=pod =head1 NAME TestLib - helper module for writing PostgreSQL's C tests. =head1 SYNOPSIS use TestLib; # Test basic output of a command program_help_ok('initdb'); program_version_ok('initdb'); program_options_handling_ok('initdb'); # Test option combinations command_fails(['initdb', '--invalid-option'], 'command fails with invalid option'); my $tempdir = TestLib::tempdir; command_ok('initdb', '-D', $tempdir); # Miscellanea print "on Windows" if $TestLib::windows_os; my $path = TestLib::perl2host($backup_dir); ok(check_mode_recursive($stream_dir, 0700, 0600), "check stream dir permissions"); TestLib::system_log('pg_ctl', 'kill', 'QUIT', $slow_pid); =head1 DESCRIPTION C contains a set of routines dedicated to environment setup for a PostgreSQL regression test run and includes some low-level routines aimed at controlling command execution, logging and test functions. =cut # This module should never depend on any other PostgreSQL regression test # modules. package TestLib; use strict; use warnings; use Config; use Cwd; use Exporter 'import'; use Fcntl qw(:mode); use File::Basename; use File::Find; use File::Spec; use File::stat qw(stat); use File::Temp (); use IPC::Run; use SimpleTee; # specify a recent enough version of Test::More to support the # done_testing() function use Test::More 0.87; our @EXPORT = qw( generate_ascii_string slurp_dir slurp_file append_to_file check_mode_recursive chmod_recursive check_pg_config dir_symlink system_or_bail system_log run_log run_command command_ok command_fails command_exit_is program_help_ok program_version_ok program_options_handling_ok command_like command_like_safe command_fails_like command_checks_all $windows_os $is_msys2 $use_unix_sockets ); our ($windows_os, $is_msys2, $use_unix_sockets, $tmp_check, $log_path, $test_logfile); BEGIN { # Set to untranslated messages, to be able to compare program output # with expected strings. delete $ENV{LANGUAGE}; delete $ENV{LC_ALL}; $ENV{LC_MESSAGES} = 'C'; delete $ENV{PGCONNECT_TIMEOUT}; delete $ENV{PGDATA}; delete $ENV{PGDATABASE}; delete $ENV{PGHOSTADDR}; delete $ENV{PGREQUIRESSL}; delete $ENV{PGSERVICE}; delete $ENV{PGSSLMODE}; delete $ENV{PGUSER}; delete $ENV{PGPORT}; delete $ENV{PGHOST}; delete $ENV{PG_COLOR}; $ENV{PGAPPNAME} = basename($0); # Must be set early $windows_os = $Config{osname} eq 'MSWin32' || $Config{osname} eq 'msys'; # Check if this environment is MSYS2. $is_msys2 = $^O eq 'msys' && `uname -or` =~ /^[2-9].*Msys/; if ($windows_os) { require Win32API::File; Win32API::File->import(qw(createFile OsFHandleOpen CloseHandle)); } # Specifies whether to use Unix sockets for test setups. On # Windows we don't use them by default since it's not universally # supported, but it can be overridden if desired. $use_unix_sockets = (!$windows_os || defined $ENV{PG_TEST_USE_UNIX_SOCKETS}); } =pod =head1 EXPORTED VARIABLES =over =item C<$windows_os> Set to true when running under Windows, except on Cygwin. =item C<$is_msys2> Set to true when running under MSYS2. =back =cut INIT { # Return EPIPE instead of killing the process with SIGPIPE. An affected # test may still fail, but it's more likely to report useful facts. $SIG{PIPE} = 'IGNORE'; # Determine output directories, and create them. The base path is the # TESTDIR environment variable, which is normally set by the invoking # Makefile. $tmp_check = $ENV{TESTDIR} ? "$ENV{TESTDIR}/tmp_check" : "tmp_check"; $log_path = "$tmp_check/log"; mkdir $tmp_check; mkdir $log_path; # Open the test log file, whose name depends on the test name. $test_logfile = basename($0); $test_logfile =~ s/\.[^.]