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Pilbox is an image resizing application server built on the Tornado web framework using the Pillow Imaging Library

Project description

Pilbox

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Pilbox is an image resizing application server built on Python’s Tornado web framework using the Python Imaging Library (Pillow). It is not intended to be the primary source of images, but instead acts as a proxy which requests images and resizes them as desired.

Setup

Dependencies

Vagrant

Packaged with Pilbox is a Vagrant configuration file which installs all necessary dependencies on a virtual box using Ansible. See the Vagrant documentation and the Ansible documentation for installation instructions. Once installed, the following will start and provision a virtual machine.

$ vagrant up
$ vagrant provision

To access the virtual machine itself, simply…

$ vagrant ssh

Running

Manual

To run the application, issue the following command

$ python -m pilbox.app

By default, this will run the application on port 8888 and can be accessed by visiting:

http://localhost:8888/

To see a list of all available options, run

$ python -m pilbox.app --help
Usage: pilbox/app.py [OPTIONS]

Options:

  --allowed_hosts            list of allowed hosts (default [])
  --background               default hexadecimal bg color (RGB or ARGB)
  --client_key               client key
  --client_name              client name
  --config                   path to configuration file
  --debug                    run in debug mode (default False)
  --expand                   default to expand when rotating
  --filter                   default filter to use when resizing
  --help                     show this help information
  --max_requests             max concurrent requests (default 40)
  --port                     run on the given port (default 8888)
  --position                 default cropping position
  --quality                  default jpeg quality, 0-100
  --timeout                  timeout of requests in seconds (default 10)

Vagrant

When running via Vagrant, the application is automatically started on port 8888 on 192.168.100.100, i.e.

http://192.168.100.100:8888/

Calling

To use the image resizing service, include the application url as you would any other image. E.g. this image url

<img src="http://i.imgur.com/zZ8XmBA.jpg" />

Would be replaced with this image url

<img src="http://localhost:8888/?url=http%3A%2F%2Fi.imgur.com%2FzZ8XmBA.jpg&w=300&h=300&mode=crop" />

This will request the image served at the supplied url and resize it to 300x300 using the crop mode. The below is the list of parameters that can be supplied to the service.

General Parameters

  • url: The url of the image to be resized

  • op: The operation to perform: noop, resize (default), rotate

    • noop: No operation is performed, image is returned as it is received

    • region: Select a sub-region from the image

    • resize: Resize the image

    • rotate: Rotate the image

Resize Parameters

  • w: The desired width of the image

  • h: The desired height of the image

  • mode: The resizing method: clip, crop (default), fill and scale

    • clip: Resize to fit within the desired region, keeping aspect ratio

    • crop: Resize so one dimension fits within region, center, cut remaining

    • fill: Fills the clipped space with a background color

    • scale: Resize to fit within the desired region, ignoring aspect ratio

  • bg: Background color used with fill mode (RGB or ARGB)

    • RGB: 3- or 6-digit hexadecimal number

    • ARGB: 4- or 8-digit hexadecimal number, only relevant for PNG images

  • filter: The filtering algorithm used for resizing

    • nearest: Fastest, but often images appear pixelated

    • bilinear: Faster, can produce acceptable results

    • bicubic: Fast, can produce acceptable results

    • antialias: Slower, produces the best results

  • fmt: The output format to save as, defaults to the source format

    • jpeg: Save as JPEG

    • png: Save as PNG

    • webp: Save as WebP

  • pos: The crop position

    • top-left: Crop from the top left

    • top: Crop from the top center

    • top-right: Crop from the top right

    • left: Crop from the center left

    • center: Crop from the center

    • right: Crop from the center right

    • bottom-left: Crop from the bottom left

    • bottom: Crop from the bottom center

    • bottom-right: Crop from the bottom right

    • face: Identify faces and crop from the midpoint of their position(s)

    • x,y: Custom center point position ratio, e.g. 0.0,0.75

  • q: The quality (1-100) used to save the image, only relevant to JPEGs.

Region Parameters

  • fmt: The output format to save as, defaults to the source format

    • jpeg: Save as JPEG

    • png: Save as PNG

    • webp: Save as WebP

  • q: The quality (1-100) used to save the image, only relevant to JPEGs.

  • rect: The region as x,y,w,h; x,y: top-left position, w,h: width/height of region

Rotate Parameters

  • deg: The desired rotation angle degrees

  • expand: Expand the sizeto include the full rotated image

  • fmt: The output format to save as, defaults to the source format

    • jpeg: Save as JPEG

    • png: Save as PNG

    • webp: Save as WebP

  • q: The quality (1-100) used to save the image, only relevant to JPEGs.

Examples

The following images show the various resizing modes in action for an original image size of 640x428 that is being resized to 500x400.

Clip

The image is resized to fit within a 500x400 box, maintaining aspect ratio and producing an image that is 500x334. Clipping is useful when no portion of the image can be lost and it is acceptable that the image not be exactly the supplied dimensions, but merely fit within the dimensions.

Clipped image

Crop

The image is resized so that one dimension fits within the 500x400 box. It is then centered and the excess is cut from the image. Cropping is useful when the position of the subject is known and the image must be exactly the supplied size.

