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pgbackrest/test/test.pl

882 lines
36 KiB
Perl
Executable File

#!/usr/bin/perl
####################################################################################################################################
# test.pl - pgBackRest Unit Tests
####################################################################################################################################
####################################################################################################################################
# Perl includes
####################################################################################################################################
use strict;
use warnings FATAL => qw(all);
use Carp qw(confess longmess);
use English '-no_match_vars';
# Convert die to confess to capture the stack trace
$SIG{__DIE__} = sub { Carp::confess @_ };
use File::Basename qw(dirname);
use Getopt::Long qw(GetOptions);
use Cwd qw(abs_path cwd);
use JSON::PP;
use Pod::Usage qw(pod2usage);
use POSIX qw(ceil strftime);
use Time::HiRes qw(gettimeofday);
use lib dirname($0) . '/lib';
use lib dirname($0) . '/../lib';
use lib dirname($0) . '/../doc/lib';
use pgBackRest::Common::Exception;
use pgBackRest::Common::Ini;
use pgBackRest::Common::Log;
use pgBackRest::Common::String;
use pgBackRest::Common::Wait;
use pgBackRest::Config::Config;
use pgBackRest::DbVersion;
use pgBackRest::FileCommon;
use pgBackRest::Version;
use BackRestDoc::Custom::DocCustomRelease;
use pgBackRestTest::Common::ContainerTest;
use pgBackRestTest::Common::CiTest;
use pgBackRestTest::Common::DefineTest;
use pgBackRestTest::Common::ExecuteTest;
use pgBackRestTest::Common::HostGroupTest;
use pgBackRestTest::Common::JobTest;
use pgBackRestTest::Common::ListTest;
use pgBackRestTest::Common::RunTest;
use pgBackRestTest::Common::VmTest;
####################################################################################################################################
# Usage
####################################################################################################################################
=head1 NAME
test.pl - pgBackRest Unit Tests
=head1 SYNOPSIS
test.pl [options]
Test Options:
--module test module to execute
--test execute the specified test in a module
--run execute only the specified test run
--process-max max processes to run for compression/transfer (default 1)
--dry-run show only the tests that would be executed but don't execute them
--no-cleanup don't cleaup after the last test is complete - useful for debugging
--db-version version of postgres to test (all, defaults to minimal)
--log-force force overwrite of current test log files
--no-lint disable static source code analysis
--build-only compile the C library / packages and run tests only
--coverage-only only run coverage tests (as a subset of selected tests)
--smart perform libc/package builds only when source timestamps have changed
--no-package do not build packages
--no-ci-config don't overwrite the current continuous integration config
--dev --no-lint --smart --no-package --vm-out --process-max=1
Configuration Options:
--psql-bin path to the psql executables (e.g. /usr/lib/postgresql/9.3/bin/)
--test-path path where tests are executed (defaults to ./test)
--log-level log level to use for tests (defaults to INFO)
--quiet, -q equivalent to --log-level=off
VM Options:
--vm docker container to build/test (u12, u14, co6, co7)
--vm-build build Docker containers
--vm-force force a rebuild of Docker containers
--vm-out Show VM output (default false)
--vm-max max VMs to run in parallel (default 1)
General Options:
--version display version and exit
--help display usage and exit
=cut
####################################################################################################################################
# Command line parameters
####################################################################################################################################
my $strLogLevel = lc(INFO);
my $bVmOut = false;
my @stryModule;
my @stryModuleTest;
my @iyModuleTestRun;
