# Copyright (c) 2021, PostgreSQL Global Development Group =pod =head1 NAME PostgresNode - class representing PostgreSQL server instance =head1 SYNOPSIS use PostgresNode; my $node = PostgresNode->get_new_node('mynode'); # Create a data directory with initdb $node->init(); # Start the PostgreSQL server $node->start(); # Change a setting and restart $node->append_conf('postgresql.conf', 'hot_standby = on'); $node->restart(); # run a query with psql, like: # echo 'SELECT 1' | psql -qAXt postgres -v ON_ERROR_STOP=1 $psql_stdout = $node->safe_psql('postgres', 'SELECT 1'); # Run psql with a timeout, capturing stdout and stderr # as well as the psql exit code. Pass some extra psql # options. If there's an error from psql raise an exception. my ($stdout, $stderr, $timed_out); my $cmdret = $node->psql('postgres', 'SELECT pg_sleep(600)', stdout => \$stdout, stderr => \$stderr, timeout => 180, timed_out => \$timed_out, extra_params => ['--single-transaction'], on_error_die => 1) print "Sleep timed out" if $timed_out; # Similar thing, more convenient in common cases my ($cmdret, $stdout, $stderr) = $node->psql('postgres', 'SELECT 1'); # run query every second until it returns 't' # or times out $node->poll_query_until('postgres', q|SELECT random() < 0.1;|') or die "timed out"; # Do an online pg_basebackup my $ret = $node->backup('testbackup1'); # Take a backup of a running server my $ret = $node->backup_fs_hot('testbackup2'); # Take a backup of a stopped server $node->stop; my $ret = $node->backup_fs_cold('testbackup3') # Restore it to create a new independent node (not a replica) my $replica = get_new_node('replica'); $replica->init_from_backup($node, 'testbackup'); $replica->start; # Stop the server $node->stop('fast'); # Find a free, unprivileged TCP port to bind some other service to my $port = get_free_port(); =head1 DESCRIPTION PostgresNode contains a set of routines able to work on a PostgreSQL node, allowing to start, stop, backup and initialize it with various options. The set of nodes managed by a given test is also managed by this module. In addition to node management, PostgresNode instances have some wrappers around Test::More functions to run commands with an environment set up to point to the instance. The IPC::Run module is required. =cut package PostgresNode; use strict; use warnings; use Carp; use Config; use Cwd; use Exporter 'import'; use Fcntl qw(:mode); use File::Basename; use File::Path qw(rmtree); use File::Spec; use File::stat qw(stat); use File::Temp (); use IPC::Run; use PostgresVersion; use RecursiveCopy; use Socket; use Test::More; use TestLib (); use Time::HiRes qw(usleep); use Scalar::Util qw(blessed); our @EXPORT = qw( get_new_node get_free_port ); our ($use_tcp, $test_localhost, $test_pghost, $last_host_assigned, $last_port_assigned, @all_nodes, $died); INIT { # Set PGHOST for backward compatibility. This doesn't work for own_host # nodes, so prefer to not rely on this when writing new tests. $use_tcp = !$TestLib::use_unix_sockets; $test_localhost = "127.0.0.1"; $last_host_assigned = 1; $test_pghost = $use_tcp ? $test_localhost : TestLib::tempdir_short; $ENV{PGHOST} = $test_pghost; $ENV{PGDATABASE} = 'postgres'; # Tracking of last port value assigned to accelerate free port lookup. $last_port_assigned = int(rand() * 16384) + 49152; } =pod =head1 METHODS =over =item PostgresNode::new($class, $name, $pghost, $pgport) Create a new PostgresNode instance. Does not initdb or start it. You should generally prefer to use get_new_node() instead since it takes care of finding port numbers, registering instances for cleanup, etc. =cut sub new { my ($class, $name, $pghost, $pgport) = @_; my $testname = basename($0); $testname =~ s/\.[^.]+$//; my $self = { _port => $pgport, _host => $pghost, _basedir => "$TestLib::tmp_check/t_${testname}_${name}_data", _name => $name, _logfile_generation => 0, _logfile_base => "$TestLib::log_path/${testname}_${name}", _logfile => "$TestLib::log_path/${testname}_${name}.log" }; bless $self, $class; mkdir $self->{_basedir} or BAIL_OUT("could not create data directory \"$self->{_basedir}\": $!"); $self->dump_info; return $self; } =pod =item $node->port() Get the port number assigned to the host. This won't necessarily be a TCP port open on the local host since we prefer to use unix sockets if possible. Use $node->connstr() if you want a connection string. =cut sub port { my ($self) = @_; return $self->{_port}; } =pod =item $node->host() Return the host (like PGHOST) for this instance. May be a UNIX socket path. Use $node->connstr() if you want a connection string. =cut sub host { my ($self) = @_; return $self->{_host}; } =pod =item $node->basedir() The directory all the node's files will be within - datadir, archive directory, backups, etc. =cut sub basedir { my ($self) = @_; return $self->{_basedir}; } =pod =item $node->name() The name assigned to the node at creation time. =cut sub name { my ($self) = @_; return $self->{_name}; } =pod =item $node->logfile() Path to the PostgreSQL log file for this instance. =cut