There are two TSMIndex implementations, the directIndex and the
indirectIndex. Originally, we only had the directIndex and later
added the indirectIndex and NewTSMReaderWithOptions in order to
allow both indexes to be used in tests and code. This has created
a problem since we really only use the directIndex for writing and
always use the indirectIndex for reading.
This changes removes the NewTSMReaderWithOptions func so that it is
no longer possible to create a TSMReader with a directIndex. This
will allow a lot of the block reading code used by the directIndex
to be removed and simplify maintainence. It also gives better test
coverage of the code that is actually used by the TSM engine now.
This adds support for a time range to tombstone files to allow a subset
of points to be deleted instead of the whole series. It changes the
tombstone file format to a binary format and maintains backwards compatibility
with the old text format tombstone files.
Binary math inside of a where condition was previously disallowed. Now,
these types of queries are just passed verbatim down to the underlying
query engine which can handle it.
We may want to revisit this when it comes to tags at some point as it
prevents the more efficient filtering of tags that a simple expression
allows, but it allows a query like this to be done:
SELECT * FROM cpu WHERE value + 2 < 5
So while it can be better, this is a good initial implementation to
provide this functionality. There are very rare situations where a tag
may be used appropriately in one of these circumstances.
Fixes#3558.
This commit changes the `FloatDecoder.val` from a `float64` type
to a `uint64` to avoid an additional type conversion during read.
Now the type gets converted to a `float64` only on call to `Values()`.
This has various benefits:
- Users embedding InfluxDB within other Go programs can specify a different logger / prefix easily.
- More consistent with code used elsewhere in InfluxDB (e.g. services, other `run.Server.*` fields, etc).
- This is also more efficient, because it means `executeQuery` no longer allocates a single `*log.Logger` each time it is called.
The cache max memory size is an approximate size and can prevent a
shard from loading at startup. This change disable the max size
at startup to prevent this problem and sets the limt back after
reloading.
Fixes#6109
The series keys within a tag set were previously not sorted which would
cause the output to be non-deterministic. This sorts the output series
by their keys so it has a consistent output especially when using
limits.
Fixes#3166.
This also switches the remaining iterators to be lazy so they can return
errors properly. They needed to be converted to lazy initialization
anyway, which has the side effect of making it much easier for us to
propagate the underlying error during initialization.
Updated the Emitter to return errors when it cannot read properly from
the iterators.
When a GROUP BY or multiple sources are used, the top level limit
iterator requires reading the entire iterator stream so it can find all
of the tag groups it needs to return. For large data series, this ends
up with the limit iterator discarding a lot of output.
This change adds a new lower level limit iterator on each series itself
so that there are fewer data points that have to be thrown away by the
top level iterator.
Fixes#5553.
Now it is possible to compare tags and fields and it is also now
possible to compare tags and tags. Previously, it was only possible to
compare fields with fields and tags with a string or a regex.
Fixes#3371.
This commit makes a number of performance improvements to
reduce allocations during query execution. Several objects
and buffers are now reused across the components to avoid
allocations.
Previously a simple `count(value)` query across 1M points
would require 26,000+ allocations. After the changes in
this commit that number has been reduced to 88.
A missing tag on a point was sometimes treated as `""` and sometimes
treated as a separate `null` entity. This change modifies the equality
operations to always treat a missing tag as an empty string.
Empty tags are *not* indexed and do not have the same performance as a
tag that exists.
Fixes#3773.
Send nil values from the tsm1 cursor at the end of the cursor. After the
cursor reached tsm1, the `nextAt()` call would always return the default
value rather than a nil value.
Descending also didn't work correctly because the seeking functionality
for tsm1 iterators would always act like they were ascending instead of
descending when choosing which value to select. This resulted in very
strange output from the emitter since it couldn't figure out if it was
ascending or descending.
Fixes#6206.
The QueryExecutor had a lot of dead code made obsolete by the query
engine refactor that has now been removed. The TSDBStore interface has
also been cleaned up so we can have multiple implementations of this
(such as a local and remote version).
A StatementExecutor interface has been created for adding custom
functionality to the QueryExecutor that may not be available in the open
source version. The QueryExecutor delegate all statement execution to
the StatementExecutor and the QueryExecutor will only keep track of
housekeeping. Implementing additional queries is as simple as wrapping
the cluster.StatementExecutor struct or replacing it with something
completely different.
The PointsWriter in the QueryExecutor has been changed to a simple
interface that implements the one method needed by the query executor.
This is to allow different PointsWriter implementations to be used by
the QueryExecutor. It has also been moved into the StatementExecutor
instead.
The TSDBStore interface has now been modified to contain the code for
creating an IteratorCreator. This is so the underlying TSDBStore can
implement different ways of accessing the underlying shards rather than
always having to access each shard individually (such as batch
requests).
Remove the show servers handling. This isn't a valid command in the open
source version of InfluxDB anymore.
The QueryManager interface is now built into QueryExecutor and is no
longer necessary. The StatementExecutor and QueryExecutor split allows
task management to much more easily be built into QueryExecutor rather
than as a separate struct.
Both Shard and Engine had the same reference to the measurementField map,
but they each protected it with their own locks. This causes a race when
write and queries are occurring because writes can add new fields to the
map while queries are reading from it.
The fix moves the ownership to the Engine and provides protected accessors
to that Shard now users. For the most parts, the access on shard were old
dead code.
Fixing the measurementFields map race created a new race on the internal
fields map. This is now unexported and protected via MeasurementFields
exported funcs.
Fixes#6188
The stats setup ends up creating a lot of lock contention which signifcantly
impacts write throughput when a large number of measurements are used.
Fixes#6131
Writing a key that exceeds the max key length could cause a panic
when reading a tsm file because the 2 bytes used for the key length
would not be enough to represent the actual key length.
The writer will now return an error if when trying to write a key
that is too large.
Jason Wilder
Tait Clarridge
Ben Johnson
Jonathan A. Sternberg
Jason Wilder
Stephen Gutekanst
Jonathan A. Sternberg
Seif Lotfy
Pierre Fersing
Edd Robinson
joelegasse