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A Clojure library for decoding and encoding strings used by web protocols.

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Reap

Regular Expressions for Accurate Parsing

A Clojure library for decoding and encoding strings used by web protocols.

Warning

STATUS: Ready to use, the API is stable.

Quick Start

Suppose you want to decode an Accept header from an HTTP request. For example, Firefox sends one like this:

Accept: text/html,application/xhtml+xml,application/xml;q=0.9,/;q=0.8

whereas a Chrome browser on Windows 7 might send:

Accept: text/html,application/xhtml+xml,application/xml;q=0.9,image/webp,image/apng,/;q=0.8,application/signed-exchange;v=b3;q=0.9

You can use reap to parse that header’s value into data you can more easily work with.

Here’s how:

(require
  '[juxt.reap.decoders.rfc7231 :refer [accept]]
  '[juxt.reap.regex :as re])

(let [decoder (accept {})]
  (decoder
    (re/input
      "text/html,application/xhtml+xml,application/xml;q=0.9,image/webp,image/apng,*/*;q=0.8,application/signed-exchange;v=b3;q=0.9")))

This will return the following sequence of items:

#:juxt.reap.rfc7231
{:media-range "text/html",
 :type "text",
 :subtype "html",
 :parameters {}}

#:juxt.reap.rfc7231
{:media-range "application/xhtml+xml",
 :type "application",
 :subtype "xhtml+xml",
 :parameters {}}

#:juxt.reap.rfc7231
{:media-range "application/xml",
 :type "application",
 :subtype "xml",
 :parameters {},
 :qvalue 0.9}

#:juxt.reap.rfc7231
{:media-range "image/webp",
 :type "image",
 :subtype "webp",
 :parameters {}}

#:juxt.reap.rfc7231
{:media-range "image/apng",
 :type "image",
 :subtype "apng",
 :parameters {}}

#:juxt.reap.rfc7231
{:media-range "*/*",
 :type "*",
 :subtype "*",
 :parameters {},
 :qvalue 0.8}

#:juxt.reap.rfc7231
{:media-range "application/signed-exchange",
 :type "application",
 :subtype "signed-exchange",
 :parameters {"v" "b3"},
 :qvalue 0.9}

reap contains parsers for most things you’d want to parse when writing web applications, so you can focus on writing your app without worrying about writing parsers. It’s fast too, so you don’t have to worry about a performance impact.

Introduction

The Internet is a system of interoperable computer software written to a set of exacting specifications (RFCs) published by the Internet Engineering Task Force.

Many Internet protocols, notably HTTP, are textual in nature.

Software components of the Internet must be able to efficiently encode and decode strings of text accurately in order to process correctly.

Problem Statement

There are not many tools of sufficient quality which can help with the decoding and encoding of text strings, especially those defined in RFCs.

Therefore, programmers are often left to write their own 'quick and dirty' code. This leads to software that does not properly implement (and is not fully conformant with) the rules defined in the RFCs.

Programmers often have to strike a balance between conforming to the rules layed down by the RFCs and competing priorities such as meeting performance requirements and project deadlines.

Unfortunately, code that violates any aspect of a specification can lead to an unhealthy Internet. Time is wasted debugging interoperability problems, buggy implementations cause problems for users and lead to, in some cases, security vulnerabilities.

Example: the HTTP Accept header

In RFC 7231 (which defines part of HTTP), the Accept header is specified by the following rule:

Accept = [ ( "," / ( media-range [ accept-params ] ) ) *( OWS "," [
    OWS ( media-range [ accept-params ] ) ] ) ]

As well as indicating the ways that various punctuation and other characters can be combined, the rule makes reference to other rules, such as media-range:

media-range = ( "*/*" / ( type "/*" ) / ( type "/" subtype ) ) *( OWS
    ";" OWS parameter )

A type here is a token, defined in another RFC (RFC 7230), which states a token is a sequence of at least one tchar:

token = 1*tchar
tchar = "!" / "#" / "$" / "%" / "&" / "'" / "*" / "+" / "-" / "." /
    "^" / "_" / "`" / "|" / "~" / DIGIT / ALPHA

