HADOOP-14876. Create downstream developer docs from the compatibility guidelines

(cherry picked from commit bfd588789a879b8583ea4abd59f4f5843c5ac285)
This commit is contained in:
Daniel Templeton 2017-11-14 13:19:14 -08:00
parent 1c8d334287
commit 4a70e75386
3 changed files with 528 additions and 39 deletions

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@ -63,6 +63,14 @@ when the various labels are appropriate. As a general rule, all new interfaces
and APIs should have the most limited labels (e.g. Private Unstable) that will
not inhibit the intent of the interface or API.
### Structure
This document is arranged in sections according to the various compatibility
concerns. Within each section an introductory text explains what compatibility
means in that section, why it's important, and what the intent to support
compatibility is. The subsequent "Policy" section then sets forth in specific
terms what the governing policy is.
### Notational Conventions
The key words "MUST" "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD",
@ -77,12 +85,18 @@ flagged for removal. The standard meaning of the annotation is that the
API element should not be used and may be removed in a later version.
In all cases removing an element from an API is an incompatible
change. In the case of [Stable](./InterfaceClassification.html#Stable) APIs,
the change cannot be made between minor releases within the same major
version. In addition, to allow consumers of the API time to adapt to the change,
the API element to be removed should be marked as deprecated for a full major
release before it is removed. For example, if a method is marked as deprecated
in Hadoop 2.8, it cannot be removed until Hadoop 4.0.
change. The stability of the element SHALL determine when such a change is
permissible. A [Stable](./InterfaceClassification.html#Stable) element MUST
be marked as deprecated for a full major release before it can be removed and
SHALL NOT be removed in a minor or maintenance release. An
[Evolving](./InterfaceClassification.html#Evolving) element MUST be marked as
deprecated for a full minor release before it can be removed and SHALL NOT be
removed during a maintenance release. An
[Unstable](./InterfaceClassification.html#Unstable) element MAY be removed at
any time. When possible an [Unstable](./InterfaceClassification.html#Unstable)
element SHOULD be marked as deprecated for at least one release before being
removed. For example, if a method is marked as deprecated in Hadoop 2.8, it
cannot be removed until Hadoop 4.0.
### Policy
@ -141,7 +155,7 @@ in hand.
#### Semantic compatibility
Apache Hadoop strives to ensure that the behavior of APIs remains consistent
over versions, though changes for correctness may result in changes in
across releases, though changes for correctness may result in changes in
behavior. API behavior SHALL be specified by the JavaDoc API documentation
where present and complete. When JavaDoc API documentation is not available,
behavior SHALL be specified by the behavior expected by the related unit tests.
@ -229,8 +243,8 @@ transports, such as SSL. Upgrading a service from SSLv2 to SSLv3 may break
existing SSLv2 clients. The minimum supported major version of any transports
MUST not increase across minor releases within a major version.
Service ports are considered as part of the transport mechanism. Fixed
service port numbers MUST be kept consistent to prevent breaking clients.
Service ports are considered as part of the transport mechanism. Default
service port numbers must be kept consistent to prevent breaking clients.
#### Policy
@ -281,9 +295,8 @@ according to the following:
* Client-Server compatibility MUST be maintained so as to allow upgrading individual components without upgrading others. For example, upgrade HDFS from version 2.1.0 to 2.2.0 without upgrading MapReduce.
* Server-Server compatibility MUST be maintained so as to allow mixed versions within an active cluster so the cluster may be upgraded without downtime in a rolling fashion.
New transport mechanisms MUST only be introduced with minor or major version
changes. Existing transport mechanisms MUST continue to be supported across
minor versions within a major version. Service port numbers MUST remain
Existing transport mechanisms MUST continue to be supported across
minor versions within a major version. Default service port numbers MUST remain
consistent across minor version numbers within a major version.