my $iProcessMax = undef;
my $iVmMax = 1;
my $iVmId = undef;
my $bDryRun = false;
my $bNoCleanup = false;
my $strPgSqlBin;
my $strTestPath;
my $bVersion = false;
my $bHelp = false;
my $bQuiet = false;
my $strDbVersion = 'minimal';
my $bLogForce = false;
my $strVm;
my $strVmHost = VM_HOST_DEFAULT;
my $bVmBuild = false;
my $bVmForce = false;
my $bNoLint = false;
my $bBuildOnly = false;
my $bCoverageOnly = false;
my $bSmart = false;
my $bNoPackage = false;
my $bNoCiConfig = false;
my $bDev = false;
my $iRetry = 0;
GetOptions ('q|quiet' => \$bQuiet,
'version' => \$bVersion,
'help' => \$bHelp,
'pgsql-bin=s' => \$strPgSqlBin,
'test-path=s' => \$strTestPath,
'log-level=s' => \$strLogLevel,
'vm=s' => \$strVm,
'vm-host=s' => \$strVmHost,
'vm-out' => \$bVmOut,
'vm-build' => \$bVmBuild,
'vm-force' => \$bVmForce,
'module=s@' => \@stryModule,
'test=s@' => \@stryModuleTest,
'run=s@' => \@iyModuleTestRun,
'process-max=s' => \$iProcessMax,
'vm-id=s' => \$iVmId,
'vm-max=s' => \$iVmMax,
'dry-run' => \$bDryRun,
'no-cleanup' => \$bNoCleanup,
'db-version=s' => \$strDbVersion,
'log-force' => \$bLogForce,
'no-lint' => \$bNoLint,
'build-only' => \$bBuildOnly,
'no-package' => \$bNoPackage,
'no-ci-config' => \$bNoCiConfig,
'coverage-only' => \$bCoverageOnly,
'smart' => \$bSmart,
'dev' => \$bDev,
'retry=s' => \$iRetry)
or pod2usage(2);
####################################################################################################################################
# Run in eval block to catch errors
####################################################################################################################################
eval
{
# Display version and exit if requested
if ($bVersion || $bHelp)
{
syswrite(*STDOUT, BACKREST_NAME . ' ' . BACKREST_VERSION . " Test Engine\n");
if ($bHelp)
{
syswrite(*STDOUT, "\n");
pod2usage();
}
exit 0;
}
if (@ARGV > 0)
{
syswrite(*STDOUT, "invalid parameter\n\n");
pod2usage();
}
################################################################################################################################
# Update options for --dev
################################################################################################################################
if ($bDev)
{
$bNoLint = true;
$bSmart = true;
$bNoPackage = true;
$bVmOut = true;
$iProcessMax = 1;
}
################################################################################################################################
# Setup
################################################################################################################################
# Set a neutral umask so tests work as expected
umask(0);
# Set console log level
if ($bQuiet)
{
$strLogLevel = 'off';
}
logLevelSet(uc($strLogLevel), uc($strLogLevel), OFF);
if (@stryModuleTest != 0 && @stryModule != 1)
{
confess "Only one --module can be provided when --test is specified";
}
if (@iyModuleTestRun != 0 && @stryModuleTest != 1)
{
confess "Only one --test can be provided when --run is specified";
}
# Check process total
if (defined($iProcessMax) && ($iProcessMax < 1 || $iProcessMax > OPTION_DEFAULT_PROCESS_MAX_MAX))
{
confess 'process-max must be between 1 and ' . OPTION_DEFAULT_PROCESS_MAX_MAX;
}
# Set test path if not expicitly set
if (!defined($strTestPath))
{
$strTestPath = cwd() . '/test';
}
if ($bCoverageOnly)
{
if (!defined($strVm))
{
&log(INFO, "Set --vm=${strVmHost} for coverage testing");
$strVm = $strVmHost;
}
elsif ($strVm eq VM_ALL)
{
confess &log(ERROR, "select a single Debian-based VM for coverage testing");
}
elsif (!vmCoverage($strVm))
{
confess &log(ERROR, "only Debian-based VMs can be used for coverage testing");
}
}
# If VM is not defined then set it to all
if (!defined($strVm))
{
$strVm = VM_ALL;
}
# Get the base backrest path
my $strBackRestBase = dirname(dirname(abs_path($0)));
################################################################################################################################
# Build Docker containers
################################################################################################################################
if ($bVmBuild)