Let’s leave aside DIGIT and ALPHA and return to the parameter rule, which itself is non-trivial:

parameter = token "=" ( token / quoted-string )

The rule tells us that values can be tokens, but can alternatively be separated by quotation marks:

quoted-string = DQUOTE *( qdtext / quoted-pair ) DQUOTE

What is contained within these quotation marks is subject to further exacting rules about which characters and character ranges are valid and how characters can be escaped by using quoted-pairs:

qdtext = HTAB / SP / "!" / %x23-5B ; '#'-'['
    / %x5D-7E ; ']'-'~'
    / obs-text
obs-text = %x80-FF
quoted-pair = "\" ( HTAB / SP / VCHAR / obs-text )

A media-range, itself containing parameters (where values are required) can be optionally followed by a special parameter indicating the term’s weight, optionally followed by further parameters (where values are optional), called accept extensions.

These are the rules for just one HTTP request header, and it’s by far from the most complex!

So it’s no surprise that programmers who resort to writing custom parsing code might skip a few details.

Ingredients

reap is built from some old ideas.

Lisp (1958)

Clojure is used as the implementation language to facilitate faster research and prototyping. If this project proves useful/stable it might be a good idea to port to Java and provide a Clojure wrapper.

Regular Expressions (1950s)

reap uses regular expressions to parse terminals.

Allen’s Interval Algebra (1983)

Allen’s interval algebra allows character intervals to be manipulated and combined, to form optimal ranges which optimise the performance of the regular expression.

Parser Combinators (1989)

Parser combinators are used to combine parsers built from regular expressions.

See

Parsing Expression Grammars (2004)

reap uses a technique known as Parsing expression grammar (PEG). There are other dedicated PEG parsing libraries, including squarepeg and crustimoney. Reap is focussed on the practical problem of parsing real-world strings found in web protocols, rather than providing a general PEG parsing library. We don’t currently support packrat caching (memoization), although that may be added in the future.

The alternative to PEG is a Context Free Grammar. There are a number of excellent tools for generating CFG parsers, from venerable ones such as flex/bison to more modern ones including Antlr.

In the Clojure eco-system, we have clj-antlr and Instaparse.

Note, however, this useful comparison between PEG and CFG parsers.

Chomsky’s generative system of grammars, from which the ubiqui- tous context-free grammars (CFGs) and regular expressions (REs) arise, was originally designed as a formal tool for modelling and analyzing natural (human) languages. Due to their elegance and expressive power, computer scientists adopted generative grammars for describing machine-oriented languages as well. The ability of a CFG to express ambiguous syntax is an important and powerful tool for natural languages. Unfortunately, this power gets in the way when we use CFGs for machine-oriented languages that are intended to be precise and unambiguous. Ambiguity in CFGs is difficult to avoid even when we want to, and it makes general CFG parsing an inherently super-linear-time problem.

User Guide

Functions marked with the metadata tag :juxt.reap/codec take an 'options' argument and return a map of entries.

:juxt.reap/decode

A single-arity parser function, taking a java.util.regex.Matcher as the only argument and returning a Clojure map or sequence.

:juxt.reap/encode

A single-arity function, taking a Clojure map or sequence and returning a string.

Options

The 'options' argument is a map containing the following optional entries:

:juxt.reap/decode-preserve-case

Set to true to prevent the parser from transforming tokens that are treated as case-insensitive to lower-case. This lossy transformation simplifies case-insensitive comparisons. Defaults to nil (false).

:juxt.reap/encode-case-transform

Set to :lower to transform generated tokens to lower-case, where applicable (where the token is semantically case-insensitive). Set to :canonical to transform tokens and header values to their canonical case. Defaults to nil.

License

The MIT License (MIT)

Copyright © 2020-2024 JUXT LTD.

Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.

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A Clojure library for decoding and encoding strings used by web protocols.

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