### REST APIs
@ -312,7 +325,8 @@ The Hadoop REST APIs SHALL be considered
numbers, the Hadoop REST APIs SHALL be considered
[Public](./InterfaceClassification.html#Public) and
[Stable](./InterfaceClassification.html#Stable), i.e. no incompatible changes
are allowed to within an API version number.
are allowed to within an API version number. A REST API version must be labeled
as deprecated for a full major release before it can be removed.
### Log Output
@ -325,7 +339,9 @@ use cases are also supported.
All log output SHALL be considered
[Public](./InterfaceClassification.html#Public) and
[Evolving](./InterfaceClassification.html#Evolving).
[Unstable](./InterfaceClassification.html#Unstable). For log output, an
incompatible change is one that renders a parser unable to find or recognize
a line of log output.
### Audit Log Output
@ -400,37 +416,42 @@ server's jhist file format, SHALL be considered
HDFS persists metadata (the image and edit logs) in a private file format.
Incompatible changes to either the format or the metadata prevent subsequent
releases from reading older metadata. Incompatible changes MUST include a
process by which existing metadata may be upgraded. Changes SHALL be
allowed to require more than one upgrade. Incompatible changes MUST result in
the metadata version number being incremented.
releases from reading older metadata. Incompatible changes must include a
process by which existing metadata may be upgraded.
Depending on the degree of incompatibility in the changes, the following
potential scenarios can arise:
* Automatic: The image upgrades automatically, no need for an explicit "upgrade".
* Direct: The image is upgradable, but might require one explicit release "upgrade".
* Indirect: The image is upgradable, but might require upgrading to intermediate release(s) first.
* Direct: The image is upgradeable, but might require one explicit release "upgrade".
* Indirect: The image is upgradeable, but might require upgrading to intermediate release(s) first.
* Not upgradeable: The image is not upgradeable.
HDFS data nodes store data in a private directory structure. The schema of that
directory structure must remain stable to retain compatibility.
HDFS data nodes store data in a private directory structure. Incompatible
changes to the directory structure may prevent older releases from accessing
stored data. Incompatible changes must include a process by which existing
data directories may be upgraded.
###### Policy
The HDFS metadata format SHALL be considered
[Private](./InterfaceClassification.html#Private) and
[Evolving](./InterfaceClassification.html#Evolving). Incompatible
changes MUST include a process by which existing metada may be upgraded. The
upgrade process MUST allow the cluster metadata to be rolled back to the older
version and its older disk format. The rollback MUST restore the original data
but is not REQUIRED to restore the updated data. Any incompatible change
to the format MUST result in the major version number of the schema being
incremented.
changes MUST include a process by which existing metadata may be upgraded.
The upgrade process SHALL be allowed to require more than one upgrade.
The upgrade process MUST allow the cluster metadata to be
rolled back to the older version and its older disk format. The rollback
MUST restore the original data but is not REQUIRED to restore the updated
data. Any incompatible change to the format MUST result in the major version
number of the schema being incremented.
The data node directory format SHALL be considered
[Private](./InterfaceClassification.html#Private) and
[Evolving](./InterfaceClassification.html#Evolving).
[Evolving](./InterfaceClassification.html#Evolving). Incompatible
changes MUST include a process by which existing data directories may be
upgraded. The upgrade process SHALL be allowed to require more than one upgrade.
The upgrade process MUST allow the data directories to be
rolled back to the older layout.
##### AWS S3A Guard Metadata
@ -533,15 +554,42 @@ The Hadoop Web UI SHALL be considered
[Public](./InterfaceClassification.html#Public) and
[Unstable](./InterfaceClassification.html#Unstable).
### Functional Compatibility
Users depend on the behavior of a Hadoop cluster remaining consistent across
releases. Changes which cause unexpectedly different behaviors from the cluster
can lead to frustration and long adoption cycles. No new configuration should
be added which changes the behavior of an existing
cluster, assuming the cluster's configuration files remain unchanged. For any
new settings that are defined, care should be taken to ensure that the new
setting does not change the behavior of existing clusters.
