keyword to the route decorators, or to a blueprint initializer. It will result in the `v{version}` url prefix where `{version}` is the version number.
## Per route
You can pass a version number to the routes directly.
```python
from sanic import response
@app.route('/text', version=1)
def handle_request(request):
return response.text('Hello world! Version 1')
@app.route('/text', version=2)
def handle_request(request):
return response.text('Hello world! Version 2')
app.run(port=80)
```
Then with curl:
```bash
curl localhost/v1/text
curl localhost/v2/text
```
## Global blueprint version
You can also pass a version number to the blueprint, which will apply to all routes.
```python
from sanic import response
from sanic.blueprints import Blueprint
bp = Blueprint('test', version=1)
@bp.route('/html')
def handle_request(request):
return response.html('<p>Hello world!</p>')
```
Then with curl:
```bash
curl localhost/v1/html
```

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WebSocket
=========
Sanic supports websockets, to setup a WebSocket:
.. code:: python
from sanic import Sanic
from sanic.response import json
from sanic.websocket import WebSocketProtocol
app = Sanic()
@app.websocket('/feed')
async def feed(request, ws):
while True:
data = 'hello!'
print('Sending: ' + data)
await ws.send(data)
data = await ws.recv()
print('Received: ' + data)
if __name__ == "__main__":
app.run(host="0.0.0.0", port=8000, protocol=WebSocketProtocol)
Alternatively, the ``app.add_websocket_route`` method can be used instead of the
decorator:
.. code:: python
async def feed(request, ws):
pass
app.add_websocket_route(feed, '/feed')
Handlers for a WebSocket route are passed the request as first argument, and a
WebSocket protocol object as second argument. The protocol object has ``send``
and ``recv`` methods to send and receive data respectively.
You could setup your own WebSocket configuration through ``app.config``, like
.. code:: python
app.config.WEBSOCKET_MAX_SIZE = 2 ** 20
app.config.WEBSOCKET_MAX_QUEUE = 32
app.config.WEBSOCKET_READ_LIMIT = 2 ** 16
app.config.WEBSOCKET_WRITE_LIMIT = 2 ** 16
Find more in ``Configuration`` section.

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name: py35
dependencies:
- openssl=1.0.2g=0
- pip=8.1.1=py35_0
- python=3.5.1=0
- readline=6.2=2
- setuptools=20.3=py35_0
- sqlite=3.9.2=0
- tk=8.5.18=0
- wheel=0.29.0=py35_0
- xz=5.0.5=1
- zlib=1.2.8=0
- pip:
- uvloop>=0.5.3
- httptools>=0.0.9
- ujson>=1.35
- aiofiles>=0.3.0
- websockets>=3.2
- sphinxcontrib-asyncio>=0.2.0
- https://github.com/channelcat/docutils-fork/zipball/master

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@ -0,0 +1,17 @@
# -*- coding: utf-8 -*-
import asyncio
from sanic import Sanic
app = Sanic()
async def notify_server_started_after_five_seconds():
await asyncio.sleep(5)
print('Server successfully started!')
app.add_task(notify_server_started_after_five_seconds())
if __name__ == "__main__":
app.run(host="0.0.0.0", port=8000)

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@ -0,0 +1,42 @@
# -*- coding: utf-8 -*-
from sanic import Sanic
from functools import wraps
from sanic.response import json
app = Sanic()
def check_request_for_authorization_status(request):
# Note: Define your check, for instance cookie, session.
flag = True
return flag
def authorized():
def decorator(f):
@wraps(f)
async def decorated_function(request, *args, **kwargs):
# run some method that checks the request
# for the client's authorization status
is_authorized = check_request_for_authorization_status(request)
if is_authorized:
# the user is authorized.
# run the handler method and return the response
response = await f(request, *args, **kwargs)
return response
else:
# the user is not authorized.
return json({'status': 'not_authorized'}, 403)
return decorated_function
return decorator
@app.route("/")
@authorized()
async def test(request):
return json({'status': 'authorized'})
if __name__ == "__main__":
app.run(host="0.0.0.0", port=8000)

View File

@ -1,11 +1,10 @@
from sanic import Sanic
from sanic import Blueprint
from sanic.response import json, text
from sanic import Blueprint, Sanic
from sanic.response import file, json
app = Sanic(__name__)
blueprint = Blueprint('name', url_prefix='/my_blueprint')
blueprint2 = Blueprint('name', url_prefix='/my_blueprint2')
blueprint2 = Blueprint('name2', url_prefix='/my_blueprint2')
blueprint3 = Blueprint('name3', url_prefix='/my_blueprint3')
@blueprint.route('/foo')
@ -18,7 +17,22 @@ async def foo2(request):
return json({'msg': 'hi from blueprint2'})
app.register_blueprint(blueprint)
app.register_blueprint(blueprint2)
@blueprint3.route('/foo')
async def index(request):
return await file('websocket.html')
@app.websocket('/feed')
async def foo3(request, ws):
while True:
data = 'hello!'
print('Sending: ' + data)
await ws.send(data)
data = await ws.recv()
print('Received: ' + data)
app.blueprint(blueprint)
app.blueprint(blueprint2)
app.blueprint(blueprint3)
app.run(host="0.0.0.0", port=8000, debug=True)

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"""
Example intercepting uncaught exceptions using Sanic's error handler framework.
This may be useful for developers wishing to use Sentry, Airbrake, etc.
or a custom system to log and monitor unexpected errors in production.
First we create our own class inheriting from Handler in sanic.exceptions,
and pass in an instance of it when we create our Sanic instance. Inside this
class' default handler, we can do anything including sending exceptions to
an external service.
"""
from sanic.handlers import ErrorHandler
from sanic.exceptions import SanicException
"""
Imports and code relevant for our CustomHandler class
(Ordinarily this would be in a separate file)
"""
class CustomHandler(ErrorHandler):
def default(self, request, exception):
# Here, we have access to the exception object
# and can do anything with it (log, send to external service, etc)
# Some exceptions are trivial and built into Sanic (404s, etc)
if not isinstance(exception, SanicException):
print(exception)
# Then, we must finish handling the exception by returning
# our response to the client
# For this we can just call the super class' default handler
return super().default(request, exception)
"""
This is an ordinary Sanic server, with the exception that we set the
server's error_handler to an instance of our CustomHandler
"""
from sanic import Sanic
app = Sanic(__name__)
handler = CustomHandler()
app.error_handler = handler
@app.route("/")
async def test(request):
# Here, something occurs which causes an unexpected exception
# This exception will flow to our custom handler.
raise SanicException('You Broke It!')
if __name__ == '__main__':
app.run(host="0.0.0.0", port=8000, debug=True)

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@ -0,0 +1,38 @@
from sanic import Sanic
from sanic.response import json
import asyncio
import aiohttp
app = Sanic(__name__)
sem = None
@app.listener('before_server_start')
def init(sanic, loop):
global sem
concurrency_per_worker = 4
sem = asyncio.Semaphore(concurrency_per_worker, loop=loop)
async def bounded_fetch(session, url):
"""
Use session object to perform 'get' request on url
"""
async with sem, session.get(url) as response:
return await response.json()
@app.route("/")
async def test(request):
"""
Download and serve example JSON
"""
url = "https://api.github.com/repos/channelcat/sanic"
async with aiohttp.ClientSession() as session:
response = await bounded_fetch(session, url)
return json(response)
app.run(host="0.0.0.0", port=8000, workers=2)

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@ -0,0 +1,86 @@
'''
Based on example from https://github.com/Skyscanner/aiotask-context
and `examples/{override_logging,run_async}.py`.
Needs https://github.com/Skyscanner/aiotask-context/tree/52efbc21e2e1def2d52abb9a8e951f3ce5e6f690 or newer
$ pip install git+https://github.com/Skyscanner/aiotask-context.git
'''
import asyncio
import uuid
import logging
from signal import signal, SIGINT
from sanic import Sanic
from sanic import response
import uvloop
import aiotask_context as context
log = logging.getLogger(__name__)
class RequestIdFilter(logging.Filter):
def filter(self, record):
record.request_id = context.get('X-Request-ID')
return True
LOG_SETTINGS = {
'version': 1,
'disable_existing_loggers': False,
'handlers': {
'console': {
'class': 'logging.StreamHandler',
'level': 'DEBUG',
'formatter': 'default',
'filters': ['requestid'],
},
},
'filters': {
'requestid': {
'()': RequestIdFilter,
},
},
'formatters': {
'default': {
'format': '%(asctime)s %(levelname)s %(name)s:%(lineno)d %(request_id)s | %(message)s',
},
},
'loggers': {
'': {
'level': 'DEBUG',
'handlers': ['console'],
'propagate': True
},
}
}
app = Sanic(__name__, log_config=LOG_SETTINGS)
@app.middleware('request')
async def set_request_id(request):
request_id = request.headers.get('X-Request-ID') or str(uuid.uuid4())
context.set("X-Request-ID", request_id)
@app.route("/")
async def test(request):
log.debug('X-Request-ID: %s', context.get('X-Request-ID'))
log.info('Hello from test!')
return response.json({"test": True})
if __name__ == '__main__':
asyncio.set_event_loop(uvloop.new_event_loop())
server = app.create_server(host="0.0.0.0", port=8000)
loop = asyncio.get_event_loop()
loop.set_task_factory(context.task_factory)
task = asyncio.ensure_future(server)
try:
loop.run_forever()
except:
loop.stop()

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@ -0,0 +1,28 @@
"""
Modify header or status in response
"""
from sanic import Sanic
from sanic import response
app = Sanic(__name__)
@app.route('/')
def handle_request(request):
return response.json(
{'message': 'Hello world!'},
headers={'X-Served-By': 'sanic'},
status=200
)
@app.route('/unauthorized')
def handle_request(request):
return response.json(
{'message': 'You are not authorized'},
headers={'X-Served-By': 'sanic'},
status=404
)
app.run(host="0.0.0.0", port=8000, debug=True)

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@ -0,0 +1,24 @@
from sanic import Sanic
from sanic import response
import logging
logging_format = "[%(asctime)s] %(process)d-%(levelname)s "
logging_format += "%(module)s::%(funcName)s():l%(lineno)d: "
logging_format += "%(message)s"
logging.basicConfig(
format=logging_format,
level=logging.DEBUG
)
log = logging.getLogger()
# Set logger to override default basicConfig
sanic = Sanic()
@sanic.route("/")
def test(request):
log.info("received request; responding with 'hey'")
return response.text("hey")
sanic.run(host="0.0.0.0", port=8000)

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examples/pytest_xdist.py Normal file
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@ -0,0 +1,49 @@
"""pytest-xdist example for sanic server
Install testing tools:
$ pip install pytest pytest-xdist
Run with xdist params:
$ pytest examples/pytest_xdist.py -n 8 # 8 workers
"""
import re
from sanic import Sanic
from sanic.response import text
from sanic.testing import PORT as PORT_BASE, SanicTestClient
import pytest
@pytest.fixture(scope="session")
def test_port(worker_id):
m = re.search(r'[0-9]+', worker_id)
if m:
num_id = m.group(0)
else:
num_id = 0
port = PORT_BASE + int(num_id)
return port
@pytest.fixture(scope="session")
def app():
app = Sanic()
@app.route('/')
async def index(request):
return text('OK')
return app
@pytest.fixture(scope="session")
def client(app, test_port):
return SanicTestClient(app, test_port)
@pytest.mark.parametrize('run_id', range(100))
def test_index(client, run_id):
request, response = client._sanic_endpoint_test('get', '/')
assert response.status == 200
assert response.text == 'OK'

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@ -0,0 +1,18 @@
from sanic import Sanic
from sanic import response
app = Sanic(__name__)
@app.route('/')
def handle_request(request):
return response.redirect('/redirect')
@app.route('/redirect')
async def test(request):
return response.json({"Redirected": True})
if __name__ == '__main__':
app.run(host="0.0.0.0", port=8000)

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@ -0,0 +1,10 @@
import requests
# Warning: This is a heavy process.
data = ""
for i in range(1, 250000):
data += str(i)
r = requests.post('http://0.0.0.0:8000/stream', data=data)
print(r.text)

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@ -0,0 +1,65 @@
from sanic import Sanic
from sanic.views import CompositionView
from sanic.views import HTTPMethodView
from sanic.views import stream as stream_decorator
from sanic.blueprints import Blueprint
from sanic.response import stream, text
bp = Blueprint('blueprint_request_stream')
app = Sanic('request_stream')
class SimpleView(HTTPMethodView):
@stream_decorator
async def post(self, request):
result = ''
while True:
body = await request.stream.get()
if body is None:
break
result += body.decode('utf-8')
return text(result)
@app.post('/stream', stream=True)
async def handler(request):
async def streaming(response):
while True:
body = await request.stream.get()
if body is None:
break
body = body.decode('utf-8').replace('1', 'A')
response.write(body)
return stream(streaming)
@bp.put('/bp_stream', stream=True)
async def bp_handler(request):
result = ''
while True:
body = await request.stream.get()
if body is None:
break
result += body.decode('utf-8').replace('1', 'A')
return text(result)
async def post_handler(request):
result = ''
while True:
body = await request.stream.get()
if body is None:
break
result += body.decode('utf-8')
return text(result)
app.blueprint(bp)
app.add_route(SimpleView.as_view(), '/method_view')
view = CompositionView()
view.add(['POST'], post_handler, stream=True)
app.add_route(view, '/composition_view')
if __name__ == '__main__':
app.run(host='0.0.0.0', port=8000)

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@ -0,0 +1,21 @@
import asyncio
from sanic import Sanic
from sanic import response
from sanic.config import Config
from sanic.exceptions import RequestTimeout
Config.REQUEST_TIMEOUT = 1
app = Sanic(__name__)
@app.route('/')
async def test(request):
await asyncio.sleep(3)
return response.text('Hello, world!')
@app.exception(RequestTimeout)
def timeout(request, exception):
return response.text('RequestTimeout from error_handler.', 408)
app.run(host='0.0.0.0', port=8000)

22
examples/run_async.py Normal file
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@ -0,0 +1,22 @@
from sanic import Sanic
from sanic import response
from signal import signal, SIGINT
import asyncio
import uvloop
app = Sanic(__name__)
@app.route("/")
async def test(request):
return response.json({"answer": "42"})
asyncio.set_event_loop(uvloop.new_event_loop())
server = app.create_server(host="0.0.0.0", port=8000)
loop = asyncio.get_event_loop()
task = asyncio.ensure_future(server)
signal(SIGINT, lambda s, f: loop.stop())
try:
loop.run_forever()
except:
loop.stop()

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@ -0,0 +1,42 @@
from sanic import Sanic
from sanic.views import HTTPMethodView
from sanic.response import text
app = Sanic('some_name')
class SimpleView(HTTPMethodView):
def get(self, request):
return text('I am get method')
def post(self, request):
return text('I am post method')
def put(self, request):
return text('I am put method')
def patch(self, request):
return text('I am patch method')
def delete(self, request):
return text('I am delete method')
class SimpleAsyncView(HTTPMethodView):
async def get(self, request):
return text('I am async get method')
async def post(self, request):
return text('I am async post method')
async def put(self, request):
return text('I am async put method')
app.add_route(SimpleView.as_view(), '/')
app.add_route(SimpleAsyncView.as_view(), '/async')
if __name__ == '__main__':
app.run(host="0.0.0.0", port=8000, debug=True)

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@ -1,12 +1,13 @@
from sanic import Sanic
from sanic.response import json
from sanic import response
app = Sanic(__name__)
@app.route("/")
async def test(request):
return json({"test": True})
return response.json({"test": True})
app.run(host="0.0.0.0", port=8000)
if __name__ == '__main__':
app.run(host="0.0.0.0", port=8000)

13
examples/teapot.py Normal file
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@ -0,0 +1,13 @@
from sanic import Sanic
from sanic import response as res
app = Sanic(__name__)
@app.route("/")
async def test(req):
return res.text("I\'m a teapot", status=418)
if __name__ == '__main__':
app.run(host="0.0.0.0", port=8000)

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@ -1,6 +1,8 @@
import os
from sanic import Sanic
from sanic.log import log
from sanic.response import json, text
from sanic.log import logger as log
from sanic import response
from sanic.exceptions import ServerError
app = Sanic(__name__)
@ -8,37 +10,50 @@ app = Sanic(__name__)
@app.route("/")
async def test_async(request):
return json({"test": True})
return response.json({"test": True})
@app.route("/sync", methods=['GET', 'POST'])
def test_sync(request):
return json({"test": True})
return response.json({"test": True})
@app.route("/dynamic/<name>/<id:int>")
def test_params(request, name, id):
return text("yeehaww {} {}".format(name, id))
@app.route("/dynamic/<name>/<i:int>")
def test_params(request, name, i):
return response.text("yeehaww {} {}".format(name, i))
@app.route("/exception")
def exception(request):
raise ServerError("It's dead jim")
@app.route("/await")
async def test_await(request):
import asyncio
await asyncio.sleep(5)
return text("I'm feeling sleepy")
return response.text("I'm feeling sleepy")
@app.route("/file")
async def test_file(request):
return await response.file(os.path.abspath("setup.py"))
@app.route("/file_stream")
async def test_file_stream(request):
return await response.file_stream(os.path.abspath("setup.py"),
chunk_size=1024)
# ----------------------------------------------- #
# Exceptions
# ----------------------------------------------- #
@app.exception(ServerError)
async def test(request, exception):
return json({"exception": "{}".format(exception), "status": exception.status_code}, status=exception.status_code)
return response.json({"exception": "{}".format(exception), "status": exception.status_code},
status=exception.status_code)
# ----------------------------------------------- #
@ -47,29 +62,43 @@ async def test(request, exception):
@app.route("/json")
def post_json(request):
return json({"received": True, "message": request.json})
return response.json({"received": True, "message": request.json})
@app.route("/form")
def post_json(request):
return json({"received": True, "form_data": request.form, "test": request.form.get('test')})
def post_form_json(request):
return response.json({"received": True, "form_data": request.form, "test": request.form.get('test')})
@app.route("/query_string")
def query_string(request):
return json({"parsed": True, "args": request.args, "url": request.url, "query_string": request.query_string})
return response.json({"parsed": True, "args": request.args, "url": request.url,
"query_string": request.query_string})
# ----------------------------------------------- #
# Run Server
# ----------------------------------------------- #
def after_start(loop):
@app.listener('before_server_start')
def before_start(app, loop):
log.info("SERVER STARTING")
@app.listener('after_server_start')
def after_start(app, loop):
log.info("OH OH OH OH OHHHHHHHH")
def before_stop(loop):
@app.listener('before_server_stop')
def before_stop(app, loop):
log.info("SERVER STOPPING")
@app.listener('after_server_stop')
def after_stop(app, loop):
log.info("TRIED EVERYTHING")
app.run(host="0.0.0.0", port=8000, debug=True, after_start=after_start, before_stop=before_stop)
if __name__ == '__main__':
app.run(host="0.0.0.0", port=8000, debug=True)

23
examples/unix_socket.py Normal file
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@ -0,0 +1,23 @@
from sanic import Sanic
from sanic import response
import socket
import os
app = Sanic(__name__)
@app.route("/test")
async def test(request):
return response.text("OK")
if __name__ == '__main__':
server_address = './uds_socket'
# Make sure the socket does not already exist
try:
os.unlink(server_address)
except OSError:
if os.path.exists(server_address):
raise
sock = socket.socket(socket.AF_UNIX, socket.SOCK_STREAM)
sock.bind(server_address)
app.run(sock=sock)

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@ -0,0 +1,20 @@
from sanic import Sanic
from sanic import response
app = Sanic(__name__)
@app.route('/')
async def index(request):
# generate a URL for the endpoint `post_handler`
url = app.url_for('post_handler', post_id=5)
# the URL is `/posts/5`, redirect to it
return response.redirect(url)
@app.route('/posts/<post_id>')
async def post_handler(request, post_id):
return response.text('Post - {}'.format(post_id))
if __name__ == '__main__':
app.run(host="0.0.0.0", port=8000, debug=True)

39
examples/vhosts.py Normal file
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@ -0,0 +1,39 @@
from sanic import response
from sanic import Sanic
from sanic.blueprints import Blueprint
# Usage
# curl -H "Host: example.com" localhost:8000
# curl -H "Host: sub.example.com" localhost:8000
# curl -H "Host: bp.example.com" localhost:8000/question
# curl -H "Host: bp.example.com" localhost:8000/answer
app = Sanic()
bp = Blueprint("bp", host="bp.example.com")
@app.route('/', host=["example.com",
"somethingelse.com",
"therestofyourdomains.com"])
async def hello(request):
return response.text("Some defaults")
@app.route('/', host="sub.example.com")
async def hello(request):
return response.text("42")
@bp.route("/question")
async def hello(request):
return response.text("What is the meaning of life?")
@bp.route("/answer")
async def hello(request):
return response.text("42")
app.blueprint(bp)
if __name__ == '__main__':
app.run(host="0.0.0.0", port=8000)

