When chunks are deleted, dimension slices can be orphaned, i.e., there
are no chunks or chunk constraints that reference such slices. This
change ensures that, when chunks are deleted, orphaned slices are also
deleted.
Deletes on metadata in the TimescaleDB catalog has so far been a mix
of native deletes using the C-based catalog API and SQL-based DELETE
statements that CASCADEs.
This mixed environment is confusing, and SQL-based DELETEs do not
consistently clean up objects that are related to the deleted
metadata.
This change moves towards A C-based API for deletes that consistently
deletes also the dependent objects (such as indexes, tables and
constraints). Ideally, we should prohobit direct manipulation of
catalog tables using SQL statements to avoid ending up in a bad state.
Once all catalog manipulations happend via the native API, we can also
remove the cache invalidation triggers on the catalog tables.
This is a continuation of prior efforts to refactor API functions in C
to:
- improve usage of proper error codes
- use error messages that better conform with the PostgreSQL standard.
- improve security by avoiding that lots of code run under SECURITY DEFINER
- move towards doing all metadata updates using a consistent catalog API
Most importantly, `create_hypertable()` has been refactored in C,
which simplifies a lot of code that previously required
upcalls/downcalls between C code and plpgsql code, or duplicated
functionality between the two environments.
The functions for adding and updating dimensions have been refactored
in C to:
- improve usage of proper error codes
- make messages that better conform with the PostgreSQL standard.
- improve security by avoiding that lots of code run under SECURITY DEFINER
A new if_not_exists option has also been added to add_dimension() and
a the number of partitions can now be set using the new
set_number_partitions() function.
A bug in the validation of smallint time intervals has been fixed. The
previous code didn't check for intervals > 0 and smallint intervals
accepted values up to UINT16_MAX instead of INT16_MAX.
This PR adds the ability to have multiple different versions of the timescaledb
extension be used by different databases in the same PostgreSQL
instance (server).
This is accomplished by splitting this extension into two .so files.
1) timescaledb.so -- stuff under loader/. Really not a lot of code.
This code MUST be backwards compatible in the future.
2) timescaledb-version.so (most of our code). Need
not be backwards compatible.
Timescaledb.so becomes a small stub which is preloaded and whose main
reason for existing is to dynamically load the right
timescaledb-version.so when the time comes.
This change allows either of the above .so to be loaded in
shared_preload_libraries. But timescaledb.so allows for multiple
versions used on different databases in the same instance along
with smoother upgrades. Using timescaledb-version.so allows for
finer-grained control and lock-in and is appropriate in only a few
production environments.
This PR also adds version checking so that a clear failure message
will be displayed if the .so version does not match the SQL extension
version.
To support multi-version functionality we changed the way SQL update
scripts are generated. Previously, the system used a bunch of
intermediate upgrade scripts. So with 3 versions, you would have an
update script of 1--2, 2--3. But, this PR changes things so that we
produce direct "shortcut" update files: 1--3, 2--3.
This is done for 2 reasons:
1) Each of the update files should point to
$libdir/timescaledb-current_version. Since you cannot guarantee that
Previous .so for each intermediate version has been installed.
2) You don't want intermediate version updates installed without the
.so. For example, if you have versions 1,2,3
and you are installing version 3, you want the upgrade files 1--3,
2--3 but not 1--2 because if you have 1--2
then a user could do ALTER EXTENSION timescaledb UPDATE TO 2. But
the .so for version 2 may not be installed.
In order to test this functionality, we add a mock extension version .so
that we can test extension loading inside the regression framework.
A hypertable's associated schema is used to create and store internal
data tables (chunks). A hypertable creates tables in that schema,
typically with full superuser permissions, regardless of whether the
hypertable's owner or the current user have permissions for the schema.
If the schema doesn't exist, the hypertable will create it when
creating the first chunk, even though the user or table owner does
not have permissions to create schemas in the database.
This change adds proper permissions checks to create_hypertable() so
that users cannot create hypertables with a custom associated schema
unless they have the proper permissions on the schema or the database.
Chunks are also no longer created with internal schema permissions if
the associated schema is something different from the internal schema.
