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Boaz Leskes 1e1f8e6376 Validate a joining node's version with version of existing cluster nodes (#25770) 
When a node tries to join a cluster, it goes through a validation step to make sure the node is compatible with the cluster. Currently we validation that the node can read the cluster state and that it is compatible with the indexes of the cluster. This PR adds validation that the joining node's version is compatible with the versions of existing nodes. Concretely we check that:

1) The node's min compatible version is higher or equal to any node in the cluster (this prevents a too-new node from joining)
2) The node's version is higher or equal to the min compat version of all cluster nodes (this prevents a too old join where, for example, the master is on 5.6, there's another 6.0 node in the cluster and a 5.4 node tries to join).
3) The node's major version is at least as higher as the lowest node in the cluster. This is important as we use the minimum version in the cluster to stop executing bwc code for operations that require multiple nodes. If the nodes are already operating in "new cluster mode", we should prevent nodes from the previous major to join (even if they are wire level compatible). This does mean that if you have a very unlucky partition during the upgrade which partitions all old nodes which are also a minority / data nodes only, the may not be able to re-join the cluster. We feel this edge case risk is well worth the simplification it brings to BWC layers only going one way.

 Also, the node join validation can now selectively fail specific nodes (previously the entire batch was failed). This is an important preparation for a follow up PR where we plan to have a rejected joining node die with dignity.
 		2017-07-19 12:57:29 +02:00
..
community-clients Add link to community Rust Client (#22897) 2017-06-09 14:50:51 -07:00
groovy-api Use Versions.asciidoc for groovy docs too 2017-02-04 11:42:45 +01:00
java-api docs: updated java client api to take this into account too to take into account the p/c queries are in parent-join module 2017-07-13 11:24:22 +02:00
java-rest [Docs] Add sorting and source filtering section to client docs (#25767) 2017-07-18 16:58:46 +02:00
painless Update experimental labels in the docs (#25727) 2017-07-18 14:06:22 +02:00
perl Updated copyright years to include 2016 (#17808) 2016-04-18 12:39:23 +02:00
plugins Update experimental labels in the docs (#25727) 2017-07-18 14:06:22 +02:00
python Remove most of the need for `// NOTCONSOLE` 2016-09-06 10:32:54 -04:00
reference Validate a joining node's version with version of existing cluster nodes (#25770) 2017-07-19 12:57:29 +02:00
resiliency Add note regarding out-of-sync replicas 2017-03-07 14:25:23 -05:00
ruby Updated copyright years to include 2016 (#17808) 2016-04-18 12:39:23 +02:00
src/test Tests: Clean up rest test file handling (#21392) 2017-04-18 15:07:08 -07:00
README.asciidoc Add magic $_path stash key to docs tests (#24724) 2017-05-23 15:33:48 -04:00
Versions.asciidoc Include shared/attributes.asciidoc from docs master 2017-07-03 18:17:34 +02:00
build.gradle Scripting: Remove search template actions (#25717) 2017-07-14 23:12:05 -07:00

README.asciidoc 

The Elasticsearch docs are in AsciiDoc format and can be built using the
Elasticsearch documentation build process.

See: https://github.com/elastic/docs

Snippets marked with `// CONSOLE` are automatically annotated with "VIEW IN
CONSOLE" and "COPY AS CURL" in the documentation and are automatically tested
by the command `gradle :docs:check`. To test just the docs from a single page,
use e.g. `gradle :docs:check -Dtests.method=*rollover*`.

By default each `// CONSOLE` snippet runs as its own isolated test. You can
manipulate the test execution in the following ways:

* `// TEST`: Explicitly marks a snippet as a test. Snippets marked this way
are tests even if they don't have `// CONSOLE` but usually `// TEST` is used
for its modifiers:
  * `// TEST[s/foo/bar/]`: Replace `foo` with `bar` in the generated test. This
  should be used sparingly because it makes the snippet "lie". Sometimes,
  though, you can use it to make the snippet more clear more clear. Keep in
  mind the that if there are multiple substitutions then they are applied in
  the order that they are defined.
  * `// TEST[catch:foo]`: Used to expect errors in the requests. Replace `foo`
  with `request` to expect a 400 error, for example. If the snippet contains
  multiple requests then only the last request will expect the error.
  * `// TEST[continued]`: Continue the test started in the last snippet. Between
  tests the nodes are cleaned: indexes are removed, etc. This prevents that
  from happening between snippets because the two snippets are a single test.
  This is most useful when you have text and snippets that work together to
  tell the story of some use case because it merges the snippets (and thus the
  use case) into one big test.
  * `// TEST[skip:reason]`: Skip this test. Replace `reason` with the actual
  reason to skip the test. Snippets without `// TEST` or `// CONSOLE` aren't
  considered tests anyway but this is useful for explicitly documenting the
  reason why the test shouldn't be run.
  * `// TEST[setup:name]`: Run some setup code before running the snippet. This
  is useful for creating and populating indexes used in the snippet. The setup
  code is defined in `docs/build.gradle`.
  * `// TEST[warning:some warning]`: Expect the response to include a `Warning`
  header. If the response doesn't include a `Warning` header with the exact
  text then the test fails. If the response includes `Warning` headers that
  aren't expected then the test fails.
* `// TESTRESPONSE`: Matches this snippet against the body of the response of
  the last test. If the response is JSON then order is ignored. If you add
  `// TEST[continued]` to the snippet after `// TESTRESPONSE` it will continue
  in the same test, allowing you to interleave requests with responses to check.
  * `// TESTRESPONSE[s/foo/bar/]`: Substitutions. See `// TEST[s/foo/bar]` for
  how it works. These are much more common than `// TEST[s/foo/bar]` because
  they are useful for eliding portions of the response that are not pertinent
  to the documentation.
    * One interesting difference here is that you often want to match against
    the response from Elasticsearch. To do that you can reference the "body" of
    the response like this: `// TESTRESPONSE[s/"took": 25/"took": $body.took/]`.
    Note the `$body` string. This says "I don't expect that 25 number in the
    response, just match against what is in the response." Instead of writing
    the path into the response after `$body` you can write `$_path` which
    "figures out" the path. This is especially useful for making sweeping
    assertions like "I made up all the numbers in this example, don't compare
    them" which looks like `// TESTRESPONSE[s/\d+/$body.$_path/]`.
  * `// TESTRESPONSE[_cat]`: Add substitutions for testing `_cat` responses. Use
  this after all other substitutions so it doesn't make other substitutions
  difficult.
* `// TESTSETUP`: Marks this snippet as the "setup" for all other snippets in
  this file. This is a somewhat natural way of structuring documentation. You
  say "this is the data we use to explain this feature" then you add the
  snippet that you mark `// TESTSETUP` and then every snippet will turn into
  a test that runs the setup snippet first. See the "painless" docs for a file
  that puts this to good use. This is fairly similar to `// TEST[setup:name]`
  but rather than the setup defined in `docs/build.gradle` the setup is defined
  right in the documentation file.

Any place you can use json you can use elements like `$body.path.to.thing`
which is replaced on the fly with the contents of the thing at `path.to.thing`
in the last response.