sub logfile { my ($self) = @_; return $self->{_logfile}; } =pod =item $node->connstr() Get a libpq connection string that will establish a connection to this node. Suitable for passing to psql, DBD::Pg, etc. =cut sub connstr { my ($self, $dbname) = @_; my $pgport = $self->port; my $pghost = $self->host; if (!defined($dbname)) { return "port=$pgport host=$pghost"; } # Escape properly the database string before using it, only # single quotes and backslashes need to be treated this way. $dbname =~ s#\\#\\\\#g; $dbname =~ s#\'#\\\'#g; return "port=$pgport host=$pghost dbname='$dbname'"; } =pod =item $node->group_access() Does the data dir allow group access? =cut sub group_access { my ($self) = @_; my $dir_stat = stat($self->data_dir); defined($dir_stat) or die('unable to stat ' . $self->data_dir); return (S_IMODE($dir_stat->mode) == 0750); } =pod =item $node->data_dir() Returns the path to the data directory. postgresql.conf and pg_hba.conf are always here. =cut sub data_dir { my ($self) = @_; my $res = $self->basedir; return "$res/pgdata"; } =pod =item $node->archive_dir() If archiving is enabled, WAL files go here. =cut sub archive_dir { my ($self) = @_; my $basedir = $self->basedir; return "$basedir/archives"; } =pod =item $node->backup_dir() The output path for backups taken with $node->backup() =cut sub backup_dir { my ($self) = @_; my $basedir = $self->basedir; return "$basedir/backup"; } =pod =item $node->info() Return a string containing human-readable diagnostic information (paths, etc) about this node. =cut sub info { my ($self) = @_; my $_info = ''; open my $fh, '>', \$_info or die; print $fh "Name: " . $self->name . "\n"; print $fh "Version: " . $self->{_pg_version} . "\n" if $self->{_pg_version}; print $fh "Data directory: " . $self->data_dir . "\n"; print $fh "Backup directory: " . $self->backup_dir . "\n"; print $fh "Archive directory: " . $self->archive_dir . "\n"; print $fh "Connection string: " . $self->connstr . "\n"; print $fh "Log file: " . $self->logfile . "\n"; print $fh "Install Path: ", $self->{_install_path} . "\n" if $self->{_install_path}; close $fh or die; return $_info; } =pod =item $node->dump_info() Print $node->info() =cut sub dump_info { my ($self) = @_; print $self->info; return; } # Internal method to set up trusted pg_hba.conf for replication. Not # documented because you shouldn't use it, it's called automatically if needed. sub set_replication_conf { my ($self) = @_; my $pgdata = $self->data_dir; $self->host eq $test_pghost or croak "set_replication_conf only works with the default host"; open my $hba, '>>', "$pgdata/pg_hba.conf"; print $hba "\n# Allow replication (set up by PostgresNode.pm)\n"; if ($TestLib::windows_os && !$TestLib::use_unix_sockets) { print $hba "host replication all $test_localhost/32 sspi include_realm=1 map=regress\n"; } close $hba; return; } =pod =item $node->init(...) Initialize a new cluster for testing. Authentication is set up so that only the current OS user can access the cluster. On Unix, we use Unix domain socket connections, with the socket in a directory that's only accessible to the current user to ensure that. On Windows, we use SSPI authentication to ensure the same (by pg_regress --config-auth). WAL archiving can be enabled on this node by passing the keyword parameter has_archiving => 1. This is disabled by default. postgresql.conf can be set up for replication by passing the keyword parameter allows_streaming => 'logical' or 'physical' (passing 1 will also suffice for physical replication) depending on type of replication that should be enabled. This is disabled by default. The new node is set up in a fast but unsafe configuration where fsync is disabled. =cut sub init { my ($self, %params) = @_; my $port = $self->port; my $pgdata = $self->data_dir; my $host = $self->host; local %ENV = $self->_get_env(); $params{allows_streaming} = 0 unless defined $params{allows_streaming}; $params{has_archiving} = 0 unless defined $params{has_archiving}; mkdir $self->backup_dir; mkdir $self->archive_dir; TestLib::system_or_bail('initdb', '-D', $pgdata, '-A', 'trust', '-N', @{ $params{extra} }); TestLib::system_or_bail($ENV{PG_REGRESS}, '--config-auth', $pgdata, @{ $params{auth_extra} }); open my $conf, '>>', "$pgdata/postgresql.conf"; print $conf "\n# Added by PostgresNode.pm\n"; print $conf "fsync = off\n"; print $conf "restart_after_crash = off\n"; print $conf "log_line_prefix = '%m [%p] %q%a '\n"; print $conf "log_statement = all\n"; print $conf "log_replication_commands = on\n"; print $conf "wal_retrieve_retry_interval = '500ms'\n"; # If a setting tends to affect whether tests pass or fail, print it after # TEMP_CONFIG. Otherwise, print it before TEMP_CONFIG, thereby permitting # overrides. Settings that merely improve performance or ease debugging # belong before TEMP_CONFIG. print $conf TestLib::slurp_file($ENV{TEMP_CONFIG}) if defined $ENV{TEMP_CONFIG}; # XXX Neutralize any stats_temp_directory in TEMP_CONFIG. Nodes running # concurrently must not share a stats_temp_directory. print $conf "stats_temp_directory = 'pg_stat_tmp'\n"; if ($params{allows_streaming}) { if ($params{allows_streaming} eq "logical") { print $conf "wal_level = logical\n"; } else { print $conf "wal_level = replica\n"; } print $conf "max_wal_senders = 10\n"; print $conf "max_replication_slots = 10\n"; print $conf "wal_log_hints = on\n"; print $conf "hot_standby = on\n"; # conservative settings to ensure we can run multiple postmasters: print $conf "shared_buffers = 1MB\n"; print $conf "max_connections = 10\n"; # limit disk space consumption, too: print $conf "max_wal_size = 128MB\n"; } else { print $conf "wal_level = minimal\n"; print $conf "max_wal_senders = 0\n"; } print $conf "port = $port\n"; if ($use_tcp) { print $conf "unix_socket_directories = ''\n"; print $conf "listen_addresses = '$host'\n"; } else { print $conf "unix_socket_directories = '$host'\n"; print $conf "listen_addresses = ''\n"; } close $conf; chmod($self->group_access ? 0640 : 0600, "$pgdata/postgresql.conf") or die("unable to set permissions for $pgdata/postgresql.conf"); $self->set_replication_conf if $params{allows_streaming}; $self->enable_archiving if $params{has_archiving}; return; } =pod =item $node->append_conf(filename, str) A shortcut method to append to files like pg_hba.conf and postgresql.conf. Does no validation or sanity checking. Does not reload the configuration after writing. A newline is automatically appended to the string. =cut sub append_conf { my ($self, $filename, $str) = @_; my $conffile = $self->data_dir . '/' . $filename; TestLib::append_to_file($conffile, $str . "\n"); chmod($self->group_access() ? 0640 : 0600, $conffile) or die("unable to set permissions for $conffile"); return; } =pod =item $node->backup(backup_name) Create a hot backup with B in subdirectory B of B<< $node->backup_dir >>, including the WAL. By default, WAL files are fetched at the end of the backup, not streamed. You can adjust that and other things by passing an array of additional B command line options in the keyword parameter backup_options. You'll have to configure a suitable B on the target server since it isn't done by default. =cut sub backup { my ($self, $backup_name, %params) = @_; my $backup_path = $self->backup_dir . '/' . $backup_name; my $name = $self->name; local %ENV = $self->_get_env(); print "# Taking pg_basebackup $backup_name from node \"$name\"\n"; TestLib::system_or_bail( 'pg_basebackup', '-D', $backup_path, '-h', $self->host, '-p', $self->port, '--checkpoint', 'fast', '--no-sync', @{ $params{backup_options} }); print "# Backup finished\n"; return; } =item $node->backup_fs_hot(backup_name) Create a backup with a filesystem level copy in subdirectory B of B<< $node->backup_dir >>, including WAL. Archiving must be enabled, as B and B are used. This is not checked or enforced. The backup name is passed as the backup label to B. =cut sub backup_fs_hot { my ($self, $backup_name) = @_; $self->_backup_fs($backup_name, 1); return; } =item $node->backup_fs_cold(backup_name) Create a backup with a filesystem level copy in subdirectory B of B<< $node->backup_dir >>, including WAL. The server must be stopped as no attempt to handle concurrent writes is made. Use B or B if you want to back up a running server. =cut sub backup_fs_cold { my ($self, $backup_name) = @_; $self->_backup_fs($backup_name, 0); return; } # Common sub of backup_fs_hot and backup_fs_cold sub _backup_fs { my ($self, $backup_name, $hot) = @_; my $backup_path = $self->backup_dir . '/' . $backup_name; my $port = $self->port; my $name = $self->name; print "# Taking filesystem backup $backup_name from node \"$name\"\n"; if ($hot) { my $stdout = $self->safe_psql('postgres', "SELECT * FROM pg_start_backup('$backup_name');"); print "# pg_start_backup: $stdout\n"; } RecursiveCopy::copypath( $self->data_dir, $backup_path, filterfn => sub { my $src = shift; return ($src ne 'log' and $src ne 'postmaster.pid'); }); if ($hot) { # We ignore pg_stop_backup's return value. We also assume archiving # is enabled; otherwise the caller will have to copy the remaining # segments. my $stdout = $self->safe_psql('postgres', 'SELECT * FROM pg_stop_backup();'); print "# pg_stop_backup: $stdout\n"; } print "# Backup finished\n"; return; } =pod =item $node->init_from_backup(root_node, backup_name) Initialize a node from a backup, which may come from this node or a different node. root_node must be a PostgresNode reference, backup_name the string name of a backup previously created on that node with $node->backup. Does not start the node after initializing it. By default, the backup is assumed to be plain format. To restore from a tar-format backup, pass the name of the tar program to use in the keyword parameter tar_program. Note that tablespace tar files aren't handled here. Streaming replication can be enabled on this node by passing the keyword parameter has_streaming => 1. This is disabled by default. Restoring WAL segments from archives using restore_command can be enabled by passing the keyword parameter has_restoring => 1. This