This change is part of an effort to create a consistent way
of dealing with metadata catalog updates, which is currently
a mix of C API and INSERT/UPDATE/DELETE statements from SQL
code. This mix makes catalog handling unnecessarily complex as
there are multiple ways to update metadata, increasing the risk
of security issues with publically exposed SQL functions. It also
complicates things like cache invalidation, requiring different
mechanisms for C and SQL code. Catalog updates from SQL code
require triggers on metadata tables for cache invalidation that
do not work with native catalog updates.
The creation of chunks has been particularly messy in this regard,
making the code hard to follow. Especially the handling of a chunk's
constraints, where dimensional and other constraints were handled
differently. With this change, constraint handling is now consistent
across constraint types with a single API for updating metadata.
Reduce memory usage for out-of-order inserts
The chunk_result_relation_info should be put on the chunk memory
context. This will cause the rri constraint expr to also go onto
that context and be correctly freed when the chunk insert state
is destroyed.
Compatibility with pg_upgrade required 2 changes:
1) search_path on functions cannot be blank for pg_upgrade.
2) The timescaledb.restoring GUC had to apply to more code (now moved to
higher-level check)
`pg_upgrade` must be passed the following option: `-O "-c timescaledb.restoring='on'"`
A hypertable's tablespaces are now always retrieved from
the tablespace metadata table instead of being cached
with the hypertable. This avoids having to do cache invalidation
when updating the tablespace table.
Tablespaces can now be detached from hypertables using
`tablespace_detach()`. This function can either detach
a tablespace from all tables or only a specific table.
Having the ability to detach tablespace allows more
advanced storage management, for instance, one can detach
tablespaces that are running low on diskspace while attaching
new ones to replace the old ones.
Attaching tablespaces to hypertables is now handled
in native code, with improved permissions checking and
caching of tablespaces in the Hypertable data object.
The user should be able to add time dimensions using INTERVAL when
the column type is TIMESTAMP/TIMESTAMPTZ/DATE, so this change adds
that support.
Additionally it adds some additional tests and checks for
add_dimension, e.g., a nice error when the table is not a
hypertable.
For convenience, the user should be able to specify the new
chunk time intervals using INTERVAL datatype if the hypertable is
using a TIMESTAMP/TIMESTAMPTZ/DATE datatype for its time column.
This PR fixes the handling of drop_chunks when the hypertable's
time field is a TIMESTAMP or DATE field. Previously, such
hypertables needed drop_chunks to be given a timestamptz in UTC.
Now, drop_chunks can take a DATE or TIMESTAMP. Also, the INTERVAL
version of drop_chunks correctly handles these cases.
A consequence of this change is that drop_chunks cannot be called
on multiple tables (with table_name = NULL or schema_name = NULL)
if the tables have different time column types.
Windows 64-bit binaries should now be buildable using the cmake
build system either from the command line or from Visual Studio.
Previous issues regarding unresolved symbols have been resolved
with compatibility header files to properly export symbols or
getting GUCs via normal APIs.
TimescaleDB cache invalidation happens as a side effect of doing a
full SQL statement (INSERT/UPDATE/DELETE) on a catalog table (via
table triggers). However, triggers aren't invoked when using
PostgreSQL's internal catalog API for updates, since PostgreSQL's
catalog tables don't have triggers that require full statement
parsing, planning, and execution.
Since we are now using the regular PostgreSQL catalog update API for
some TimescaleDB catalog operations, we need to do cache invalidation
also on such operations.
This change adds cache invalidation when updating catalogs using the
internal (C) API and also makes the cache invalidation more fine
grained. For instance, caches are no longer invalidated on some
INSERTS that do not affect the validity of objects already in the
cache, such as adding a new chunk.
This change reduces the usage of SECURITY DEFINER on SQL
functions and fixes related permissions issues. It also
properly checks hypertable permissions relative the current_user
instead of the session_user, which otherwise breaks SET ROLE,
among other things.
reindex allows you to reindex the indexes of only certain chunks,
filtering by time. This is a common use case because a user may
want to reindex chunks after they are no longer getting new data once.
reindex also has a recreate option which will not use REINDEX
but will rather CREATE INDEX a new index and then
DROP INDEX / RENAME new_index to old_name. This approach has advantages
in terms of blocking reads for a much shorter period of time. However,
it does more work and will use more disk space during the operation.