+$//; $test_logfile = "$log_path/regress_log_$test_logfile"; open my $testlog, '>', $test_logfile or die "could not open STDOUT to logfile \"$test_logfile\": $!"; # Hijack STDOUT and STDERR to the log file open(my $orig_stdout, '>&', \*STDOUT); open(my $orig_stderr, '>&', \*STDERR); open(STDOUT, '>&', $testlog); open(STDERR, '>&', $testlog); # The test output (ok ...) needs to be printed to the original STDOUT so # that the 'prove' program can parse it, and display it to the user in # real time. But also copy it to the log file, to provide more context # in the log. my $builder = Test::More->builder; my $fh = $builder->output; tie *$fh, "SimpleTee", $orig_stdout, $testlog; $fh = $builder->failure_output; tie *$fh, "SimpleTee", $orig_stderr, $testlog; # Enable auto-flushing for all the file handles. Stderr and stdout are # redirected to the same file, and buffering causes the lines to appear # in the log in confusing order. autoflush STDOUT 1; autoflush STDERR 1; autoflush $testlog 1; } END { # Test files have several ways of causing prove_check to fail: # 1. Exit with a non-zero status. # 2. Call ok(0) or similar, indicating that a constituent test failed. # 3. Deviate from the planned number of tests. # # Preserve temporary directories after (1) and after (2). $File::Temp::KEEP_ALL = 1 unless $? == 0 && all_tests_passing(); } =pod =head1 ROUTINES =over =item all_tests_passing() Return 1 if all the tests run so far have passed. Otherwise, return 0. =cut sub all_tests_passing { foreach my $status (Test::More->builder->summary) { return 0 unless $status; } return 1; } =pod =item tempdir(prefix) Securely create a temporary directory inside C<$tmp_check>, like C, and return its name. The directory will be removed automatically at the end of the tests. If C is given, the new directory is templated as C<${prefix}_XXXX>. Otherwise the template is C. =cut sub tempdir { my ($prefix) = @_; $prefix = "tmp_test" unless defined $prefix; return File::Temp::tempdir( $prefix . '_XXXX', DIR => $tmp_check, CLEANUP => 1); } =pod =item tempdir_short() As above, but the directory is outside the build tree so that it has a short name, to avoid path length issues. =cut sub tempdir_short { return File::Temp::tempdir(CLEANUP => 1); } =pod =item perl2host() Translate a virtual file name to a host file name. Currently, this is a no-op except for the case of Perl=msys and host=mingw32. The subject need not exist, but its parent or grandparent directory must exist unless cygpath is available. =cut sub perl2host { my ($subject) = @_; return $subject unless $Config{osname} eq 'msys'; if ($is_msys2) { # get absolute, windows type path my $path = qx{cygpath -a -w "$subject"}; if (!$?) { chomp $path; return $path if $path; } # fall through if this didn't work. } my $here = cwd; my $leaf; if (chdir $subject) { $leaf = ''; } else { $leaf = '/' . basename $subject; my $parent = dirname $subject; if (!chdir $parent) { $leaf = '/' . basename($parent) . $leaf; $parent = dirname $parent; chdir $parent or die "could not chdir \"$parent\": $!"; } } # this odd way of calling 'pwd -W' is the only way that seems to work. my $dir = qx{sh -c "pwd -W"}; chomp $dir; chdir $here; return $dir . $leaf; } =pod =item system_log(@cmd) Run (via C) the command passed as argument; the return value is passed through. =cut sub system_log { print("# Running: " . join(" ", @_) . "\n"); return system(@_); } =pod =item system_or_bail(@cmd) Run (via C) the command passed as argument, and returns if the command is successful. On failure, abandon further tests and exit the program. =cut sub system_or_bail { if (system_log(@_) != 0) { BAIL_OUT("system $_[0] failed"); } return; } =pod =item run_log(@cmd) Run the given command via C, noting it in the log. The return value