Incompatible changes in ArangoDB 3.5
It is recommended to check the following list of incompatible changes before upgrading to ArangoDB 3.5, and adjust any client programs if necessary.
The following incompatible changes have been made in ArangoDB 3.5:
ID values in log messages
By default, ArangoDB and its client tools now show a 5 digit unique ID value in any of their log messages, e.g.
2019-03-25T21:23:19Z [8144] INFO [cf3f4] ArangoDB (version 3.5.0 enterprise [linux]) is ready for business. Have fun!.
In this message, the cf3f4
is the message’s unique ID value. ArangoDB users can
use this ID to build custom monitoring or alerting based on specific log ID values.
The presence of these ID values in log messages may confuse custom log message filtering or routing mechanisms that parse log messages and that rely on the old log message format.
This can be fixed adjusting any existing log message parsers and making them aware
of the ID values. The ID values are always 5 byte strings, consisting of the characters
[0-9a-f]
. ID values are placed directly behind the log level (e.g. INFO
) for
general log messages that do not contain a log topic, and directly behind the log
topic for messages that contain a topic, e.g.
2019-03-25T21:23:19Z [8144] INFO [cf3f4] ArangoDB (version 3.5.0 enterprise [linux]) is ready for business. Have fun!.
2019-03-25T21:23:16Z [8144] INFO {authentication} [3844e] Authentication is turned on (system only), authentication for unix sockets is turned on
Alternatively, the log IDs can be suppressed in all log messages by setting the startup
option --log.ids false
when starting arangod or any of the client tools.
Startup options
The hidden startup option --rocksdb.delayed_write_rate
was renamed to the more
consistent --rocksdb.delayed-write-rate
. When the old option name is used, the
arangod startup will be aborted with a descriptive error message.
HTTP REST API
The following APIs have been added:
- The new Stream Transaction API
- The new ArangoSearch Analyzer management API
- The management of the new TTL indexes; this enhances the existing index-API
- Query the actual shard a document lives in
The following APIs have been expanded:
- The ArangoSearch management API has the new
commitIntervalMsec
attribute in all routes - Indexes can now have user-defined names
- The new “ttl” index type has been added to the index creation API
- Collection creation API now provides the
smartJoinAttribute
parameter filter
foxx-tests for testing
The following documentation has been enhanced:
- the documentation for collection creation and fetching its properties has been made more precise
Web interface
Potentially different sort order of documents
In the list of documents for a collection, the documents will now always be sorted
in lexicographical order of their _key
values. An exception for keys representing
quasi-numerical values has been removed when doing the sorting in the web interface.
Therefore a document with a key value “10” will now be displayed before a document with a key value of “9”.
Removal of index types “hash” and “skiplist” from the web UI (RocksDB engine)
For the RocksDB engine, the selection of index types “hash” and “skiplist” has been removed from the web interface when creating new indexes.
The index types “hash”, “skiplist” and “persistent” are just aliases of each other when using the RocksDB engine, so there is no need to offer all of them in parallel.
We found that offering the different types of indexes while in fact they were the same often confused end users. We opted for keeping “persistent” because from the candidates “hash”, “skiplist” and “persistent” only “persistent” is actually a valid description of the index capabilities/implementation.
AQL
3.5 enforces the invalidation of variables in AQL queries after usage of an AQL COLLECT statements as documented. The documentation for variable invalidation claims that
The COLLECT statement will eliminate all local variables in the current scope. After COLLECT only the variables introduced by COLLECT itself are available.
However, the described behavior was not enforced when a COLLECT was preceded by a
FOR loop that was itself preceded by a COLLECT. In the following query the final
RETURN statement accesses variable key1
though the variable should have been
invalidated by the COLLECT directly before it:
FOR x1 IN 1..2
COLLECT key1 = x1
FOR x2 IN 1..2
COLLECT key2 = x2
RETURN [key2, key1]
In previous releases, this query was
parsed ok, but the contents of variable key1
in the final RETURN statement were
undefined.
This change is about making queries as the above fail with a parse error, as an
unknown variable key1
is accessed here, avoiding the undefined behavior. This is
also in line with what the documentation states about variable invalidation.
HTTP Replication APIs
New parameter for WAL tailing API
Tailing of recent server operations via /_api/wal/tail
gets a new parameter
syncerId
, which helps in tracking the WAL tick of each client. If set, this
supersedes the parameter serverId
for this purpose. The API stays backwards
compatible.
Miscellaneous
Index creation
In previous versions of ArangoDB, if one attempted to create an index with a
specified _id
, and that _id
was already in use, the server would typically
return the existing index with matching _id
. This is somewhat unintuitive, as
it would ignore if the rest of the definition did not match. This behavior has
been changed so that the server will now return a duplicate identifier error.
ArangoDB 3.5 also disallows creating indexes on the _id
sub-attribute of an attribute,
referredTo._id
or documents[*]._id
. Previous versions of ArangoDB allowed creating
such indexes, but the indexes were non-functional.
Starting with ArangoDB 3.5 such indexes cannot be created anymore, and any attempts to
create them will fail.
Version details output
The attribute key openssl-version
in the server/client tool version details
output was renamed to openssl-version-compile-time
.
This change affects the output produced when starting one of the ArangoDB
executables (e.g. arangod, arangosh) with the --version
command. It also
changes the attribute name in the detailed response of the /_api/version
REST API.
Overcommit settings
On Linux, ArangoDB will now show a startup warning in case the kernel setting
vm.overcommit_memory
is set to a value of 2 and the jemalloc memory allocator
is in use. This combination does not play well together, and may lead to the
kernel denying arangod’s memory allocation requests in more cases than necessary.
Usage of V8
ArangoQueryStreamCursor.id()
used to return a 32 bit number, and will now
return a string as similar places where V8 has representations of ArangoDB IDs.