{
containerBuild($strVm, $bVmForce, $strDbVersion);
exit 0;
}
################################################################################################################################
# Start VM and run
################################################################################################################################
if (!defined($iVmId))
{
# Build CI configuration
if (!$bNoCiConfig)
{
(new pgBackRestTest::Common::CiTest($strBackRestBase))->process();
}
# Load the doc module dynamically since it is not supported on all systems
require BackRestDoc::Common::Doc;
BackRestDoc::Common::Doc->import();
# Make sure version number matches the latest release
my $strReleaseFile = dirname(dirname(abs_path($0))) . '/doc/xml/release.xml';
my $oRelease = (new BackRestDoc::Custom::DocCustomRelease(new BackRestDoc::Common::Doc($strReleaseFile)))->releaseLast();
my $strVersion = $oRelease->paramGet('version');
my $bVersionDev = false;
my $strVersionBase = $strVersion;
if ($strVersion =~ /dev$/)
{
$bVersionDev = true;
$strVersionBase = substr($strVersion, 0, length($strVersion) - 3);
if (BACKREST_VERSION !~ /dev$/ && $oRelease->nodeTest('release-core-list'))
{
confess "dev release ${strVersion} must match the program version when core changes have been made";
}
}
elsif ($strVersion ne BACKREST_VERSION)
{
confess 'unable to find version ' . BACKREST_VERSION . " as the most recent release in ${strReleaseFile}";
}
if (!$bDryRun)
{
# Run Perl critic
if (!$bNoLint && !$bBuildOnly)
{
my $strBasePath = dirname(dirname(abs_path($0)));
&log(INFO, "Performing static code analysis using perl -cw");
# Check the exe for warnings
my $strWarning = trim(executeTest("perl -cw ${strBasePath}/bin/pgbackrest 2>&1"));
if ($strWarning ne "${strBasePath}/bin/pgbackrest syntax OK")
{
confess &log(ERROR, "${strBasePath}/bin/pgbackrest failed syntax check:\n${strWarning}");
}
&log(INFO, "Performing static code analysis using perlcritic");
executeTest('perlcritic --quiet --verbose=8 --brutal --top=10' .
' --verbose "[%p] %f: %m at line %l, column %c. %e. (Severity: %s)\n"' .
" \"--profile=${strBasePath}/test/lint/perlcritic.policy\"" .
" ${strBasePath}/bin/pgbackrest ${strBasePath}/lib/*" .
" ${strBasePath}/test/test.pl ${strBasePath}/test/lib/*" .
" ${strBasePath}/doc/doc.pl ${strBasePath}/doc/lib/*");
}
logFileSet(cwd() . "/test");
}
# Clean up
#-----------------------------------------------------------------------------------------------------------------------
my $iTestFail = 0;
my $iTestRetry = 0;
my $oyProcess = [];
my $strCoveragePath = "${strTestPath}/cover_db";
if (!$bDryRun || $bVmOut)
{
containerRemove('test-([0-9]+|build)');
for (my $iVmIdx = 0; $iVmIdx < 8; $iVmIdx++)
{
push(@{$oyProcess}, undef);
}
executeTest("sudo rm -rf ${strTestPath}/*");
filePathCreate($strCoveragePath, '0770', true, true);
}
# Build the C Library and Packages
#-----------------------------------------------------------------------------------------------------------------------
if (!$bDryRun)
{
# Paths
my $strVagrantPath = "${strBackRestBase}/test/.vagrant";
my $strPackagePath = "${strVagrantPath}/package";
my $strPackageSmart = "${strPackagePath}/build.timestamp";
my $strLibCPath = "${strVagrantPath}/libc";
my $strLibCSmart = "${strLibCPath}/build.timestamp";
# VM Info
my $oVm = vmGet();
# Find the lastest modified time in the libc dir
my $lTimestampLibCLast = 0;
my $hManifest = fileManifest("${strBackRestBase}/libc");
foreach my $strFile (sort(keys(%{$hManifest})))
{
if ($hManifest->{$strFile}{type} eq 'f' && $hManifest->{$strFile}{modification_time} > $lTimestampLibCLast)
{
$lTimestampLibCLast = $hManifest->{$strFile}{modification_time};
}
}
# Rebuild if the modification time of the makefile does not equal the latest file in libc
if (!$bSmart || !fileExists($strLibCSmart) || fileStat($strLibCSmart)->mtime != $lTimestampLibCLast)
{
if ($bSmart)
{
&log(INFO, 'libC code has changed, library will be rebuilt');
}
executeTest("sudo rm -rf ${strLibCPath}");
executeTest('sudo rm -rf ' . $oVm->{$strVmHost}{&VMDEF_PERL_ARCH_PATH} . '/auto/pgBackRest/LibC');