29
examples/websocket.html Normal file
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@ -0,0 +1,29 @@
<!DOCTYPE html>
<html>
<head>
<title>WebSocket demo</title>
</head>
<body>
<script>
var ws = new WebSocket('ws://' + document.domain + ':' + location.port + '/feed'),
messages = document.createElement('ul');
ws.onmessage = function (event) {
var messages = document.getElementsByTagName('ul')[0],
message = document.createElement('li'),
content = document.createTextNode('Received: ' + event.data);
message.appendChild(content);
messages.appendChild(message);
};
document.body.appendChild(messages);
window.setInterval(function() {
data = 'bye!'
ws.send(data);
var messages = document.getElementsByTagName('ul')[0],
message = document.createElement('li'),
content = document.createTextNode('Sent: ' + data);
message.appendChild(content);
messages.appendChild(message);
}, 1000);
</script>
</body>
</html>

24
examples/websocket.py Normal file
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@ -0,0 +1,24 @@
from sanic import Sanic
from sanic.response import file
app = Sanic(__name__)
@app.route('/')
async def index(request):
return await file('websocket.html')
@app.websocket('/feed')
async def feed(request, ws):
while True:
data = 'hello!'
print('Sending: ' + data)
await ws.send(data)
data = await ws.recv()
print('Received: ' + data)
if __name__ == '__main__':
app.run(host="0.0.0.0", port=8000, debug=True)

2
readthedocs.yml Normal file
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@ -0,0 +1,2 @@
conda:
file: environment.yml

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@ -1,10 +1,13 @@
httptools
ujson
uvloop
aiohttp
pytest
aiofiles
aiohttp>=2.3.0
chardet<=2.3.0
beautifulsoup4
coverage
httptools
flake8
pytest==3.3.2
tox
ujson; sys_platform != "win32" and implementation_name == "cpython"
uvloop; sys_platform != "win32" and implementation_name == "cpython"
gunicorn
bottle
kyoukai
multidict>=4.0,<5.0

4
requirements-docs.txt Normal file
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@ -0,0 +1,4 @@
sphinx
sphinx_rtd_theme
recommonmark
sphinxcontrib-asyncio

View File

@ -1,3 +1,6 @@
aiofiles
httptools
ujson
uvloop
ujson; sys_platform != "win32" and implementation_name == "cpython"
uvloop; sys_platform != "win32" and implementation_name == "cpython"
websockets>=5.0,<6.0
multidict>=4.0,<5.0

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@ -1,4 +1,6 @@
from .sanic import Sanic
from .blueprints import Blueprint
from sanic.app import Sanic
from sanic.blueprints import Blueprint
__version__ = '0.7.0'
__all__ = ['Sanic', 'Blueprint']

44
sanic/__main__.py Normal file
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@ -0,0 +1,44 @@
from argparse import ArgumentParser
from importlib import import_module
from sanic.log import logger
from sanic.app import Sanic
if __name__ == "__main__":
parser = ArgumentParser(prog='sanic')
parser.add_argument('--host', dest='host', type=str, default='127.0.0.1')
parser.add_argument('--port', dest='port', type=int, default=8000)
parser.add_argument('--cert', dest='cert', type=str,
help='location of certificate for SSL')
parser.add_argument('--key', dest='key', type=str,
help='location of keyfile for SSL.')
parser.add_argument('--workers', dest='workers', type=int, default=1, )
parser.add_argument('--debug', dest='debug', action="store_true")
parser.add_argument('module')
args = parser.parse_args()
try:
module_parts = args.module.split(".")
module_name = ".".join(module_parts[:-1])
app_name = module_parts[-1]
module = import_module(module_name)
app = getattr(module, app_name, None)
if not isinstance(app, Sanic):
raise ValueError("Module is not a Sanic app, it is a {}. "
"Perhaps you meant {}.app?"
.format(type(app).__name__, args.module))
if args.cert is not None or args.key is not None:
ssl = {'cert': args.cert, 'key': args.key}
else:
ssl = None
app.run(host=args.host, port=args.port,
workers=args.workers, debug=args.debug, ssl=ssl)
except ImportError as e:
logger.error("No module named {} found.\n"
" Example File: project/sanic_server.py -> app\n"
" Example Module: project.sanic_server.app"
.format(e.name))
except ValueError as e:
logger.error("{}".format(e))

883
sanic/app.py Normal file
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@ -0,0 +1,883 @@
import os
import logging
import logging.config
import re
import warnings
from asyncio import get_event_loop, ensure_future, CancelledError
from collections import deque, defaultdict
from functools import partial
from inspect import getmodulename, isawaitable, signature, stack
from traceback import format_exc
from urllib.parse import urlencode, urlunparse
from ssl import create_default_context, Purpose
from sanic.config import Config
from sanic.constants import HTTP_METHODS
from sanic.exceptions import ServerError, URLBuildError, SanicException
from sanic.handlers import ErrorHandler
from sanic.log import logger, error_logger, LOGGING_CONFIG_DEFAULTS
from sanic.response import HTTPResponse, StreamingHTTPResponse
from sanic.router import Router
from sanic.server import serve, serve_multiple, HttpProtocol, Signal
from sanic.static import register as static_register
from sanic.testing import SanicTestClient
from sanic.views import CompositionView
from sanic.websocket import WebSocketProtocol, ConnectionClosed
import sanic.reloader_helpers as reloader_helpers
class Sanic:
def __init__(self, name=None, router=None, error_handler=None,
load_env=True, request_class=None,
strict_slashes=False, log_config=None,
configure_logging=True):
# Get name from previous stack frame
if name is None:
frame_records = stack()[1]
name = getmodulename(frame_records[1])
# logging
if configure_logging:
logging.config.dictConfig(log_config or LOGGING_CONFIG_DEFAULTS)
self.name = name
self.router = router or Router()
self.request_class = request_class
self.error_handler = error_handler or ErrorHandler()
self.config = Config(load_env=load_env)
self.request_middleware = deque()
self.response_middleware = deque()
self.blueprints = {}
self._blueprint_order = []
self.configure_logging = configure_logging
self.debug = None
self.sock = None
self.strict_slashes = strict_slashes
self.listeners = defaultdict(list)
self.is_running = False
self.is_request_stream = False
self.websocket_enabled = False
self.websocket_tasks = set()
# Register alternative method names
self.go_fast = self.run
@property
def loop(self):
"""Synonymous with asyncio.get_event_loop().
Only supported when using the `app.run` method.
"""
if not self.is_running:
raise SanicException(
'Loop can only be retrieved after the app has started '
'running. Not supported with `create_server` function')
return get_event_loop()
# -------------------------------------------------------------------- #
# Registration
# -------------------------------------------------------------------- #
def add_task(self, task):
"""Schedule a task to run later, after the loop has started.
Different from asyncio.ensure_future in that it does not
also return a future, and the actual ensure_future call
is delayed until before server start.
:param task: future, couroutine or awaitable
"""
try:
if callable(task):
try:
self.loop.create_task(task(self))
except TypeError:
self.loop.create_task(task())
else:
self.loop.create_task(task)
except SanicException:
@self.listener('before_server_start')
def run(app, loop):
if callable(task):
try:
loop.create_task(task(self))
except TypeError:
loop.create_task(task())
else:
loop.create_task(task)
# Decorator
def listener(self, event):
"""Create a listener from a decorated function.
:param event: event to listen to
"""
def decorator(listener):
self.listeners[event].append(listener)
return listener
return decorator
def register_listener(self, listener, event):
"""
Register the listener for a given event.
Args:
listener: callable i.e. setup_db(app, loop)
event: when to register listener i.e. 'before_server_start'
Returns: listener
"""
return self.listener(event)(listener)
# Decorator
def route(self, uri, methods=frozenset({'GET'}), host=None,
strict_slashes=None, stream=False, version=None, name=None):
"""Decorate a function to be registered as a route
:param uri: path of the URL
:param methods: list or tuple of methods allowed
:param host:
:param strict_slashes:
:param stream:
:param version:
:param name: user defined route name for url_for
:return: decorated function
"""
# Fix case where the user did not prefix the URL with a /
# and will probably get confused as to why it's not working
if not uri.startswith('/'):
uri = '/' + uri
if stream:
self.is_request_stream = True
if strict_slashes is None:
strict_slashes = self.strict_slashes
def response(handler):
args = [key for key in signature(handler).parameters.keys()]
if args:
if stream:
handler.is_stream = stream
self.router.add(uri=uri, methods=methods, handler=handler,
host=host, strict_slashes=strict_slashes,
version=version, name=name)
return handler
else:
raise ValueError(
'Required parameter `request` missing'
'in the {0}() route?'.format(
handler.__name__))
return response
# Shorthand method decorators
def get(self, uri, host=None, strict_slashes=None, version=None,
name=None):
return self.route(uri, methods=frozenset({"GET"}), host=host,
strict_slashes=strict_slashes, version=version,
name=name)
def post(self, uri, host=None, strict_slashes=None, stream=False,
version=None, name=None):
return self.route(uri, methods=frozenset({"POST"}), host=host,
strict_slashes=strict_slashes, stream=stream,
version=version, name=name)
def put(self, uri, host=None, strict_slashes=None, stream=False,
version=None, name=None):
return self.route(uri, methods=frozenset({"PUT"}), host=host,
strict_slashes=strict_slashes, stream=stream,
version=version, name=name)
def head(self, uri, host=None, strict_slashes=None, version=None,
name=None):
return self.route(uri, methods=frozenset({"HEAD"}), host=host,
strict_slashes=strict_slashes, version=version,
name=name)
def options(self, uri, host=None, strict_slashes=None, version=None,
name=None):
return self.route(uri, methods=frozenset({"OPTIONS"}), host=host,
strict_slashes=strict_slashes, version=version,
name=name)
def patch(self, uri, host=None, strict_slashes=None, stream=False,
version=None, name=None):
return self.route(uri, methods=frozenset({"PATCH"}), host=host,
strict_slashes=strict_slashes, stream=stream,
version=version, name=name)
def delete(self, uri, host=None, strict_slashes=None, version=None,
name=None):
return self.route(uri, methods=frozenset({"DELETE"}), host=host,
strict_slashes=strict_slashes, version=version,
name=name)
def add_route(self, handler, uri, methods=frozenset({'GET'}), host=None,
strict_slashes=None, version=None, name=None, stream=False):
"""A helper method to register class instance or
functions as a handler to the application url
routes.
:param handler: function or class instance
:param uri: path of the URL
:param methods: list or tuple of methods allowed, these are overridden
if using a HTTPMethodView
:param host:
:param strict_slashes:
:param version:
:param name: user defined route name for url_for
:param stream: boolean specifying if the handler is a stream handler
:return: function or class instance
"""
# Handle HTTPMethodView differently
if hasattr(handler, 'view_class'):
methods = set()
for method in HTTP_METHODS:
_handler = getattr(handler.view_class, method.lower(), None)
if _handler:
methods.add(method)
if hasattr(_handler, 'is_stream'):
stream = True
# handle composition view differently
if isinstance(handler, CompositionView):
methods = handler.handlers.keys()
for _handler in handler.handlers.values():
if hasattr(_handler, 'is_stream'):
stream = True
break
if strict_slashes is None:
strict_slashes = self.strict_slashes
self.route(uri=uri, methods=methods, host=host,
strict_slashes=strict_slashes, stream=stream,
version=version, name=name)(handler)
return handler
# Decorator
def websocket(self, uri, host=None, strict_slashes=None,
subprotocols=None, name=None):
"""Decorate a function to be registered as a websocket route
:param uri: path of the URL
:param subprotocols: optional list of strings with the supported
subprotocols
:param host:
:return: decorated function
"""
self.enable_websocket()
# Fix case where the user did not prefix the URL with a /
# and will probably get confused as to why it's not working
if not uri.startswith('/'):
uri = '/' + uri
if strict_slashes is None:
strict_slashes = self.strict_slashes
def response(handler):
async def websocket_handler(request, *args, **kwargs):
request.app = self
try:
protocol = request.transport.get_protocol()
except AttributeError:
# On Python3.5 the Transport classes in asyncio do not
# have a get_protocol() method as in uvloop
protocol = request.transport._protocol
ws = await protocol.websocket_handshake(request, subprotocols)
# schedule the application handler
# its future is kept in self.websocket_tasks in case it
# needs to be cancelled due to the server being stopped
fut = ensure_future(handler(request, ws, *args, **kwargs))
self.websocket_tasks.add(fut)
try:
await fut
except (CancelledError, ConnectionClosed):
pass
finally:
self.websocket_tasks.remove(fut)
await ws.close()
self.router.add(uri=uri, handler=websocket_handler,
methods=frozenset({'GET'}), host=host,
strict_slashes=strict_slashes, name=name)
return handler
return response
def add_websocket_route(self, handler, uri, host=None,
strict_slashes=None, subprotocols=None, name=None):
"""A helper method to register a function as a websocket route."""
if strict_slashes is None:
strict_slashes = self.strict_slashes
return self.websocket(uri, host=host, strict_slashes=strict_slashes,
subprotocols=subprotocols, name=name)(handler)
def enable_websocket(self, enable=True):
"""Enable or disable the support for websocket.
Websocket is enabled automatically if websocket routes are
added to the application.
"""
if not self.websocket_enabled:
# if the server is stopped, we want to cancel any ongoing
# websocket tasks, to allow the server to exit promptly
@self.listener('before_server_stop')
def cancel_websocket_tasks(app, loop):
for task in self.websocket_tasks:
task.cancel()
self.websocket_enabled = enable
def remove_route(self, uri, clean_cache=True, host=None):
self.router.remove(uri, clean_cache, host)
# Decorator
def exception(self, *exceptions):
"""Decorate a function to be registered as a handler for exceptions
:param exceptions: exceptions
:return: decorated function
"""
def response(handler):
for exception in exceptions:
if isinstance(exception, (tuple, list)):
for e in exception:
self.error_handler.add(e, handler)
else:
self.error_handler.add(exception, handler)
return handler
return response
def register_middleware(self, middleware, attach_to='request'):
if attach_to == 'request':
self.request_middleware.append(middleware)
if attach_to == 'response':
self.response_middleware.appendleft(middleware)
return middleware
# Decorator
def middleware(self, middleware_or_request):
"""Decorate and register middleware to be called before a request.
Can either be called as @app.middleware or @app.middleware('request')
"""
# Detect which way this was called, @middleware or @middleware('AT')
if callable(middleware_or_request):
return self.register_middleware(middleware_or_request)
else:
return partial(self.register_middleware,
attach_to=middleware_or_request)
# Static Files
def static(self, uri, file_or_directory, pattern=r'/?.+',
use_modified_since=True, use_content_range=False,
stream_large_files=False, name='static', host=None,
strict_slashes=None, content_type=None):
"""Register a root to serve files from. The input can either be a
file or a directory. See
"""
static_register(self, uri, file_or_directory, pattern,
use_modified_since, use_content_range,
stream_large_files, name, host, strict_slashes,
content_type)
def blueprint(self, blueprint, **options):
"""Register a blueprint on the application.
:param blueprint: Blueprint object or (list, tuple) thereof
:param options: option dictionary with blueprint defaults
:return: Nothing
"""
if isinstance(blueprint, (list, tuple)):
for item in blueprint:
self.blueprint(item, **options)
return
if blueprint.name in self.blueprints:
assert self.blueprints[blueprint.name] is blueprint, \
'A blueprint with the name "%s" is already registered. ' \
'Blueprint names must be unique.' % \
(blueprint.name,)
else:
self.blueprints[blueprint.name] = blueprint
self._blueprint_order.append(blueprint)
blueprint.register(self, options)
def register_blueprint(self, *args, **kwargs):
# TODO: deprecate 1.0
if self.debug:
warnings.simplefilter('default')
warnings.warn("Use of register_blueprint will be deprecated in "
"version 1.0. Please use the blueprint method"
" instead",
DeprecationWarning)
return self.blueprint(*args, **kwargs)
def url_for(self, view_name: str, **kwargs):
"""Build a URL based on a view name and the values provided.
In order to build a URL, all request parameters must be supplied as
keyword arguments, and each parameter must pass the test for the
specified parameter type. If these conditions are not met, a
`URLBuildError` will be thrown.
Keyword arguments that are not request parameters will be included in
the output URL's query string.
:param view_name: string referencing the view name
:param \*\*kwargs: keys and values that are used to build request
parameters and query string arguments.
:return: the built URL
Raises:
URLBuildError
"""
# find the route by the supplied view name
kw = {}
# special static files url_for
if view_name == 'static':
kw.update(name=kwargs.pop('name', 'static'))
elif view_name.endswith('.static'): # blueprint.static
kwargs.pop('name', None)
kw.update(name=view_name)
uri, route = self.router.find_route_by_view_name(view_name, **kw)
if not (uri and route):
raise URLBuildError('Endpoint with name `{}` was not found'.format(
view_name))
if view_name == 'static' or view_name.endswith('.static'):
filename = kwargs.pop('filename', None)
# it's static folder
if '<file_uri:' in uri:
folder_ = uri.split('<file_uri:', 1)[0]
if folder_.endswith('/'):
folder_ = folder_[:-1]
if filename.startswith('/'):
filename = filename[1:]
uri = '{}/{}'.format(folder_, filename)
if uri != '/' and uri.endswith('/'):
uri = uri[:-1]
out = uri
# find all the parameters we will need to build in the URL
matched_params = re.findall(
self.router.parameter_pattern, uri)
# _method is only a placeholder now, don't know how to support it
kwargs.pop('_method', None)
anchor = kwargs.pop('_anchor', '')
# _external need SERVER_NAME in config or pass _server arg
external = kwargs.pop('_external', False)
scheme = kwargs.pop('_scheme', '')
if scheme and not external:
raise ValueError('When specifying _scheme, _external must be True')
netloc = kwargs.pop('_server', None)
if netloc is None and external:
netloc = self.config.get('SERVER_NAME', '')
if external:
if not scheme:
if ':' in netloc[:8]:
scheme = netloc[:8].split(':', 1)[0]
else:
scheme = 'http'
if '://' in netloc[:8]:
netloc = netloc.split('://', 1)[-1]
for match in matched_params:
name, _type, pattern = self.router.parse_parameter_string(
match)
# we only want to match against each individual parameter
specific_pattern = '^{}$'.format(pattern)
supplied_param = None
if name in kwargs:
supplied_param = kwargs.get(name)
del kwargs[name]
else:
raise URLBuildError(
'Required parameter `{}` was not passed to url_for'.format(
name))
supplied_param = str(supplied_param)
# determine if the parameter supplied by the caller passes the test
# in the URL
passes_pattern = re.match(specific_pattern, supplied_param)
if not passes_pattern:
if _type != str:
msg = (
'Value "{}" for parameter `{}` does not '
'match pattern for type `{}`: {}'.format(
supplied_param, name, _type.__name__, pattern))
else:
msg = (
'Value "{}" for parameter `{}` '
'does not satisfy pattern {}'.format(
supplied_param, name, pattern))
raise URLBuildError(msg)
# replace the parameter in the URL with the supplied value
replacement_regex = '(<{}.*?>)'.format(name)
out = re.sub(
replacement_regex, supplied_param, out)
# parse the remainder of the keyword arguments into a querystring
query_string = urlencode(kwargs, doseq=True) if kwargs else ''
# scheme://netloc/path;parameters?query#fragment
out = urlunparse((scheme, netloc, out, '', query_string, anchor))
return out
# -------------------------------------------------------------------- #
# Request Handling
# -------------------------------------------------------------------- #
def converted_response_type(self, response):
pass
async def handle_request(self, request, write_callback, stream_callback):
"""Take a request from the HTTP Server and return a response object
to be sent back The HTTP Server only expects a response object, so
exception handling must be done here
:param request: HTTP Request object
:param write_callback: Synchronous response function to be
called with the response as the only argument
:param stream_callback: Coroutine that handles streaming a
StreamingHTTPResponse if produced by the handler.
:return: Nothing
"""
try:
# -------------------------------------------- #
# Request Middleware
# -------------------------------------------- #
request.app = self
response = await self._run_request_middleware(request)
# No middleware results
if not response:
# -------------------------------------------- #
# Execute Handler
# -------------------------------------------- #
# Fetch handler from router
handler, args, kwargs, uri = self.router.get(request)
request.uri_template = uri
if handler is None:
raise ServerError(
("'None' was returned while requesting a "
"handler from the router"))
# Run response handler
response = handler(request, *args, **kwargs)
if isawaitable(response):
response = await response
except Exception as e:
# -------------------------------------------- #
# Response Generation Failed
# -------------------------------------------- #
try:
response = self.error_handler.response(request, e)
if isawaitable(response):
response = await response
except Exception as e:
if isinstance(e, SanicException):
response = self.error_handler.default(request=request,
exception=e)
elif self.debug:
response = HTTPResponse(
"Error while handling error: {}\nStack: {}".format(
e, format_exc()), status=500)
else:
response = HTTPResponse(
"An error occurred while handling an error",
status=500)
finally:
# -------------------------------------------- #
# Response Middleware
# -------------------------------------------- #
try:
response = await self._run_response_middleware(request,
response)
except BaseException:
error_logger.exception(
'Exception occurred in one of response middleware handlers'
)
# pass the response to the correct callback
if isinstance(response, StreamingHTTPResponse):
await stream_callback(response)
else:
write_callback(response)
# -------------------------------------------------------------------- #
# Testing
# -------------------------------------------------------------------- #
@property
def test_client(self):
return SanicTestClient(self)
# -------------------------------------------------------------------- #
# Execution
# -------------------------------------------------------------------- #
def run(self, host=None, port=None, debug=False, ssl=None,
sock=None, workers=1, protocol=None,
backlog=100, stop_event=None, register_sys_signals=True,
access_log=True, **kwargs):
"""Run the HTTP Server and listen until keyboard interrupt or term
signal. On termination, drain connections before closing.
:param host: Address to host on
:param port: Port to host on
:param debug: Enables debug output (slows server)
:param ssl: SSLContext, or location of certificate and key
for SSL encryption of worker(s)
:param sock: Socket for the server to accept connections from
:param workers: Number of processes
received before it is respected
:param backlog:
:param stop_event:
:param register_sys_signals:
:param protocol: Subclass of asyncio protocol class
:return: Nothing
"""
# Default auto_reload to false
auto_reload = False
# If debug is set, default it to true (unless on windows)
if debug and os.name == 'posix':
auto_reload = True
# Allow for overriding either of the defaults
auto_reload = kwargs.get("auto_reload", auto_reload)
if sock is None:
host, port = host or "127.0.0.1", port or 8000
if protocol is None:
protocol = (WebSocketProtocol if self.websocket_enabled
else HttpProtocol)
if stop_event is not None:
if debug:
warnings.simplefilter('default')
warnings.warn("stop_event will be removed from future versions.",
DeprecationWarning)
server_settings = self._helper(
host=host, port=port, debug=debug, ssl=ssl, sock=sock,
workers=workers, protocol=protocol, backlog=backlog,
register_sys_signals=register_sys_signals,
access_log=access_log, auto_reload=auto_reload)
try:
self.is_running = True
if workers == 1:
if auto_reload and os.name != 'posix':
# This condition must be removed after implementing
# auto reloader for other operating systems.
raise NotImplementedError
if auto_reload and \
os.environ.get('SANIC_SERVER_RUNNING') != 'true':
reloader_helpers.watchdog(2)
else:
serve(**server_settings)
else:
serve_multiple(server_settings, workers)
except BaseException:
error_logger.exception(
'Experienced exception while trying to serve')
raise
finally:
self.is_running = False
logger.info("Server Stopped")
def stop(self):
"""This kills the Sanic"""
get_event_loop().stop()
def __call__(self):
"""gunicorn compatibility"""
return self
async def create_server(self, host=None, port=None, debug=False,
ssl=None, sock=None, protocol=None,
backlog=100, stop_event=None,
access_log=True):
"""Asynchronous version of `run`.
NOTE: This does not support multiprocessing and is not the preferred
way to run a Sanic application.
"""
if sock is None:
host, port = host or "127.0.0.1", port or 8000
if protocol is None:
protocol = (WebSocketProtocol if self.websocket_enabled
else HttpProtocol)
if stop_event is not None:
if debug:
warnings.simplefilter('default')
warnings.warn("stop_event will be removed from future versions.",
DeprecationWarning)
server_settings = self._helper(
host=host, port=port, debug=debug, ssl=ssl, sock=sock,
loop=get_event_loop(), protocol=protocol,
backlog=backlog, run_async=True,
access_log=access_log)
# Trigger before_start events
await self.trigger_events(
server_settings.get('before_start', []),
server_settings.get('loop')
)
return await serve(**server_settings)
async def trigger_events(self, events, loop):
"""Trigger events (functions or async)
:param events: one or more sync or async functions to execute
:param loop: event loop
"""
for event in events:
result = event(loop)
if isawaitable(result):
await result
async def _run_request_middleware(self, request):
# The if improves speed. I don't know why
if self.request_middleware:
for middleware in self.request_middleware:
response = middleware(request)
if isawaitable(response):
response = await response
if response:
return response
return None
async def _run_response_middleware(self, request, response):
if self.response_middleware:
for middleware in self.response_middleware:
_response = middleware(request, response)
if isawaitable(_response):
_response = await _response
if _response:
response = _response
break
return response
def _helper(self, host=None, port=None, debug=False,
ssl=None, sock=None, workers=1, loop=None,
protocol=HttpProtocol, backlog=100, stop_event=None,
register_sys_signals=True, run_async=False, access_log=True,
auto_reload=False):
"""Helper function used by `run` and `create_server`."""
if isinstance(ssl, dict):
# try common aliaseses
cert = ssl.get('cert') or ssl.get('certificate')
key = ssl.get('key') or ssl.get('keyfile')
if cert is None or key is None:
raise ValueError("SSLContext or certificate and key required.")
context = create_default_context(purpose=Purpose.CLIENT_AUTH)
context.load_cert_chain(cert, keyfile=key)
ssl = context
if stop_event is not None:
if debug:
warnings.simplefilter('default')
warnings.warn("stop_event will be removed from future versions.",
DeprecationWarning)
self.error_handler.debug = debug
self.debug = debug
server_settings = {
'protocol': protocol,
'request_class': self.request_class,
'is_request_stream': self.is_request_stream,
'router': self.router,
'host': host,
'port': port,
'sock': sock,
'ssl': ssl,
'signal': Signal(),
'debug': debug,
'request_handler': self.handle_request,
'error_handler': self.error_handler,
'request_timeout': self.config.REQUEST_TIMEOUT,
'response_timeout': self.config.RESPONSE_TIMEOUT,
'keep_alive_timeout': self.config.KEEP_ALIVE_TIMEOUT,
'request_max_size': self.config.REQUEST_MAX_SIZE,
'keep_alive': self.config.KEEP_ALIVE,
'loop': loop,
'register_sys_signals': register_sys_signals,
'backlog': backlog,
'access_log': access_log,
'websocket_max_size': self.config.WEBSOCKET_MAX_SIZE,
'websocket_max_queue': self.config.WEBSOCKET_MAX_QUEUE,
'websocket_read_limit': self.config.WEBSOCKET_READ_LIMIT,
'websocket_write_limit': self.config.WEBSOCKET_WRITE_LIMIT,
'graceful_shutdown_timeout': self.config.GRACEFUL_SHUTDOWN_TIMEOUT
}
# -------------------------------------------- #
# Register start/stop events
# -------------------------------------------- #
for event_name, settings_name, reverse in (
("before_server_start", "before_start", False),
("after_server_start", "after_start", False),
("before_server_stop", "before_stop", True),
("after_server_stop", "after_stop", True),
):
listeners = self.listeners[event_name].copy()
if reverse:
listeners.reverse()
# Prepend sanic to the arguments when listeners are triggered
listeners = [partial(listener, self) for listener in listeners]
server_settings[settings_name] = listeners
if self.configure_logging and debug:
logger.setLevel(logging.DEBUG)
if self.config.LOGO is not None and \
os.environ.get('SANIC_SERVER_RUNNING') != 'true':
logger.debug(self.config.LOGO)
if run_async:
server_settings['run_async'] = True
# Serve
if host and port and os.environ.get('SANIC_SERVER_RUNNING') != 'true':
proto = "http"
if ssl is not None:
proto = "https"
logger.info('Goin\' Fast @ {}://{}:{}'.format(proto, host, port))
return server_settings