#### Policy
Changes to existing functionality MUST NOT change the default behavior or the
meaning of existing configuration settings between maintenance releases within
the same minor version, regardless of whether the changes arise from changes
to the system or logic or to internal or external default configuration values.
Changes to existing functionality SHOULD NOT change the default behavior or the
meaning of existing configuration settings between minor releases within
the same major version, though changes, such as to fix correctness or
security issues, may require incompatible behavioral changes. Where possible
such behavioral changes SHOULD be off by default.
### Hadoop Configuration Files
Users use Hadoop-defined properties to configure and provide hints to Hadoop and
custom properties to pass information to jobs. Users are encouraged to avoid
using custom configuration property names that conflict with the namespace of
Hadoop-defined properties and should avoid using any prefixes used by Hadoop,
e.g. hadoop, io, ipc, fs, net, file, ftp, s3, kfs, ha, file, dfs, mapred,
e.g. hadoop, io, ipc, fs, net, file, ftp, kfs, ha, file, dfs, mapred,
mapreduce, and yarn.
In addition to properties files, Hadoop uses other configuration files to
set system behavior, such as the fair scheduler configuration file or the
resource profiles configuration file.
#### Policy
Hadoop-defined properties (names and meanings) SHALL be considered
@ -552,6 +600,14 @@ across major versions. Default values of Hadoop-defined properties SHALL be
considered [Public](./InterfaceClassification.html#Public) and
[Evolving](./InterfaceClassification.html#Evolving).
Hadoop configuration files that are not governed by the above rules about
Hadoop-defined properties SHALL be considered
[Public](./InterfaceClassification.html#Public) and
[Stable](./InterfaceClassification.html#Stable). The definition of an
incompatible change depends on the particular configuration file format, but
the general rule is that a compatible change will allow a configuration
file that was valid before the change to remain valid after the change.
### Log4j Configuration Files
The log output produced by Hadoop daemons and CLIs is governed by a set of
@ -568,11 +624,11 @@ All Log4j configurations SHALL be considered
### Directory Structure
Source code, artifacts (source and tests), user logs, configuration files,
output, and job history are all stored on disk either local file system or HDFS.
Changing the directory structure of these user-accessible files can break
compatibility, even in cases where the original path is preserved via symbolic
links (such as when the path is accessed by a servlet that is configured to
not follow symbolic links).
output, and job history are all stored on disk on either the local file system
or HDFS. Changing the directory structure of these user-accessible files can
break compatibility, even in cases where the original path is preserved via
symbolic links (such as when the path is accessed by a servlet that is
configured to not follow symbolic links).
#### Policy
@ -680,11 +736,11 @@ upgrading other dependent software components.
#### Policies
* Hardware
* Architecture: The community has no plans to restrict Hadoop to specific architectures, but can have family-specific optimizations.
* Architecture: Intel and AMD are the processor architectures currently supported by the community. The community has no plans to restrict Hadoop to specific architectures, but MAY have family-specific optimizations. Support for any processor architecture SHOULD NOT be dropped without first being documented as deprecated for a full major release and MUST NOT be dropped without first being deprecated for at least a full minor release.
* Minimum resources: While there are no guarantees on the minimum resources required by Hadoop daemons, the developer community SHOULD avoid increasing requirements within a minor release.
* Operating Systems: The community SHOULD maintain the same minimum OS requirements (OS kernel versions) within a minor release. Currently GNU/Linux and Microsoft Windows are the OSes officially supported by the community, while Apache Hadoop is known to work reasonably well on other OSes such as Apple MacOSX, Solaris, etc.
* Operating Systems: The community SHOULD maintain the same minimum OS requirements (OS kernel versions) within a minor release. Currently GNU/Linux and Microsoft Windows are the OSes officially supported by the community, while Apache Hadoop is known to work reasonably well on other OSes such as Apple MacOSX, Solaris, etc. Support for any OS SHOULD NOT be dropped without first being documented as deprecated for a full major release and MUST NOT be dropped without first being deprecated for at least a full minor release.
