jaxrs-tck-docs/userguide/src/main/jbake/content/intro.adoc - third_party/jakartaee/rest - Git at Google

 type=page
 status=published
 title=Introduction
 next=rules.html
 prev=preface.html
 ~~~~~~
 include::attributes.conf[]
 Introduction
 ============

 [[GBFOW]]


 [[introduction]]
 1 Introduction
 --------------

 This chapter provides an overview of the principles that apply
 generally to all Technology Compatibility Kits (TCKs) and describes the
 {TechnologyFullName} TCK ({TechnologyShortName} {TechnologyVersion} TCK).
 It also includes a high level listing
 of what is needed to get up and running with the {TechnologyShortName}
 TCK.

 This chapter includes the following topics:

 * link:#GBFTK[Compatibility Testing]
 * link:#GBFQR[About the TCK]
 * link:#GBFQW[Getting Started With the TCK]

 [[GBFTK]][[compatibility-testing]]

 1.1 Compatibility Testing
 ~~~~~~~~~~~~~~~~~~~~~~~~~

 Compatibility testing differs from traditional product testing in a
 number of ways. The focus of compatibility testing is to test those
 features and areas of an implementation that are likely to differ across
 other implementations, such as those features that:

 * Rely on hardware or operating system-specific behavior
 * Are difficult to port
 * Mask or abstract hardware or operating system behavior

 Compatibility test development for a given feature relies on a complete
 specification and compatible implementation (CI) for that feature.
 Compatibility testing is not primarily concerned with robustness,
 performance, nor ease of use.

 [[GBFQN]][[why-compatibility-testing-is-important]]

 1.1.1 Why Compatibility Testing is Important
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

 Jakarta platform compatibility is important to different groups involved
 with Jakarta technologies for different reasons:

 * Compatibility testing ensures that the Jakarta platform does not become
 fragmented as it is ported to different operating systems and hardware
 environments.
 * Compatibility testing benefits developers working in the Jakarta
 programming language, allowing them to write applications once and then
 to deploy them across heterogeneous computing environments without
 porting.
 * Compatibility testing allows application users to obtain applications
 from disparate sources and deploy them with confidence.
 * Conformance testing benefits Jakarta platform implementors by ensuring a
 level playing field for all Jakarta platform ports.

 [[GBFPR]][[tck-compatibility-rules]]

 1.1.2 TCK Compatibility Rules
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

 Compatibility criteria for all technology implementations are embodied
 in the TCK Compatibility Rules that apply to a specified technology.
 Each TCK tests for adherence to these Rules as described in
 link:rules.html#GBFSN[Chapter 2, "Procedure for Certification."]

 [[GBFPW]][[tck-overview]]

 1.1.3 TCK Overview
 ^^^^^^^^^^^^^^^^^^

 A TCK is a set of tools and tests used to verify that a vendor's compatible
 implementation of a Jakarta EE technology conforms to the applicable
 specification. All tests in the TCK are based on the written
 specifications for the Jakarta EE platform. A TCK tests compatibility of a
 vendor's compatible implementation of the technology to the applicable
 specification of the technology. Compatibility testing is a means of
 ensuring correctness, completeness, and consistency across all
 implementations developed by technology licensees.

 The set of tests included with each TCK is called the test suite. Most
 tests in a TCK's test suite are self-checking, but some tests may
 require tester interaction. Most tests return either a Pass or Fail
 status. For a given platform to be certified, all of the required tests
 must pass. The definition of required tests may change from platform to
 platform.

 The definition of required tests will change over time. Before your
 final certification test pass, be sure to download the latest version
 of this TCK.

 [[GBFPB]][[java-community-process-jcp-program-and-compatibility-testing]]

 1.1.4 Jakarta EE Specification Process (JESP) Program and Compatibility Testing
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

 The Jakarta EE Specification Process (JESP) program is the formalization of the
 open process that has been used since 2019 to develop and revise Jakarta EE
 technology specifications in cooperation with the international Jakarta EE
 community. The JESP program specifies that the following three major
 components must be included as deliverables in a final Jakarta EE technology
 release under the direction of the responsible Expert Group:

 * Technology Specification
 * Compatible Implementation (CI)
 * Technology Compatibility Kit (TCK)

 For further information about the JESP program, go to Jakarta EE Specification
 Process community page https://jakarta.ee/specifications.

