• Stars
    star
    755
  • Rank 60,125 (Top 2 %)
  • Language
    Java
  • License
    BSD 3-Clause "New...
  • Created about 11 years ago
  • Updated about 2 months ago

Reviews

There are no reviews yet. Be the first to send feedback to the community and the maintainers!

Repository Details

A Java library for parsing and building iCalendar data models

iCal4j - iCalendar parser and object model

Table of Contents

  1. Introduction - What is iCal4j?
  2. Setup - Download and installation of iCal4j
  3. Usage - The iCal4j object model and how to use it
  4. References
  5. Configuration options
  6. Development - Guide for contributing to the iCalj project

Introduction

iCal4j is a Java library used to read and write iCalendar data streams as defined in RFC2445. The iCalendar standard provides a common data format used to store information about calendar-specific data such as events, appointments, to-do lists, etc. All of the popular calendaring tools, such as Lotus Notes, Outlook and Apple's iCal also support the iCalendar standard.

  • For a concise description of the goals and directions of iCal4j please take a look at the open issues.

  • You will find examples of how to use iCal4j in the official website and throughout the API documentation.

  • Detailed descriptions of changes included in each release may be found in the CHANGELOG.

  • iCal4j was created with the help of Open Source software.

Setup

System requirements

  • Version 4.x - Java 8 or later
  • Version 3.x - Java 8 or later
  • Version 2.x - Java 7 or later

Dependencies

In the interests of portability and compatibility with as many environments as possible, the number of dependent libraries for iCal4j is kept to a minimum. The following describes the required (and optional) dependencies and the functionality they provide.

  • slf4j-api [required] - A logging meta-library with integration to different logging framework implementations. Used in all classes that require logging.

  • commons-lang3 [required] - Provides enhancements to the standard Java library, including support for custom equals() and hashcode() implementations. Used in all classes requiring custom equality implementations.

  • commons-collections4 [required] - Provides enhancements to the standard Java collections API, including support for closures. Used in net.fortuna.ical4j.validate.Validator implementations to reduce the duplication of code in validity checks.

  • javax.cache.cache-api [optional*] - Supports caching timzeone definitions. * NOTE: when not included you must set a value for the net.fortuna.ical4j.timezone.cache.impl configuration

  • commons-codec [optional] - Provides support for encoding and decoding binary data in text form. Used in net.fortuna.ical4j.model.property.Attach

  • groovy-all [optional] - The runtime for the Groovy language. Required for library enhancements such as iCalendar object construction using the net.fortuna.ical4j.model.ContentBuilder DSL. This library is optional for all non-Groovy features of iCal4j.

  • bndlib [optional] - A tool for generating OSGi library metadata and packaging OSGi bundles. This library is not a runtime requirement, and is used only to generate version information in the javadoc API documentation.

Release Downloads

Install with Maven

Install with Gradle

Usage

Examples

References

  • RFC5545 - Internet Calendaring and Scheduling Core Object Specification (iCalendar)
  • RFC5546 - iCalendar Transport-Independent Interoperability Protocol (iTIP)
  • RFC6047 - iCalendar Message-Based Interoperability Protocol (iMIP)
  • RFC6868 - Parameter Value Encoding in iCalendar and vCard
  • RFC7953 - Calendar Availability
  • RFC7808 - Time Zone Data Distribution Service
  • RFC7986 - New Properties for iCalendar
  • RFC7529 - Non-Gregorian Recurrence Rules in iCalendar
  • RFC9073 - Event Publishing Extensions to iCalendar
  • RFC9074 - "VALARM" Extensions for iCalendar
  • RFC9253 - Support for iCalendar Relationships

Configuration

net.fortuna.ical4j.parser=net.fortuna.ical4j.data.HCalendarParserFactory

net.fortuna.ical4j.timezone.registry=net.fortuna.ical4j.model.DefaultTimeZoneRegistryFactory

net.fortuna.ical4j.timezone.update.enabled={true|false}

net.fortuna.ical4j.factory.decoder=net.fortuna.ical4j.util.DefaultDecoderFactory

net.fortuna.ical4j.factory.encoder=net.fortuna.ical4j.util.DefaultEncoderFactory

net.fortuna.ical4j.recur.maxincrementcount=1000

net.fortuna.ical4j.timezone.cache.impl=net.fortuna.ical4j.util.MapTimeZoneCache

Compatibility Hints

Relaxed Parsing

ical4j.parsing.relaxed={true|false}

iCal4j now has the capability to "relax" its parsing rules to enable parsing of *.ics files that don't properly conform to the iCalendar specification (RFC2445)

This property is intended as a general relaxation of parsing rules to allow for parsing otherwise invalid calendar files. Initially enabling this property will allow for the creation of properties and components with illegal names (e.g. Mozilla Calendar's "X" property). Note that although this will allow for parsing calendars with illegal names, validation will still identify such names as an error in the calendar model.