* The JVM requirements SHALL NOT change across minor releases within the same major release unless the JVM version in question becomes unsupported. The JVM version requirement MAY be different for different operating systems or even operating system releases.
* File systems supported by Hadoop, e.g. through the HDFS FileSystem API, SHOULD not become unsupported between minor releases within a major version unless a migration path to an alternate client implementation is available.
* File systems supported by Hadoop, e.g. through the FileSystem API, SHOULD not become unsupported between minor releases within a major version unless a migration path to an alternate client implementation is available.
References
----------

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@ -0,0 +1,432 @@
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Apache Hadoop Downstream Developer's Guide
==========================================
<!-- MACRO{toc|fromDepth=0|toDepth=3} -->
Purpose
-------
The point of this document is to provide downstream developers with a clear
reference for what to expect when building applications against the Hadoop
source base. This document is primarily a distillation of the
[Hadoop Compatibility Guidelines](./Compatibility.html) and hence focuses on
what the compatibility guarantees are for the various Hadoop interfaces
across releases.
### Target Audience
The target audience for this document is any developer working on a project
or application that builds or depends on Apache Hadoop, whether the
dependency is on the source code itself, a build artifact, or interacting
with a running system.
Hadoop Releases
---------------
The Hadoop development community periodically produces new Hadoop releases to
introduce new functionality and fix existing issues. Realeses fall into three
categories:
* Major: a major release will typically include significant new functionality and generally represents the largest upgrade compatibility risk. A major release increments the first number of the release version, e.g. going from 2.8.2 to 3.0.0.
* Minor: a minor release will typically include some new functionality as well as fixes for some notable issues. A minor release should not pose much upgrade risk in most cases. A minor release increments the middle number of release version, e.g. going from 2.8.2 to 2.9.0.
* Maintenance: a maintenance release should not include any new functionality. The purpose of a maintenance release is to resolve a set of issues that are deemed by the developer community to be significant enough to be worth pushing a new release to address them. Maintenance releases should pose very little upgrade risk. A maintenance release increments the final number in the release version, e.g. going from 2.8.2 to 2.8.3.
Consuming Hadoop APIs
---------------------
When writing software that calls methods or uses classes that belong to Apache
Hadoop, developers should adhere to the following guidelines. Failure to adhere
to the guidelines may result in problems transitioning from one Hadoop release
to another.
### Privacy
Packages, classes, and methods may be annotated with an audience annotation.
The three privacy levels are:
[Public](./InterfaceClassification.html#Public),
[Limited-Private](./InterfaceClassification.html#Limited-Private), and
[Private](./InterfaceClassification.html#Private). Downstream developers should
only use packages, classes, methods, and fields that are marked as
[Public](./InterfaceClassification.html#Public). Packages, classes, and methods
that are not marked as [Public](./InterfaceClassification.html#Public) are
considered internal to Hadoop and are intended only for consumption by other
components of Hadoop.
If an element has an annotation that conflicts with it's containing element's
annotation, then the most restrictive annotation takes precedence. For example,
If a [Private](./InterfaceClassification.html#Private) method is contained
in a [Public](./InterfaceClassification.html#Public) class, then the method
should be treated as [Private](./InterfaceClassification.html#Private). If a
[Public](./InterfaceClassification.html#Public) method is contained in a
[Private](./InterfaceClassification.html#Private) class, the method should be
treated as [Private](./InterfaceClassification.html#Private).
If a method has no privacy annotation, then it inherits its privacy from its
class. If a class has no privacy, it inherits its privacy from its package.
If a package has no privacy, it should be assumed to be
[Private](./InterfaceClassification.html#Private).
### Stability
Packages, classes, and methods may be annotated with a stability annotation.