is disabled by default. If has_restoring is used, standby mode is used by default. To use recovery mode instead, pass the keyword parameter standby => 0. The backup is copied, leaving the original unmodified. pg_hba.conf is unconditionally set to enable replication connections. =cut sub init_from_backup { my ($self, $root_node, $backup_name, %params) = @_; my $backup_path = $root_node->backup_dir . '/' . $backup_name; my $host = $self->host; my $port = $self->port; my $node_name = $self->name; my $root_name = $root_node->name; $params{has_streaming} = 0 unless defined $params{has_streaming}; $params{has_restoring} = 0 unless defined $params{has_restoring}; $params{standby} = 1 unless defined $params{standby}; print "# Initializing node \"$node_name\" from backup \"$backup_name\" of node \"$root_name\"\n"; croak "Backup \"$backup_name\" does not exist at $backup_path" unless -d $backup_path; mkdir $self->backup_dir; mkdir $self->archive_dir; my $data_path = $self->data_dir; if (defined $params{tar_program}) { mkdir($data_path); TestLib::system_or_bail($params{tar_program}, 'xf', $backup_path . '/base.tar', '-C', $data_path); TestLib::system_or_bail( $params{tar_program}, 'xf', $backup_path . '/pg_wal.tar', '-C', $data_path . '/pg_wal'); } else { rmdir($data_path); RecursiveCopy::copypath($backup_path, $data_path); } chmod(0700, $data_path); # Base configuration for this node $self->append_conf( 'postgresql.conf', qq( port = $port )); if ($use_tcp) { $self->append_conf('postgresql.conf', "listen_addresses = '$host'"); } else { $self->append_conf('postgresql.conf', "unix_socket_directories = '$host'"); } $self->enable_streaming($root_node) if $params{has_streaming}; $self->enable_restoring($root_node, $params{standby}) if $params{has_restoring}; return; } =pod =item $node->rotate_logfile() Switch to a new PostgreSQL log file. This does not alter any running PostgreSQL process. Subsequent method calls, including pg_ctl invocations, will use the new name. Return the new name. =cut sub rotate_logfile { my ($self) = @_; $self->{_logfile} = sprintf('%s_%d.log', $self->{_logfile_base}, ++$self->{_logfile_generation}); return $self->{_logfile}; } =pod =item $node->start(%params) => success_or_failure Wrapper for pg_ctl start Start the node and wait until it is ready to accept connections. =over =item fail_ok => 1 By default, failure terminates the entire F invocation. If given, instead return a true or false value to indicate success or failure. =back =cut sub start { my ($self, %params) = @_; my $port = $self->port; my $pgdata = $self->data_dir; my $name = $self->name; my $ret; BAIL_OUT("node \"$name\" is already running") if defined $self->{_pid}; print("### Starting node \"$name\"\n"); # Temporarily unset PGAPPNAME so that the server doesn't # inherit it. Otherwise this could affect libpqwalreceiver # connections in confusing ways. local %ENV = $self->_get_env(PGAPPNAME => undef); # Note: We set the cluster_name here, not in postgresql.conf (in # sub init) so that it does not get copied to standbys. $ret = TestLib::system_log('pg_ctl', '-D', $self->data_dir, '-l', $self->logfile, '-o', "--cluster-name=$name", 'start'); if ($ret != 0) { print "# pg_ctl start failed; logfile:\n"; print TestLib::slurp_file($self->logfile); BAIL_OUT("pg_ctl start failed") unless $params{fail_ok}; return 0; } $self->_update_pid(1); return 1; } =pod =item $node->kill9() Send SIGKILL (signal 9) to the postmaster. Note: if the node is already known stopped, this does nothing. However, if we think it's running and it's not, it's important for this to fail. Otherwise, tests might fail to detect server crashes. =cut sub kill9 { my ($self) = @_; my $name = $self->name; return unless defined $self->{_pid}; local %ENV = $self->_get_env(); print "### Killing node \"$name\" using signal 9\n"; # kill(9, ...) fails under msys Perl 5.8.8, so fall back on pg_ctl. kill(9, $self->{_pid}) or TestLib::system_or_bail('pg_ctl', 'kill', 'KILL', $self->{_pid}); $self->{_pid} = undef; return; } =pod =item $node->stop(mode) Stop the node using pg_ctl -m $mode and wait for it to stop. Note: if the node is already known stopped, this does nothing. However, if we think it's running and it's not, it's important for this to fail. Otherwise, tests might fail to detect server crashes. =cut sub stop { my ($self, $mode) = @_; my $port = $self->port; my $pgdata = $self->data_dir; my $name = $self->name; local %ENV = $self->_get_env(); $mode = 'fast' unless defined $mode; return unless defined $self->{_pid}; print "### Stopping node \"$name\" using mode $mode\n"; TestLib::system_or_bail('pg_ctl', '-D', $pgdata, '-m', $mode, 'stop'); $self->_update_pid(0); return; } =pod =item $node->reload() Reload configuration parameters on the node. =cut sub reload { my ($self) = @_; my $port = $self->port; my $pgdata = $self->data_dir; my $name = $self->name; local %ENV = $self->_get_env(); print "### Reloading node \"$name\"\n"; TestLib::system_or_bail('pg_ctl', '-D', $pgdata, 'reload'); return; } =pod =item $node->restart() Wrapper