 [[GBFQR]][[about-the-tck]]

 1.2 About the TCK
 ~~~~~~~~~~~~~~~~~

 The {TechnologyShortName} TCK {TechnologyVersion} is designed as a
 portable, configurable, automated test suite for verifying the
 compatibility of a vendor's implementation of the
 {TechnologyShortName} {TechnologyVersion} Specification.

 [[GBFQV]][[tck-specifications-and-requirements]]

 1.2.1 TCK Specifications and Requirements
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

 This section lists the applicable requirements and specifications.

 * Specification Requirements: Software requirements for a
 {TechnologyShortName} implementation are described in detail in the
 {TechnologyShortName} {TechnologyVersion} Specification.  Links to the
 {TechnologyShortName} specification and other product information can
 be found at {SpecificationURL}.
 * {TechnologyShortName} Version: The {TechnologyShortName} {TechnologyVersion} TCK
 is based on the {TechnologyShortName}
 Specification, Version {TechnologyVersion}.
 * Compatible Implementation: One {TechnologyShortName}
 {TechnologyVersion} Compatible Implementation, {TechnologyRI} is
 available from the Eclipse EE4J project
 (https://projects.eclipse.org/projects/ee4j). See the CI documentation page at
 {TechnologyRIURL} for more information.

 See the {TechnologyShortName} TCK Release Notes for more specific
 information about Java SE version requirements, supported platforms,
 restrictions, and so on.

 [[GBFSQ]][[tck-components]]

 1.2.2 TCK Components
 ^^^^^^^^^^^^^^^^^^^^

 The {TechnologyShortName} TCK {TechnologyVersion} includes the
 following components:

 * {TechnologyShortName} TCK signature tests; check that all public APIs
 are supported and/or defined as specified in the {TechnologyShortName}
 Version {TechnologyVersion} implementation under test.
 * If applicable, an exclude list, which provides a list of tests that your
 implementation is not required to pass.
 ifndef::no-api-tests[]
 * API tests for all of the {TechnologyShortName} API in all related packages:
 include::packages.inc[]
 endif::no-api-tests[]
 ifdef::end-to-end-tests[]
 * End-to-end tests that demonstrate compliance with the {TechnologyFullName}
 Specification.
 endif::end-to-end-tests[]

 The {TechnologyShortName} TCK tests run on the following platforms:

 include::platforms.inc[]


 [[GBFRA]][[tck-compatibility-test-suite]]

 1.2.3 TCK Compatibility Test Suite
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

 The test suite is the collection of tests
 to test a particular technology implementation. In this case, it is the
 collection of JUnit tests used by the {TechnologyShortName} TCK
 {TechnologyVersion} to test a {TechnologyShortName} {TechnologyVersion}
 implementation. The tests are designed to verify that a vendor's
 runtime implementation of the technology complies with the appropriate
 specification. The individual tests correspond to assertions of the
 specification.

 The tests that make up the TCK compatibility test suite are precompiled
 and indexed within the TCK jar directory structure.

 [[GBFSH]][[exclude-lists]]

 1.2.4 Exclude Lists
 ^^^^^^^^^^^^^^^^^^^

 Each version of a TCK includes an Exclude List contained in a `TCK-Exclude-List.txt`
 file.
 This is a list of test file URLs that identify tests which do not
 have to be run for the specific version of the TCK being used.
 Whenever tests are run, the Junit framework automatically excludes
 these tests from being executed as those are disabled using '@Disabled' tag in JUnit.

 A vendor's compatible implementation is not required to pass or run any test on the Exclude List.
 The Exclude List file, +{excludeListFileName}+, is documented in the
 {TechnologyShortName} TCK. Please note this file is not parsed to exclude any test and is only
 for documentation purpose.


 [NOTE]