There are three classes of stability:
[Stable](./InterfaceClassification.html#Stable),
[Evolving](./InterfaceClassification.html#Evolving), and
[Unstable](./InterfaceClassification.html#Unstable). The stability annotations
determine when
[incompatible changes](./InterfaceClassification.html#Change-Compatibility)
are allowed to be made. [Stable](./InterfaceClassification.html#Stable) means
that no incompatible changes are allowed between major releases.
[Evolving](./InterfaceClassification.html#Evolving) means no incompatible
changes are allowed between minor releases.
[Unstable](./InterfaceClassification.html#Unstable) means that incompatible
changes are allowed at any time. As a downstream developer, it is best to
avoid [Unstable](./InterfaceClassification.html#Unstable) APIs and where
possible to prefer [Stable](./InterfaceClassification.html#Stable) ones.
If a method has no stability annotation, then it inherits its stability from its
class. If a class has no stability, it inherits its stability from its package.
If a package has no stability, it should be assumed to be
[Unstable](./InterfaceClassification.html#Unstable).
#### Releases and Stability
Per the above rules on API stability, new releases are allowed to change APIs
as follows:
| Release Type | Stable API Changes | Evolving API Changes | Unstable API Changes |
|:---- |:---- |:---- |:---- |
| Major | Allowed | Allowed | Allowed |
| Minor | Not Allowed | Allowed | Allowed |
| Maintenance | Not Allowed | Not Allowed | Allowed |
Note that a major release is *allowed* to break compatibility of any API, even
though the Hadoop developer community strives to maintain compatibility as much
as possible, even across major releases. Note also that an
[Unstable](./InterfaceClassification.html#Unstable) API may change at any time
without notice.
### Deprecation
Classes or methods that are annotated as @Deprecated are no longer safe to use.
The deprecated element should continue to function, but may and likely will be
removed in a subsequent release. The stability annotation
will determine the earliest release when the deprecated element can be removed.
A [Stable](./InterfaceClassification.html#Stable) element cannot be removed
until the next major release. An
[Evolving](./InterfaceClassification.html#Evolving) element cannot be removed
until the next minor release. An
[Unstable](./InterfaceClassification.html#Unstable) element may be removed at
any time and will typically not be marked as deprecated before it is removed.
[Stable](./InterfaceClassification.html#Stable) and
[Evolving](./InterfaceClassification.html#Evolving) elements must be marked as
deprecated for a full major or minor release (respectively) before they can be
removed. For example, if a [Stable](./InterfaceClassification.html#Stable)
is marked as deprecated in Hadoop 3.1, it cannot be removed until Hadoop 5.0.
### Semantic Compatibility
The Apache Hadoop developer community strives to ensure that the behavior of
APIs remains consistent across releases, though changes for correctness may
result in changes in behavior. The API JavaDocs are considered the primary
authority for the expected behavior of an API. In cases where the
JavaDocs are insufficient or missing, the unit tests are considered the
fallback authority for expected behavior. Where unit tests are not present,
the intended behavior should be inferred from the naming. As much as possible
downstream developers should avoid looking at the source code for the API
itself to determine expected behavior as that approach can create dependencies
on implementation details that are not expressly held as expected behavior by
the Hadoop development community.
In cases where the JavaDocs are insufficient to infer expected behavior,
downstream developers are strongly encouraged to file a Hadoop JIRA to request
the JavaDocs be added or improved.
Be aware that fixes done for correctness reasons may cause changes to the
expected behavior of an API, though such changes are expected to be
accompanied by documentation that clarifies the new behavior.
The Apache Hadoop developer community tries to maintain binary compatibility
for end user applications across releases. Ideally no updates to applications
will be required when upgrading to a new Hadoop release, assuming the
application does not use [Private](./InterfaceClassification.html#Private),
[Limited-Private](./InterfaceClassification.html#Limited-Private), or
[Unstable](./InterfaceClassification.html#Unstable) APIs. MapReduce applications
in particular are guaranteed binary compatibility across releases.