Cropped image

Fill

Similar to clip, fill resizes the image to fit within a 500x400 box. Once clipped, the image is centered within the box and all left over space is filled with the supplied background color. Filling is useful when no portion of the image can be lost and it must be exactly the supplied size.

Filled image

Scale

The image is clipped to fit within the 500x400 box and then stretched to fill the excess space. Scaling is often not useful in production environments as it generally produces poor quality images. This mode is largely included for completeness.

Scale image

Testing

To run all tests, issue the following command

$ python -m pilbox.test.runtests

To run individual tests, simply indicate the test to be run, e.g.

$ python -m pilbox.test.runtests pilbox.test.signature_test

Signing

In order to secure requests so that unknown third parties cannot easily use the resize service, the application can require that requests provide a signature. To enable this feature, set the client_key option. The signature is a hexadecimal digest generated from the client key and the query string using the HMAC-SHA1 message authentication code (MAC) algorithm. The below python code provides an example implementation.

import hashlib
import hmac

def derive_signature(key, qs):
    m = hmac.new(key, None, hashlib.sha1)
    m.update(qs)
    return m.hexdigest()

The signature is passed to the application by appending the sig parameter to the query string; e.g. x=1&y=2&z=3&sig=c9516346abf62876b6345817dba2f9a0c797ef26. Note, the application does not include the leading question mark when verifying the supplied signature. To verify your signature implementation, see the pilbox.signature command described in the Tools section.

Configuration

All options that can be supplied to the application via the command line, can also be specified in the configuration file. Configuration files are simply python files that define the options as variables. The below is an example configuration.

# General settings
port = 8888

# Set client name and key if the application requires signed requests. The
# client must sign the request using the client_key, see README for
# instructions.
client_name = "sample"
client_key = "3NdajqH8mBLokepU4I2Bh6KK84GUf1lzjnuTdskY"

# Set the allowed hosts as an alternative to signed requests. Only those
# images which are served from the following hosts will be requested.
allowed_hosts = ["localhost"]

# Request-related settings
max_requests = 50
timeout = 7.5

# Set default resizing options
background = "ccc"
filter = "bilinear"
mode = "crop"
position = "top"

# Set default rotating options
expand = False

# Set default saving options
format = None
quality = 90

Tools

To verify that your client application is generating correct signatures, use the signature command.

$ python -m pilbox.signature --key=abcdef "x=1&y=2&z=3"
Query String: x=1&y=2&z=3
Signature: c9516346abf62876b6345817dba2f9a0c797ef26
Signed Query String: x=1&y=2&z=3&sig=c9516346abf62876b6345817dba2f9a0c797ef26

The application allows the use of the resize functionality via the command line.

$ python -m pilbox.image --width=300 --height=300 http://i.imgur.com/zZ8XmBA.jpg > /tmp/foo.jpg

If a new mode is added or a modification was made to the libraries that would change the current expected output for tests, run the generate test command to regenerate the expected output for the test cases.

$ python -m pilbox.test.genexpected

Deploying

The application itself does not include any caching. It is recommended that the application run behind a CDN for larger applications or behind varnish for smaller ones.

Defaults for the application have been optimized for quality rather than performance. If you wish to get higher performance out of the application, it is recommended you use a less computationally expensive filtering algorithm and a lower JPEG quality. For example, add the following to the configuration.

# Set default resizing options
filter = "bicubic"
quality = 75

Changelog

  • 0.1: Image resizing fit

  • 0.1.1: Image cropping

  • 0.1.2: Image scaling

  • 0.2: Configuration integration

  • 0.3: Signature generation

  • 0.3.1: Signature command-line tool

  • 0.4: Image resize command-line tool

  • 0.5: Facial recognition cropping

  • 0.6: Fill resizing mode

  • 0.7: Resize using crop position

  • 0.7.1: Resize using a single dimension, maintaining aspect ratio

  • 0.7.2: Added filter and quality options

  • 0.7.3: Support python 3

  • 0.7.4: Fixed cli for image generation

  • 0.7.5: Write output in 16K blocks

  • 0.8: Added support for ARGB (alpha-channel)

  • 0.8.1: Increased max clients and write block sizes

  • 0.8.2: Added configuration for max clients and timeout

  • 0.8.3: Only allow http and https protocols

  • 0.8.4: Added support for WebP

  • 0.8.5: Added format option and configuration overrides for mode and format

  • 0.8.6: Added custom position support

  • 0.9: Added rotate operation

  • 0.9.1: Added sub-region selection operation

  • 0.9.4: Added Pilbox as a PyPI package

Docker

Experimental support for Docker. To build a docker container and provision it, issue the following:

$ docker build .
$ docker run -d -p 2222:22 -v `pwd`:/pilbox -t <imageid> ssh
$ ansible-playbook -i provisioning/docker provisioning/playbook.yml
$ docker stop $(docker ps -a -q)
$ docker run -i -p :80 -p :8080 -p :8888 -v `pwd`:/pilbox -t <imageid> web

TODO

  • How to reconcile unavailable color profiles?

  • Add backends (S3, file system, etc…) if necessary

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