View File

@ -1,97 +1,294 @@
class BlueprintSetup:
"""
"""
from collections import defaultdict, namedtuple
def __init__(self, blueprint, app, options):
self.app = app
self.blueprint = blueprint
self.options = options
from sanic.constants import HTTP_METHODS
from sanic.views import CompositionView
url_prefix = self.options.get('url_prefix')
if url_prefix is None:
url_prefix = self.blueprint.url_prefix
#: The prefix that should be used for all URLs defined on the
#: blueprint.
self.url_prefix = url_prefix
def add_route(self, handler, uri, methods):
"""
A helper method to register a handler to the application url routes.
"""
if self.url_prefix:
uri = self.url_prefix + uri
self.app.router.add(uri, methods, handler)
def add_exception(self, handler, *args, **kwargs):
"""
Registers exceptions to sanic
"""
self.app.exception(*args, **kwargs)(handler)
def add_middleware(self, middleware, *args, **kwargs):
"""
Registers middleware to sanic
"""
if args or kwargs:
self.app.middleware(*args, **kwargs)(middleware)
else:
self.app.middleware(middleware)
FutureRoute = namedtuple('Route',
['handler', 'uri', 'methods', 'host',
'strict_slashes', 'stream', 'version', 'name'])
FutureListener = namedtuple('Listener', ['handler', 'uri', 'methods', 'host'])
FutureMiddleware = namedtuple('Route', ['middleware', 'args', 'kwargs'])
FutureException = namedtuple('Route', ['handler', 'args', 'kwargs'])
FutureStatic = namedtuple('Route',
['uri', 'file_or_directory', 'args', 'kwargs'])
class Blueprint:
def __init__(self, name, url_prefix=None):
def __init__(self, name,
url_prefix=None,
host=None, version=None,
strict_slashes=False):
"""Create a new blueprint
:param name: unique name of the blueprint
:param url_prefix: URL to be prefixed before all route URLs
:param strict_slashes: strict to trailing slash
"""
self.name = name
self.url_prefix = url_prefix
self.deferred_functions = []
self.host = host
def record(self, func):
"""
Registers a callback function that is invoked when the blueprint is
registered on the application.
"""
self.deferred_functions.append(func)
self.routes = []
self.websocket_routes = []
self.exceptions = []
self.listeners = defaultdict(list)
self.middlewares = []
self.statics = []
self.version = version
self.strict_slashes = strict_slashes
def make_setup_state(self, app, options):
@staticmethod
def group(*blueprints, url_prefix=''):
"""Create a list of blueprints, optionally
grouping them under a general URL prefix.
:param blueprints: blueprints to be registered as a group
:param url_prefix: URL route to be prepended to all sub-prefixes
"""
"""
return BlueprintSetup(self, app, options)
def chain(nested):
"""itertools.chain() but leaves strings untouched"""
for i in nested:
if isinstance(i, (list, tuple)):
yield from chain(i)
else:
yield i
bps = []
for bp in chain(blueprints):
bp.url_prefix = url_prefix + bp.url_prefix
bps.append(bp)
return bps
def register(self, app, options):
"""
"""
state = self.make_setup_state(app, options)
for deferred in self.deferred_functions:
deferred(state)
"""Register the blueprint to the sanic app."""
def route(self, uri, methods=None):
"""
url_prefix = options.get('url_prefix', self.url_prefix)
# Routes
for future in self.routes:
# attach the blueprint name to the handler so that it can be
# prefixed properly in the router
future.handler.__blueprintname__ = self.name
# Prepend the blueprint URI prefix if available
uri = url_prefix + future.uri if url_prefix else future.uri
version = future.version or self.version
app.route(uri=uri[1:] if uri.startswith('//') else uri,
methods=future.methods,
host=future.host or self.host,
strict_slashes=future.strict_slashes,
stream=future.stream,
version=version,
name=future.name,
)(future.handler)
for future in self.websocket_routes:
# attach the blueprint name to the handler so that it can be
# prefixed properly in the router
future.handler.__blueprintname__ = self.name
# Prepend the blueprint URI prefix if available
uri = url_prefix + future.uri if url_prefix else future.uri
app.websocket(uri=uri,
host=future.host or self.host,
strict_slashes=future.strict_slashes,
name=future.name,
)(future.handler)
# Middleware
for future in self.middlewares:
if future.args or future.kwargs:
app.register_middleware(future.middleware,
*future.args,
**future.kwargs)
else:
app.register_middleware(future.middleware)
# Exceptions
for future in self.exceptions:
app.exception(*future.args, **future.kwargs)(future.handler)
# Static Files
for future in self.statics:
# Prepend the blueprint URI prefix if available
uri = url_prefix + future.uri if url_prefix else future.uri
app.static(uri, future.file_or_directory,
*future.args, **future.kwargs)
# Event listeners
for event, listeners in self.listeners.items():
for listener in listeners:
app.listener(event)(listener)
def route(self, uri, methods=frozenset({'GET'}), host=None,
strict_slashes=None, stream=False, version=None, name=None):
"""Create a blueprint route from a decorated function.
:param uri: endpoint at which the route will be accessible.
:param methods: list of acceptable HTTP methods.
"""
if strict_slashes is None:
strict_slashes = self.strict_slashes
def decorator(handler):
self.record(lambda s: s.add_route(handler, uri, methods))
route = FutureRoute(
handler, uri, methods, host, strict_slashes, stream, version,
name)
self.routes.append(route)
return handler
return decorator
def add_route(self, handler, uri, methods=frozenset({'GET'}), host=None,
strict_slashes=None, version=None, name=None):
"""Create a blueprint route from a function.
:param handler: function for handling uri requests. Accepts function,
or class instance with a view_class method.
:param uri: endpoint at which the route will be accessible.
:param methods: list of acceptable HTTP methods.
:param host:
:param strict_slashes:
:param version:
:param name: user defined route name for url_for
:return: function or class instance
"""
# Handle HTTPMethodView differently
if hasattr(handler, 'view_class'):
methods = set()
for method in HTTP_METHODS:
if getattr(handler.view_class, method.lower(), None):
methods.add(method)
if strict_slashes is None:
strict_slashes = self.strict_slashes
# handle composition view differently
if isinstance(handler, CompositionView):
methods = handler.handlers.keys()
self.route(uri=uri, methods=methods, host=host,
strict_slashes=strict_slashes, version=version,
name=name)(handler)
return handler
def websocket(self, uri, host=None, strict_slashes=None, version=None,
name=None):
"""Create a blueprint websocket route from a decorated function.
:param uri: endpoint at which the route will be accessible.
"""
if strict_slashes is None:
strict_slashes = self.strict_slashes
def decorator(handler):
route = FutureRoute(handler, uri, [], host, strict_slashes,
False, version, name)
self.websocket_routes.append(route)
return handler
return decorator
def add_websocket_route(self, handler, uri, host=None, version=None,
name=None):
"""Create a blueprint websocket route from a function.
:param handler: function for handling uri requests. Accepts function,
or class instance with a view_class method.
:param uri: endpoint at which the route will be accessible.
:return: function or class instance
"""
self.websocket(uri=uri, host=host, version=version, name=name)(handler)
return handler
def listener(self, event):
"""Create a listener from a decorated function.
:param event: Event to listen to.
"""
def decorator(listener):
self.listeners[event].append(listener)
return listener
return decorator
def middleware(self, *args, **kwargs):
"""
"""
def register_middleware(middleware):
self.record(
lambda s: s.add_middleware(middleware, *args, **kwargs))
return middleware
"""Create a blueprint middleware from a decorated function."""
def register_middleware(_middleware):
future_middleware = FutureMiddleware(_middleware, args, kwargs)
self.middlewares.append(future_middleware)
return _middleware
# Detect which way this was called, @middleware or @middleware('AT')
if len(args) == 1 and len(kwargs) == 0 and callable(args[0]):
middleware = args[0]
args = []
return register_middleware(args[0])
return register_middleware(middleware)
else:
return register_middleware
def exception(self, *args, **kwargs):
"""
"""
"""Create a blueprint exception from a decorated function."""
def decorator(handler):
self.record(lambda s: s.add_exception(handler, *args, **kwargs))
exception = FutureException(handler, args, kwargs)
self.exceptions.append(exception)
return handler
return decorator
def static(self, uri, file_or_directory, *args, **kwargs):
"""Create a blueprint static route from a decorated function.
:param uri: endpoint at which the route will be accessible.
:param file_or_directory: Static asset.
"""
name = kwargs.pop('name', 'static')
if not name.startswith(self.name + '.'):
name = '{}.{}'.format(self.name, name)
kwargs.update(name=name)
strict_slashes = kwargs.get('strict_slashes')
if strict_slashes is None and self.strict_slashes is not None:
kwargs.update(strict_slashes=self.strict_slashes)
static = FutureStatic(uri, file_or_directory, args, kwargs)
self.statics.append(static)
# Shorthand method decorators
def get(self, uri, host=None, strict_slashes=None, version=None,
name=None):
return self.route(uri, methods=["GET"], host=host,
strict_slashes=strict_slashes, version=version,
name=name)
def post(self, uri, host=None, strict_slashes=None, stream=False,
version=None, name=None):
return self.route(uri, methods=["POST"], host=host,
strict_slashes=strict_slashes, stream=stream,
version=version, name=name)
def put(self, uri, host=None, strict_slashes=None, stream=False,
version=None, name=None):
return self.route(uri, methods=["PUT"], host=host,
strict_slashes=strict_slashes, stream=stream,
version=version, name=name)
def head(self, uri, host=None, strict_slashes=None, version=None,
name=None):
return self.route(uri, methods=["HEAD"], host=host,
strict_slashes=strict_slashes, version=version,
name=name)
def options(self, uri, host=None, strict_slashes=None, version=None,
name=None):
return self.route(uri, methods=["OPTIONS"], host=host,
strict_slashes=strict_slashes, version=version,
name=name)
def patch(self, uri, host=None, strict_slashes=None, stream=False,
version=None, name=None):
return self.route(uri, methods=["PATCH"], host=host,
strict_slashes=strict_slashes, stream=stream,
version=version, name=name)
def delete(self, uri, host=None, strict_slashes=None, version=None,
name=None):
return self.route(uri, methods=["DELETE"], host=host,
strict_slashes=strict_slashes, version=version,
name=name)

View File

@ -1,5 +1,14 @@
class Config:
LOGO = """
import os
import types
SANIC_PREFIX = 'SANIC_'
class Config(dict):
def __init__(self, defaults=None, load_env=True, keep_alive=True):
super().__init__(defaults or {})
self.LOGO = """
_______________
/ \\
@ -20,5 +29,95 @@ class Config:
"""
REQUEST_MAX_SIZE = 100000000 # 100 megababies
REQUEST_TIMEOUT = 60 # 60 seconds
self.REQUEST_MAX_SIZE = 100000000 # 100 megabytes
self.REQUEST_TIMEOUT = 60 # 60 seconds
self.RESPONSE_TIMEOUT = 60 # 60 seconds
self.KEEP_ALIVE = keep_alive
self.KEEP_ALIVE_TIMEOUT = 5 # 5 seconds
self.WEBSOCKET_MAX_SIZE = 2 ** 20 # 1 megabytes
self.WEBSOCKET_MAX_QUEUE = 32
self.WEBSOCKET_READ_LIMIT = 2 ** 16
self.WEBSOCKET_WRITE_LIMIT = 2 ** 16
self.GRACEFUL_SHUTDOWN_TIMEOUT = 15.0 # 15 sec
if load_env:
prefix = SANIC_PREFIX if load_env is True else load_env
self.load_environment_vars(prefix=prefix)
def __getattr__(self, attr):
try:
return self[attr]
except KeyError as ke:
raise AttributeError("Config has no '{}'".format(ke.args[0]))
def __setattr__(self, attr, value):
self[attr] = value
def from_envvar(self, variable_name):
"""Load a configuration from an environment variable pointing to
a configuration file.
:param variable_name: name of the environment variable
:return: bool. ``True`` if able to load config, ``False`` otherwise.
"""
config_file = os.environ.get(variable_name)
if not config_file:
raise RuntimeError('The environment variable %r is not set and '
'thus configuration could not be loaded.' %
variable_name)
return self.from_pyfile(config_file)
def from_pyfile(self, filename):
"""Update the values in the config from a Python file.
Only the uppercase variables in that module are stored in the config.
:param filename: an absolute path to the config file
"""
module = types.ModuleType('config')
module.__file__ = filename
try:
with open(filename) as config_file:
exec(compile(config_file.read(), filename, 'exec'),
module.__dict__)
except IOError as e:
e.strerror = 'Unable to load configuration file (%s)' % e.strerror
raise
self.from_object(module)
return True
def from_object(self, obj):
"""Update the values from the given object.
Objects are usually either modules or classes.
Just the uppercase variables in that object are stored in the config.
Example usage::
from yourapplication import default_config
app.config.from_object(default_config)
You should not use this function to load the actual configuration but
rather configuration defaults. The actual config should be loaded
with :meth:`from_pyfile` and ideally from a location not within the
package because the package might be installed system wide.
:param obj: an object holding the configuration
"""
for key in dir(obj):
if key.isupper():
self[key] = getattr(obj, key)
def load_environment_vars(self, prefix=SANIC_PREFIX):
"""
Looks for prefixed environment variables and applies
them to the configuration if present.
"""
for k, v in os.environ.items():
if k.startswith(prefix):
_, config_key = k.split(prefix, 1)
try:
self[config_key] = int(v)
except ValueError:
try:
self[config_key] = float(v)
except ValueError:
self[config_key] = v