for pg_ctl restart =cut sub restart { my ($self) = @_; my $port = $self->port; my $pgdata = $self->data_dir; my $logfile = $self->logfile; my $name = $self->name; local %ENV = $self->_get_env(PGAPPNAME => undef); print "### Restarting node \"$name\"\n"; TestLib::system_or_bail('pg_ctl', '-D', $pgdata, '-l', $logfile, 'restart'); $self->_update_pid(1); return; } =pod =item $node->promote() Wrapper for pg_ctl promote =cut sub promote { my ($self) = @_; my $port = $self->port; my $pgdata = $self->data_dir; my $logfile = $self->logfile; my $name = $self->name; local %ENV = $self->_get_env(); print "### Promoting node \"$name\"\n"; TestLib::system_or_bail('pg_ctl', '-D', $pgdata, '-l', $logfile, 'promote'); return; } =pod =item $node->logrotate() Wrapper for pg_ctl logrotate =cut sub logrotate { my ($self) = @_; my $port = $self->port; my $pgdata = $self->data_dir; my $logfile = $self->logfile; my $name = $self->name; local %ENV = $self->_get_env(); print "### Rotating log in node \"$name\"\n"; TestLib::system_or_bail('pg_ctl', '-D', $pgdata, '-l', $logfile, 'logrotate'); return; } # Internal routine to enable streaming replication on a standby node. sub enable_streaming { my ($self, $root_node) = @_; my $root_connstr = $root_node->connstr; my $name = $self->name; print "### Enabling streaming replication for node \"$name\"\n"; $self->append_conf( 'postgresql.conf', qq( primary_conninfo='$root_connstr' )); $self->set_standby_mode(); return; } # Internal routine to enable archive recovery command on a standby node sub enable_restoring { my ($self, $root_node, $standby) = @_; my $path = TestLib::perl2host($root_node->archive_dir); my $name = $self->name; print "### Enabling WAL restore for node \"$name\"\n"; # On Windows, the path specified in the restore command needs to use # double back-slashes to work properly and to be able to detect properly # the file targeted by the copy command, so the directory value used # in this routine, using only one back-slash, need to be properly changed # first. Paths also need to be double-quoted to prevent failures where # the path contains spaces. $path =~ s{\\}{\\\\}g if ($TestLib::windows_os); my $copy_command = $TestLib::windows_os ? qq{copy "$path\\\\%f" "%p"} : qq{cp "$path/%f" "%p"}; $self->append_conf( 'postgresql.conf', qq( restore_command = '$copy_command' )); if ($standby) { $self->set_standby_mode(); } else { $self->set_recovery_mode(); } return; } =pod =item $node->set_recovery_mode() Place recovery.signal file. =cut sub set_recovery_mode { my ($self) = @_; $self->append_conf('recovery.signal', ''); return; } =pod =item $node->set_standby_mode() Place standby.signal file. =cut sub set_standby_mode { my ($self) = @_; $self->append_conf('standby.signal', ''); return; } # Internal routine to enable archiving sub enable_archiving { my ($self) = @_; my $path = TestLib::perl2host($self->archive_dir); my $name = $self->name; print "### Enabling WAL archiving for node \"$name\"\n"; # On Windows, the path specified in the restore command needs to use # double back-slashes to work properly and to be able to detect properly # the file targeted by the copy command, so the directory value used # in this routine, using only one back-slash, need to be properly changed # first. Paths also need to be double-quoted to prevent failures where # the path contains spaces. $path =~ s{\\}{\\\\}g if ($TestLib::windows_os); my $copy_command = $TestLib::windows_os ? qq{copy "%p" "$path\\\\%f"} : qq{cp "%p" "$path/%f"}; # Enable archive_mode and archive_command on node $self->append_conf( 'postgresql.conf', qq( archive_mode = on archive_command = '$copy_command' )); return; } # Internal method sub _update_pid { my ($self, $is_running) = @_; my $name = $self->name; # If we can open the PID file, read its first line and that's the PID we # want. if (open my $pidfile, '<', $self->data_dir . "/postmaster.pid") { chomp($self->{_pid} = <$pidfile>); print "# Postmaster PID for node \"$name\" is $self->{_pid}\n"; close $pidfile; # If we found a pidfile when there shouldn't be one, complain. BAIL_OUT("postmaster.pid unexpectedly present") unless $is_running; return; } $self->{_pid} = undef; print "# No postmaster PID for node \"$name\"\n"; # Complain if we expected to find a pidfile. BAIL_OUT("postmaster.pid unexpectedly not present") if $is_running; return; } =pod =item PostgresNode->get_new_node(node_name, %params) Build a new object of class C (or of a subclass, if you have one), assigning a free port number. Remembers the node, to prevent its port number from being reused for another node, and to ensure that it gets shut down when the test script exits. You should generally use this instead of C. =over =item port => [1,65535] By default, this function assigns a port number to each node. Specify this to force a particular port number. The caller is responsible for evaluating potential conflicts and privilege requirements. =item own_host => 1 By default, all nodes use the same PGHOST value. If specified, generate a PGHOST specific to