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    Documentation for the Axiell Schema Project

    Documentation for the Axiell Schema Project

    Overview

    The Axiell Schema Project provides a small library for validating JSON documents against a JSON Schema. The library conforms to the JSON Schema Draft #7 specification.

    The library is based on a few simple principles, namely:

    • referential transparency. Each of the methods in the library is referentially transparent, that is if the method is called with the same arguments it will always return the same value and the method does not have any side effect (e.g. update globals, change the operating environment, etc).
    • minimal functionality. The library is designed to be small incorporating a small number of dependencies. The number of methods associated with a class/object is restricted to those that provide a base level of functionality.
    • support multiple JSON libraries. It should be possible to use the library with any number of different JSON library packages (e.g json4s, jackson, etc). The current library only supports json4s, but a facade approach should be added to hide individual library implementations.
    • generic "format" implementations. The JSON Schema specification mandates a standard set of "format" types that can be used to validate string values. Each "format" type is implemented as a class with the components of the type available.
    • full error handling. Error resulting from the validation process are returned as a list of validation failures. All possible errors should be returned for a single call, eliminating the need to fix a single error and then recall a method.

    Package structure

    The com.axiell.schema packages consists of a number of utilities, where each utility provides a single piece of functionality. Since the library validates JSON structures two main components are provided. The first component (com.axiell.schema.Schema) allows JSON documents conforming to the JSON Schema specification to be read. Once read a resolution process may be required to resolve any external references defined in the document.

    The second component (com.axiell.schema.SchemaValidator) takes a resolved schema and allows JSON documents to be validated against that schema. When creating a validator it is also possible to incorporate your own "format" types for validation.

    A set of auxiliary components implement parsers for many of the "format" types and can be used independently of the validator itself.

    Notable utilities are:

    • Schema wrapper around a JSON document containing the document itself, its $id value and resolution mappings for all $id and $ref directives.
    • SchemaValidator takes a Schema and an optional handler for "format" types and provides a validation method for arbitrary JSON documents.
    • Implicits implements implicit methods and classes used to convert one class to another or pimp methods onto existing classes (e.g. same() method to JValue class).
    • various auxiliary classes for handling "format" types including:

    Dependencies

    The list of dependencies are:

    • Axiell Util Library provides error handling classes and methods that allow multilingual error messages to be generated.
    • JSON for Scala Library provides mthods for dealing with JSON structures. The routines work around an AST (Abstract Syntax Tree) used to represent a JSON document.
    • Cats Functional Programming Library provides various traits, classes and methods that simplify functional programming in Scala. Also provides the Validated class used to return lists of validation errors.
    Definition Classes
    root
  • package com
    Definition Classes
    root
  • package axiell
    Definition Classes
    com
  • package schema

    Contains types used by the library.

    Contains types used by the library.

    In order to simplify method signatures a series of types are defined. The types are used throughout the library.

    Definition Classes
    axiell
  • package instances
    Definition Classes
    schema
  • package syntax
    Definition Classes
    schema
  • Assertions
  • Context
  • EmailAddress
  • Formats
  • Hostname
  • Implicits
  • Ipv4Address
  • Ipv6Address
  • JsonPointer
  • RelativeJsonPointer
  • Resolver
  • Schema
  • SchemaValidator
  • SchemaWalker
  • Validator

object Ipv6Address extends Serializable

Contains parser for IPv6 addresses.

The parser takes a string representing an IPv6 address and creates an Ipv6Address object if the address is valid. The address can be in any of the text forms defined in RFC 4291, section 2.2.

The three forms supported are:

  • full address - all components are specified
e.g. 2001:DB8:0:0:8:800:200C:417A
  • abbreviated address - use of :: for zero sequences
e.g. 2001:DB8::8:800:200C:417A
  • mixed IPv4 address - use of IPv4 address for last two components
e.g. 2001:DB8::8:800:32.12.65.122

In all cases the resulting Ipv6Address object will pad out the address to its eight components.

Source
Ipv6Address.scala
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  9. def fromString(value: String): Either[Error, Ipv6Address]

    Parse a string representation of an IPv6 address.

    Parse a string representation of an IPv6 address.

    The parser conforms to RFC 5954, section 4.1. RFC 5954 contains a fix in the IPv6 grammar where an ambiguity may have arisen. If the address parses correctly then an Ipv6Address is returned otherwise an error.

    value

    string representing an IPv6 address to be parsed

    returns

    Ipv6Address containing all components of the address otherwise an error

    See also

    "RFC 4291, section 2.2"

    "RFC 5954, section 4.1"

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