1
sanic/constants.py Normal file
View File

@ -0,0 +1 @@
HTTP_METHODS = ('GET', 'POST', 'PUT', 'HEAD', 'OPTIONS', 'PATCH', 'DELETE')

129
sanic/cookies.py Normal file
View File

@ -0,0 +1,129 @@
import re
import string
# ------------------------------------------------------------ #
# SimpleCookie
# ------------------------------------------------------------ #
# Straight up copied this section of dark magic from SimpleCookie
_LegalChars = string.ascii_letters + string.digits + "!#$%&'*+-.^_`|~:"
_UnescapedChars = _LegalChars + ' ()/<=>?@[]{}'
_Translator = {n: '\\%03o' % n
for n in set(range(256)) - set(map(ord, _UnescapedChars))}
_Translator.update({
ord('"'): '\\"',
ord('\\'): '\\\\',
})
def _quote(str):
"""Quote a string for use in a cookie header.
If the string does not need to be double-quoted, then just return the
string. Otherwise, surround the string in doublequotes and quote
(with a \) special characters.
"""
if str is None or _is_legal_key(str):
return str
else:
return '"' + str.translate(_Translator) + '"'
_is_legal_key = re.compile('[%s]+' % re.escape(_LegalChars)).fullmatch
# ------------------------------------------------------------ #
# Custom SimpleCookie
# ------------------------------------------------------------ #
class CookieJar(dict):
"""CookieJar dynamically writes headers as cookies are added and removed
It gets around the limitation of one header per name by using the
MultiHeader class to provide a unique key that encodes to Set-Cookie.
"""
def __init__(self, headers):
super().__init__()
self.headers = headers
self.cookie_headers = {}
self.header_key = "Set-Cookie"
def __setitem__(self, key, value):
# If this cookie doesn't exist, add it to the header keys
if not self.cookie_headers.get(key):
cookie = Cookie(key, value)
cookie['path'] = '/'
self.cookie_headers[key] = self.header_key
self.headers.add(self.header_key, cookie)
return super().__setitem__(key, cookie)
else:
self[key].value = value
def __delitem__(self, key):
if key not in self.cookie_headers:
self[key] = ''
self[key]['max-age'] = 0
else:
cookie_header = self.cookie_headers[key]
# remove it from header
cookies = self.headers.popall(cookie_header)
for cookie in cookies:
if cookie.key != key:
self.headers.add(cookie_header, cookie)
del self.cookie_headers[key]
return super().__delitem__(key)
class Cookie(dict):
"""A stripped down version of Morsel from SimpleCookie #gottagofast"""
_keys = {
"expires": "expires",
"path": "Path",
"comment": "Comment",
"domain": "Domain",
"max-age": "Max-Age",
"secure": "Secure",
"httponly": "HttpOnly",
"version": "Version",
"samesite": "SameSite",
}
_flags = {'secure', 'httponly'}
def __init__(self, key, value):
if key in self._keys:
raise KeyError("Cookie name is a reserved word")
if not _is_legal_key(key):
raise KeyError("Cookie key contains illegal characters")
self.key = key
self.value = value
super().__init__()
def __setitem__(self, key, value):
if key not in self._keys:
raise KeyError("Unknown cookie property")
if value is not False:
return super().__setitem__(key, value)
def encode(self, encoding):
output = ['%s=%s' % (self.key, _quote(self.value))]
for key, value in self.items():
if key == 'max-age':
try:
output.append('%s=%d' % (self._keys[key], value))
except TypeError:
output.append('%s=%s' % (self._keys[key], value))
elif key == 'expires':
try:
output.append('%s=%s' % (
self._keys[key],
value.strftime("%a, %d-%b-%Y %T GMT")
))
except AttributeError:
output.append('%s=%s' % (self._keys[key], value))
elif key in self._flags and self[key]:
output.append(self._keys[key])
else:
output.append('%s=%s' % (self._keys[key], value))
return "; ".join(output).encode(encoding)

View File

@ -1,56 +1,288 @@
from .response import text
from traceback import format_exc
from sanic.http import STATUS_CODES
TRACEBACK_STYLE = '''
<style>
body {
padding: 20px;
font-family: Arial, sans-serif;
}
p {
margin: 0;
}
.summary {
padding: 10px;
}
h1 {
margin-bottom: 0;
}
h3 {
margin-top: 10px;
}
h3 code {
font-size: 24px;
}
.frame-line > * {
padding: 5px 10px;
}
.frame-line {
margin-bottom: 5px;
}
.frame-code {
font-size: 16px;
padding-left: 30px;
}
.tb-wrapper {
border: 1px solid #f3f3f3;
}
.tb-header {
background-color: #f3f3f3;
padding: 5px 10px;
}
.tb-border {
padding-top: 20px;
}
.frame-descriptor {
background-color: #e2eafb;
}
.frame-descriptor {
font-size: 14px;
}
</style>
'''
TRACEBACK_WRAPPER_HTML = '''
<html>
<head>
{style}
</head>
<body>
{inner_html}
<div class="summary">
<p>
<b>{exc_name}: {exc_value}</b>
while handling path <code>{path}</code>
</p>
</div>
</body>
</html>
'''
TRACEBACK_WRAPPER_INNER_HTML = '''
<h1>{exc_name}</h1>
<h3><code>{exc_value}</code></h3>
<div class="tb-wrapper">
<p class="tb-header">Traceback (most recent call last):</p>
{frame_html}
</div>
'''
TRACEBACK_BORDER = '''
<div class="tb-border">
<b><i>
The above exception was the direct cause of the
following exception:
</i></b>
</div>
'''
TRACEBACK_LINE_HTML = '''
<div class="frame-line">
<p class="frame-descriptor">
File {0.filename}, line <i>{0.lineno}</i>,
in <code><b>{0.name}</b></code>
</p>
<p class="frame-code"><code>{0.line}</code></p>
</div>
'''
INTERNAL_SERVER_ERROR_HTML = '''
<h1>Internal Server Error</h1>
<p>
The server encountered an internal error and cannot complete
your request.
</p>
'''
_sanic_exceptions = {}
def add_status_code(code):
"""
Decorator used for adding exceptions to _sanic_exceptions.
"""
def class_decorator(cls):
cls.status_code = code
_sanic_exceptions[code] = cls
return cls
return class_decorator
class SanicException(Exception):
def __init__(self, message, status_code=None):
super().__init__(message)
if status_code is not None:
self.status_code = status_code
@add_status_code(404)
class NotFound(SanicException):
status_code = 404
pass
@add_status_code(400)
class InvalidUsage(SanicException):
status_code = 400
pass
@add_status_code(405)
class MethodNotSupported(SanicException):
def __init__(self, message, method, allowed_methods):
super().__init__(message)
self.headers = dict()
self.headers["Allow"] = ", ".join(allowed_methods)
if method in ['HEAD', 'PATCH', 'PUT', 'DELETE']:
self.headers['Content-Length'] = 0
@add_status_code(500)
class ServerError(SanicException):
status_code = 500
pass
class Handler:
handlers = None
@add_status_code(503)
class ServiceUnavailable(SanicException):
"""The server is currently unavailable (because it is overloaded or
down for maintenance). Generally, this is a temporary state."""
pass
def __init__(self, sanic):
self.handlers = {}
self.sanic = sanic
def add(self, exception, handler):
self.handlers[exception] = handler
class URLBuildError(ServerError):
pass
def response(self, request, exception):
"""
Fetches and executes an exception handler and returns a response object
:param request: Request
:param exception: Exception to handle
:return: Response object
"""
handler = self.handlers.get(type(exception), self.default)
response = handler(request=request, exception=exception)
return response
def default(self, request, exception):
if issubclass(type(exception), SanicException):
return text(
"Error: {}".format(exception),
status=getattr(exception, 'status_code', 500))
elif self.sanic.debug:
return text(
"Error: {}\nException: {}".format(
exception, format_exc()), status=500)
else:
return text(
"An error occurred while generating the request", status=500)
class FileNotFound(NotFound):
def __init__(self, message, path, relative_url):
super().__init__(message)
self.path = path
self.relative_url = relative_url
@add_status_code(408)
class RequestTimeout(SanicException):
"""The Web server (running the Web site) thinks that there has been too
long an interval of time between 1) the establishment of an IP
connection (socket) between the client and the server and
2) the receipt of any data on that socket, so the server has dropped
the connection. The socket connection has actually been lost - the Web
server has 'timed out' on that particular socket connection.
"""
pass
@add_status_code(413)
class PayloadTooLarge(SanicException):
pass
class HeaderNotFound(InvalidUsage):
pass
@add_status_code(416)
class ContentRangeError(SanicException):
def __init__(self, message, content_range):
super().__init__(message)
self.headers = {
'Content-Type': 'text/plain',
"Content-Range": "bytes */%s" % (content_range.total,)
}
@add_status_code(403)
class Forbidden(SanicException):
pass
class InvalidRangeType(ContentRangeError):
pass
@add_status_code(401)
class Unauthorized(SanicException):
"""
Unauthorized exception (401 HTTP status code).
:param message: Message describing the exception.
:param status_code: HTTP Status code.
:param scheme: Name of the authentication scheme to be used.
When present, kwargs is used to complete the WWW-Authentication header.
Examples::
# With a Basic auth-scheme, realm MUST be present:
raise Unauthorized("Auth required.",
scheme="Basic",
realm="Restricted Area")
# With a Digest auth-scheme, things are a bit more complicated:
raise Unauthorized("Auth required.",
scheme="Digest",
realm="Restricted Area",
qop="auth, auth-int",
algorithm="MD5",
nonce="abcdef",
opaque="zyxwvu")
# With a Bearer auth-scheme, realm is optional so you can write:
raise Unauthorized("Auth required.", scheme="Bearer")
# or, if you want to specify the realm:
raise Unauthorized("Auth required.",
scheme="Bearer",
realm="Restricted Area")
"""
def __init__(self, message, status_code=None, scheme=None, **kwargs):
super().__init__(message, status_code)
# if auth-scheme is specified, set "WWW-Authenticate" header
if scheme is not None:
values = ['{!s}="{!s}"'.format(k, v) for k, v in kwargs.items()]
challenge = ', '.join(values)
self.headers = {
"WWW-Authenticate": "{} {}".format(scheme, challenge).rstrip()
}
def abort(status_code, message=None):
"""
Raise an exception based on SanicException. Returns the HTTP response
message appropriate for the given status code, unless provided.
:param status_code: The HTTP status code to return.
:param message: The HTTP response body. Defaults to the messages
in response.py for the given status code.
"""
if message is None:
message = STATUS_CODES.get(status_code)
# These are stored as bytes in the STATUS_CODES dict
message = message.decode('utf8')
sanic_exception = _sanic_exceptions.get(status_code, SanicException)
raise sanic_exception(message=message, status_code=status_code)

171
sanic/handlers.py Normal file
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@ -0,0 +1,171 @@
import sys
from traceback import format_exc, extract_tb
from sanic.exceptions import (
ContentRangeError,
HeaderNotFound,
INTERNAL_SERVER_ERROR_HTML,
InvalidRangeType,
SanicException,
TRACEBACK_LINE_HTML,
TRACEBACK_STYLE,
TRACEBACK_WRAPPER_HTML,
TRACEBACK_WRAPPER_INNER_HTML,
TRACEBACK_BORDER)
from sanic.log import logger
from sanic.response import text, html
class ErrorHandler:
handlers = None
cached_handlers = None
_missing = object()
def __init__(self):
self.handlers = []
self.cached_handlers = {}
self.debug = False
def _render_exception(self, exception):
frames = extract_tb(exception.__traceback__)
frame_html = []
for frame in frames:
frame_html.append(TRACEBACK_LINE_HTML.format(frame))
return TRACEBACK_WRAPPER_INNER_HTML.format(
exc_name=exception.__class__.__name__,
exc_value=exception,
frame_html=''.join(frame_html))
def _render_traceback_html(self, exception, request):
exc_type, exc_value, tb = sys.exc_info()
exceptions = []
while exc_value:
exceptions.append(self._render_exception(exc_value))
exc_value = exc_value.__cause__
return TRACEBACK_WRAPPER_HTML.format(
style=TRACEBACK_STYLE,
exc_name=exception.__class__.__name__,
exc_value=exception,
inner_html=TRACEBACK_BORDER.join(reversed(exceptions)),
path=request.path)
def add(self, exception, handler):
self.handlers.append((exception, handler))
def lookup(self, exception):
handler = self.cached_handlers.get(exception, self._missing)
if handler is self._missing:
for exception_class, handler in self.handlers:
if isinstance(exception, exception_class):
self.cached_handlers[type(exception)] = handler
return handler
self.cached_handlers[type(exception)] = None
handler = None
return handler
def response(self, request, exception):
"""Fetches and executes an exception handler and returns a response
object
:param request: Request
:param exception: Exception to handle
:return: Response object
"""
handler = self.lookup(exception)
response = None
try:
if handler:
response = handler(request, exception)
if response is None:
response = self.default(request, exception)
except Exception:
self.log(format_exc())
if self.debug:
url = getattr(request, 'url', 'unknown')
response_message = ('Exception raised in exception handler '
'"%s" for uri: "%s"\n%s')
logger.error(response_message,
handler.__name__, url, format_exc())
return text(response_message % (
handler.__name__, url, format_exc()), 500)
else:
return text('An error occurred while handling an error', 500)
return response
def log(self, message, level='error'):
"""
Override this method in an ErrorHandler subclass to prevent
logging exceptions.
"""
getattr(logger, level)(message)
def default(self, request, exception):
self.log(format_exc())
if issubclass(type(exception), SanicException):
return text(
'Error: {}'.format(exception),
status=getattr(exception, 'status_code', 500),
headers=getattr(exception, 'headers', dict())
)
elif self.debug:
html_output = self._render_traceback_html(exception, request)
response_message = ('Exception occurred while handling uri: '
'"%s"\n%s')
logger.error(response_message, request.url, format_exc())
return html(html_output, status=500)
else:
return html(INTERNAL_SERVER_ERROR_HTML, status=500)
class ContentRangeHandler:
"""Class responsible for parsing request header"""
__slots__ = ('start', 'end', 'size', 'total', 'headers')
def __init__(self, request, stats):
self.total = stats.st_size
_range = request.headers.get('Range')
if _range is None:
raise HeaderNotFound('Range Header Not Found')
unit, _, value = tuple(map(str.strip, _range.partition('=')))
if unit != 'bytes':
raise InvalidRangeType(
'%s is not a valid Range Type' % (unit,), self)
start_b, _, end_b = tuple(map(str.strip, value.partition('-')))
try:
self.start = int(start_b) if start_b else None
except ValueError:
raise ContentRangeError(
'\'%s\' is invalid for Content Range' % (start_b,), self)
try:
self.end = int(end_b) if end_b else None
except ValueError:
raise ContentRangeError(
'\'%s\' is invalid for Content Range' % (end_b,), self)
if self.end is None:
if self.start is None:
raise ContentRangeError(
'Invalid for Content Range parameters', self)
else:
# this case represents `Content-Range: bytes 5-`
self.end = self.total
else:
if self.start is None:
# this case represents `Content-Range: bytes -5`
self.start = self.total - self.end
self.end = self.total
if self.start >= self.end:
raise ContentRangeError(
'Invalid for Content Range parameters', self)
self.size = self.end - self.start
self.headers = {
'Content-Range': "bytes %s-%s/%s" % (
self.start, self.end, self.total)}
def __bool__(self):
return self.size > 0

128
sanic/http.py Normal file
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@ -0,0 +1,128 @@
"""Defines basics of HTTP standard."""
STATUS_CODES = {
100: b'Continue',
101: b'Switching Protocols',
102: b'Processing',
200: b'OK',
201: b'Created',
202: b'Accepted',
203: b'Non-Authoritative Information',
204: b'No Content',
205: b'Reset Content',
206: b'Partial Content',
207: b'Multi-Status',
208: b'Already Reported',
226: b'IM Used',
300: b'Multiple Choices',
301: b'Moved Permanently',
302: b'Found',
303: b'See Other',
304: b'Not Modified',
305: b'Use Proxy',
307: b'Temporary Redirect',
308: b'Permanent Redirect',
400: b'Bad Request',
401: b'Unauthorized',
402: b'Payment Required',
403: b'Forbidden',
404: b'Not Found',
405: b'Method Not Allowed',
406: b'Not Acceptable',
407: b'Proxy Authentication Required',
408: b'Request Timeout',
409: b'Conflict',
410: b'Gone',
411: b'Length Required',
412: b'Precondition Failed',
413: b'Request Entity Too Large',
414: b'Request-URI Too Long',
415: b'Unsupported Media Type',
416: b'Requested Range Not Satisfiable',
417: b'Expectation Failed',
418: b'I\'m a teapot',
422: b'Unprocessable Entity',
423: b'Locked',
424: b'Failed Dependency',
426: b'Upgrade Required',
428: b'Precondition Required',
429: b'Too Many Requests',
431: b'Request Header Fields Too Large',
451: b'Unavailable For Legal Reasons',
500: b'Internal Server Error',
501: b'Not Implemented',
502: b'Bad Gateway',
503: b'Service Unavailable',
504: b'Gateway Timeout',
505: b'HTTP Version Not Supported',
506: b'Variant Also Negotiates',
507: b'Insufficient Storage',
508: b'Loop Detected',
510: b'Not Extended',
511: b'Network Authentication Required'
}
# According to https://tools.ietf.org/html/rfc2616#section-7.1
_ENTITY_HEADERS = frozenset([
'allow',
'content-encoding',
'content-language',
'content-length',
'content-location',
'content-md5',
'content-range',
'content-type',
'expires',
'last-modified',
'extension-header'
])
# According to https://tools.ietf.org/html/rfc2616#section-13.5.1
_HOP_BY_HOP_HEADERS = frozenset([
'connection',
'keep-alive',
'proxy-authenticate',
'proxy-authorization',
'te',
'trailers',
'transfer-encoding',
'upgrade'
])
def has_message_body(status):
"""
According to the following RFC message body and length SHOULD NOT
be included in responses status 1XX, 204 and 304.
https://tools.ietf.org/html/rfc2616#section-4.4
https://tools.ietf.org/html/rfc2616#section-4.3
"""
return status not in (204, 304) and not (100 <= status < 200)
def is_entity_header(header):
"""Checks if the given header is an Entity Header"""
return header.lower() in _ENTITY_HEADERS
def is_hop_by_hop_header(header):
"""Checks if the given header is a Hop By Hop header"""
return header.lower() in _HOP_BY_HOP_HEADERS
def remove_entity_headers(headers,
allowed=('content-location', 'expires')):
"""
Removes all the entity headers present in the headers given.
According to RFC 2616 Section 10.3.5,
Content-Location and Expires are allowed as for the
"strong cache validator".
https://tools.ietf.org/html/rfc2616#section-10.3.5
returns the headers without the entity headers
"""
allowed = set([h.lower() for h in allowed])
headers = {header: value for header, value in headers.items()
if not is_entity_header(header)
and header.lower() not in allowed}
return headers