executeTest('sudo rm -rf ' . $oVm->{$strVmHost}{&VMDEF_PERL_ARCH_PATH} . '/pgBackRest');
}
# Find the lastest modified time in the bin, lib dirs
my $lTimestampPackageLast = $lTimestampLibCLast;
$hManifest = fileManifest("${strBackRestBase}/bin");
foreach my $strFile (sort(keys(%{$hManifest})))
{
if ($hManifest->{$strFile}{type} eq 'f' && $hManifest->{$strFile}{modification_time} > $lTimestampPackageLast)
{
$lTimestampPackageLast = $hManifest->{$strFile}{modification_time};
}
}
$hManifest = fileManifest("${strBackRestBase}/lib");
foreach my $strFile (sort(keys(%{$hManifest})))
{
if ($hManifest->{$strFile}{type} eq 'f' && $hManifest->{$strFile}{modification_time} > $lTimestampPackageLast)
{
$lTimestampPackageLast = $hManifest->{$strFile}{modification_time};
}
}
# Rebuild if the modification time of the makefile does not equal the latest file in libc
if (!$bNoPackage &&
(!$bSmart || !fileExists($strPackageSmart) || fileStat($strPackageSmart)->mtime != $lTimestampPackageLast))
{
if ($bSmart)
{
&log(INFO, 'libC or Perl code has changed, packages will be rebuilt');
}
executeTest("sudo rm -rf ${strPackagePath}");
}
# Loop through VMs to do the C Library builds
my $bLogDetail = $strLogLevel eq 'detail';
my @stryBuildVm = $strVm eq VM_ALL ? VM_LIST : ($strVm eq $strVmHost ? ($strVm) : ($strVm, $strVmHost));
foreach my $strBuildVM (sort(@stryBuildVm))
{
my $strBuildPath = "${strLibCPath}/${strBuildVM}";
my $bContainerExists = $strVm eq VM_ALL || $strBuildVM ne $strVmHost;
if (!fileExists($strBuildPath))
{
&log(INFO, "Build/test C library for ${strBuildVM} (${strBuildPath})");
if ($bContainerExists)
{
executeTest(
"docker run -itd -h test-build --name=test-build" .
" -v ${strBackRestBase}:${strBackRestBase} " . containerRepo() . ":${strBuildVM}-build",
{bSuppressStdErr => true});
}
filePathCreate($strBuildPath, undef, true, true);
executeTest("cp -r ${strBackRestBase}/libc/* ${strBuildPath}");
executeTest(
($bContainerExists ? "docker exec -i test-build bash -c '" : '') .
"cd ${strBuildPath} && perl Makefile.PL INSTALLMAN1DIR=none INSTALLMAN3DIR=none" .
($bContainerExists ? "'" : ''),
{bSuppressStdErr => true, bShowOutputAsync => $bLogDetail});
executeTest(
($bContainerExists ? 'docker exec -i test-build ' : '') .
"make -C ${strBuildPath}",
{bSuppressStdErr => true, bShowOutputAsync => $bLogDetail});
executeTest(
($bContainerExists ? 'docker exec -i test-build ' : '') .
"make -C ${strBuildPath} test",
{bSuppressStdErr => true, bShowOutputAsync => $bLogDetail});
executeTest(
($bContainerExists ? 'docker exec -i test-build ' : 'sudo ') .
"make -C ${strBuildPath} install",
{bSuppressStdErr => true, bShowOutputAsync => $bLogDetail});
if ($bContainerExists)
{
executeTest("docker rm -f test-build");
}
if ($strBuildVM eq $strVmHost)
{
executeTest("sudo make -C ${strBuildPath} install", {bSuppressStdErr => true});
# Load the module dynamically
require pgBackRest::LibC;
pgBackRest::LibC->import(qw(:debug));
# Do a basic test to make sure it installed correctly
if (&UVSIZE != 8)
{
confess &log(ERROR, 'UVSIZE in C library does not equal 8');
}
# Also check the version number
my $strLibCVersion =
BACKREST_VERSION =~ /dev$/ ?
substr(BACKREST_VERSION, 0, length(BACKREST_VERSION) - 3) . '.999' : BACKREST_VERSION;
if (libCVersion() ne $strLibCVersion)
{
confess &log(ERROR, $strLibCVersion . ' was expected for LibC version but found ' . libCVersion());
}
}
}
}
# Write files to indicate the last time a build was successful
fileStringWrite($strLibCSmart, undef, false);
utime($lTimestampLibCLast, $lTimestampLibCLast, $strLibCSmart) or
confess "unable to set time for ${strLibCSmart}" . (defined($!) ? ":$!" : '');
# Loop through VMs to do the package builds
if (!$bNoPackage)
{
my @stryBuildVm = $strVm eq VM_ALL ? VM_LIST : ($strVm);
filePathCreate($strPackagePath, undef, true, true);
foreach my $strBuildVM (sort(@stryBuildVm))
{
my $strBuildPath = "${strPackagePath}/${strBuildVM}/src";
if (!fileExists($strBuildPath) && $oVm->{$strBuildVM}{&VM_OS_BASE} eq VM_OS_BASE_DEBIAN)
{
&log(INFO, "Build package for ${strBuildVM} (${strBuildPath})");
executeTest(
"docker run -itd -h test-build --name=test-build" .