Previously, for timezones w/o tz. The range_end and range_start were
defined as UTC, but the constraints on the table were written as as
the local time at the time of chunk creation. This does not work well
if timezones change over the life of the hypertable.
This change removes the dependency on local time for all timestamp
partitioning. Namely, the range_start and range_end remain as UTC
but the constraints are now always written in UTC too. Since old
constraints correctly describe the data currently in the chunks, the
update script to handle this change changes range_start and range_end
instead of the constraints.
Fixes#300.
Functions marked IMMUTABLE should also be parallel safe, but
aren't by default. This change marks all immutable functions
as parallel safe and removes the IMMUTABLE definitions on
some functions that have been wrongly labeled as IMMUTABLE.
If functions that are IMMUTABLE does not have the PARALLEL SAFE
label, then some standard PostgreSQL regression tests will fail
(this is true for PostgreSQL >= 10).
Aggregate functions that have serialize and deserialize support
functions (histogram, last, first, etc.) should have these
support functions marked STRICT.
PostgreSQL's regular test suite will fail when the timescaledb
module is loaded without these functions being marked STRICT.
All partitioning functions now has the signature `int func(anyelement)`.
This cleans up some special handling that was necessary to support
the legacy partitioning function that expected text input.
We now use INT64_MAX and INT64_MIN as the max and min values for
dimension_slice ranges. If a dimension_slice has a range_start of
INT64_MIN or the range_end is INT64_MAX, we remove the corresponding
check constraint on the chunk since it signifies that this end of the
range is infinite. Closed ranges now always have INT64_MIN as range_end
of first slice and range_end of INT64_MAX for the last slice.
Also, points corresponding to INT64_MAX are always
put in the same slice as INT64_MAX-1 to avoid problems with the
semantics that coordinate < range_end.
The extension now works with PostgreSQL 10, while
retaining compatibility with version 9.6.
PostgreSQL 10 has numerous internal changes to functions and
APIs, which necessitates various glue code and compatibility
wrappers to seamlessly retain backwards compatiblity with older
versions.
Test output might also differ between versions. In particular,
the psql client generates version-specific output with `\d` and
EXPLAINs might differ due to new query optimizations. The test
suite has been modified as follows to handle these issues. First,
tests now use version-independent functions to query system
catalogs instead of using `\d`. Second, changes have been made to
the test suite to be able to verify some test outputs against
version-dependent reference files.
SQL source files that are joined together were
previously listed in the `load_order.txt` and
`extra_extension_files.txt` files. These SQL file list
were then read by CMake. However, since no dependencies
existed on these list files in Make targets, the project
was not automatically rebuilt if the lists were updated.
This change moves the lists directly to the CMakeLists.txt
file, ensuring that the project is properly rebuilt every
time the lists are updated.
Add check that time dimensions are set as NOT NULL in the
main table that a hypertable is created from. If it is not
set, the constraint will be added.
Users might want to implement their own partitioning function
or use the legacy one included with TimescaleDB. This change
adds support for setting the partitioning function in
create_hypertable() and add_dimension().
Hash partitioning previously relied on coercing (casting) values to
strings before calculating a hash value, including creating CHECK
constraints with casts. This approach is fairly suboptimal from a
performance perspective and might have issues related to different
character encodings depending on system.
Hash partitioning now instead uses a partitioning function that takes
an anyelement type that calls type-dependent hash functions internal
to PostgreSQL. This should provide more efficient hashing both by
avoiding unnecessary string conversions and by using more optimal
type-specific hash functions.
Support for the previous hash partitioning function is preserved for
backwards compatibility. Hypertables created with the previous
function will continue to use to old hashing strategy, while new
tables will default to the updated hash partitioning.
For safety, this change also blocks changing types on hash-partitioned
columns, since it seems hard to guarantee the same hash result between
different types.
Moving the build system to CMake allows easy cross-platform
compiles, dependency checks, and more. In particular, CMake
allows us to easily build on Windows, and Visual Studio now
has native CMake support.
All regression tests will now use a non-superuser unless superuser is
necessary. This PR is a meant to prevent things like issue #226.
This PR also fixes some more permission bugs found during this testing.