View File

@ -1,5 +1,63 @@
import logging
import sys
logging.basicConfig(
level=logging.INFO, format="%(asctime)s: %(levelname)s: %(message)s")
log = logging.getLogger(__name__)
LOGGING_CONFIG_DEFAULTS = dict(
version=1,
disable_existing_loggers=False,
loggers={
"root": {
"level": "INFO",
"handlers": ["console"]
},
"sanic.error": {
"level": "INFO",
"handlers": ["error_console"],
"propagate": True,
"qualname": "sanic.error"
},
"sanic.access": {
"level": "INFO",
"handlers": ["access_console"],
"propagate": True,
"qualname": "sanic.access"
}
},
handlers={
"console": {
"class": "logging.StreamHandler",
"formatter": "generic",
"stream": sys.stdout
},
"error_console": {
"class": "logging.StreamHandler",
"formatter": "generic",
"stream": sys.stderr
},
"access_console": {
"class": "logging.StreamHandler",
"formatter": "access",
"stream": sys.stdout
},
},
formatters={
"generic": {
"format": "%(asctime)s [%(process)d] [%(levelname)s] %(message)s",
"datefmt": "[%Y-%m-%d %H:%M:%S %z]",
"class": "logging.Formatter"
},
"access": {
"format": "%(asctime)s - (%(name)s)[%(levelname)s][%(host)s]: " +
"%(request)s %(message)s %(status)d %(byte)d",
"datefmt": "[%Y-%m-%d %H:%M:%S %z]",
"class": "logging.Formatter"
},
}
)
logger = logging.getLogger('root')
error_logger = logging.getLogger('sanic.error')
access_logger = logging.getLogger('sanic.access')

144
sanic/reloader_helpers.py Normal file
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@ -0,0 +1,144 @@
import os
import sys
import signal
import subprocess
from time import sleep
from multiprocessing import Process
def _iter_module_files():
"""This iterates over all relevant Python files.
It goes through all
loaded files from modules, all files in folders of already loaded modules
as well as all files reachable through a package.
"""
# The list call is necessary on Python 3 in case the module
# dictionary modifies during iteration.
for module in list(sys.modules.values()):
if module is None:
continue
filename = getattr(module, '__file__', None)
if filename:
old = None
while not os.path.isfile(filename):
old = filename
filename = os.path.dirname(filename)
if filename == old:
break
else:
if filename[-4:] in ('.pyc', '.pyo'):
filename = filename[:-1]
yield filename
def _get_args_for_reloading():
"""Returns the executable."""
rv = [sys.executable]
rv.extend(sys.argv)
return rv
def restart_with_reloader():
"""Create a new process and a subprocess in it with the same arguments as
this one.
"""
args = _get_args_for_reloading()
new_environ = os.environ.copy()
new_environ['SANIC_SERVER_RUNNING'] = 'true'
cmd = ' '.join(args)
worker_process = Process(
target=subprocess.call, args=(cmd,),
kwargs=dict(shell=True, env=new_environ))
worker_process.start()
return worker_process
def kill_process_children_unix(pid):
"""Find and kill child processes of a process (maximum two level).
:param pid: PID of parent process (process ID)
:return: Nothing
"""
root_process_path = "/proc/{pid}/task/{pid}/children".format(pid=pid)
if not os.path.isfile(root_process_path):
return
with open(root_process_path) as children_list_file:
children_list_pid = children_list_file.read().split()
for child_pid in children_list_pid:
children_proc_path = "/proc/%s/task/%s/children" % \
(child_pid, child_pid)
if not os.path.isfile(children_proc_path):
continue
with open(children_proc_path) as children_list_file_2:
children_list_pid_2 = children_list_file_2.read().split()
for _pid in children_list_pid_2:
os.kill(int(_pid), signal.SIGTERM)
def kill_process_children_osx(pid):
"""Find and kill child processes of a process.
:param pid: PID of parent process (process ID)
:return: Nothing
"""
subprocess.run(['pkill', '-P', str(pid)])
def kill_process_children(pid):
"""Find and kill child processes of a process.
:param pid: PID of parent process (process ID)
:return: Nothing
"""
if sys.platform == 'darwin':
kill_process_children_osx(pid)
elif sys.platform == 'posix':
kill_process_children_unix(pid)
else:
pass # should signal error here
def kill_program_completly(proc):
"""Kill worker and it's child processes and exit.
:param proc: worker process (process ID)
:return: Nothing
"""
kill_process_children(proc.pid)
proc.terminate()
os._exit(0)
def watchdog(sleep_interval):
"""Watch project files, restart worker process if a change happened.
:param sleep_interval: interval in second.
:return: Nothing
"""
mtimes = {}
worker_process = restart_with_reloader()
signal.signal(
signal.SIGTERM, lambda *args: kill_program_completly(worker_process))
signal.signal(
signal.SIGINT, lambda *args: kill_program_completly(worker_process))
while True:
for filename in _iter_module_files():
try:
mtime = os.stat(filename).st_mtime
except OSError:
continue
old_time = mtimes.get(filename)
if old_time is None:
mtimes[filename] = mtime
continue
elif mtime > old_time:
kill_process_children(worker_process.pid)
worker_process = restart_with_reloader()
mtimes[filename] = mtime
break
sleep(sleep_interval)

View File

@ -1,79 +1,132 @@
import sys
import json
import socket
from cgi import parse_header
from collections import namedtuple
from http.cookies import SimpleCookie
from httptools import parse_url
from urllib.parse import parse_qs
from ujson import loads as json_loads
from urllib.parse import parse_qs, urlunparse
from .log import log
try:
from ujson import loads as json_loads
except ImportError:
if sys.version_info[:2] == (3, 5):
def json_loads(data):
# on Python 3.5 json.loads only supports str not bytes
return json.loads(data.decode())
else:
json_loads = json.loads
from sanic.exceptions import InvalidUsage
from sanic.log import error_logger, logger
DEFAULT_HTTP_CONTENT_TYPE = "application/octet-stream"
# HTTP/1.1: https://www.w3.org/Protocols/rfc2616/rfc2616-sec7.html#sec7.2.1
# > If the media type remains unknown, the recipient SHOULD treat it
# > as type "application/octet-stream"
class RequestParameters(dict):
"""
Hosts a dict with lists as values where get returns the first
"""Hosts a dict with lists as values where get returns the first
value of the list and getlist returns the whole shebang
"""
def __init__(self, *args, **kwargs):
self.super = super()
self.super.__init__(*args, **kwargs)
def get(self, name, default=None):
values = self.super.get(name)
return values[0] if values else default
"""Return the first value, either the default or actual"""
return super().get(name, [default])[0]
def getlist(self, name, default=None):
return self.super.get(name, default)
"""Return the entire list"""
return super().get(name, default)
class Request:
"""
Properties of an HTTP request such as URL, headers, etc.
"""
class Request(dict):
"""Properties of an HTTP request such as URL, headers, etc."""
__slots__ = (
'url', 'headers', 'version', 'method',
'query_string', 'body',
'parsed_json', 'parsed_args', 'parsed_form', 'parsed_files',
'app', 'headers', 'version', 'method', '_cookies', 'transport',
'body', 'parsed_json', 'parsed_args', 'parsed_form', 'parsed_files',
'_ip', '_parsed_url', 'uri_template', 'stream', '_remote_addr',
'_socket', '_port', '__weakref__', 'raw_url'
)
def __init__(self, url_bytes, headers, version, method):
def __init__(self, url_bytes, headers, version, method, transport):
self.raw_url = url_bytes
# TODO: Content-Encoding detection
url_parsed = parse_url(url_bytes)
self.url = url_parsed.path.decode('utf-8')
self._parsed_url = parse_url(url_bytes)
self.app = None
self.headers = headers
self.version = version
self.method = method
self.query_string = None
if url_parsed.query:
self.query_string = url_parsed.query.decode('utf-8')
self.transport = transport
# Init but do not inhale
self.body = None
self.body = []
self.parsed_json = None
self.parsed_form = None
self.parsed_files = None
self.parsed_args = None
self.uri_template = None
self._cookies = None
self.stream = None
def __repr__(self):
if self.method is None or not self.path:
return '<{0}>'.format(self.__class__.__name__)
return '<{0}: {1} {2}>'.format(self.__class__.__name__,
self.method,
self.path)
def __bool__(self):
if self.transport:
return True
return False
@property
def json(self):
if not self.parsed_json:
try:
self.parsed_json = json_loads(self.body)
except Exception:
pass
if self.parsed_json is None:
self.load_json()
return self.parsed_json
def load_json(self, loads=json_loads):
try:
self.parsed_json = loads(self.body)
except Exception:
if not self.body:
return None
raise InvalidUsage("Failed when parsing body as json")
return self.parsed_json
@property
def token(self):
"""Attempt to return the auth header token.
:return: token related to request
"""
prefixes = ('Bearer', 'Token')
auth_header = self.headers.get('Authorization')
if auth_header is not None:
for prefix in prefixes:
if prefix in auth_header:
return auth_header.partition(prefix)[-1].strip()
return auth_header
@property
def form(self):
if self.parsed_form is None:
self.parsed_form = {}
self.parsed_files = {}
content_type, parameters = parse_header(
self.headers.get('Content-Type'))
self.parsed_form = RequestParameters()
self.parsed_files = RequestParameters()
content_type = self.headers.get(
'Content-Type', DEFAULT_HTTP_CONTENT_TYPE)
content_type, parameters = parse_header(content_type)
try:
is_url_encoded = (
content_type == 'application/x-www-form-urlencoded')
if content_type is None or is_url_encoded:
if content_type == 'application/x-www-form-urlencoded':
self.parsed_form = RequestParameters(
parse_qs(self.body.decode('utf-8')))
elif content_type == 'multipart/form-data':
@ -81,9 +134,8 @@ class Request:
boundary = parameters['boundary'].encode('utf-8')
self.parsed_form, self.parsed_files = (
parse_multipart_form(self.body, boundary))
except Exception as e:
log.exception(e)
pass
except Exception:
error_logger.exception("Failed when parsing form")
return self.parsed_form
@ -101,28 +153,145 @@ class Request:
self.parsed_args = RequestParameters(
parse_qs(self.query_string))
else:
self.parsed_args = {}
self.parsed_args = RequestParameters()
return self.parsed_args
@property
def raw_args(self):
return {k: v[0] for k, v in self.args.items()}
@property
def cookies(self):
if self._cookies is None:
cookie = self.headers.get('Cookie')
if cookie is not None:
cookies = SimpleCookie()
cookies.load(cookie)
self._cookies = {name: cookie.value
for name, cookie in cookies.items()}
else:
self._cookies = {}
return self._cookies
@property
def ip(self):
if not hasattr(self, '_socket'):
self._get_address()
return self._ip
@property
def port(self):
if not hasattr(self, '_socket'):
self._get_address()
return self._port
@property
def socket(self):
if not hasattr(self, '_socket'):
self._get_address()
return self._socket
def _get_address(self):
sock = self.transport.get_extra_info('socket')
if sock.family == socket.AF_INET:
self._socket = (self.transport.get_extra_info('peername') or
(None, None))
self._ip, self._port = self._socket
elif sock.family == socket.AF_INET6:
self._socket = (self.transport.get_extra_info('peername') or
(None, None, None, None))
self._ip, self._port, *_ = self._socket
else:
self._ip, self._port = (None, None)
@property
def remote_addr(self):
"""Attempt to return the original client ip based on X-Forwarded-For.
:return: original client ip.
"""
if not hasattr(self, '_remote_addr'):
forwarded_for = self.headers.get('X-Forwarded-For', '').split(',')
remote_addrs = [
addr for addr in [
addr.strip() for addr in forwarded_for
] if addr
]
if len(remote_addrs) > 0:
self._remote_addr = remote_addrs[0]
else:
self._remote_addr = ''
return self._remote_addr
@property
def scheme(self):
if self.app.websocket_enabled \
and self.headers.get('upgrade') == 'websocket':
scheme = 'ws'
else:
scheme = 'http'
if self.transport.get_extra_info('sslcontext'):
scheme += 's'
return scheme
@property
def host(self):
# it appears that httptools doesn't return the host
# so pull it from the headers
return self.headers.get('Host', '')
@property
def content_type(self):
return self.headers.get('Content-Type', DEFAULT_HTTP_CONTENT_TYPE)
@property
def match_info(self):
"""return matched info after resolving route"""
return self.app.router.get(self)[2]
@property
def path(self):
return self._parsed_url.path.decode('utf-8')
@property
def query_string(self):
if self._parsed_url.query:
return self._parsed_url.query.decode('utf-8')
else:
return ''
@property
def url(self):
return urlunparse((
self.scheme,
self.host,
self.path,
None,
self.query_string,
None))
File = namedtuple('File', ['type', 'body', 'name'])
def parse_multipart_form(body, boundary):
"""Parse a request body and returns fields and files
:param body: bytes request body
:param boundary: bytes multipart boundary
:return: fields (RequestParameters), files (RequestParameters)
"""
Parses a request body and returns fields and files
:param body: Bytes request body
:param boundary: Bytes multipart boundary
:return: fields (dict), files (dict)
"""
files = {}
fields = {}
files = RequestParameters()
fields = RequestParameters()
form_parts = body.split(boundary)
for form_part in form_parts[1:-1]:
file_name = None
file_type = None
content_type = 'text/plain'
content_charset = 'utf-8'
field_name = None
line_index = 2
line_end_index = 0
@ -135,22 +304,35 @@ def parse_multipart_form(body, boundary):
break
colon_index = form_line.index(':')
form_header_field = form_line[0:colon_index]
form_header_field = form_line[0:colon_index].lower()
form_header_value, form_parameters = parse_header(
form_line[colon_index + 2:])
if form_header_field == 'Content-Disposition':
if 'filename' in form_parameters:
file_name = form_parameters['filename']
if form_header_field == 'content-disposition':
file_name = form_parameters.get('filename')
field_name = form_parameters.get('name')
elif form_header_field == 'Content-Type':
file_type = form_header_value
elif form_header_field == 'content-type':
content_type = form_header_value
content_charset = form_parameters.get('charset', 'utf-8')
post_data = form_part[line_index:-4]
if file_name or file_type:
files[field_name] = File(
type=file_type, name=file_name, body=post_data)
if field_name:
post_data = form_part[line_index:-4]
if file_name:
form_file = File(type=content_type,
name=file_name,
body=post_data)
if field_name in files:
files[field_name].append(form_file)
else:
files[field_name] = [form_file]
else:
value = post_data.decode(content_charset)
if field_name in fields:
fields[field_name].append(value)
else:
fields[field_name] = [value]
else:
fields[field_name] = post_data.decode('utf-8')
logger.debug('Form-data field does not have a \'name\' parameter \
in the Content-Disposition header')
return fields, files

View File

@ -1,77 +1,372 @@
import ujson
from mimetypes import guess_type
from os import path
from urllib.parse import quote_plus
STATUS_CODES = {
200: b'OK',
400: b'Bad Request',
401: b'Unauthorized',
402: b'Payment Required',
403: b'Forbidden',
404: b'Not Found',
405: b'Method Not Allowed',
500: b'Internal Server Error',
501: b'Not Implemented',
502: b'Bad Gateway',
503: b'Service Unavailable',
504: b'Gateway Timeout',
}
try:
from ujson import dumps as json_dumps
except BaseException:
from json import dumps as json_dumps
from aiofiles import open as open_async
from multidict import CIMultiDict
from sanic import http
from sanic.cookies import CookieJar
class HTTPResponse:
__slots__ = ('body', 'status', 'content_type', 'headers')
class BaseHTTPResponse:
def _encode_body(self, data):
try:
# Try to encode it regularly
return data.encode()
except AttributeError:
# Convert it to a str if you can't
return str(data).encode()
def _parse_headers(self):
headers = b''
for name, value in self.headers.items():
try:
headers += (
b'%b: %b\r\n' % (
name.encode(), value.encode('utf-8')))
except AttributeError:
headers += (
b'%b: %b\r\n' % (
str(name).encode(), str(value).encode('utf-8')))
return headers
@property
def cookies(self):
if self._cookies is None:
self._cookies = CookieJar(self.headers)
return self._cookies
class StreamingHTTPResponse(BaseHTTPResponse):
__slots__ = (
'transport', 'streaming_fn', 'status',
'content_type', 'headers', '_cookies'
)
def __init__(self, streaming_fn, status=200, headers=None,
content_type='text/plain'):
self.content_type = content_type
self.streaming_fn = streaming_fn
self.status = status
self.headers = CIMultiDict(headers or {})
self._cookies = None
def write(self, data):
"""Writes a chunk of data to the streaming response.
:param data: bytes-ish data to be written.
"""
if type(data) != bytes:
data = self._encode_body(data)
self.transport.write(
b"%x\r\n%b\r\n" % (len(data), data))
async def stream(
self, version="1.1", keep_alive=False, keep_alive_timeout=None):
"""Streams headers, runs the `streaming_fn` callback that writes
content to the response body, then finalizes the response body.
"""
headers = self.get_headers(
version, keep_alive=keep_alive,
keep_alive_timeout=keep_alive_timeout)
self.transport.write(headers)
await self.streaming_fn(self)
self.transport.write(b'0\r\n\r\n')
def get_headers(
self, version="1.1", keep_alive=False, keep_alive_timeout=None):
# This is all returned in a kind-of funky way
# We tried to make this as fast as possible in pure python
timeout_header = b''
if keep_alive and keep_alive_timeout is not None:
timeout_header = b'Keep-Alive: %d\r\n' % keep_alive_timeout
self.headers['Transfer-Encoding'] = 'chunked'
self.headers.pop('Content-Length', None)
self.headers['Content-Type'] = self.headers.get(
'Content-Type', self.content_type)
headers = self._parse_headers()
if self.status is 200:
status = b'OK'
else:
status = http.STATUS_CODES.get(self.status)
return (b'HTTP/%b %d %b\r\n'
b'%b'
b'%b\r\n') % (
version.encode(),
self.status,
status,
timeout_header,
headers
)
class HTTPResponse(BaseHTTPResponse):
__slots__ = ('body', 'status', 'content_type', 'headers', '_cookies')
def __init__(self, body=None, status=200, headers=None,
content_type='text/plain', body_bytes=b''):
self.content_type = content_type
if body is not None:
self.body = body.encode('utf-8')
self.body = self._encode_body(body)
else:
self.body = body_bytes
self.status = status
self.headers = headers or {}
self.headers = CIMultiDict(headers or {})
self._cookies = None
def output(self, version="1.1", keep_alive=False, keep_alive_timeout=None):
def output(
self, version="1.1", keep_alive=False, keep_alive_timeout=None):
# This is all returned in a kind-of funky way
# We tried to make this as fast as possible in pure python
timeout_header = b''
if keep_alive and keep_alive_timeout:
timeout_header = b'Keep-Alive: timeout=%d\r\n' % keep_alive_timeout
if keep_alive and keep_alive_timeout is not None:
timeout_header = b'Keep-Alive: %d\r\n' % keep_alive_timeout
body = b''
if http.has_message_body(self.status):
body = self.body
self.headers['Content-Length'] = self.headers.get(
'Content-Length', len(self.body))
self.headers['Content-Type'] = self.headers.get(
'Content-Type', self.content_type)
if self.status in (304, 412):
self.headers = http.remove_entity_headers(self.headers)
headers = self._parse_headers()
if self.status is 200:
status = b'OK'
else:
status = http.STATUS_CODES.get(self.status, b'UNKNOWN RESPONSE')
headers = b''
if self.headers:
headers = b''.join(
b'%b: %b\r\n' % (name.encode(), value.encode('utf-8'))
for name, value in self.headers.items()
)
return (b'HTTP/%b %d %b\r\n'
b'Content-Type: %b\r\n'
b'Content-Length: %d\r\n'
b'Connection: %b\r\n'
b'%b%b\r\n'
b'%b'
b'%b\r\n'
b'%b') % (
version.encode(),
self.status,
STATUS_CODES.get(self.status, b'FAIL'),
self.content_type.encode(),
len(self.body),
b'keep-alive' if keep_alive else b'close',
timeout_header,
headers,
self.body
)
version.encode(),
self.status,
status,
b'keep-alive' if keep_alive else b'close',
timeout_header,
headers,
body
)
@property
def cookies(self):
if self._cookies is None:
self._cookies = CookieJar(self.headers)
return self._cookies
def json(body, status=200, headers=None):
return HTTPResponse(ujson.dumps(body), headers=headers, status=status,
content_type="application/json; charset=utf-8")
def json(body, status=200, headers=None,
content_type="application/json", dumps=json_dumps,
**kwargs):
"""
Returns response object with body in json format.
:param body: Response data to be serialized.
:param status: Response code.
:param headers: Custom Headers.
:param kwargs: Remaining arguments that are passed to the json encoder.
"""
return HTTPResponse(dumps(body, **kwargs), headers=headers,
status=status, content_type=content_type)
def text(body, status=200, headers=None):
return HTTPResponse(body, status=status, headers=headers,
content_type="text/plain; charset=utf-8")
def text(body, status=200, headers=None,
content_type="text/plain; charset=utf-8"):
"""
Returns response object with body in text format.
:param body: Response data to be encoded.
:param status: Response code.
:param headers: Custom Headers.
:param content_type: the content type (string) of the response
"""
return HTTPResponse(
body, status=status, headers=headers,
content_type=content_type)
def raw(body, status=200, headers=None,
content_type="application/octet-stream"):
"""
Returns response object without encoding the body.
:param body: Response data.
:param status: Response code.
:param headers: Custom Headers.
:param content_type: the content type (string) of the response.
"""
return HTTPResponse(body_bytes=body, status=status, headers=headers,
content_type=content_type)
def html(body, status=200, headers=None):
"""
Returns response object with body in html format.
:param body: Response data to be encoded.
:param status: Response code.
:param headers: Custom Headers.
"""
return HTTPResponse(body, status=status, headers=headers,
content_type="text/html; charset=utf-8")
async def file(location, status=200, mime_type=None, headers=None,
filename=None, _range=None):
"""Return a response object with file data.
:param location: Location of file on system.
:param mime_type: Specific mime_type.
:param headers: Custom Headers.
:param filename: Override filename.
:param _range:
"""
headers = headers or {}
if filename:
headers.setdefault(
'Content-Disposition',
'attachment; filename="{}"'.format(filename))
filename = filename or path.split(location)[-1]
async with open_async(location, mode='rb') as _file:
if _range:
await _file.seek(_range.start)
out_stream = await _file.read(_range.size)
headers['Content-Range'] = 'bytes %s-%s/%s' % (
_range.start, _range.end, _range.total)
else:
out_stream = await _file.read()
mime_type = mime_type or guess_type(filename)[0] or 'text/plain'
return HTTPResponse(status=status,
headers=headers,
content_type=mime_type,
body_bytes=out_stream)
async def file_stream(location, status=200, chunk_size=4096, mime_type=None,
headers=None, filename=None, _range=None):
"""Return a streaming response object with file data.
:param location: Location of file on system.
:param chunk_size: The size of each chunk in the stream (in bytes)
:param mime_type: Specific mime_type.
:param headers: Custom Headers.
:param filename: Override filename.
:param _range:
"""
headers = headers or {}
if filename:
headers.setdefault(
'Content-Disposition',
'attachment; filename="{}"'.format(filename))
filename = filename or path.split(location)[-1]
_file = await open_async(location, mode='rb')
async def _streaming_fn(response):
nonlocal _file, chunk_size
try:
if _range:
chunk_size = min((_range.size, chunk_size))
await _file.seek(_range.start)
to_send = _range.size
while to_send > 0:
content = await _file.read(chunk_size)
if len(content) < 1:
break
to_send -= len(content)
response.write(content)
else:
while True:
content = await _file.read(chunk_size)
if len(content) < 1:
break
response.write(content)
finally:
await _file.close()
return # Returning from this fn closes the stream
mime_type = mime_type or guess_type(filename)[0] or 'text/plain'
if _range:
headers['Content-Range'] = 'bytes %s-%s/%s' % (
_range.start, _range.end, _range.total)
return StreamingHTTPResponse(streaming_fn=_streaming_fn,
status=status,
headers=headers,
content_type=mime_type)
def stream(
streaming_fn, status=200, headers=None,
content_type="text/plain; charset=utf-8"):
"""Accepts an coroutine `streaming_fn` which can be used to
write chunks to a streaming response. Returns a `StreamingHTTPResponse`.
Example usage::
@app.route("/")
async def index(request):
async def streaming_fn(response):
await response.write('foo')
await response.write('bar')
return stream(streaming_fn, content_type='text/plain')
:param streaming_fn: A coroutine accepts a response and
writes content to that response.
:param mime_type: Specific mime_type.
:param headers: Custom Headers.
"""
return StreamingHTTPResponse(
streaming_fn,
headers=headers,
content_type=content_type,
status=status
)
def redirect(to, headers=None, status=302,
content_type="text/html; charset=utf-8"):
"""Abort execution and cause a 302 redirect (by default).
:param to: path or fully qualified URL to redirect to
:param headers: optional dict of headers to include in the new request
:param status: status code (int) of the new request, defaults to 302
:param content_type: the content type (string) of the response
:returns: the redirecting Response
"""
headers = headers or {}
# URL Quote the URL before redirecting
safe_to = quote_plus(to, safe=":/#?&=@[]!$&'()*+,;")
# According to RFC 7231, a relative URI is now permitted.
headers['Location'] = safe_to
return HTTPResponse(
status=status,
headers=headers,
content_type=content_type)

