format_parser

is a Ruby library for prying open video, image, document, and audio files. It includes a number of parser modules that try to recover metadata useful for post-processing and layout while reading the absolute minimum amount of data possible.

format_parser is inspired by imagesize, fastimage and dimensions, borrowing from them where appropriate.

Gem Version Build Status

Currently supported filetypes:

  • TIFF
  • CR2
  • PSD
  • PNG
  • MP3
  • JPEG
  • GIF
  • PDF
  • DPX
  • AIFF
  • WAV
  • FLAC
  • FDX
  • MOV
  • MP4
  • M4A
  • ZIP
  • DOCX, PPTX, XLSX

...with more on the way!

Basic usage

Pass an IO object that responds to read and seek to FormatParser and the first confirmed match will be returned.

match = FormatParser.parse(File.open("myimage.jpg", "rb"))
match.nature        #=> :image
match.format        #=> :jpg
match.width_px      #=> 320
match.height_px     #=> 240
match.orientation   #=> :top_left

If you would rather receive all potential results from the gem, call the gem as follows:

array_of_results = FormatParser.parse(File.open("myimage.jpg", "rb"), results: :all)

You can also optimize the metadata extraction by providing hints to the gem:

FormatParser.parse(File.open("myimage", "rb"), natures: [:video, :image], formats: [:jpg, :png, :mp4], results: :all)

Return values of all parsers have built-in JSON serialization

img_info = FormatParser.parse(File.open("myimage.jpg", "rb"))
JSON.pretty_generate(img_info) #=> ...

Creating your own parsers

See the section on writing parsers in CONTRIBUTING.md

Design rationale

We need to recover metadata from various file types, and we need to do so satisfying the following constraints:

  • The data in those files can be malicious and/or incomplete, so we need to be failsafe
  • The data will be fetched from a remote location (S3), so we want to obtain it with as few HTTP requests as possible
  • ...and with the amount of data fetched being small - the number of HTTP requests being of greater concern
  • The data can be recognized ambiguously and match more than one format definition (like TIFF sections of camera RAW)
  • The information necessary is a small subset of the overall metadata available in the file.
  • The number of supported formats is only ever going to increase, not decrease
  • The library is likely to be used in multiple consumer applications
  • The library is likely to be used in multithreading environments

Deliberate design choices

Therefore we adapt the following approaches:

  • Modular parsers per file format, with some degree of code sharing between them (but not too much). Adding new formats should be low-friction, and testing these format parsers should be possible in isolation
  • Modular and configurable IO stack that supports limiting reads/loops from the source entity. The IO stack is isolated from the parsers, meaning parsers do not need to care about things like fetches using Range: headers, GZIP compression and the like
  • A caching system that allows us to ideally fetch once, and only once, and as little as possible - but still accomodate formats that have the important information at the end of the file or might need information from the middle of the file
  • Minimal dependencies, and if dependencies are to be used they should be very stable and low-level
  • Where possible, use small subsets of full-feature format parsers since we only care about a small subset of the data.
  • When a choice arises between using a dependency or writing a small parser, write the small parser since less code is easier to verify and test, and we likely don't care about all the metadata anyway
  • Avoid using C libraries which are likely to contain buffer overflows/underflows - we stay memory safe

Fixture Sources

Unless specified otherwise in this section the fixture files are MIT licensed and from the FastImage and Dimensions projects.

JPEG

  • divergent_pixel_dimensions_exif.jpg is used with permission from LiveKom GmbH
  • extended_reads.jpg has kindly been made available by Raphaelle Pellerin for use exclusively with format_parser
  • too_many_APP1_markers_surrogate.jpg was created by the project maintainers

AIFF

  • fixture.aiff was created by one of the project maintainers and is MIT licensed

WAV

  • c_11k16bitpcm.wav and c_8kmp316.wav are from Wikipedia WAV, retrieved January 7, 2018
  • c_39064_alienbomb_atmo-truck.wav is from freesound and is CC0 licensed
  • c_M1F1-Alaw-AFsp.wav and d_6_Channel_ID.wav are from a McGill Engineering site

MP3

  • Cassy.mp3 has been produced by WeTransfer and may be used with the library for the purposes of testing

FDX

  • fixture.fdx was created by one of the project maintainers and is MIT licensed

MOOV

  • bmff.mp4 is borrowed from the bmff project
  • Test_Circular MOV files were created by one of the project maintainers and are MIT licensed

CR2

FLAC

  • atc_fixture_vbr.flac is a converted version of the MP3 with the same name
  • c_11k16btipcm.flac is a converted version of the WAV with the same name

M4A

  • fixture.m4a was created by one of the project maintainers and is MIT licensed

TIFF

  • Shinbutsureijoushuincho.tiff is obtained from Wikimedia Commons and is Creative Commons licensed
  • IMG_9266_*.tif and all it's variations were created by the project maintainers

ZIP

  • The .zip fixture files have been created by the project maintainers

.docx

  • The .docx files were generated by the project maintainers

.key

  • The keynote_recognized_as_jpeg.key file was created by the project maintainers