" -v ${strBackRestBase}:${strBackRestBase} " . containerRepo() . ":${strBuildVM}-build",
{bSuppressStdErr => true});
filePathCreate($strBuildPath, undef, true, true);
executeTest("rsync -r --exclude .vagrant --exclude .git ${strBackRestBase}/ ${strBuildPath}/");
executeTest(
"docker exec -i test-build " .
"bash -c 'cp -r /root/package-src/debian ${strBuildPath}' && sudo chown -R " . TEST_USER .
" ${strBuildPath}");
# If dev build then override then disable static release date used for reproducibility.
if ($bVersionDev)
{
my $strRules = fileStringRead("${strBuildPath}/debian/rules");
$strRules =~ s/\-\-var\=release-date-static\=y/\-\-var\=release-date-static\=n/g;
$strRules =~ s/\-\-out\=html \-\-cache\-only/\-\-out\=html \-\-no\-exe/g;
fileStringWrite("${strBuildPath}/debian/rules", $strRules, false);
}
# Update changelog to add experimental version
fileStringWrite("${strBuildPath}/debian/changelog",
"pgbackrest (${strVersionBase}-0." . ($bVersionDev ? 'D' : 'P') . strftime("%Y%m%d%H%M%S", gmtime) .
") experimental; urgency=medium\n" .
"\n" .
' * Automated experimental ' . ($bVersionDev ? 'development' : 'production') . " build.\n" .
"\n" .
' -- David Steele <david@pgbackrest.org> ' . strftime("%a, %e %b %Y %H:%M:%S %z", gmtime) . "\n\n" .
fileStringRead("${strBuildPath}/debian/changelog"), false);
executeTest(
"docker exec -i test-build " .
"bash -c 'cd ${strBuildPath} && debuild -i -us -uc -b'");
executeTest(
"docker exec -i test-build " .
"bash -c 'rm -f ${strPackagePath}/${strBuildVM}/*.build ${strPackagePath}/${strBuildVM}/*.changes" .
" ${strPackagePath}/${strBuildVM}/pgbackrest-doc*'");
executeTest("docker rm -f test-build");
}
}
# Write files to indicate the last time a build was successful
if (!$bNoPackage)
{
fileStringWrite($strPackageSmart, undef, false);
utime($lTimestampPackageLast, $lTimestampPackageLast, $strPackageSmart) or
confess "unable to set time for ${strPackageSmart}" . (defined($!) ? ":$!" : '');
}
}
# Exit if only testing builds
exit 0 if $bBuildOnly;
}
# Determine which tests to run
#-----------------------------------------------------------------------------------------------------------------------
my $oyTestRun = testListGet(
$strVm, \@stryModule, \@stryModuleTest, \@iyModuleTestRun, $strDbVersion, $iProcessMax, $bCoverageOnly);
if (@{$oyTestRun} == 0)
{
confess &log(ERROR, 'no tests were selected');
}
&log(INFO, @{$oyTestRun} . ' test' . (@{$oyTestRun} > 1 ? 's': '') . " selected\n");
if ($bNoCleanup && @{$oyTestRun} > 1)
{
confess &log(ERROR, '--no-cleanup is not valid when more than one test will run')
}
# Excecute tests
if ($bDryRun)
{
$iVmMax = 1;
}
my $iTestIdx = 0;
my $iVmTotal;
my $iTestMax = @{$oyTestRun};
my $lStartTime = time();
my $bShowOutputAsync = $bVmOut && (@{$oyTestRun} == 1 || $iVmMax == 1) && ! $bDryRun ? true : false;
do
{
do
{
$iVmTotal = 0;
for (my $iVmIdx = 0; $iVmIdx < $iVmMax; $iVmIdx++)
{
if (defined($$oyProcess[$iVmIdx]))
{
my ($bDone, $bFail) = $$oyProcess[$iVmIdx]->end();
if ($bDone)
{
if ($bFail)
{
if ($oyProcess->[$iVmIdx]->run())
{
$iTestRetry++;
$iVmTotal++;
}
else
{
$iTestFail++;
$$oyProcess[$iVmIdx] = undef;
}
}
else
{
$$oyProcess[$iVmIdx] = undef;
}
}
else
{
$iVmTotal++;
}
}
}
if ($iVmTotal == $iVmMax)
{
waitHiRes(.1);
}
}
while ($iVmTotal == $iVmMax);
for (my $iVmIdx = 0; $iVmIdx < $iVmMax; $iVmIdx++)
{
if (!defined($$oyProcess[$iVmIdx]) && $iTestIdx < @{$oyTestRun})