View File

@ -1,146 +1,441 @@
import re
from collections import namedtuple
from .exceptions import NotFound, InvalidUsage
import uuid
from collections import defaultdict, namedtuple
from collections.abc import Iterable
from functools import lru_cache
from urllib.parse import unquote
Route = namedtuple("Route", ['handler', 'methods', 'pattern', 'parameters'])
Parameter = namedtuple("Parameter", ['name', 'cast'])
from sanic.exceptions import NotFound, MethodNotSupported
from sanic.views import CompositionView
Route = namedtuple(
'Route',
['handler', 'methods', 'pattern', 'parameters', 'name', 'uri'])
Parameter = namedtuple('Parameter', ['name', 'cast'])
REGEX_TYPES = {
'string': (str, r'[^/]+'),
'int': (int, r'\d+'),
'number': (float, r'[0-9\\.]+'),
'alpha': (str, r'[A-Za-z]+'),
'path': (str, r'[^/].*?'),
'uuid': (uuid.UUID, r'[A-Fa-f0-9]{8}-[A-Fa-f0-9]{4}-'
r'[A-Fa-f0-9]{4}-[A-Fa-f0-9]{4}-[A-Fa-f0-9]{12}')
}
ROUTER_CACHE_SIZE = 1024
def url_hash(url):
return url.count('/')
class RouteExists(Exception):
pass
class RouteDoesNotExist(Exception):
pass
class Router:
"""
Router supports basic routing with parameters and method checks
"""Router supports basic routing with parameters and method checks
Usage:
@sanic.route('/my/url/<my_parameter>', methods=['GET', 'POST', ...])
def my_route(request, my_parameter):
.. code-block:: python
@sanic.route('/my/url/<my_param>', methods=['GET', 'POST', ...])
def my_route(request, my_param):
do stuff...
or
.. code-block:: python
@sanic.route('/my/url/<my_param:my_type>', methods['GET', 'POST', ...])
def my_route_with_type(request, my_param: my_type):
do stuff...
Parameters will be passed as keyword arguments to the request handling
function provided Parameters can also have a type by appending :type to
the <parameter>. If no type is provided, a string is expected. A regular
expression can also be passed in as the type
TODO:
This probably needs optimization for larger sets of routes,
since it checks every route until it finds a match which is bad and
I should feel bad
function. Provided parameters can also have a type by appending :type to
the <parameter>. Given parameter must be able to be type-casted to this.
If no type is provided, a string is expected. A regular expression can
also be passed in as the type. The argument given to the function will
always be a string, independent of the type.
"""
routes = None
regex_types = {
"string": (None, "[^/]+"),
"int": (int, "\d+"),
"number": (float, "[0-9\\.]+"),
"alpha": (None, "[A-Za-z]+"),
}
routes_static = None
routes_dynamic = None
routes_always_check = None
parameter_pattern = re.compile(r'<(.+?)>')
def __init__(self):
self.routes = []
self.routes_all = {}
self.routes_names = {}
self.routes_static_files = {}
self.routes_static = {}
self.routes_dynamic = defaultdict(list)
self.routes_always_check = []
self.hosts = set()
def add(self, uri, methods, handler):
@classmethod
def parse_parameter_string(cls, parameter_string):
"""Parse a parameter string into its constituent name, type, and
pattern
For example::
parse_parameter_string('<param_one:[A-z]>')` ->
('param_one', str, '[A-z]')
:param parameter_string: String to parse
:return: tuple containing
(parameter_name, parameter_type, parameter_pattern)
"""
Adds a handler to the route list
:param uri: Path to match
:param methods: Array of accepted method names.
If none are provided, any method is allowed
:param handler: Request handler function.
When executed, it should provide a response object.
# We could receive NAME or NAME:PATTERN
name = parameter_string
pattern = 'string'
if ':' in parameter_string:
name, pattern = parameter_string.split(':', 1)
if not name:
raise ValueError(
"Invalid parameter syntax: {}".format(parameter_string)
)
default = (str, pattern)
# Pull from pre-configured types
_type, pattern = REGEX_TYPES.get(pattern, default)
return name, _type, pattern
def add(self, uri, methods, handler, host=None, strict_slashes=False,
version=None, name=None):
"""Add a handler to the route list
:param uri: path to match
:param methods: sequence of accepted method names. If none are
provided, any method is allowed
:param handler: request handler function.
When executed, it should provide a response object.
:param strict_slashes: strict to trailing slash
:param version: current version of the route or blueprint. See
docs for further details.
:return: Nothing
"""
if version is not None:
version = re.escape(str(version).strip('/').lstrip('v'))
uri = "/".join(["/v{}".format(version), uri.lstrip('/')])
# add regular version
self._add(uri, methods, handler, host, name)
if strict_slashes:
return
if not isinstance(host, str) and host is not None:
# we have gotten back to the top of the recursion tree where the
# host was originally a list. By now, we've processed the strict
# slashes logic on the leaf nodes (the individual host strings in
# the list of host)
return
# Add versions with and without trailing /
slashed_methods = self.routes_all.get(uri + '/', frozenset({}))
unslashed_methods = self.routes_all.get(uri[:-1], frozenset({}))
if isinstance(methods, Iterable):
_slash_is_missing = all(method in slashed_methods for
method in methods)
_without_slash_is_missing = all(method in unslashed_methods for
method in methods)
else:
_slash_is_missing = methods in slashed_methods
_without_slash_is_missing = methods in unslashed_methods
slash_is_missing = (
not uri[-1] == '/' and not _slash_is_missing
)
without_slash_is_missing = (
uri[-1] == '/' and not
_without_slash_is_missing and not
uri == '/'
)
# add version with trailing slash
if slash_is_missing:
self._add(uri + '/', methods, handler, host, name)
# add version without trailing slash
elif without_slash_is_missing:
self._add(uri[:-1], methods, handler, host, name)
def _add(self, uri, methods, handler, host=None, name=None):
"""Add a handler to the route list
:param uri: path to match
:param methods: sequence of accepted method names. If none are
provided, any method is allowed
:param handler: request handler function.
When executed, it should provide a response object.
:param name: user defined route name for url_for
:return: Nothing
"""
if host is not None:
if isinstance(host, str):
uri = host + uri
self.hosts.add(host)
else:
if not isinstance(host, Iterable):
raise ValueError("Expected either string or Iterable of "
"host strings, not {!r}".format(host))
for host_ in host:
self.add(uri, methods, handler, host_, name)
return
# Dict for faster lookups of if method allowed
methods_dict = None
if methods:
methods_dict = {method: True for method in methods}
methods = frozenset(methods)
parameters = []
properties = {"unhashable": None}
def add_parameter(match):
# We could receive NAME or NAME:PATTERN
parts = match.group(1).split(':')
if len(parts) == 2:
parameter_name, parameter_pattern = parts
else:
parameter_name = parts[0]
parameter_pattern = 'string'
name = match.group(1)
name, _type, pattern = self.parse_parameter_string(name)
# Pull from pre-configured types
parameter_regex = self.regex_types.get(parameter_pattern)
if parameter_regex:
parameter_type, parameter_pattern = parameter_regex
else:
parameter_type = None
parameter = Parameter(name=parameter_name, cast=parameter_type)
parameter = Parameter(
name=name, cast=_type)
parameters.append(parameter)
return "({})".format(parameter_pattern)
# Mark the whole route as unhashable if it has the hash key in it
if re.search(r'(^|[^^]){1}/', pattern):
properties['unhashable'] = True
# Mark the route as unhashable if it matches the hash key
elif re.search(r'/', pattern):
properties['unhashable'] = True
pattern_string = re.sub("<(.+?)>", add_parameter, uri)
pattern = re.compile("^{}$".format(pattern_string))
return '({})'.format(pattern)
route = Route(
handler=handler, methods=methods_dict, pattern=pattern,
parameters=parameters)
self.routes.append(route)
pattern_string = re.sub(self.parameter_pattern, add_parameter, uri)
pattern = re.compile(r'^{}$'.format(pattern_string))
def merge_route(route, methods, handler):
# merge to the existing route when possible.
if not route.methods or not methods:
# method-unspecified routes are not mergeable.
raise RouteExists(
"Route already registered: {}".format(uri))
elif route.methods.intersection(methods):
# already existing method is not overloadable.
duplicated = methods.intersection(route.methods)
raise RouteExists(
"Route already registered: {} [{}]".format(
uri, ','.join(list(duplicated))))
if isinstance(route.handler, CompositionView):
view = route.handler
else:
view = CompositionView()
view.add(route.methods, route.handler)
view.add(methods, handler)
route = route._replace(
handler=view, methods=methods.union(route.methods))
return route
if parameters:
# TODO: This is too complex, we need to reduce the complexity
if properties['unhashable']:
routes_to_check = self.routes_always_check
ndx, route = self.check_dynamic_route_exists(
pattern, routes_to_check, parameters)
else:
routes_to_check = self.routes_dynamic[url_hash(uri)]
ndx, route = self.check_dynamic_route_exists(
pattern, routes_to_check, parameters)
if ndx != -1:
# Pop the ndx of the route, no dups of the same route
routes_to_check.pop(ndx)
else:
route = self.routes_all.get(uri)
# prefix the handler name with the blueprint name
# if available
# special prefix for static files
is_static = False
if name and name.startswith('_static_'):
is_static = True
name = name.split('_static_', 1)[-1]
if hasattr(handler, '__blueprintname__'):
handler_name = '{}.{}'.format(
handler.__blueprintname__, name or handler.__name__)
else:
handler_name = name or getattr(handler, '__name__', None)
if route:
route = merge_route(route, methods, handler)
else:
route = Route(
handler=handler, methods=methods, pattern=pattern,
parameters=parameters, name=handler_name, uri=uri)
self.routes_all[uri] = route
if is_static:
pair = self.routes_static_files.get(handler_name)
if not (pair and (pair[0] + '/' == uri or uri + '/' == pair[0])):
self.routes_static_files[handler_name] = (uri, route)
else:
pair = self.routes_names.get(handler_name)
if not (pair and (pair[0] + '/' == uri or uri + '/' == pair[0])):
self.routes_names[handler_name] = (uri, route)
if properties['unhashable']:
self.routes_always_check.append(route)
elif parameters:
self.routes_dynamic[url_hash(uri)].append(route)
else:
self.routes_static[uri] = route
@staticmethod
def check_dynamic_route_exists(pattern, routes_to_check, parameters):
for ndx, route in enumerate(routes_to_check):
if route.pattern == pattern and route.parameters == parameters:
return ndx, route
else:
return -1, None
def remove(self, uri, clean_cache=True, host=None):
if host is not None:
uri = host + uri
try:
route = self.routes_all.pop(uri)
for handler_name, pairs in self.routes_names.items():
if pairs[0] == uri:
self.routes_names.pop(handler_name)
break
for handler_name, pairs in self.routes_static_files.items():
if pairs[0] == uri:
self.routes_static_files.pop(handler_name)
break
except KeyError:
raise RouteDoesNotExist("Route was not registered: {}".format(uri))
if route in self.routes_always_check:
self.routes_always_check.remove(route)
elif url_hash(uri) in self.routes_dynamic \
and route in self.routes_dynamic[url_hash(uri)]:
self.routes_dynamic[url_hash(uri)].remove(route)
else:
self.routes_static.pop(uri)
if clean_cache:
self._get.cache_clear()
@lru_cache(maxsize=ROUTER_CACHE_SIZE)
def find_route_by_view_name(self, view_name, name=None):
"""Find a route in the router based on the specified view name.
:param view_name: string of view name to search by
:param kwargs: additional params, usually for static files
:return: tuple containing (uri, Route)
"""
if not view_name:
return (None, None)
if view_name == 'static' or view_name.endswith('.static'):
return self.routes_static_files.get(name, (None, None))
return self.routes_names.get(view_name, (None, None))
def get(self, request):
"""
Gets a request handler based on the URL of the request, or raises an
"""Get a request handler based on the URL of the request, or raises an
error
:param request: Request object
:return: handler, arguments, keyword arguments
"""
# No virtual hosts specified; default behavior
if not self.hosts:
return self._get(request.path, request.method, '')
# virtual hosts specified; try to match route to the host header
try:
return self._get(request.path, request.method,
request.headers.get("Host", ''))
# try default hosts
except NotFound:
return self._get(request.path, request.method, '')
route = None
args = []
kwargs = {}
for _route in self.routes:
match = _route.pattern.match(request.url)
if match:
for index, parameter in enumerate(_route.parameters, start=1):
value = match.group(index)
if parameter.cast:
kwargs[parameter.name] = parameter.cast(value)
else:
kwargs[parameter.name] = value
route = _route
break
def get_supported_methods(self, url):
"""Get a list of supported methods for a url and optional host.
:param url: URL string (including host)
:return: frozenset of supported methods
"""
route = self.routes_all.get(url)
# if methods are None then this logic will prevent an error
return getattr(route, 'methods', None) or frozenset()
@lru_cache(maxsize=ROUTER_CACHE_SIZE)
def _get(self, url, method, host):
"""Get a request handler based on the URL of the request, or raises an
error. Internal method for caching.
:param url: request URL
:param method: request method
:return: handler, arguments, keyword arguments
"""
url = unquote(host + url)
# Check against known static routes
route = self.routes_static.get(url)
method_not_supported = MethodNotSupported(
'Method {} not allowed for URL {}'.format(method, url),
method=method,
allowed_methods=self.get_supported_methods(url))
if route:
if route.methods and request.method not in route.methods:
raise InvalidUsage(
"Method {} not allowed for URL {}".format(
request.method, request.url), status_code=405)
return route.handler, args, kwargs
if route.methods and method not in route.methods:
raise method_not_supported
match = route.pattern.match(url)
else:
raise NotFound("Requested URL {} not found".format(request.url))
route_found = False
# Move on to testing all regex routes
for route in self.routes_dynamic[url_hash(url)]:
match = route.pattern.match(url)
route_found |= match is not None
# Do early method checking
if match and method in route.methods:
break
else:
# Lastly, check against all regex routes that cannot be hashed
for route in self.routes_always_check:
match = route.pattern.match(url)
route_found |= match is not None
# Do early method checking
if match and method in route.methods:
break
else:
# Route was found but the methods didn't match
if route_found:
raise method_not_supported
raise NotFound('Requested URL {} not found'.format(url))
kwargs = {p.name: p.cast(value)
for value, p
in zip(match.groups(1), route.parameters)}
route_handler = route.handler
if hasattr(route_handler, 'handlers'):
route_handler = route_handler.handlers[method]
return route_handler, [], kwargs, route.uri
class SimpleRouter:
"""
Simple router records and reads all routes from a dictionary
It does not support parameters in routes, but is very fast
"""
routes = None
def __init__(self):
self.routes = {}
def add(self, uri, methods, handler):
# Dict for faster lookups of method allowed
methods_dict = None
if methods:
methods_dict = {method: True for method in methods}
self.routes[uri] = Route(
handler=handler, methods=methods_dict, pattern=uri,
parameters=None)
def get(self, request):
route = self.routes.get(request.url)
if route:
if route.methods and request.method not in route.methods:
raise InvalidUsage(
"Method {} not allowed for URL {}".format(
request.method, request.url), status_code=405)
return route.handler, [], {}
else:
raise NotFound("Requested URL {} not found".format(request.url))
def is_stream_handler(self, request):
""" Handler for request is stream or not.
:param request: Request object
:return: bool
"""
try:
handler = self.get(request)[0]
except (NotFound, MethodNotSupported):
return False
if (hasattr(handler, 'view_class') and
hasattr(handler.view_class, request.method.lower())):
handler = getattr(handler.view_class, request.method.lower())
return hasattr(handler, 'is_stream')