this node. This allows multiple nodes to use the same port. =item install_path => '/path/to/postgres/installation' Using this parameter is it possible to have nodes pointing to different installations, for testing different versions together or the same version with different build parameters. The provided path must be the parent of the installation's 'bin' and 'lib' directories. In the common case where this is not provided, Postgres binaries will be found in the caller's PATH. =back For backwards compatibility, it is also exported as a standalone function, which can only create objects of class C. =cut sub get_new_node { my $class = 'PostgresNode'; $class = shift if scalar(@_) % 2 != 1; my ($name, %params) = @_; # Select a port. my $port; if (defined $params{port}) { $port = $params{port}; } else { # When selecting a port, we look for an unassigned TCP port number, # even if we intend to use only Unix-domain sockets. This is clearly # necessary on $use_tcp (Windows) configurations, and it seems like a # good idea on Unixen as well. $port = get_free_port(); } # Select a host. my $host = $test_pghost; if ($params{own_host}) { if ($use_tcp) { $last_host_assigned++; $last_host_assigned > 254 and BAIL_OUT("too many own_host nodes"); $host = '127.0.0.' . $last_host_assigned; } else { $host = "$test_pghost/$name"; # Assume $name =~ /^[-_a-zA-Z0-9]+$/ mkdir $host; } } # Lock port number found by creating a new node my $node = $class->new($name, $host, $port); if ($params{install_path}) { $node->{_install_path} = $params{install_path}; } # Add node to list of nodes push(@all_nodes, $node); $node->_set_pg_version; my $v = $node->{_pg_version}; carp("PostgresNode isn't fully compatible with version " . $v) if $v < 12; return $node; } # Private routine to run the pg_config binary found in our environment (or in # our install_path, if we have one), and set the version from it # sub _set_pg_version { my ($self) = @_; my $inst = $self->{_install_path}; my $pg_config = "pg_config"; if (defined $inst) { # If the _install_path is invalid, our PATH variables might find an # unrelated pg_config executable elsewhere. Sanity check the # directory. BAIL_OUT("directory not found: $inst") unless -d $inst; # If the directory exists but is not the root of a postgresql # installation, or if the user configured using # --bindir=$SOMEWHERE_ELSE, we're not going to find pg_config, so # complain about that, too. $pg_config = "$inst/bin/pg_config"; BAIL_OUT("pg_config not found: $pg_config") unless -e $pg_config; BAIL_OUT("pg_config not executable: $pg_config") unless -x $pg_config; # Leave $pg_config install_path qualified, to be sure we get the right # version information, below, or die trying } local %ENV = $self->_get_env(); # We only want the version field my $version_line = qx{$pg_config --version}; BAIL_OUT("$pg_config failed: $!") if $?; $self->{_pg_version} = PostgresVersion->new($version_line); BAIL_OUT("could not parse pg_config --version output: $version_line") unless defined $self->{_pg_version}; } # Private routine to return a copy of the environment with the PATH and # (DY)LD_LIBRARY_PATH correctly set when there is an install path set for # the node. # # Routines that call Postgres binaries need to call this routine like this: # # local %ENV = $self->_get_env{[%extra_settings]); # # A copy of the environment is taken and node's host and port settings are # added as PGHOST and PGPORT, Then the extra settings (if any) are applied. # Any setting in %extra_settings with a value that is undefined is deleted # the remainder are# set. Then the PATH and (DY)LD_LIBRARY_PATH are adjusted # if the node's install path is set, and the copy environment is returned. # # The install path set in get_new_node needs to be a directory containing # bin and lib subdirectories as in a standard PostgreSQL installation, so this # can't be used with installations where the bin and lib directories don't have # a common parent directory. sub _get_env { my $self = shift; my %inst_env = (%ENV, PGHOST => $self->{_host}, PGPORT => $self->{_port}); # the remaining arguments are modifications to make to the environment my %mods = (@_); while (my ($k, $v) = each %mods) { if (defined $v) { $inst_env{$k} = "$v"; } else { delete $inst_env{$k}; } } # now fix up the new environment for the install path my $inst = $self->{_install_path}; if ($inst) { if ($TestLib::windows_os) { # Windows picks up DLLs from the PATH rather than *LD_LIBRARY_PATH # choose the right path separator if ($Config{osname} eq 'MSWin32') { $inst_env{PATH} = "$inst/bin;$inst/lib;$ENV{PATH}"; } else { $inst_env{PATH} = "$inst/bin:$inst/lib:$ENV{PATH}"; } } else { my $dylib_name = $Config{osname} eq 'darwin' ? "DYLD_LIBRARY_PATH" : "LD_LIBRARY_PATH"; $inst_env{PATH} = "$inst/bin:$ENV{PATH}"; if (exists $ENV{$dylib_name}) { $inst_env{$dylib_name} = "$inst/lib:$ENV{$dylib_name}"; } else { $inst_env{$dylib_name} = "$inst/lib"; } } } return (%inst_env); } # Private routine to get an installation path qualified command. # # IPC::Run