from the command is passed through. =cut sub run_log { print("# Running: " . join(" ", @{ $_[0] }) . "\n"); return IPC::Run::run(@_); } =pod =item run_command(cmd) Run (via C) the command passed as argument. The return value from the command is ignored. The return value is C<($stdout, $stderr)>. =cut sub run_command { my ($cmd) = @_; my ($stdout, $stderr); my $result = IPC::Run::run $cmd, '>', \$stdout, '2>', \$stderr; chomp($stdout); chomp($stderr); return ($stdout, $stderr); } =pod =item generate_ascii_string(from_char, to_char) Generate a string made of the given range of ASCII characters. =cut sub generate_ascii_string { my ($from_char, $to_char) = @_; my $res; for my $i ($from_char .. $to_char) { $res .= sprintf("%c", $i); } return $res; } =pod =item slurp_dir(dir) Return the complete list of entries in the specified directory. =cut sub slurp_dir { my ($dir) = @_; opendir(my $dh, $dir) or die "could not opendir \"$dir\": $!"; my @direntries = readdir $dh; closedir $dh; return @direntries; } =pod =item slurp_file(filename) Return the full contents of the specified file. =cut sub slurp_file { my ($filename) = @_; local $/; my $contents; if ($Config{osname} ne 'MSWin32') { open(my $in, '<', $filename) or die "could not read \"$filename\": $!"; $contents = <$in>; close $in; } else { my $fHandle = createFile($filename, "r", "rwd") or die "could not open \"$filename\": $^E"; OsFHandleOpen(my $fh = IO::Handle->new(), $fHandle, 'r') or die "could not read \"$filename\": $^E\n"; $contents = <$fh>; CloseHandle($fHandle) or die "could not close \"$filename\": $^E\n"; } $contents =~ s/\r\n/\n/g if $Config{osname} eq 'msys'; return $contents; } =pod =item append_to_file(filename, str) Append a string at the end of a given file. (Note: no newline is appended at end of file.) =cut sub append_to_file { my ($filename, $str) = @_; open my $fh, ">>", $filename or die "could not write \"$filename\": $!"; print $fh $str; close $fh; return; } =pod =item check_mode_recursive(dir, expected_dir_mode, expected_file_mode, ignore_list) Check that all file/dir modes in a directory match the expected values, ignoring files in C (basename only). =cut sub check_mode_recursive { my ($dir, $expected_dir_mode, $expected_file_mode, $ignore_list) = @_; # Result defaults to true my $result = 1; find( { follow_fast => 1, wanted => sub { # Is file in the ignore list? foreach my $ignore ($ignore_list ? @{$ignore_list} : []) { if ("$dir/$ignore" eq $File::Find::name) { return; } } # Allow ENOENT. A running server can delete files, such as # those in pg_stat. Other stat() failures are fatal. my $file_stat = stat($File::Find::name); unless (defined($file_stat)) { my $is_ENOENT = $!{ENOENT}; my $msg = "unable to stat $File::Find::name: $!"; if ($is_ENOENT) { warn $msg; return; } else { die $msg; } } my $file_mode = S_IMODE($file_stat->mode); # Is this a file? if (S_ISREG($file_stat->mode)) { if ($file_mode != $expected_file_mode) { print( *STDERR, sprintf("$File::Find::name mode must be %04o\n", $expected_file_mode)); $result = 0; return; } } # Else a directory? elsif (S_ISDIR($file_stat->mode)) { if ($file_mode != $expected_dir_mode) { print( *STDERR, sprintf("$File::Find::name mode must be %04o\n", $expected_dir_mode)); $result = 0; return; } } # Else something we can't handle else { die "unknown file type for $File::Find::name"; } } }, $dir); return $result; } =pod =item chmod_recursive(dir, dir_mode, file_mode) C recursively each file and directory within the given directory. =cut sub chmod_recursive { my ($dir, $dir_mode, $file_mode) = @_; find( { follow_fast => 1, wanted => sub { my $file_stat = stat($File::Find::name); if (defined($file_stat)) { chmod( S_ISDIR($file_stat->mode) ? $dir_mode : $file_mode, $File::Find::name ) or die "unable to chmod $File::Find::name"; } } }, $dir); return; } =pod =item check_pg_config(regexp) Return the number of matches of the given regular expression within the installation's C. =cut sub check_pg_config { my ($regexp) = @_; my ($stdout, $stderr); my $result = IPC::Run::run [ 'pg_config', '--includedir' ], '>', \$stdout, '2>', \$stderr or die "could not execute pg_config"; chomp($stdout); $stdout =~ s/\r$//; open my $pg_config_h, '<', "$stdout/pg_config.h" or die "$!"; my $match = (grep { /^$regexp/ } <$pg_config_h>); close $pg_config_h; return $match; } =pod =item dir_symlink(oldname, newname) Portably create a symlink for a directory. On Windows this creates a junction point. Elsewhere it just calls perl's builtin symlink. =cut sub dir_symlink { my $oldname = shift; my $newname = shift; if ($windows_os) { $oldname = perl2host($oldname); $newname = perl2host($newname); $oldname =~ s,/,\\,g; $newname =~ s,/,\\,g; my $cmd = qq{mklink /j "$newname" "$oldname"}; if ($Config{osname} eq 'msys') { # need some indirection on msys $cmd = qq{echo '$cmd' | \$COMSPEC /Q}; } system($cmd); } else { symlink $oldname, $newname; } die "No $newname" unless -e $newname; } =pod =back =head1 Test::More-LIKE METHODS =over =item command_ok(cmd, test_name) Check that the command runs (via C) successfully. =cut sub command_ok { local $Test::Builder::Level = $Test::Builder::Level + 1; my ($cmd, $test_name) = @_; my $result = run_log($cmd); ok($result, $test_name); return; } =pod =item command_fails(cmd, test_name) Check that the command fails (when run via C). =cut sub command_fails { local $Test::Builder::Level = $Test::Builder::Level + 1; my ($cmd, $test_name) = @_; my $result = run_log($cmd); ok(!$result, $test_name); return; } =pod =item command_exit_is(cmd, expected, test_name) Check that the command exit code matches the expected exit code. =cut sub command_exit_is { local $Test::Builder::Level = $Test::Builder::Level + 1; my ($cmd, $expected, $test_name) = @_; print("# Running: " . join(" ", @{$cmd}) . "\n"); my $h = IPC::Run::start $cmd; $h->finish(); # On Windows, the exit status of the process is returned directly as the # process's exit code, while on Unix, it's returned in the high bits # of the exit code (see WEXITSTATUS macro in the standard # header file). IPC::Run's result function always returns exit code >> 8, # assuming the Unix convention, which will always return 0 on Windows as # long as the process was not terminated by an exception. To work around # that, use $h->full_results on Windows instead. my $result = ($Config{osname} eq "MSWin32") ? ($h->full_results)[0] : $h->result(0); is($result, $expected, $test_name); return; } =pod =item program_help_ok(cmd) Check that the command supports the C<--help> option. =cut sub program_help_ok { local $Test::Builder::Level = $Test::Builder::Level + 1; my ($cmd) = @_; my ($stdout, $stderr); print("# Running: $cmd --help\n"); my $result = IPC::Run::run [ $cmd, '--help' ], '>', \$stdout, '2>', \$stderr; ok($result, "$cmd --help exit code 0"); isnt($stdout, '', "$cmd --help goes to stdout"); is($stderr, '', "$cmd --help nothing to stderr"); return; } =pod =item program_version_ok(cmd) Check that the command supports the C<--version> option. =cut sub program_version_ok { local $Test::Builder::Level = $Test::Builder::Level + 1; my ($cmd) = @_; my ($stdout, $stderr); print("# Running: $cmd --version\n"); my $result = IPC::Run::run [ $cmd, '--version' ], '>', \$stdout, '2>', \$stderr; ok($result, "$cmd --version exit code 0"); isnt($stdout, '', "$cmd --version goes to stdout"); is($stderr, '', "$cmd --version nothing to stderr"); return; } =pod =item program_options_handling_ok(cmd) Check that a command with an invalid option returns a non-zero exit code and error message. =cut sub program_options_handling_ok { local $Test::Builder::Level = $Test::Builder::Level + 1; my ($cmd) = @_; my ($stdout, $stderr); print("# Running: $cmd --not-a-valid-option\n"); my $result = IPC::Run::run [ $cmd, '--not-a-valid-option' ], '>', \$stdout, '2>', \$stderr; ok(!