 =======================================================================

 From time to time, updates to the Exclude List are made available.
 The exclude list is included in the TCK ZIP archive.
 Each time an update is approved and released, the version number
 will be incremented.
 You should always make sure you are using an up-to-date copy of the
 Exclude List before running the {TechnologyShortName} TCK to verify your
 implementation.

 =======================================================================


 A test might be in the Exclude List for reasons such as:

 * An error in an underlying implementation API has been discovered which
 does not allow the test to execute properly.
 * An error in the specification that was used as the basis of the test
 has been discovered.
 * An error in the test itself has been discovered.
 * The test fails due to a bug in the tools used to run the test.

 In addition, all tests are run against the compatible implementations.
 Any tests that fail when run on a compatible Jakarta platform are put on the
 Exclude List. Any test that is not specification-based, or for which the
 specification is vague, may be excluded. Any test that is found to be
 implementation dependent (based on a particular thread scheduling model,
 based on a particular file system behavior, and so on) may be excluded.


 [NOTE]
 =======================================================================

 Vendors are not permitted to alter or modify Exclude Lists. Changes to
 an Exclude List can only be made by using the procedure described in
 link:rules.html#CJAJEAEI[Section 2.3.1, "TCK Test Appeals Steps."]

 =======================================================================


 [[GBFRR]][[tck-configuration]]

 1.2.5 TCK Configuration
 ^^^^^^^^^^^^^^^^^^^^^^^

 You need to set several variables in your test environment,
 and run the {TechnologyShortName} tests, as described in
 link:config.html#GBFVV[Chapter 4, "Setup and Configuration."]

 include::intro.inc[]

 [[GBFQW]][[getting-started-with-the-tck]]

 [NOTE]
 ====
 The Jakarta EE Specification Process support multiple compatible implementations.
 These instructions explain how to get started with the {TechnologyRI} CI.
 If you are using another compatible implementation, refer to material provided
 by that implementation for specific instructions and procedures.

 ====

 1.3 Getting Started With the TCK
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

 This section provides an general overview of what needs to be done to
 install, set up, test, and use the {TechnologyShortName} TCK. These
 steps are explained in more detail in subsequent chapters of this
 guide.

 1.  Make sure that the following software has been correctly installed
 on the system :
 include::req-software.inc[]
 * Java SE {SEversion}
 * A CI for {TechnologyShortName} {TechnologyVersion}. One example is {TechnologyRI}.
 * {TechnologyShortName} TCK version {TechnologyVersion}
 * The {TechnologyShortName} {TechnologyVersion} Vendor Implementation (VI) +
 See the documentation for each of these software applications for
 installation instructions. See link:install.html#GBFTP[Chapter 3,
 "Installation,"] for instructions on installing the {TechnologyShortName} TCK.
 2.  Set up the {TechnologyShortName} TCK software. +
 See link:config.html#GBFVV[Chapter 4, "Setup and Configuration,"] for
 details about the following steps.
   a.  Set up your shell environment.
   b.  Set the required System properties.
 3.  Test the {TechnologyShortName} {TechnologyVersion} implementation. +
 Test the {TechnologyShortName} implementation installation by running
 the test suite.  See link:using.html#GBFWO[Chapter 5, "Executing Tests."]
	type=page
	status=published
	title=Introduction
	next=rules.html
	prev=preface.html
	~~~~~~
	include::attributes.conf[]
	Introduction
	============