View File

@ -1,213 +0,0 @@
import asyncio
from inspect import isawaitable
from traceback import format_exc
from .config import Config
from .exceptions import Handler
from .log import log, logging
from .response import HTTPResponse
from .router import Router
from .server import serve
from .exceptions import ServerError
class Sanic:
def __init__(self, name, router=None, error_handler=None):
self.name = name
self.router = router or Router()
self.error_handler = error_handler or Handler(self)
self.config = Config()
self.request_middleware = []
self.response_middleware = []
self.blueprints = {}
self._blueprint_order = []
# -------------------------------------------------------------------- #
# Registration
# -------------------------------------------------------------------- #
# Decorator
def route(self, uri, methods=None):
"""
Decorates a function to be registered as a route
:param uri: path of the URL
:param methods: list or tuple of methods allowed
:return: decorated function
"""
def response(handler):
self.router.add(uri=uri, methods=methods, handler=handler)
return handler
return response
# Decorator
def exception(self, *exceptions):
"""
Decorates a function to be registered as a route
:param uri: path of the URL
:param methods: list or tuple of methods allowed
:return: decorated function
"""
def response(handler):
for exception in exceptions:
self.error_handler.add(exception, handler)
return handler
return response
# Decorator
def middleware(self, *args, **kwargs):
"""
Decorates and registers middleware to be called before a request
can either be called as @app.middleware or @app.middleware('request')
"""
attach_to = 'request'
def register_middleware(middleware):
if attach_to == 'request':
self.request_middleware.append(middleware)
if attach_to == 'response':
self.response_middleware.append(middleware)
return middleware
# Detect which way this was called, @middleware or @middleware('AT')
if len(args) == 1 and len(kwargs) == 0 and callable(args[0]):
return register_middleware(args[0])
else:
attach_to = args[0]
return register_middleware
def register_blueprint(self, blueprint, **options):
"""
Registers a blueprint on the application.
:param blueprint: Blueprint object
:param options: option dictionary with blueprint defaults
:return: Nothing
"""
if blueprint.name in self.blueprints:
assert self.blueprints[blueprint.name] is blueprint, \
'A blueprint with the name "%s" is already registered. ' \
'Blueprint names must be unique.' % \
(blueprint.name,)
else:
self.blueprints[blueprint.name] = blueprint
self._blueprint_order.append(blueprint)
blueprint.register(self, options)
# -------------------------------------------------------------------- #
# Request Handling
# -------------------------------------------------------------------- #
async def handle_request(self, request, response_callback):
"""
Takes a request from the HTTP Server and returns a response object to
be sent back The HTTP Server only expects a response object, so
exception handling must be done here
:param request: HTTP Request object
:param response_callback: Response function to be called with the
response as the only argument
:return: Nothing
"""
try:
# Middleware process_request
response = False
# The if improves speed. I don't know why
if self.request_middleware:
for middleware in self.request_middleware:
response = middleware(request)
if isawaitable(response):
response = await response
if response:
break
# No middleware results
if not response:
# Fetch handler from router
handler, args, kwargs = self.router.get(request)
if handler is None:
raise ServerError(
("'None' was returned while requesting a "
"handler from the router"))
# Run response handler
response = handler(request, *args, **kwargs)
if isawaitable(response):
response = await response
# Middleware process_response
if self.response_middleware:
for middleware in self.response_middleware:
_response = middleware(request, response)
if isawaitable(_response):
_response = await _response
if _response:
response = _response
break
except Exception as e:
try:
response = self.error_handler.response(request, e)
if isawaitable(response):
response = await response
except Exception as e:
if self.debug:
response = HTTPResponse(
"Error while handling error: {}\nStack: {}".format(
e, format_exc()))
else:
response = HTTPResponse(
"An error occured while handling an error")
response_callback(response)
# -------------------------------------------------------------------- #
# Execution
# -------------------------------------------------------------------- #
def run(self, host="127.0.0.1", port=8000, debug=False, after_start=None,
before_stop=None):
"""
Runs the HTTP Server and listens until keyboard interrupt or term
signal. On termination, drains connections before closing.
:param host: Address to host on
:param port: Port to host on
:param debug: Enables debug output (slows server)
:param after_start: Function to be executed after the server starts
listening
:param before_stop: Function to be executed when a stop signal is
received before it is respected
:return: Nothing
"""
self.error_handler.debug = True
self.debug = debug
if debug:
log.setLevel(logging.DEBUG)
log.debug(self.config.LOGO)
# Serve
log.info('Goin\' Fast @ http://{}:{}'.format(host, port))
try:
serve(
host=host,
port=port,
debug=debug,
after_start=after_start,
before_stop=before_stop,
request_handler=self.handle_request,
request_timeout=self.config.REQUEST_TIMEOUT,
request_max_size=self.config.REQUEST_MAX_SIZE,
)
except Exception as e:
log.exception(
'Experienced exception while trying to serve: {}'.format(e))
pass
def stop(self):
"""
This kills the Sanic
"""
asyncio.get_event_loop().stop()

View File

@ -1,16 +1,39 @@
import asyncio
import os
import traceback
from functools import partial
from inspect import isawaitable
from signal import SIGINT, SIGTERM
from multiprocessing import Process
from signal import (
SIGTERM, SIGINT, SIG_IGN,
signal as signal_func,
Signals
)
from socket import (
socket,
SOL_SOCKET,
SO_REUSEADDR,
)
from time import time
import httptools
from httptools import HttpRequestParser
from httptools.parser.errors import HttpParserError
from multidict import CIMultiDict
try:
import uvloop as async_loop
import uvloop
asyncio.set_event_loop_policy(uvloop.EventLoopPolicy())
except ImportError:
async_loop = asyncio
pass
from .log import log
from .request import Request
from sanic.log import logger, access_logger
from sanic.response import HTTPResponse
from sanic.request import Request
from sanic.exceptions import (
RequestTimeout, PayloadTooLarge, InvalidUsage, ServerError,
ServiceUnavailable)
current_time = None
class Signal:
@ -24,48 +47,141 @@ class HttpProtocol(asyncio.Protocol):
# request params
'parser', 'request', 'url', 'headers',
# request config
'request_handler', 'request_timeout', 'request_max_size',
'request_handler', 'request_timeout', 'response_timeout',
'keep_alive_timeout', 'request_max_size', 'request_class',
'is_request_stream', 'router',
# enable or disable access log purpose
'access_log',
# connection management
'_total_request_size', '_timeout_handler')
'_total_request_size', '_request_timeout_handler',
'_response_timeout_handler', '_keep_alive_timeout_handler',
'_last_request_time', '_last_response_time', '_is_stream_handler')
def __init__(self, *, loop, request_handler, signal=Signal(),
connections={}, request_timeout=60,
request_max_size=None):
def __init__(self, *, loop, request_handler, error_handler,
signal=Signal(), connections=set(), request_timeout=60,
response_timeout=60, keep_alive_timeout=5,
request_max_size=None, request_class=None, access_log=True,
keep_alive=True, is_request_stream=False, router=None,
state=None, debug=False, **kwargs):
self.loop = loop
self.transport = None
self.request = None
self.parser = None
self.url = None
self.headers = None
self.router = router
self.signal = signal
self.access_log = access_log
self.connections = connections
self.request_handler = request_handler
self.error_handler = error_handler
self.request_timeout = request_timeout
self.response_timeout = response_timeout
self.keep_alive_timeout = keep_alive_timeout
self.request_max_size = request_max_size
self.request_class = request_class or Request
self.is_request_stream = is_request_stream
self._is_stream_handler = False
self._total_request_size = 0
self._timeout_handler = None
self._request_timeout_handler = None
self._response_timeout_handler = None
self._keep_alive_timeout_handler = None
self._last_request_time = None
self._last_response_time = None
self._request_handler_task = None
self._request_stream_task = None
self._keep_alive = keep_alive
self._header_fragment = b''
self.state = state if state else {}
if 'requests_count' not in self.state:
self.state['requests_count'] = 0
self._debug = debug
# -------------------------------------------- #
@property
def keep_alive(self):
return (
self._keep_alive and
not self.signal.stopped and
self.parser.should_keep_alive())
# -------------------------------------------- #
# Connection
# -------------------------------------------- #
def connection_made(self, transport):
self.connections[self] = True
self._timeout_handler = self.loop.call_later(
self.request_timeout, self.connection_timeout)
self.connections.add(self)
self._request_timeout_handler = self.loop.call_later(
self.request_timeout, self.request_timeout_callback)
self.transport = transport
self._last_request_time = current_time
def connection_lost(self, exc):
del self.connections[self]
self._timeout_handler.cancel()
self.cleanup()
self.connections.discard(self)
if self._request_timeout_handler:
self._request_timeout_handler.cancel()
if self._response_timeout_handler:
self._response_timeout_handler.cancel()
if self._keep_alive_timeout_handler:
self._keep_alive_timeout_handler.cancel()
def connection_timeout(self):
self.bail_out("Request timed out, connection closed")
def request_timeout_callback(self):
# See the docstring in the RequestTimeout exception, to see
# exactly what this timeout is checking for.
# Check if elapsed time since request initiated exceeds our
# configured maximum request timeout value
time_elapsed = current_time - self._last_request_time
if time_elapsed < self.request_timeout:
time_left = self.request_timeout - time_elapsed
self._request_timeout_handler = (
self.loop.call_later(time_left,
self.request_timeout_callback)
)
else:
if self._request_stream_task:
self._request_stream_task.cancel()
if self._request_handler_task:
self._request_handler_task.cancel()
try:
raise RequestTimeout('Request Timeout')
except RequestTimeout as exception:
self.write_error(exception)
# -------------------------------------------- #
def response_timeout_callback(self):
# Check if elapsed time since response was initiated exceeds our
# configured maximum request timeout value
time_elapsed = current_time - self._last_request_time
if time_elapsed < self.response_timeout:
time_left = self.response_timeout - time_elapsed
self._response_timeout_handler = (
self.loop.call_later(time_left,
self.response_timeout_callback)
)
else:
if self._request_stream_task:
self._request_stream_task.cancel()
if self._request_handler_task:
self._request_handler_task.cancel()
try:
raise ServiceUnavailable('Response Timeout')
except ServiceUnavailable as exception:
self.write_error(exception)
def keep_alive_timeout_callback(self):
# Check if elapsed time since last response exceeds our configured
# maximum keep alive timeout value
time_elapsed = current_time - self._last_response_time
if time_elapsed < self.keep_alive_timeout:
time_left = self.keep_alive_timeout - time_elapsed
self._keep_alive_timeout_handler = (
self.loop.call_later(time_left,
self.keep_alive_timeout_callback)
)
else:
logger.debug('KeepAlive Timeout. Closing connection.')
self.transport.close()
self.transport = None
# -------------------------------------------- #
# Parsing
# -------------------------------------------- #
@ -74,81 +190,263 @@ class HttpProtocol(asyncio.Protocol):
# memory limits
self._total_request_size += len(data)
if self._total_request_size > self.request_max_size:
return self.bail_out(
"Request too large ({}), connection closed".format(
self._total_request_size))
exception = PayloadTooLarge('Payload Too Large')
self.write_error(exception)
# Create parser if this is the first time we're receiving data
if self.parser is None:
assert self.request is None
self.headers = []
self.parser = httptools.HttpRequestParser(self)
self.parser = HttpRequestParser(self)
# requests count
self.state['requests_count'] = self.state['requests_count'] + 1
# Parse request chunk or close connection
try:
self.parser.feed_data(data)
except httptools.parser.errors.HttpParserError as e:
self.bail_out(
"Invalid request data, connection closed ({})".format(e))
except HttpParserError:
message = 'Bad Request'
if self._debug:
message += '\n' + traceback.format_exc()
exception = InvalidUsage(message)
self.write_error(exception)
def on_url(self, url):
self.url = url
if not self.url:
self.url = url
else:
self.url += url
def on_header(self, name, value):
if name == b'Content-Length' and int(value) > self.request_max_size:
return self.bail_out(
"Request body too large ({}), connection closed".format(value))
self._header_fragment += name
self.headers.append((name.decode(), value.decode('utf-8')))
if value is not None:
if self._header_fragment == b'Content-Length' \
and int(value) > self.request_max_size:
exception = PayloadTooLarge('Payload Too Large')
self.write_error(exception)
try:
value = value.decode()
except UnicodeDecodeError:
value = value.decode('latin_1')
self.headers.append(
(self._header_fragment.decode().casefold(), value))
self._header_fragment = b''
def on_headers_complete(self):
self.request = Request(
self.request = self.request_class(
url_bytes=self.url,
headers=dict(self.headers),
headers=CIMultiDict(self.headers),
version=self.parser.get_http_version(),
method=self.parser.get_method().decode()
method=self.parser.get_method().decode(),
transport=self.transport
)
# Remove any existing KeepAlive handler here,
# It will be recreated if required on the new request.
if self._keep_alive_timeout_handler:
self._keep_alive_timeout_handler.cancel()
self._keep_alive_timeout_handler = None
if self.is_request_stream:
self._is_stream_handler = self.router.is_stream_handler(
self.request)
if self._is_stream_handler:
self.request.stream = asyncio.Queue()
self.execute_request_handler()
def on_body(self, body):
self.request.body = body
if self.is_request_stream and self._is_stream_handler:
self._request_stream_task = self.loop.create_task(
self.request.stream.put(body))
return
self.request.body.append(body)
def on_message_complete(self):
self.loop.create_task(
self.request_handler(self.request, self.write_response))
# Entire request (headers and whole body) is received.
# We can cancel and remove the request timeout handler now.
if self._request_timeout_handler:
self._request_timeout_handler.cancel()
self._request_timeout_handler = None
if self.is_request_stream and self._is_stream_handler:
self._request_stream_task = self.loop.create_task(
self.request.stream.put(None))
return
self.request.body = b''.join(self.request.body)
self.execute_request_handler()
def execute_request_handler(self):
self._response_timeout_handler = self.loop.call_later(
self.response_timeout, self.response_timeout_callback)
self._last_request_time = current_time
self._request_handler_task = self.loop.create_task(
self.request_handler(
self.request,
self.write_response,
self.stream_response))
# -------------------------------------------- #
# Responding
# -------------------------------------------- #
def log_response(self, response):
if self.access_log:
extra = {
'status': getattr(response, 'status', 0),
}
if isinstance(response, HTTPResponse):
extra['byte'] = len(response.body)
else:
extra['byte'] = -1
extra['host'] = 'UNKNOWN'
if self.request is not None:
if self.request.ip:
extra['host'] = '{0}:{1}'.format(self.request.ip,
self.request.port)
extra['request'] = '{0} {1}'.format(self.request.method,
self.request.url)
else:
extra['request'] = 'nil'
access_logger.info('', extra=extra)
def write_response(self, response):
"""
Writes response content synchronously to the transport.
"""
if self._response_timeout_handler:
self._response_timeout_handler.cancel()
self._response_timeout_handler = None
try:
keep_alive = all(
[self.parser.should_keep_alive(), self.signal.stopped])
keep_alive = self.keep_alive
self.transport.write(
response.output(
self.request.version, keep_alive, self.request_timeout))
if not keep_alive:
self.transport.close()
else:
self.cleanup()
self.request.version, keep_alive,
self.keep_alive_timeout))
self.log_response(response)
except AttributeError:
logger.error('Invalid response object for url %s, '
'Expected Type: HTTPResponse, Actual Type: %s',
self.url, type(response))
self.write_error(ServerError('Invalid response type'))
except RuntimeError:
if self._debug:
logger.error('Connection lost before response written @ %s',
self.request.ip)
keep_alive = False
except Exception as e:
self.bail_out(
"Writing request failed, connection closed {}".format(e))
"Writing response failed, connection closed {}".format(
repr(e)))
finally:
if not keep_alive:
self.transport.close()
self.transport = None
else:
self._keep_alive_timeout_handler = self.loop.call_later(
self.keep_alive_timeout,
self.keep_alive_timeout_callback)
self._last_response_time = current_time
self.cleanup()
def bail_out(self, message):
log.error(message)
self.transport.close()
async def stream_response(self, response):
"""
Streams a response to the client asynchronously. Attaches
the transport to the response so the response consumer can
write to the response as needed.
"""
if self._response_timeout_handler:
self._response_timeout_handler.cancel()
self._response_timeout_handler = None
try:
keep_alive = self.keep_alive
response.transport = self.transport
await response.stream(
self.request.version, keep_alive, self.keep_alive_timeout)
self.log_response(response)
except AttributeError:
logger.error('Invalid response object for url %s, '
'Expected Type: HTTPResponse, Actual Type: %s',
self.url, type(response))
self.write_error(ServerError('Invalid response type'))
except RuntimeError:
if self._debug:
logger.error('Connection lost before response written @ %s',
self.request.ip)
keep_alive = False
except Exception as e:
self.bail_out(
"Writing response failed, connection closed {}".format(
repr(e)))
finally:
if not keep_alive:
self.transport.close()
self.transport = None
else:
self._keep_alive_timeout_handler = self.loop.call_later(
self.keep_alive_timeout,
self.keep_alive_timeout_callback)
self._last_response_time = current_time
self.cleanup()
def write_error(self, exception):
# An error _is_ a response.
# Don't throw a response timeout, when a response _is_ given.
if self._response_timeout_handler:
self._response_timeout_handler.cancel()
self._response_timeout_handler = None
response = None
try:
response = self.error_handler.response(self.request, exception)
version = self.request.version if self.request else '1.1'
self.transport.write(response.output(version))
except RuntimeError:
if self._debug:
logger.error('Connection lost before error written @ %s',
self.request.ip if self.request else 'Unknown')
except Exception as e:
self.bail_out(
"Writing error failed, connection closed {}".format(
repr(e)), from_error=True
)
finally:
if self.parser and (self.keep_alive
or getattr(response, 'status', 0) == 408):
self.log_response(response)
try:
self.transport.close()
except AttributeError as e:
logger.debug('Connection lost before server could close it.')
def bail_out(self, message, from_error=False):
if from_error or self.transport.is_closing():
logger.error("Transport closed @ %s and exception "
"experienced during error handling",
self.transport.get_extra_info('peername'))
logger.debug('Exception:\n%s', traceback.format_exc())
else:
exception = ServerError(message)
self.write_error(exception)
logger.error(message)
def cleanup(self):
"""This is called when KeepAlive feature is used,
it resets the connection in order for it to be able
to handle receiving another request on the same connection."""
self.parser = None
self.request = None
self.url = None
self.headers = None
self._request_handler_task = None
self._request_stream_task = None
self._total_request_size = 0
self._is_stream_handler = False
def close_if_idle(self):
"""
Close the connection if a request is not being sent or received
"""Close the connection if a request is not being sent or received
:return: boolean - True if closed, false if staying open
"""
if not self.parser:
@ -156,53 +454,174 @@ class HttpProtocol(asyncio.Protocol):
return True
return False
def close(self):
"""
Force close the connection.
"""
if self.transport is not None:
self.transport.close()
self.transport = None
def serve(host, port, request_handler, after_start=None, before_stop=None,
debug=False, request_timeout=60,
request_max_size=None):
# Create Event Loop
loop = async_loop.new_event_loop()
asyncio.set_event_loop(loop)
# I don't think we take advantage of this
# And it slows everything waaayyy down
# loop.set_debug(debug)
connections = {}
signal = Signal()
server_coroutine = loop.create_server(lambda: HttpProtocol(
def update_current_time(loop):
"""Cache the current time, since it is needed at the end of every
keep-alive request to update the request timeout time
:param loop:
:return:
"""
global current_time
current_time = time()
loop.call_later(1, partial(update_current_time, loop))
def trigger_events(events, loop):
"""Trigger event callbacks (functions or async)
:param events: one or more sync or async functions to execute
:param loop: event loop
"""
for event in events:
result = event(loop)
if isawaitable(result):
loop.run_until_complete(result)
def serve(host, port, request_handler, error_handler, before_start=None,
after_start=None, before_stop=None, after_stop=None, debug=False,
request_timeout=60, response_timeout=60, keep_alive_timeout=5,
ssl=None, sock=None, request_max_size=None, reuse_port=False,
loop=None, protocol=HttpProtocol, backlog=100,
register_sys_signals=True, run_multiple=False, run_async=False,
connections=None, signal=Signal(), request_class=None,
access_log=True, keep_alive=True, is_request_stream=False,
router=None, websocket_max_size=None, websocket_max_queue=None,
websocket_read_limit=2 ** 16, websocket_write_limit=2 ** 16,
state=None, graceful_shutdown_timeout=15.0):
"""Start asynchronous HTTP Server on an individual process.
:param host: Address to host on
:param port: Port to host on
:param request_handler: Sanic request handler with middleware
:param error_handler: Sanic error handler with middleware
:param before_start: function to be executed before the server starts
listening. Takes arguments `app` instance and `loop`
:param after_start: function to be executed after the server starts
listening. Takes arguments `app` instance and `loop`
:param before_stop: function to be executed when a stop signal is
received before it is respected. Takes arguments
`app` instance and `loop`
:param after_stop: function to be executed when a stop signal is
received after it is respected. Takes arguments
`app` instance and `loop`
:param debug: enables debug output (slows server)
:param request_timeout: time in seconds
:param response_timeout: time in seconds
:param keep_alive_timeout: time in seconds
:param ssl: SSLContext
:param sock: Socket for the server to accept connections from
:param request_max_size: size in bytes, `None` for no limit
:param reuse_port: `True` for multiple workers
:param loop: asyncio compatible event loop
:param protocol: subclass of asyncio protocol class
:param request_class: Request class to use
:param access_log: disable/enable access log
:param websocket_max_size: enforces the maximum size for
incoming messages in bytes.
:param websocket_max_queue: sets the maximum length of the queue
that holds incoming messages.
:param websocket_read_limit: sets the high-water limit of the buffer for
incoming bytes, the low-water limit is half
the high-water limit.
:param websocket_write_limit: sets the high-water limit of the buffer for
outgoing bytes, the low-water limit is a
quarter of the high-water limit.
:param is_request_stream: disable/enable Request.stream
:param router: Router object
:return: Nothing
"""
if not run_async:
# create new event_loop after fork
loop = asyncio.new_event_loop()
asyncio.set_event_loop(loop)
if debug:
loop.set_debug(debug)
connections = connections if connections is not None else set()
server = partial(
protocol,
loop=loop,
connections=connections,
signal=signal,
request_handler=request_handler,
error_handler=error_handler,
request_timeout=request_timeout,
response_timeout=response_timeout,
keep_alive_timeout=keep_alive_timeout,
request_max_size=request_max_size,
), host, port)
request_class=request_class,
access_log=access_log,
keep_alive=keep_alive,
is_request_stream=is_request_stream,
router=router,
websocket_max_size=websocket_max_size,
websocket_max_queue=websocket_max_queue,
websocket_read_limit=websocket_read_limit,
websocket_write_limit=websocket_write_limit,
state=state,
debug=debug,
)
server_coroutine = loop.create_server(
server,
host,
port,
ssl=ssl,
reuse_port=reuse_port,
sock=sock,
backlog=backlog
)
# Instead of pulling time at the end of every request,
# pull it once per minute
loop.call_soon(partial(update_current_time, loop))
if run_async:
return server_coroutine
trigger_events(before_start, loop)
try:
http_server = loop.run_until_complete(server_coroutine)
except Exception as e:
log.error("Unable to start server: {}".format(e))
except BaseException:
logger.exception("Unable to start server")
return
# Run the on_start function if provided
if after_start:
result = after_start(loop)
if isawaitable(result):
loop.run_until_complete(result)
trigger_events(after_start, loop)
# Ignore SIGINT when run_multiple
if run_multiple:
signal_func(SIGINT, SIG_IGN)
# Register signals for graceful termination
for _signal in (SIGINT, SIGTERM):
loop.add_signal_handler(_signal, loop.stop)
if register_sys_signals:
_singals = (SIGTERM,) if run_multiple else (SIGINT, SIGTERM)
for _signal in _singals:
try:
loop.add_signal_handler(_signal, loop.stop)
except NotImplementedError:
logger.warning('Sanic tried to use loop.add_signal_handler '
'but it is not implemented on this platform.')
pid = os.getpid()
try:
logger.info('Starting worker [%s]', pid)
loop.run_forever()
finally:
log.info("Stop requested, draining connections...")
logger.info("Stopping worker [%s]", pid)
# Run the on_stop function if provided
if before_stop:
result = before_stop(loop)
if isawaitable(result):
loop.run_until_complete(result)
trigger_events(before_stop, loop)
# Wait for event loop to finish and all connections to drain
http_server.close()
@ -210,11 +629,79 @@ def serve(host, port, request_handler, after_start=None, before_stop=None,
# Complete all tasks on the loop
signal.stopped = True
for connection in connections.keys():
for connection in connections:
connection.close_if_idle()
while connections:
# Gracefully shutdown timeout.
# We should provide graceful_shutdown_timeout,
# instead of letting connection hangs forever.
# Let's roughly calcucate time.
start_shutdown = 0
while connections and (start_shutdown < graceful_shutdown_timeout):
loop.run_until_complete(asyncio.sleep(0.1))
start_shutdown = start_shutdown + 0.1
# Force close non-idle connection after waiting for
# graceful_shutdown_timeout
coros = []
for conn in connections:
if hasattr(conn, "websocket") and conn.websocket:
coros.append(
conn.websocket.close_connection()
)
else:
conn.close()
_shutdown = asyncio.gather(*coros, loop=loop)
loop.run_until_complete(_shutdown)
trigger_events(after_stop, loop)
loop.close()
log.info("Server Stopped")
def serve_multiple(server_settings, workers):
"""Start multiple server processes simultaneously. Stop on interrupt
and terminate signals, and drain connections when complete.
:param server_settings: kw arguments to be passed to the serve function
:param workers: number of workers to launch
:param stop_event: if provided, is used as a stop signal
:return:
"""
server_settings['reuse_port'] = True
server_settings['run_multiple'] = True
# Handling when custom socket is not provided.
if server_settings.get('sock') is None:
sock = socket()
sock.setsockopt(SOL_SOCKET, SO_REUSEADDR, 1)
sock.bind((server_settings['host'], server_settings['port']))
sock.set_inheritable(True)
server_settings['sock'] = sock
server_settings['host'] = None
server_settings['port'] = None
def sig_handler(signal, frame):
logger.info("Received signal %s. Shutting down.", Signals(signal).name)
for process in processes:
os.kill(process.pid, SIGTERM)
signal_func(SIGINT, lambda s, f: sig_handler(s, f))
signal_func(SIGTERM, lambda s, f: sig_handler(s, f))
processes = []
for _ in range(workers):
process = Process(target=serve, kwargs=server_settings)
process.daemon = True
process.start()
processes.append(process)
for process in processes:
process.join()
# the above processes will block this until they're stopped
for process in processes:
process.terminate()
server_settings.get('sock').close()