### Compatibility Issues
The [Hadoop Compatibility Specification](./Compatibility.html) states the
standards that the Hadoop development community is expected to uphold, but for
various reasons, the source code may not live up to the ideals of the
[compatibility specification](./Compatibility.html).
Two common issues that a downstream developer will encounter are:
1. APIs that are needed for application development aren't
[Public](./InterfaceClassification.html#Public)
2. A [Public](./InterfaceClassification.html#Public) API on which a downstream
application depends is changed unexpectedly and incompatibly.
In both of these cases, downstream developers are strongly encouraged to raise
the issues with the Hadoop developer community either by sending an email to
the appropriate
[developer mailing list](https://hadoop.apache.org/mailing_lists.html) or
[filing a JIRA](https://hadoop.apache.org/issue_tracking.html) or both. The
developer community appreciates the feedback.
Downstream developers are encouraged to reach out to the Hadoop development
community in any case when they encounter an issue while developing an
application against Hadoop. Odds are good that if it's an issue for one
developer, it's an issue that numerous developers have or will encounter.
Using the FileSystem API
------------------------
In the specific case of working with streams in Hadoop, e.g.
`FSDataOutputStream`, an application can programmatically query for the
capabilities of the stream using the methods of the
[StreamCapabilities](http://hadoop.apache.org/docs/current/api/org/apache/hadoop/fs/StreamCapabilities.html)
class. Dynamically adjusting to stream capabilities can make an applcation
more robust in the face of changing implementations and environments.
Consuming Hadoop REST APIs
--------------------------
The Hadoop REST APIs are a primary interface for a variety of downstream
and internal applications and services. To support REST clients, the Hadoop
REST APIs are versioned and will not change incompatibly within a version.
Both the endpoint itself along with the list of supported parameters and the
output from the endpoint are prohibited from changing incompatibly within a
REST endpoint version. Note, however, that introducing new fields and other
additive changes are considered compatible changes, so any consumer of the
REST API should be flexible enough to ignore unknown fields.
The REST API version is a single number and has no relationship with the Hadoop
version number. The version number is encoded in the endpoint URL prefixed
with a 'v', for example 'v1'. A new REST endpoint version may only be
introduced with a minor or major release. A REST endpoint version may only be
removed after being labeled as deprecated for a full major release.
Consuming Hadoop Output
-----------------------
Hadoop produces a variety of outputs that could conceivably be consumed by
application clients or downstream libraries. When consuming output from Hadoop,
please consider the following:
* Hadoop log output is not expected to change with a maintenance release unless it resolves a correctness issue. While log output can be consumed by software directly, it is intended primarily for a human reader.
* Hadoop produces audit logs for a variety of operations. The audit logs are intended to be machine readable, though the addition of new records and fields are considered to be compatible changes. Any consumer of the audit logs should allow for unexpected records and fields. The audit log format must not change incompatibly between major releases.
* Metrics data produced by Hadoop is mostly intended for automated consumption. The metrics format may not change in an incompatible way between major releases, but new records and fields can be compatibly added at any time. Consumers of the metrics data should allow for unknown records and fields.
Consuming Hadoop Data
---------------------
Binary file formats used by Hadoop to store data, such as sequence files, HAR
files, etc, are guaranteed to remain compatible between minor releases. In
addition, in cases where changes are made between major releases,
both backward and forward compatibility must be maintained. Note that only the
sequence file format is guaranteed not to change incompatibly, not the
serialized classes that are contained therein.
In addition to the data produced by operations, Hadoop maintains its state
information in a variety of data stores in various formats, such as the HDFS
metadata store, the YARN resource manager state store, and the YARN federation
state store. All Hadoop internal data stores are considered internal and
[Private](./InterfaceClassification.html#Private) to Hadoop. Downstream
developers should not attempt to consume data from the Hadoop state store as
the data and/or data format may change unpredictably.