{
my $oJob = new pgBackRestTest::Common::JobTest(
$strBackRestBase, $strTestPath, $strCoveragePath, $$oyTestRun[$iTestIdx], $bDryRun, $bVmOut, $iVmIdx,
$iVmMax, $iTestIdx, $iTestMax, $strLogLevel, $bLogForce, $bShowOutputAsync, $bNoCleanup, $iRetry);
$iTestIdx++;
if ($oJob->run())
{
$$oyProcess[$iVmIdx] = $oJob;
}
$iVmTotal++;
}
}
}
while ($iVmTotal > 0);
# Write out coverage info and test coverage
#-----------------------------------------------------------------------------------------------------------------------
my $iUncoveredCodeModuleTotal = 0;
if (vmCoverage($strVm) && !$bDryRun)
{
&log(INFO, 'writing coverage report');
executeTest("rm -rf ${strBackRestBase}/test/coverage");
executeTest("cp -rp ${strCoveragePath} ${strCoveragePath}_temp");
executeTest(
LIB_COVER_EXE . " -report json -outputdir ${strBackRestBase}/test/coverage ${strCoveragePath}_temp",
{bSuppressStdErr => true});
executeTest("sudo rm -rf ${strCoveragePath}_temp");
executeTest("sudo cp -rp ${strCoveragePath} ${strCoveragePath}_temp");
executeTest(
LIB_COVER_EXE . " -outputdir ${strBackRestBase}/test/coverage ${strCoveragePath}_temp",
{bSuppressStdErr => true});
executeTest("sudo rm -rf ${strCoveragePath}_temp");
# Determine which modules were covered (only check coverage if all tests were successful)
#-----------------------------------------------------------------------------------------------------------------------
if ($iTestFail == 0)
{
my $hModuleTest; # Everything that was run
# Build a hash of all modules, tests, and runs that were executed
foreach my $hTestRun (@{$oyTestRun})
{
# Get coverage for the module
my $strModule = $hTestRun->{&TEST_MODULE};
my $hModule = testDefModule($strModule);
# Get coverage for the test
my $strTest = $hTestRun->{&TEST_NAME};
my $hTest = testDefModuleTest($strModule, $strTest);
# If no tests are listed it means all of them were run
if (@{$hTestRun->{&TEST_RUN}} == 0)
{
$hModuleTest->{$strModule}{$strTest} = true;
}
}
# Load the results of coverage testing from JSON
my $oJSON = JSON::PP->new()->allow_nonref();
my $hCoverageResult = $oJSON->decode(fileStringRead("${strBackRestBase}/test/coverage/cover.json"));
# Now compare against code modules that should have full coverage
my $hCoverageList = testDefCoverageList();
my $hCoverageType = testDefCoverageType();
my $hCoverageActual;
foreach my $strCodeModule (sort(keys(%{$hCoverageList})))
{
if (@{$hCoverageList->{$strCodeModule}} > 0)
{
my $iCoverageTotal = 0;
foreach my $hTest (@{$hCoverageList->{$strCodeModule}})
{
if (!defined($hModuleTest->{$hTest->{strModule}}{$hTest->{strTest}}))
{
next;
}
$iCoverageTotal++;
}
if (@{$hCoverageList->{$strCodeModule}} == $iCoverageTotal)
{
$hCoverageActual->{$strCodeModule} = $hCoverageType->{$strCodeModule};
}
}
}
if (keys(%{$hCoverageActual}) > 0)
{
&log(INFO, 'test coverage for: ' . join(', ', sort(keys(%{$hCoverageActual}))));
}
else
{
&log(INFO, 'no code modules had all tests run required for coverage');
}
foreach my $strCodeModule (sort(keys(%{$hCoverageActual})))
{
# Get summary results (??? Need to fix this for coverage testing on bin/pgbackrest since .pm is required)
my $hCoverageResultAll =
$hCoverageResult->{'summary'}
{"${strBackRestBase}/lib/" . BACKREST_NAME . "/${strCodeModule}.pm"}{total};
if (!defined($hCoverageResultAll))
{