	[[GBFOW]]


	[[introduction]]
	1 Introduction
	--------------

	This chapter provides an overview of the principles that apply
	generally to all Technology Compatibility Kits (TCKs) and describes the
	{TechnologyFullName} TCK ({TechnologyShortName} {TechnologyVersion} TCK).
	It also includes a high level listing
	of what is needed to get up and running with the {TechnologyShortName}
	TCK.

	This chapter includes the following topics:

	* link:#GBFTK[Compatibility Testing]
	* link:#GBFQR[About the TCK]
	* link:#GBFQW[Getting Started With the TCK]

	[[GBFTK]][[compatibility-testing]]

	1.1 Compatibility Testing
	~~~~~~~~~~~~~~~~~~~~~~~~~

	Compatibility testing differs from traditional product testing in a
	number of ways. The focus of compatibility testing is to test those
	features and areas of an implementation that are likely to differ across
	other implementations, such as those features that:

	* Rely on hardware or operating system-specific behavior
	* Are difficult to port
	* Mask or abstract hardware or operating system behavior

	Compatibility test development for a given feature relies on a complete
	specification and compatible implementation (CI) for that feature.
	Compatibility testing is not primarily concerned with robustness,
	performance, nor ease of use.

	[[GBFQN]][[why-compatibility-testing-is-important]]

	1.1.1 Why Compatibility Testing is Important
	^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

	Jakarta platform compatibility is important to different groups involved
	with Jakarta technologies for different reasons:

	* Compatibility testing ensures that the Jakarta platform does not become
	fragmented as it is ported to different operating systems and hardware
	environments.
	* Compatibility testing benefits developers working in the Jakarta
	programming language, allowing them to write applications once and then
	to deploy them across heterogeneous computing environments without
	porting.
	* Compatibility testing allows application users to obtain applications
	from disparate sources and deploy them with confidence.
	* Conformance testing benefits Jakarta platform implementors by ensuring a
	level playing field for all Jakarta platform ports.

	[[GBFPR]][[tck-compatibility-rules]]

	1.1.2 TCK Compatibility Rules
	^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

	Compatibility criteria for all technology implementations are embodied
	in the TCK Compatibility Rules that apply to a specified technology.
	Each TCK tests for adherence to these Rules as described in
	link:rules.html#GBFSN[Chapter 2, "Procedure for Certification."]

	[[GBFPW]][[tck-overview]]

	1.1.3 TCK Overview
	^^^^^^^^^^^^^^^^^^

	A TCK is a set of tools and tests used to verify that a vendor's compatible
	implementation of a Jakarta EE technology conforms to the applicable
	specification. All tests in the TCK are based on the written
	specifications for the Jakarta EE platform. A TCK tests compatibility of a
	vendor's compatible implementation of the technology to the applicable
	specification of the technology. Compatibility testing is a means of
	ensuring correctness, completeness, and consistency across all
	implementations developed by technology licensees.

	The set of tests included with each TCK is called the test suite. Most
	tests in a TCK's test suite are self-checking, but some tests may
	require tester interaction. Most tests return either a Pass or Fail
	status. For a given platform to be certified, all of the required tests
	must pass. The definition of required tests may change from platform to
	platform.

	The definition of required tests will change over time. Before your
	final certification test pass, be sure to download the latest version
	of this TCK.

	[[GBFPB]][[java-community-process-jcp-program-and-compatibility-testing]]

	1.1.4 Jakarta EE Specification Process (JESP) Program and Compatibility Testing
	^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

	The Jakarta EE Specification Process (JESP) program is the formalization of the
	open process that has been used since 2019 to develop and revise Jakarta EE
	technology specifications in cooperation with the international Jakarta EE
	community. The JESP program specifies that the following three major
	components must be included as deliverables in a final Jakarta EE technology
	release under the direction of the responsible Expert Group:

	* Technology Specification
	* Compatible Implementation (CI)
	* Technology Compatibility Kit (TCK)

	For further information about the JESP program, go to Jakarta EE Specification
	Process community page https://jakarta.ee/specifications.

	[[GBFQR]][[about-the-tck]]

	1.2 About the TCK
	~~~~~~~~~~~~~~~~~

	The {TechnologyShortName} TCK {TechnologyVersion} is designed as a
	portable, configurable, automated test suite for verifying the
	compatibility of a vendor's implementation of the
	{TechnologyShortName} {TechnologyVersion} Specification.

	[[GBFQV]][[tck-specifications-and-requirements]]

	1.2.1 TCK Specifications and Requirements
	^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

	This section lists the applicable requirements and specifications.

	* Specification Requirements: Software requirements for a
	{TechnologyShortName} implementation are described in detail in the
	{TechnologyShortName} {TechnologyVersion} Specification. Links to the
	{TechnologyShortName} specification and other product information can
	be found at {SpecificationURL}.
	* {TechnologyShortName} Version: The {TechnologyShortName} {TechnologyVersion} TCK
	is based on the {TechnologyShortName}
	Specification, Version {TechnologyVersion}.
	* Compatible Implementation: One {TechnologyShortName}
	{TechnologyVersion} Compatible Implementation, {TechnologyRI} is
	available from the Eclipse EE4J project
	(https://projects.eclipse.org/projects/ee4j). See the CI documentation page at
	{TechnologyRIURL} for more information.

	See the {TechnologyShortName} TCK Release Notes for more specific
	information about Java SE version requirements, supported platforms,
	restrictions, and so on.

	[[GBFSQ]][[tck-components]]

	1.2.2 TCK Components
	^^^^^^^^^^^^^^^^^^^^

	The {TechnologyShortName} TCK {TechnologyVersion} includes the
	following components:

	* {TechnologyShortName} TCK signature tests; check that all public APIs
	are supported and/or defined as specified in the {TechnologyShortName}
	Version {TechnologyVersion} implementation under test.
	* If applicable, an exclude list, which provides a list of tests that your
	implementation is not required to pass.
	ifndef::no-api-tests[]
	* API tests for all of the {TechnologyShortName} API in all related packages:
	include::packages.inc[]
	endif::no-api-tests[]
	ifdef::end-to-end-tests[]
	* End-to-end tests that demonstrate compliance with the {TechnologyFullName}
	Specification.
	endif::end-to-end-tests[]

	The {TechnologyShortName} TCK tests run on the following platforms:

	include::platforms.inc[]


	[[GBFRA]][[tck-compatibility-test-suite]]

	1.2.3 TCK Compatibility Test Suite
	^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

	The test suite is the collection of tests
	to test a particular technology implementation. In this case, it is the
	collection of JUnit tests used by the {TechnologyShortName} TCK
	{TechnologyVersion} to test a {TechnologyShortName} {TechnologyVersion}
	implementation. The tests are designed to verify that a vendor's
	runtime implementation of the technology complies with the appropriate
	specification. The individual tests correspond to assertions of the
	specification.