maintains a cache, %cmd_cache, mapping commands to paths. Tests # which use nodes spanning more than one postgres installation path need to # avoid confusing which installation's binaries get run. Setting $ENV{PATH} is # insufficient, as IPC::Run does not check to see if the path has changed since # caching a command. sub installed_command { my ($self, $cmd) = @_; # Nodes using alternate installation locations use their installation's # bin/ directory explicitly return join('/', $self->{_install_path}, 'bin', $cmd) if defined $self->{_install_path}; # Nodes implicitly using the default installation location rely on IPC::Run # to find the right binary, which should not cause %cmd_cache confusion, # because no nodes with other installation paths do it that way. return $cmd; } =pod =item get_free_port() Locate an unprivileged (high) TCP port that's not currently bound to anything. This is used by get_new_node, and is also exported for use by test cases that need to start other, non-Postgres servers. Ports assigned to existing PostgresNode objects are automatically excluded, even if those servers are not currently running. XXX A port available now may become unavailable by the time we start the desired service. =cut sub get_free_port { my $found = 0; my $port = $last_port_assigned; while ($found == 0) { # advance $port, wrapping correctly around range end $port = 49152 if ++$port >= 65536; print "# Checking port $port\n"; # Check first that candidate port number is not included in # the list of already-registered nodes. $found = 1; foreach my $node (@all_nodes) { $found = 0 if ($node->port == $port); } # Check to see if anything else is listening on this TCP port. # Seek a port available for all possible listen_addresses values, # so callers can harness this port for the widest range of purposes. # The 0.0.0.0 test achieves that for MSYS, which automatically sets # SO_EXCLUSIVEADDRUSE. Testing 0.0.0.0 is insufficient for Windows # native Perl (https://stackoverflow.com/a/14388707), so we also # have to test individual addresses. Doing that for 127.0.0/24 # addresses other than 127.0.0.1 might fail with EADDRNOTAVAIL on # non-Linux, non-Windows kernels. # # Thus, 0.0.0.0 and individual 127.0.0/24 addresses are tested # only on Windows and only when TCP usage is requested. if ($found == 1) { foreach my $addr (qw(127.0.0.1), ($use_tcp && $TestLib::windows_os) ? qw(127.0.0.2 127.0.0.3 0.0.0.0) : ()) { if (!can_bind($addr, $port)) { $found = 0; last; } } } } print "# Found port $port\n"; # Update port for next time $last_port_assigned = $port; return $port; } # Internal routine to check whether a host:port is available to bind sub can_bind { my ($host, $port) = @_; my $iaddr = inet_aton($host); my $paddr = sockaddr_in($port, $iaddr); my $proto = getprotobyname("tcp"); socket(SOCK, PF_INET, SOCK_STREAM, $proto) or die "socket failed: $!"; # As in postmaster, don't use SO_REUSEADDR on Windows setsockopt(SOCK, SOL_SOCKET, SO_REUSEADDR, pack("l", 1)) unless $TestLib::windows_os; my $ret = bind(SOCK, $paddr) && listen(SOCK, SOMAXCONN); close(SOCK); return $ret; } # Automatically shut down any still-running nodes (in the same order the nodes # were created in) when the test script exits. END { # take care not to change the script's exit value my $exit_code = $?; foreach my $node (@all_nodes) { $node->teardown_node; # skip clean if we are requested to retain the basedir next if defined $ENV{'PG_TEST_NOCLEAN'}; # clean basedir on clean test invocation $node->clean_node if $exit_code == 0 && TestLib::all_tests_passing(); } $? = $exit_code; } =pod =item $node->teardown_node() Do an immediate stop of the node =cut sub teardown_node { my $self = shift; $self->stop('immediate'); return; } =pod =item $node->clean_node() Remove the base directory of the node if the node has been stopped. =cut sub clean_node { my $self = shift; rmtree $self->{_basedir} unless defined $self->{_pid}; return; } =pod =item $node->safe_psql($dbname, $sql) => stdout Invoke B to run B on B and return its stdout on success. Die if the SQL produces an error. Runs with B set. Takes optional extra params like timeout and timed_out parameters with the same options as psql. =cut sub safe_psql { my ($self, $dbname, $sql, %params) = @_; local %ENV = $self->_get_env(); my ($stdout, $stderr); my $ret = $self->psql( $dbname, $sql, %params, stdout => \$stdout, stderr => \$stderr, on_error_die => 1, on_error_stop => 1); # psql can emit stderr from NOTICEs etc if ($stderr ne "") { print "#### Begin standard error\n"; print $stderr; print "\n#### End standard error\n"; } return $stdout; } =pod =item $node->psql($dbname, $sql, %params) => psql_retval Invoke B to execute B<$sql> on B<$dbname> and return the return value from B, which is run with on_error_stop by default so that it will stop running sql and return 3 if the passed SQL results in an error. As a convenience, if B is called in array context it returns an array containing ($retval, $stdout, $stderr). psql is invoked in tuples-only unaligned mode with reading