Automating Operations with the Hadoop CLI
-----------------------------------------
The set of tools that make up the Hadoop command-line interface are intended
both for consumption by end users and by downstream developers who are
creating tools that execute the CLI tools and parse the output. For this reason
the Hadoop CLI tools are treated like an interface and held stable between
major releases. Between major releases, no CLI tool options will be removed or
change semantically. The output from CLI tools will likewise remain the same
within a major version number. Note that any change to CLI tool output is
considered an incompatible change, so between major version, the CLI output
will not change. Note that the CLI tool output is distinct from
the log output produced by the CLI tools. Log output is not intended for
automated consumption and may change at any time.
Consuming the Hadoop Web UI
---------------------------
The web UIs that are exposed by Hadoop are for human consumption only. Scraping
the UIs for data is not a supported use case. No effort is made to ensure any
kind of compatibility between the data displayed in any of the web UIs
across releases.
Working with Hadoop configurations
----------------------------------
Hadoop uses two primary forms of configuration files: XML configuration files
and logging configuration files.
### XML Configuration Files
The XML configuration files contain a set of properties as name-value pairs.
The names and meanings of the properties are defined by Hadoop and are
guaranteed to be stable across minor releases. A property can only be removed
in a major release and only if it has been marked as deprecated for at least a
full major release. Most properties have a default value that will be used if
the property is not explicitly set in the XML configuration files. The default
property values will not be changed during a maintenance release. For details
about the properties supported by the various Hadoop components,
see the component documentation.
Downstream developers and users can add their own properties into the XML
configuration files for use by their tools and applications. While Hadoop
makes no formal restrictions about defining new properties, a new property
that conflicts with a property defined by Hadoop can lead to unexpected and
undesirable results. Users are encouraged to avoid using custom configuration
property names that conflict with the namespace of Hadoop-defined properties
and thus should avoid using any prefixes used by Hadoop,
e.g. hadoop, io, ipc, fs, net, file, ftp, kfs, ha, file, dfs, mapred,
mapreduce, and yarn.
### Logging Configuration Files
The log output produced by Hadoop daemons and CLIs is governed by a set of
configuration files. These files control the minimum level of log message that
will be output by the various components of Hadoop, as well as where and how
those messages are stored. Between minor releases no changes will be made to
the log configuration that reduce, eliminate, or redirect the log messages.
### Other Configuration Files
Hadoop makes use of a number of other types of configuration files in a variety
of formats, such as the JSON resource profiles configuration or the XML fair
scheduler configuration. No incompatible changes will be introduced to the
configuration file formats within a minor release. Even between minor releases
incompatible configuration file format changes will be avoided if possible.
Using and Consuming Hadoop Artifacts
------------------------------------
### Source and Configuration Files
As a downstream developer or consumer of Hadoop, it's possible to access all
elements of the Hadoop platform, including source code, configuration files,
build artifacts, etc. While the open nature of the platform allows it,
developers should not create dependencies on these internal details of Hadoop
as they may change at any time. The Hadoop development community will attempt,
however, to keep the existing structure stable within a major version.
The location and general structure of the Hadoop configuration files, job
history information (as consumed by the job history server), and logs files
generated by Hadoop will be maintained across maintenance releases.
### Build Artifacts
The build artifacts produced by the Hadoop build process, e.g. JAR files, are
subject to change at any time and should not be treated as reliable, except
for the client artifacts. Client artifacts and their contents will remain
compatible within a major release. It is the goal of the Hadoop development
community to allow application code to continue to function unchanged across
minor releases and, whenever possible, across major releases. The current list
of client artifacts is as follows:
* hadoop-client
* hadoop-client-api
* hadoop-client-minicluster
* hadoop-client-runtime
* hadoop-hdfs-client
* hadoop-hdfs-native-client
* hadoop-mapreduce-client-app
* hadoop-mapreduce-client-common
* hadoop-mapreduce-client-core
* hadoop-mapreduce-client-jobclient
* hadoop-mapreduce-client-nativetask
* hadoop-yarn-client
### Environment Variables
Some Hadoop components receive information through environment variables. For
example, the ```HADOOP_OPTS``` environment variable is interpreted by most
Hadoop processes as a string of additional JVM arguments to be used when
starting a new JVM. Between minor releases the way Hadoop interprets environment
variables will not change in an incompatible way. In other words, the same value
placed into the same variable should produce the same result for all Hadoop
releases within the same major version.
