38.18. Extension Building Infrastructure
If you are thinking about distributing your PostgreSQL extension modules, setting up a portable build system for them can be fairly difficult. Therefore the PostgreSQL installation provides a build infrastructure for extensions, called PGXS , so that simple extension modules can be built simply against an already installed server. PGXS is mainly intended for extensions that include C code, although it can be used for pure-SQL extensions too. Note that PGXS is not intended to be a universal build system framework that can be used to build any software interfacing to PostgreSQL ; it simply automates common build rules for simple server extension modules. For more complicated packages, you might need to write your own build system.
To use the
PGXS
infrastructure for your extension,
you must write a simple makefile.
In the makefile, you need to set some variables
and include the global
PGXS
makefile.
Here is an example that builds an extension module named
isbn_issn
, consisting of a shared library containing
some C code, an extension control file, an SQL script, an include file
(only needed if other modules might need to access the extension functions
without going via SQL), and a documentation text file:
MODULES = isbn_issn EXTENSION = isbn_issn DATA = isbn_issn--1.0.sql DOCS = README.isbn_issn HEADERS_isbn_issn = isbn_issn.h PG_CONFIG = pg_config PGXS := $(shell $(PG_CONFIG) --pgxs) include $(PGXS)
The last three lines should always be the same. Earlier in the file, you assign variables or add custom make rules.
Set one of these three variables to specify what is built:
The following variables can also be set:
-
EXTENSION
# -
extension name(s); for each name you must provide an
extension
.controlprefix
/share/extension -
MODULEDIR
# -
subdirectory of
prefix
/shareextension
ifEXTENSION
is set, orcontrib
if not) -
DATA
# -
random files to install into
prefix
/share/$MODULEDIR -
DATA_built
# -
random files to install into
prefix
/share/$MODULEDIR -
DATA_TSEARCH
# -
random files to install under
prefix
/share/tsearch_data -
DOCS
# -
random files to install under
prefix
/doc/$MODULEDIR -
HEADERS
HEADERS_built
# -
Files to (optionally build and) install under
prefix
/include/server/$MODULEDIR/$MODULE_bigUnlike
DATA_built
, files inHEADERS_built
are not removed by theclean
target; if you want them removed, also add them toEXTRA_CLEAN
or add your own rules to do it. -
HEADERS_$MODULE
HEADERS_built_$MODULE
# -
Files to install (after building if specified) under
prefix
/include/server/$MODULEDIR/$MODULE$MODULE
must be a module name used inMODULES
orMODULE_big
.Unlike
DATA_built
, files inHEADERS_built_$MODULE
are not removed by theclean
target; if you want them removed, also add them toEXTRA_CLEAN
or add your own rules to do it.It is legal to use both variables for the same module, or any combination, unless you have two module names in the
MODULES
list that differ only by the presence of a prefixbuilt_
, which would cause ambiguity. In that (hopefully unlikely) case, you should use only theHEADERS_built_$MODULE
variables. -
SCRIPTS
# -
script files (not binaries) to install into
prefix
/bin -
SCRIPTS_built
# -
script files (not binaries) to install into
prefix
/bin -
REGRESS
# -
list of regression test cases (without suffix), see below
-
REGRESS_OPTS
# -
additional switches to pass to pg_regress
-
ISOLATION
# -
list of isolation test cases, see below for more details
-
ISOLATION_OPTS
# -
additional switches to pass to pg_isolation_regress
-
TAP_TESTS
# -
switch defining if TAP tests need to be run, see below
-
NO_INSTALL
# -
don't define an
install
target, useful for test modules that don't need their build products to be installed -
NO_INSTALLCHECK
# -
don't define an
installcheck
target, useful e.g., if tests require special configuration, or don't use pg_regress -
EXTRA_CLEAN
# -
extra files to remove in
make clean
-
PG_CPPFLAGS
# -
will be prepended to
CPPFLAGS
-
PG_CFLAGS
# -
will be appended to
CFLAGS
-
PG_CXXFLAGS
# -
will be appended to
CXXFLAGS
-
PG_LDFLAGS
# -
will be prepended to
LDFLAGS
-
PG_LIBS
# -
will be added to
PROGRAM
link line -
SHLIB_LINK
# -
will be added to
MODULE_big
link line -
PG_CONFIG
# -
path to pg_config program for the PostgreSQL installation to build against (typically just
pg_config
to use the first one in yourPATH
)
Put this makefile as
Makefile
in the directory
which holds your extension. Then you can do
make
to compile, and then
make
install
to install your module. By default, the extension is
compiled and installed for the
PostgreSQL
installation that
corresponds to the first
pg_config
program
found in your
PATH
. You can use a different installation by
setting
PG_CONFIG
to point to its
pg_config
program, either within the makefile
or on the
make
command line.
You can also run
make
in a directory outside the source
tree of your extension, if you want to keep the build directory separate.
This procedure is also called a
VPATH
build. Here's how:
mkdir build_dir cd build_dir make -f /path/to/extension/source/tree/Makefile make -f /path/to/extension/source/tree/Makefile install
Alternatively, you can set up a directory for a VPATH build in a similar
way to how it is done for the core code. One way to do this is using the
core script
config/prep_buildtree
. Once this has been done
you can build by setting the
make
variable
VPATH
like this:
make VPATH=/path/to/extension/source/tree make VPATH=/path/to/extension/source/tree install
This procedure can work with a greater variety of directory layouts.
The scripts listed in the
REGRESS
variable are used for
regression testing of your module, which can be invoked by
make
installcheck
after doing
make install
. For this to
work you must have a running
PostgreSQL
server.
The script files listed in
REGRESS
must appear in a
subdirectory named
sql/
in your extension's directory.
These files must have extension
.sql
, which must not be
included in the
REGRESS
list in the makefile. For each
test there should also be a file containing the expected output in a
subdirectory named
expected/
, with the same stem and
extension
.out
.
make installcheck
executes each test script with
psql
, and compares the
resulting output to the matching expected file. Any differences will be
written to the file
regression.diffs
in
diff
-c
format. Note that trying to run a test that is missing its
expected file will be reported as
"
trouble
"
, so make sure you
have all expected files.
The scripts listed in the
ISOLATION
variable are used
for tests stressing behavior of concurrent session with your module, which
can be invoked by
make installcheck
after doing
make install
. For this to work you must have a
running
PostgreSQL
server. The script files
listed in
ISOLATION
must appear in a subdirectory
named
specs/
in your extension's directory. These files
must have extension
.spec
, which must not be included
in the
ISOLATION
list in the makefile. For each test
there should also be a file containing the expected output in a
subdirectory named
expected/
, with the same stem and
extension
.out
.
make installcheck
executes each test script, and compares the resulting output to the
matching expected file. Any differences will be written to the file
output_iso/regression.diffs
in
diff -c
format. Note that trying to run a test that is
missing its expected file will be reported as
"
trouble
"
, so
make sure you have all expected files.
TAP_TESTS
enables the use of TAP tests. Data from each
run is present in a subdirectory named
tmp_check/
.
See also
Section 33.4
for more details.
Tip
The easiest way to create the expected files is to create empty files,
then do a test run (which will of course report differences). Inspect
the actual result files found in the
results/
directory (for tests in
REGRESS
), or
output_iso/results/
directory (for tests in
ISOLATION
), then copy them to
expected/
if they match what you expect from the test.