  • You can relax iCal4j's unfolding rules by specifying the following system property:

     ical4j.unfolding.relaxed={true|false}
    

Note that I believe this problem is not restricted to Mozilla calendaring products, but rather may be caused by UNIX/Linux-based applications relying on the default newline character (LF) to fold long lines (KOrganizer also seems to have this problem). This is, however, still incorrect as by definition long lines are folded using a (CRLF) combination.

I've obtained a couple of samples of non-standard iCalendar files that I've included in the latest release (0.9.11). There is a Sunbird, phpicalendar, and a KOrganizer sample there (open them in Notepad on Windows to see what I mean).

It seems that phpicalendar and KOrganizer always use LF instead of CRLF, and in addition KOrganizer seems to fold all property parameters and values (similar to Mozilla Calendar/Sunbird).

Mozilla Calendar/Sunbird uses CRLF to fold all property parameter/values, however it uses just LF to fold long lines (i.e. longer than 75 characters).

The latest release of iCal4j includes changes to UnfoldingReader that should work correctly with Mozilla Calendar/Sunbird, as long as the ical4j.unfolding.relaxed system property is set to true.

KOrganizer/phpicalendar files should also work with the relaxed property, although because ALL lines are separated with just LF it also relies on the StreamTokenizer to correctly identify LF as a newline on Windows, and CRLF as a newline on UNIX/Linux. The API documentation for Java 1.5 says that it does do this, so if you still see problems with parsing it could be a bug in the Java implementation.

The full set of system properties may be found in net.fortuna.ical4j.util.CompatibilityHints.

iCal4j and Timezones

net.fortuna.ical4j.timezone.date.floating={true|false}

Supporting timezones in an iCalendar implementation can be a complicated process, mostly due to the fact that there is not a definitive list of timezone definitions used by all iCalendar implementations. This means that an iCalendar file may be produced by one implementation and, if the file does not include all definitions for timezones relevant to the calendar properties, an alternate implementation may not know how to interpret the timezone identified in the calendar (or worse, it may interpret the timezone differently to the original implementation). All of these possibilities mean unpredictable behaviour which, to put it nicely, is not desireable.

iCal4j approaches the problem of timezones in two ways: The first and by far the preferred approach is for iCalendar files to include definitions for all timezones referenced in the calendar object. To support this, when an existing calendar is parsed a list of VTimeZone definitions contained in the calendar is constructed. This list may then be queried whenever a VTimeZone definition is required.

The second approach is to rely on a registry of VTimeZone definitions. iCal4j includes a default registry of timezone definitions (derived from the Olson timezone database - a defacto standard for timezone definitions), or you may also provide your own registry implementation from which to retreieve timezones. This approach is required when constructing new iCalendar files.

Note that the intention of the iCal4j model is not to provide continuous validation feedback for every change in the model. For this reason you are free to change timezones on Time objects, remove or add TzId parameters, remove or add VTimeZone definitions, etc. without restriction. However when validation is run (automatically on output of the calendar) you will be notified if the changes are invalid.

Validation

ical4j.validation.relaxed={true|false}

Micosoft Outlook compatibility

ical4j.compatibility.outlook={true|false}

Behaviour:

  • Enforces a folding length of 75 characters (by default ical4j will fold at 73 characters)
  • Allows for spaces when parsing a WEEKDAY list

Microsoft Outlook also appears to provide quoted TZID parameter values, as follows:

DTSTART;TZID="Pacific Time (US & Canada),Tijuana":20041011T223000

Lotus Notes compatibility

ical4j.compatibility.notes={true|false}

Development

Building with Gradle

iCal4j includes the Gradle wrapper for a simpler and more consistent build.

Run unit tests

./gradlew clean test

Build a new release

./gradlew clean test release -Prelease.forceVersion=2.0.0

Upload release binaries and packages

RELEASE_VERSION=2.0.0 ./gradlew uploadArchives uploadDist

Redistribution

If you intend to use and distribute iCal4j in your own project please follow these very simple guidelines:

  • Make a copy of the LICENSE, rename it to LICENSE.ical4j, and save it to the directory where you are re-distributing the iCal4j JAR.

  • I don't recommend extracting the iCal4j classes from its JAR and package in another JAR along with other classes. It may lead to version incompatibilites in the future. Rather I would suggest to include the ical4j.jar in your classpath as required.

Contributing

Open source software is made stronger by the community that supports it. Through participation you not only contribute to the quality of the software, but also gain a deeper insight into the inner workings.

Contributions may be in the form of feature enhancements, bug fixes, test cases, documentation and forum participation. If you have a question, just ask. If you have an answer, write it down.

And if you are somehow constrained from participation, through corporate policy or otherwise, consider financial support. After all, if you are profiting from open source it's only fair to give something back to the community that make it all possible.