128
sanic/static.py Normal file
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@ -0,0 +1,128 @@
from mimetypes import guess_type
from os import path
from re import sub
from time import strftime, gmtime
from urllib.parse import unquote
from aiofiles.os import stat
from sanic.exceptions import (
ContentRangeError,
FileNotFound,
HeaderNotFound,
InvalidUsage,
)
from sanic.handlers import ContentRangeHandler
from sanic.response import file, file_stream, HTTPResponse
def register(app, uri, file_or_directory, pattern,
use_modified_since, use_content_range,
stream_large_files, name='static', host=None,
strict_slashes=None, content_type=None):
# TODO: Though sanic is not a file server, I feel like we should at least
# make a good effort here. Modified-since is nice, but we could
# also look into etags, expires, and caching
"""
Register a static directory handler with Sanic by adding a route to the
router and registering a handler.
:param app: Sanic
:param file_or_directory: File or directory path to serve from
:param uri: URL to serve from
:param pattern: regular expression used to match files in the URL
:param use_modified_since: If true, send file modified time, and return
not modified if the browser's matches the
server's
:param use_content_range: If true, process header for range requests
and sends the file part that is requested
:param stream_large_files: If true, use the file_stream() handler rather
than the file() handler to send the file
If this is an integer, this represents the
threshold size to switch to file_stream()
:param name: user defined name used for url_for
:param content_type: user defined content type for header
"""
# If we're not trying to match a file directly,
# serve from the folder
if not path.isfile(file_or_directory):
uri += '<file_uri:' + pattern + '>'
async def _handler(request, file_uri=None):
# Using this to determine if the URL is trying to break out of the path
# served. os.path.realpath seems to be very slow
if file_uri and '../' in file_uri:
raise InvalidUsage("Invalid URL")
# Merge served directory and requested file if provided
# Strip all / that in the beginning of the URL to help prevent python
# from herping a derp and treating the uri as an absolute path
root_path = file_path = file_or_directory
if file_uri:
file_path = path.join(
file_or_directory, sub('^[/]*', '', file_uri))
# URL decode the path sent by the browser otherwise we won't be able to
# match filenames which got encoded (filenames with spaces etc)
file_path = path.abspath(unquote(file_path))
if not file_path.startswith(path.abspath(unquote(root_path))):
raise FileNotFound('File not found',
path=file_or_directory,
relative_url=file_uri)
try:
headers = {}
# Check if the client has been sent this file before
# and it has not been modified since
stats = None
if use_modified_since:
stats = await stat(file_path)
modified_since = strftime(
'%a, %d %b %Y %H:%M:%S GMT', gmtime(stats.st_mtime))
if request.headers.get('If-Modified-Since') == modified_since:
return HTTPResponse(status=304)
headers['Last-Modified'] = modified_since
_range = None
if use_content_range:
_range = None
if not stats:
stats = await stat(file_path)
headers['Accept-Ranges'] = 'bytes'
headers['Content-Length'] = str(stats.st_size)
if request.method != 'HEAD':
try:
_range = ContentRangeHandler(request, stats)
except HeaderNotFound:
pass
else:
del headers['Content-Length']
for key, value in _range.headers.items():
headers[key] = value
headers['Content-Type'] = content_type \
or guess_type(file_path)[0] or 'text/plain'
if request.method == 'HEAD':
return HTTPResponse(headers=headers)
else:
if stream_large_files:
if isinstance(stream_large_files, int):
threshold = stream_large_files
else:
threshold = 1024 * 1024
if not stats:
stats = await stat(file_path)
if stats.st_size >= threshold:
return await file_stream(file_path, headers=headers,
_range=_range)
return await file(file_path, headers=headers, _range=_range)
except ContentRangeError:
raise
except Exception:
raise FileNotFound('File not found',
path=file_or_directory,
relative_url=file_uri)
# special prefix for static files
if not name.startswith('_static_'):
name = '_static_{}'.format(name)
app.route(uri, methods=['GET', 'HEAD'], name=name, host=host,
strict_slashes=strict_slashes)(_handler)

121
sanic/testing.py Normal file
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@ -0,0 +1,121 @@
import traceback
from json import JSONDecodeError
from sanic.log import logger
from sanic.exceptions import MethodNotSupported
from sanic.response import text
HOST = '127.0.0.1'
PORT = 42101
class SanicTestClient:
def __init__(self, app, port=PORT):
self.app = app
self.port = port
async def _local_request(self, method, uri, cookies=None, *args, **kwargs):
import aiohttp
if uri.startswith(('http:', 'https:', 'ftp:', 'ftps://' '//')):
url = uri
else:
url = 'http://{host}:{port}{uri}'.format(
host=HOST, port=self.port, uri=uri)
logger.info(url)
conn = aiohttp.TCPConnector(verify_ssl=False)
async with aiohttp.ClientSession(
cookies=cookies, connector=conn) as session:
async with getattr(
session, method.lower())(url, *args, **kwargs) as response:
try:
response.text = await response.text()
except UnicodeDecodeError as e:
response.text = None
try:
response.json = await response.json()
except (JSONDecodeError,
UnicodeDecodeError,
aiohttp.ClientResponseError):
response.json = None
response.body = await response.read()
return response
def _sanic_endpoint_test(
self, method='get', uri='/', gather_request=True,
debug=False, server_kwargs={"auto_reload": False},
*request_args, **request_kwargs):
results = [None, None]
exceptions = []
if gather_request:
def _collect_request(request):
if results[0] is None:
results[0] = request
self.app.request_middleware.appendleft(_collect_request)
@self.app.exception(MethodNotSupported)
async def error_handler(request, exception):
if request.method in ['HEAD', 'PATCH', 'PUT', 'DELETE']:
return text(
'', exception.status_code, headers=exception.headers
)
else:
return self.app.error_handler.default(request, exception)
@self.app.listener('after_server_start')
async def _collect_response(sanic, loop):
try:
response = await self._local_request(
method, uri, *request_args,
**request_kwargs)
results[-1] = response
except Exception as e:
logger.error(
'Exception:\n{}'.format(traceback.format_exc()))
exceptions.append(e)
self.app.stop()
self.app.run(host=HOST, debug=debug, port=self.port, **server_kwargs)
self.app.listeners['after_server_start'].pop()
if exceptions:
raise ValueError("Exception during request: {}".format(exceptions))
if gather_request:
try:
request, response = results
return request, response
except BaseException:
raise ValueError(
"Request and response object expected, got ({})".format(
results))
else:
try:
return results[-1]
except BaseException:
raise ValueError(
"Request object expected, got ({})".format(results))
def get(self, *args, **kwargs):
return self._sanic_endpoint_test('get', *args, **kwargs)
def post(self, *args, **kwargs):
return self._sanic_endpoint_test('post', *args, **kwargs)
def put(self, *args, **kwargs):
return self._sanic_endpoint_test('put', *args, **kwargs)
def delete(self, *args, **kwargs):
return self._sanic_endpoint_test('delete', *args, **kwargs)
def patch(self, *args, **kwargs):
return self._sanic_endpoint_test('patch', *args, **kwargs)
def options(self, *args, **kwargs):
return self._sanic_endpoint_test('options', *args, **kwargs)
def head(self, *args, **kwargs):
return self._sanic_endpoint_test('head', *args, **kwargs)

View File

@ -1,54 +0,0 @@
import aiohttp
from sanic.log import log
HOST = '127.0.0.1'
PORT = 42101
async def local_request(method, uri, *args, **kwargs):
url = 'http://{host}:{port}{uri}'.format(host=HOST, port=PORT, uri=uri)
log.info(url)
async with aiohttp.ClientSession() as session:
async with getattr(session, method)(url, *args, **kwargs) as response:
response.text = await response.text()
return response
def sanic_endpoint_test(app, method='get', uri='/', gather_request=True,
*request_args, **request_kwargs):
results = []
exceptions = []
if gather_request:
@app.middleware
def _collect_request(request):
results.append(request)
async def _collect_response(loop):
try:
response = await local_request(method, uri, *request_args,
**request_kwargs)
results.append(response)
except Exception as e:
exceptions.append(e)
app.stop()
app.run(host=HOST, port=42101, after_start=_collect_response)
if exceptions:
raise ValueError("Exception during request: {}".format(exceptions))
if gather_request:
try:
request, response = results
return request, response
except:
raise ValueError(
"request and response object expected, got ({})".format(
results))
else:
try:
return results[0]
except:
raise ValueError(
"request object expected, got ({})".format(results))

106
sanic/views.py Normal file
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@ -0,0 +1,106 @@
from sanic.exceptions import InvalidUsage
from sanic.constants import HTTP_METHODS
class HTTPMethodView:
"""Simple class based implementation of view for the sanic.
You should implement methods (get, post, put, patch, delete) for the class
to every HTTP method you want to support.
For example:
.. code-block:: python
class DummyView(HTTPMethodView):
def get(self, request, *args, **kwargs):
return text('I am get method')
def put(self, request, *args, **kwargs):
return text('I am put method')
etc.
If someone tries to use a non-implemented method, there will be a
405 response.
If you need any url params just mention them in method definition:
.. code-block:: python
class DummyView(HTTPMethodView):
def get(self, request, my_param_here, *args, **kwargs):
return text('I am get method with %s' % my_param_here)
To add the view into the routing you could use
1) app.add_route(DummyView.as_view(), '/')
2) app.route('/')(DummyView.as_view())
To add any decorator you could set it into decorators variable
"""
decorators = []
def dispatch_request(self, request, *args, **kwargs):
handler = getattr(self, request.method.lower(), None)
return handler(request, *args, **kwargs)
@classmethod
def as_view(cls, *class_args, **class_kwargs):
"""Return view function for use with the routing system, that
dispatches request to appropriate handler method.
"""
def view(*args, **kwargs):
self = view.view_class(*class_args, **class_kwargs)
return self.dispatch_request(*args, **kwargs)
if cls.decorators:
view.__module__ = cls.__module__
for decorator in cls.decorators:
view = decorator(view)
view.view_class = cls
view.__doc__ = cls.__doc__
view.__module__ = cls.__module__
view.__name__ = cls.__name__
return view
def stream(func):
func.is_stream = True
return func
class CompositionView:
"""Simple method-function mapped view for the sanic.
You can add handler functions to methods (get, post, put, patch, delete)
for every HTTP method you want to support.
For example:
view = CompositionView()
view.add(['GET'], lambda request: text('I am get method'))
view.add(['POST', 'PUT'], lambda request: text('I am post/put method'))
etc.
If someone tries to use a non-implemented method, there will be a
405 response.
"""
def __init__(self):
self.handlers = {}
def add(self, methods, handler, stream=False):
if stream:
handler.is_stream = stream
for method in methods:
if method not in HTTP_METHODS:
raise InvalidUsage(
'{} is not a valid HTTP method.'.format(method))
if method in self.handlers:
raise InvalidUsage(
'Method {} is already registered.'.format(method))
self.handlers[method] = handler
def __call__(self, request, *args, **kwargs):
handler = self.handlers[request.method.upper()]
return handler(request, *args, **kwargs)

103
sanic/websocket.py Normal file
View File

@ -0,0 +1,103 @@
from sanic.exceptions import InvalidUsage
from sanic.server import HttpProtocol
from httptools import HttpParserUpgrade
from websockets import handshake, WebSocketCommonProtocol, InvalidHandshake
from websockets import ConnectionClosed # noqa
class WebSocketProtocol(HttpProtocol):
def __init__(self, *args, websocket_timeout=10,
websocket_max_size=None,
websocket_max_queue=None,
websocket_read_limit=2 ** 16,
websocket_write_limit=2 ** 16, **kwargs):
super().__init__(*args, **kwargs)
self.websocket = None
self.websocket_timeout = websocket_timeout
self.websocket_max_size = websocket_max_size
self.websocket_max_queue = websocket_max_queue
self.websocket_read_limit = websocket_read_limit
self.websocket_write_limit = websocket_write_limit
# timeouts make no sense for websocket routes
def request_timeout_callback(self):
if self.websocket is None:
super().request_timeout_callback()
def response_timeout_callback(self):
if self.websocket is None:
super().response_timeout_callback()
def keep_alive_timeout_callback(self):
if self.websocket is None:
super().keep_alive_timeout_callback()
def connection_lost(self, exc):
if self.websocket is not None:
self.websocket.connection_lost(exc)
super().connection_lost(exc)
def data_received(self, data):
if self.websocket is not None:
# pass the data to the websocket protocol
self.websocket.data_received(data)
else:
try:
super().data_received(data)
except HttpParserUpgrade:
# this is okay, it just indicates we've got an upgrade request
pass
def write_response(self, response):
if self.websocket is not None:
# websocket requests do not write a response
self.transport.close()
else:
super().write_response(response)
async def websocket_handshake(self, request, subprotocols=None):
# let the websockets package do the handshake with the client
headers = []
def get_header(k):
return request.headers.get(k, '')
def set_header(k, v):
headers.append((k, v))
try:
key = handshake.check_request(get_header)
handshake.build_response(set_header, key)
except InvalidHandshake:
raise InvalidUsage('Invalid websocket request')
subprotocol = None
if subprotocols and 'Sec-Websocket-Protocol' in request.headers:
# select a subprotocol
client_subprotocols = [p.strip() for p in request.headers[
'Sec-Websocket-Protocol'].split(',')]
for p in client_subprotocols:
if p in subprotocols:
subprotocol = p
set_header('Sec-Websocket-Protocol', subprotocol)
break
# write the 101 response back to the client
rv = b'HTTP/1.1 101 Switching Protocols\r\n'
for k, v in headers:
rv += k.encode('utf-8') + b': ' + v.encode('utf-8') + b'\r\n'
rv += b'\r\n'
request.transport.write(rv)
# hook up the websocket protocol
self.websocket = WebSocketCommonProtocol(
timeout=self.websocket_timeout,
max_size=self.websocket_max_size,
max_queue=self.websocket_max_queue,
read_limit=self.websocket_read_limit,
write_limit=self.websocket_write_limit
)
self.websocket.subprotocol = subprotocol
self.websocket.connection_made(request.transport)
self.websocket.connection_open()
return self.websocket

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