	The tests that make up the TCK compatibility test suite are precompiled
	and indexed within the TCK jar directory structure.

	[[GBFSH]][[exclude-lists]]

	1.2.4 Exclude Lists
	^^^^^^^^^^^^^^^^^^^

	Each version of a TCK includes an Exclude List contained in a `TCK-Exclude-List.txt`
	file.
	This is a list of test file URLs that identify tests which do not
	have to be run for the specific version of the TCK being used.
	Whenever tests are run, the Junit framework automatically excludes
	these tests from being executed as those are disabled using '@Disabled' tag in JUnit.

	A vendor's compatible implementation is not required to pass or run any test on the Exclude List.
	The Exclude List file, +{excludeListFileName}+, is documented in the
	{TechnologyShortName} TCK. Please note this file is not parsed to exclude any test and is only
	for documentation purpose.


	[NOTE]
	=======================================================================

	From time to time, updates to the Exclude List are made available.
	The exclude list is included in the TCK ZIP archive.
	Each time an update is approved and released, the version number
	will be incremented.
	You should always make sure you are using an up-to-date copy of the
	Exclude List before running the {TechnologyShortName} TCK to verify your
	implementation.

	=======================================================================


	A test might be in the Exclude List for reasons such as:

	* An error in an underlying implementation API has been discovered which
	does not allow the test to execute properly.
	* An error in the specification that was used as the basis of the test
	has been discovered.
	* An error in the test itself has been discovered.
	* The test fails due to a bug in the tools used to run the test.

	In addition, all tests are run against the compatible implementations.
	Any tests that fail when run on a compatible Jakarta platform are put on the
	Exclude List. Any test that is not specification-based, or for which the
	specification is vague, may be excluded. Any test that is found to be
	implementation dependent (based on a particular thread scheduling model,
	based on a particular file system behavior, and so on) may be excluded.


	[NOTE]
	=======================================================================

	Vendors are not permitted to alter or modify Exclude Lists. Changes to
	an Exclude List can only be made by using the procedure described in
	link:rules.html#CJAJEAEI[Section 2.3.1, "TCK Test Appeals Steps."]

	=======================================================================


	[[GBFRR]][[tck-configuration]]

	1.2.5 TCK Configuration
	^^^^^^^^^^^^^^^^^^^^^^^

	You need to set several variables in your test environment,
	and run the {TechnologyShortName} tests, as described in
	link:config.html#GBFVV[Chapter 4, "Setup and Configuration."]

	include::intro.inc[]

	[[GBFQW]][[getting-started-with-the-tck]]

	[NOTE]
	====
	The Jakarta EE Specification Process support multiple compatible implementations.
	These instructions explain how to get started with the {TechnologyRI} CI.
	If you are using another compatible implementation, refer to material provided
	by that implementation for specific instructions and procedures.

	====

	1.3 Getting Started With the TCK
	~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

	This section provides an general overview of what needs to be done to
	install, set up, test, and use the {TechnologyShortName} TCK. These
	steps are explained in more detail in subsequent chapters of this
	guide.

	1. Make sure that the following software has been correctly installed
	on the system :
	include::req-software.inc[]
	* Java SE {SEversion}
	* A CI for {TechnologyShortName} {TechnologyVersion}. One example is {TechnologyRI}.
	* {TechnologyShortName} TCK version {TechnologyVersion}
	* The {TechnologyShortName} {TechnologyVersion} Vendor Implementation (VI) +
	See the documentation for each of these software applications for
	installation instructions. See link:install.html#GBFTP[Chapter 3,
	"Installation,"] for instructions on installing the {TechnologyShortName} TCK.
	2. Set up the {TechnologyShortName} TCK software. +
	See link:config.html#GBFVV[Chapter 4, "Setup and Configuration,"] for
	details about the following steps.
	a. Set up your shell environment.
	b. Set the required System properties.
	3. Test the {TechnologyShortName} {TechnologyVersion} implementation. +
	Test the {TechnologyShortName} implementation installation by running
	the test suite. See link:using.html#GBFWO[Chapter 5, "Executing Tests."]