confess &log(ERROR, "unable to find coverage results for ${strCodeModule}");
}
# Check that all code has been covered
my $iCoverageTotal = $hCoverageResultAll->{total};
my $iCoverageUncoverable = coalesce($hCoverageResultAll->{uncoverable}, 0);
my $iCoverageCovered = $hCoverageResultAll->{covered};
if ($hCoverageActual->{$strCodeModule} == TESTDEF_COVERAGE_FULL)
{
my $iUncoveredLines = $iCoverageTotal - $iCoverageCovered - $iCoverageUncoverable;
if ($iUncoveredLines != 0)
{
&log(ERROR, "code module ${strCodeModule} is not fully covered");
$iUncoveredCodeModuleTotal++;
}
}
# Else test how much partial coverage where was
else
{
my $iCoveragePercent = int(($iCoverageCovered + $iCoverageUncoverable) * 100 / $iCoverageTotal);
if ($iCoveragePercent == 100)
{
&log(ERROR, "code module ${strCodeModule} has 100% coverage but is not marked fully covered");
$iUncoveredCodeModuleTotal++;
}
else
{
&log(INFO, "code module ${strCodeModule} has (expected) partial coverage of ${iCoveragePercent}%");
}
}
}
}
}
# Print test info and exit
#-----------------------------------------------------------------------------------------------------------------------
if ($bDryRun)
{
&log(INFO, 'DRY RUN COMPLETED');
}
else
{
&log(INFO,
'TESTS COMPLETED ' . ($iTestFail == 0 ? 'SUCCESSFULLY' .
($iUncoveredCodeModuleTotal == 0 ? '' : " WITH ${iUncoveredCodeModuleTotal} MODULE(S) MISSING COVERAGE") :
"WITH ${iTestFail} FAILURE(S)") . ($iTestRetry == 0 ? '' : ", ${iTestRetry} RETRY(IES)") .
' (' . (time() - $lStartTime) . 's)');
exit 1 if ($iTestFail > 0 || $iUncoveredCodeModuleTotal > 0);
}
exit 0;
}
################################################################################################################################
# Runs tests
################################################################################################################################
my $iRun = 0;
# Create host group for containers
my $oHostGroup = hostGroupGet();
# Run the test
testRun($stryModule[0], $stryModuleTest[0])->process(
$strVm, $iVmId, # Vm info
$strBackRestBase, # Base backrest directory
$strTestPath, # Path where the tests will run
"${strBackRestBase}/bin/" . BACKREST_EXE, # Path to the backrest executable
$strDbVersion ne 'minimal' ? $strPgSqlBin: undef, # Db bin path
$strDbVersion ne 'minimal' ? $strDbVersion: undef, # Db version
$stryModule[0], $stryModuleTest[0], \@iyModuleTestRun, # Module info
$iProcessMax, $bVmOut, $bDryRun, $bNoCleanup, $bLogForce, # Test options
TEST_USER, BACKREST_USER, TEST_GROUP); # User/group info
if (!$bNoCleanup)
{
if ($oHostGroup->removeAll() > 0)
{
executeTest("sudo rm -rf ${strTestPath}");
}
}
if (!$bDryRun && !$bVmOut)
{
&log(INFO, 'TESTS COMPLETED SUCCESSFULLY (DESPITE ANY ERROR MESSAGES YOU SAW)');
}
# Exit with success
exit 0;
}
####################################################################################################################################
# Check for errors
####################################################################################################################################
or do
{
# If a backrest exception then return the code
exit $EVAL_ERROR->code() if (isException($EVAL_ERROR));
# Else output the unhandled error
print $EVAL_ERROR;
exit ERROR_UNHANDLED;
};
# It shouldn't be possible to get here
&log(ASSERT, 'execution reached invalid location in ' . __FILE__ . ', line ' . __LINE__);
exit ERROR_ASSERT;