$result, "$cmd with invalid option nonzero exit code"); isnt($stderr, '', "$cmd with invalid option prints error message"); return; } =pod =item command_like(cmd, expected_stdout, test_name) Check that the command runs successfully and the output matches the given regular expression. =cut sub command_like { local $Test::Builder::Level = $Test::Builder::Level + 1; my ($cmd, $expected_stdout, $test_name) = @_; my ($stdout, $stderr); print("# Running: " . join(" ", @{$cmd}) . "\n"); my $result = IPC::Run::run $cmd, '>', \$stdout, '2>', \$stderr; ok($result, "$test_name: exit code 0"); is($stderr, '', "$test_name: no stderr"); like($stdout, $expected_stdout, "$test_name: matches"); return; } =pod =item command_like_safe(cmd, expected_stdout, test_name) Check that the command runs successfully and the output matches the given regular expression. Doesn't assume that the output files are closed. =cut sub command_like_safe { local $Test::Builder::Level = $Test::Builder::Level + 1; # Doesn't rely on detecting end of file on the file descriptors, # which can fail, causing the process to hang, notably on Msys # when used with 'pg_ctl start' my ($cmd, $expected_stdout, $test_name) = @_; my ($stdout, $stderr); my $stdoutfile = File::Temp->new(); my $stderrfile = File::Temp->new(); print("# Running: " . join(" ", @{$cmd}) . "\n"); my $result = IPC::Run::run $cmd, '>', $stdoutfile, '2>', $stderrfile; $stdout = slurp_file($stdoutfile); $stderr = slurp_file($stderrfile); ok($result, "$test_name: exit code 0"); is($stderr, '', "$test_name: no stderr"); like($stdout, $expected_stdout, "$test_name: matches"); return; } =pod =item command_fails_like(cmd, expected_stderr, test_name) Check that the command fails and the error message matches the given regular expression. =cut sub command_fails_like { local $Test::Builder::Level = $Test::Builder::Level + 1; my ($cmd, $expected_stderr, $test_name) = @_; my ($stdout, $stderr); print("# Running: " . join(" ", @{$cmd}) . "\n"); my $result = IPC::Run::run $cmd, '>', \$stdout, '2>', \$stderr; ok(!$result, "$test_name: exit code not 0"); like($stderr, $expected_stderr, "$test_name: matches"); return; } =pod =item command_checks_all(cmd, ret, out, err, test_name) Run a command and check its status and outputs. Arguments: =over =item C: Array reference of command and arguments to run =item C: Expected exit code =item C: Expected stdout from command =item C: Expected stderr from command =item C: test name =back =cut sub command_checks_all { local $Test::Builder::Level = $Test::Builder::Level + 1; my ($cmd, $expected_ret, $out, $err, $test_name) = @_; # run command my ($stdout, $stderr); print("# Running: " . join(" ", @{$cmd}) . "\n"); IPC::Run::run($cmd, '>', \$stdout, '2>', \$stderr); # See http://perldoc.perl.org/perlvar.html#%24CHILD_ERROR my $ret = $?; die "command exited with signal " . ($ret & 127) if $ret & 127; $ret = $ret >> 8; # check status ok($ret == $expected_ret, "$test_name status (got $ret vs expected $expected_ret)"); # check stdout for my $re (@$out) { like($stdout, $re, "$test_name stdout /$re/"); } # check stderr for my $re (@$err) { like($stderr, $re, "$test_name stderr /$re/"); } return; } =pod =back =cut 1;