### Library Dependencies
Hadoop relies on a large number of third-party libraries for its operation. As
much as possible the Hadoop developer community works to hide these dependencies
from downstream developers. Some common libraries, such as Guava, could cause
significant compatibility issues between Hadoop and downstream applications if
those dependencies were exposed downstream. Nonetheless Hadoop does expose some
of its dependencies, especially prior to Hadoop 3. No new dependency
will be exposed by Hadoop via the client artifacts between major releases.
A common downstream anti-pattern is to use the output of ```hadoop classpath```
to set the downstream application's classpath or add all third-party JARs
included with Hadoop to the downstream application's classpath. This practice
creates a tight coupling between the downstream application and Hadoop's
third-party dependencies, which leads to a fragile application that is hard to
maintain as Hadoop's dependencies change. This practice is strongly discouraged.
Hadoop depends on the Java virtual machine for its operation, which can
impact downstream applications. To minimize disruption, the minimum supported
version of the JVM will not change between major releases of Hadoop. In the
event that the current minimum supported JVM version becomes unsupported
between major releases, the minimum supported JVM version may be changed in a
minor release.
Hadoop also includes several native components, including compression, the
container executor binary, and various native integrations. These native
components introduce a set of native dependencies for Hadoop. The set of
native dependencies can change in a minor release, but the Hadoop developer
community will try to limit any dependency version changes to minor version
changes as much as possible.
### Hardware and OS Dependencies
Hadoop is currently supported by the Hadoop developer community on Linux and
Windows running on x86 and AMD processors. These OSes and processors are likely
to remain supported for the foreseeable future. In the event that support plans
change, the OS or processor to be dropped will be documented as deprecated
for at least a full minor release, but ideally a full major release, before
actually being dropped. Hadoop may function on other OSes and processor
architectures, but the community may not be able to provide assistance in the
event of issues.
There are no guarantees on how the minimum resources required by Hadoop daemons
will change between releases, even maintenance releases. Nonetheless, the
Hadoop developer community will try to avoid increasing the requirements within
a minor release.
Any file systems supported Hadoop, such as through the FileSystem API, will
in most cases continue to be supported throughout a major release. The only
case where support for a file system can be dropped within a major version is
if a clean migration path to an alternate client implementation is provided.
Questions
---------
For question about developing applications and projects against Apache Hadoop,
please contact the developer mailing list for the relevant component(s):
* [dev-common](mailto:dev-common@apache.org)
* [dev-hdfs](mailto:dev-hdfs@apache.org)
* [dev-mapreduce](mailto:dev-mapreduce@apache.org)
* [dev-yarn](mailto:dev-yarn@apache.org)

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@ -52,7 +52,8 @@
<item name="Cluster Setup" href="hadoop-project-dist/hadoop-common/ClusterSetup.html"/>
<item name="Commands Reference" href="hadoop-project-dist/hadoop-common/CommandsManual.html"/>
<item name="FileSystem Shell" href="hadoop-project-dist/hadoop-common/FileSystemShell.html"/>
<item name="Compatibility" href="hadoop-project-dist/hadoop-common/Compatibility.html"/>
<item name="Compatibility Specification" href="hadoop-project-dist/hadoop-common/Compatibility.html"/>
<item name="Downstream Developer's Guide" href="hadoop-project-dist/hadoop-common/DownstreamDev.html"/>
<item name="Interface Classification" href="hadoop-project-dist/hadoop-common/InterfaceClassification.html"/>
<item name="FileSystem Specification"
href="hadoop-project-dist/hadoop-common/filesystem/index.html"/>