Most strings do not contain escape/d characters, so optimize the path where the string contains few or no escape/d characters.
This means far fewer calls to strCatChr() in favor of strCatZN(), which is much more efficient.
Append N characters from a zero-terminated string.
Note that the string does not actually need to be zero-terminated as long as N is <= the end of the string being concatenated.
This construct is logically equivalent but it seems to make the compiler more likely to inline the function, probably because the compiled code is slightly smaller.
In the ExpireEnvTest.pm backupCreate() function, backup-prior was incorrectly set for diff backups to the previous backup regardless of what backup type the previous backup was. This did not cause any issues in the Mock Expire tests before because it was not being checked. However, in order to reduce churn in the expect logs for a new feature where the backup-prior is utilized, this is being fixed so that the full backup is always used as backup-prior.
The major bottleneck was finding the memory allocation to be resized since it required a sequential search through a list.
Instead, put the allocation header at the beginning of the allocation and return an offset to the user for their buffer. This allows us to use pointer arithmetic to get back to the allocation header quickly when resizing. A side effect is to make memFree() faster as well. The downside is we won't detect garbage pointers passed to memResize()/memFree(), which is also true for MemContext pointers.
The performance benefits can be pretty large in certain cases, in particular when loading and saving manifests. The following are the before and after performance tests on a 900K file manifest.
Before:
run 003 - manifestNewLoad()/manifestSave()
000.000s l0125 - generate manifest
183.411s l0236 - 101.2MB manifest generated with 900000 files
183.411s l0239 - load manifest
403.816s l0243 - completed in 220405ms
403.816s l0245 - check file total
403.816s l0248 - save manifest
670.217s l0253 - completed in 266401ms
670.217s l0256 - find all files
671.263s l0266 - completed in 1046ms
After:
run 003 - manifestNewLoad()/manifestSave()
000.000s l0125 - generate manifest
007.730s l0236 - 101.2MB manifest generated with 900000 files
007.730s l0239 - load manifest
033.431s l0243 - completed in 25701ms
033.431s l0245 - check file total
033.431s l0248 - save manifest
057.755s l0253 - completed in 24324ms
057.755s l0256 - find all files
058.689s l0266 - completed in 934ms
Other storage*InfoList() functions do this but it was missed here.
memResize()/memFree() operations become more expensive as the mem context grows larger so freeing it periodically saves processing time.
* Fix a few issues with file names being truncated introduced in 787d3fd6.
* Use function line info from the lcov file to calculate which lines to show for uncovered functions. This is more accurate than what we were doing before and function comment headers are now excluded which reduces clutter in the report.
The prior macros had grown over time to be pretty significant pieces of code that required a lot of compile time, though runtime was efficient.
Move most of the macro code into functions to reduce compile time, perhaps at a slight expense to runtime. The overall performance benefit is 10-15% so this seems like a good tradeoff.
Add TEST_RESULT_UINT_INT() to safely compare uint to int with range checking.
Upcoming changes to the TEST_RESULT_* macros are more type safe and identified that the wrong macros were being used to test results in many cases.
Commit these changes separately to verify that they work with the current macro versions.
Note that no core bugs were exposed by these changes.
TRY...CATCH blocks are fairly expensive and when all the TEST_RESULT*() macros succeed they are not needed.
Instead just record info at the start of the result test so a detailed exception can be thrown in test.c in the rare case where an exception occurs.
This is helpful for test macros that know the line number.
The line number can now be non-zero below the top of the stack without WITH_BACKTRACE so instead ignore the line number for output when it is zero.
This error type distinguishes test errors with detailed debug info from normal errors which may need, for example, a stack trace to be added for context.
This was passing since we don't test WITH_BACKTRACE in CI because it is used only for test builds.
Ideally we would test this but it doesn't seem worth the trouble at the moment.
If the work or result directories already contain data then the docs might be generated slightly differently. Doing a clean ensures they will always produce the same output (provided the code does not change).
Building the contributing document has some special requirements because it runs Docker in Docker so the repo path must align on the host and all Docker containers. Run `pgbackrest/doc/doc.pl` from within the home directory of the user that will do the doc build, e.g. `home/vagrant`. If the repo is not located directly in the home directory, e.g. `/home/vagrant/pgbackrest`, then a symlink may be used, e.g. `ln -s /path/to/repo /home/vagrant/pgbackrest`.
Mount the repo in the Vagrantfile at /home/vagrant/pgbackrest but provide a link from the old location at /backrest to make the transition less painful.
The old coverage data has been recorded so it is no longer needed. In newer versions of gcc leaving this file around can lead to an error when writing profile data after forking off to a non-pgbackrest binary (which we do in some unit tests).
* Show all uncovered branch parts even when there are more than two parts per branch. This is the way gcc9 reports coverage so it needs to work even if it doesn't make as much sense as the old way.
* Show covered branches in functions where coverage is missing. Showing just the uncovered branches can be confusing because it's not always clear how the coverage relates to the code. By showing all branch coverage (+ or -) this correspondence is made easier.
We don't report branch coverage on test modules (e.g. test/src/module/common/errorTest.c) but the code that excluded branch coverage from the test module would also exclude it from all core modules if the test module was included in the lcov report due to lack of function/line coverage.
Adjust the coverage code to only exclude branches during the extraction of test module coverage.
For some reason gcc9 would not do -O0 builds in combination with one of the options that libperl required. Now that libperl is gone this exception is no longer required.
If a file grows during the backup it will be reconstructed by WAL replay during recovery so there is no need to copy the additional data.
This also reduces the likelihood of seeing torn pages during the copy. Torn pages can still occur in the middle of the file, though, so they must be handled.
The manifest is excellent for validation but including the entire manifest is too noisy and some values are architecture/algorithm dependent.
Output a redacted version that contains the most important information which can be improved on over time.
This macro will automatically do key replacement before the comparison. This saves the indentation required for an embedded function call.
Possibly TEST_RESULT_Z_KEYRPL() would also be useful but it will be added when needed.
The current use case is reading files from the PostgreSQL cluster during backup.
A file may grow during backup but we only need to copy the number of bytes that were reported during the manifest build. The rest will be rebuilt from the WAL during recovery so copying more is just a waste of space.
Limiting the copy sizes in backup will be part of a future commit.
When multiple files were missing coverage it could be hard to locate the coverage report for a specific file.
Add links for uncovered files to make this easier.
Also move table titles out of the table so they are valid html.
These days it is better to include the module in define.yaml when we need to poke at the internal implementation.
This doesn't quite work for the log test harness, so for now some variables will need to remain extern'd in debug builds.
Enhance dry-run support added in 2fa69af8 by forbidding writes in the storage layer and adding prefixes to log messages.
The former will protect against mistakes in dry-run implementations and the latter will make it clear when a command was executed in dry-run mode.
Update expire unit tests with the new log prefix.