of B<.psqlrc> disabled. That may be overridden by passing extra psql parameters. stdout and stderr are transformed to UNIX line endings if on Windows. Any trailing newline is removed. Dies on failure to invoke psql but not if psql exits with a nonzero return code (unless on_error_die specified). If psql exits because of a signal, an exception is raised. =over =item stdout => \$stdout B, if given, must be a scalar reference to which standard output is written. If not given, standard output is not redirected and will be printed unless B is called in array context, in which case it's captured and returned. =item stderr => \$stderr Same as B but gets standard error. If the same scalar is passed for both B and B the results may be interleaved unpredictably. =item on_error_stop => 1 By default, the B method invokes the B program with ON_ERROR_STOP=1 set, so SQL execution is stopped at the first error and exit code 3 is returned. Set B to 0 to ignore errors instead. =item on_error_die => 0 By default, this method returns psql's result code. Pass on_error_die to instead die with an informative message. =item timeout => 'interval' Set a timeout for the psql call as an interval accepted by B (integer seconds is fine). This method raises an exception on timeout, unless the B parameter is also given. =item timed_out => \$timed_out If B is set and this parameter is given, the scalar it references is set to true if the psql call times out. =item connstr => B If set, use this as the connection string for the connection to the backend. =item replication => B If set, add B to the conninfo string. Passing the literal value C results in a logical replication connection. =item extra_params => ['--single-transaction'] If given, it must be an array reference containing additional parameters to B. =back e.g. my ($stdout, $stderr, $timed_out); my $cmdret = $node->psql('postgres', 'SELECT pg_sleep(600)', stdout => \$stdout, stderr => \$stderr, timeout => 180, timed_out => \$timed_out, extra_params => ['--single-transaction']) will set $cmdret to undef and $timed_out to a true value. $node->psql('postgres', $sql, on_error_die => 1); dies with an informative message if $sql fails. =cut sub psql { my ($self, $dbname, $sql, %params) = @_; local %ENV = $self->_get_env(); my $stdout = $params{stdout}; my $stderr = $params{stderr}; my $replication = $params{replication}; my $timeout = undef; my $timeout_exception = 'psql timed out'; # Build the connection string. my $psql_connstr; if (defined $params{connstr}) { $psql_connstr = $params{connstr}; } else { $psql_connstr = $self->connstr($dbname); } $psql_connstr .= defined $replication ? " replication=$replication" : ""; my @psql_params = ( $self->installed_command('psql'), '-XAtq', '-d', $psql_connstr, '-f', '-'); # If the caller wants an array and hasn't passed stdout/stderr # references, allocate temporary ones to capture them so we # can return them. Otherwise we won't redirect them at all. if (wantarray) { if (!defined($stdout)) { my $temp_stdout = ""; $stdout = \$temp_stdout; } if (!defined($stderr)) { my $temp_stderr = ""; $stderr = \$temp_stderr; } } $params{on_error_stop} = 1 unless defined $params{on_error_stop}; $params{on_error_die} = 0 unless defined $params{on_error_die}; push @psql_params, '-v', 'ON_ERROR_STOP=1' if $params{on_error_stop}; push @psql_params, @{ $params{extra_params} } if defined $params{extra_params}; $timeout = IPC::Run::timeout($params{timeout}, exception => $timeout_exception) if (defined($params{timeout})); ${ $params{timed_out} } = 0 if defined $params{timed_out}; # IPC::Run would otherwise append to existing contents: $$stdout = "" if ref($stdout); $$stderr = "" if ref($stderr); my $ret; # Run psql and capture any possible exceptions. If the exception is # because of a timeout and the caller requested to handle that, just return # and set the flag. Otherwise, and for any other exception, rethrow. # # For background, see # https://metacpan.org/pod/release/ETHER/Try-Tiny-0.24/lib/Try/Tiny.pm do { local $@; eval { my @ipcrun_opts = (\@psql_params, '<', \$sql); push @ipcrun_opts, '>', $stdout if defined $stdout; push @ipcrun_opts, '2>', $stderr if defined $stderr; push @ipcrun_opts, $timeout if defined $timeout; IPC::Run::run @ipcrun_opts; $ret = $?; }; my $exc_save = $@; if ($exc_save) { # IPC::Run::run threw an exception. re-throw unless it's a # timeout, which we'll handle by testing is_expired die $exc_save if (blessed($exc_save) || $exc_save !~ /^\Q$timeout_exception\E/); $ret = undef; die "Got timeout exception '$exc_save' but timer not expired?!" unless $timeout->is_expired; if (defined($params{timed_out})) { ${ $params{timed_out} } = 1; } else { die "psql timed out: stderr: '$$stderr'\n" . "while running '@psql_params'"; } } }; # Note: on Windows, IPC::Run seems to convert \r\n to \n in program output # if we're using native Perl, but not if we're using MSys Perl. So do it # by hand in the latter case, here and elsewhere. if (defined $$stdout) { $$stdout =~ s/\r\n/\n/g if $Config{osname} eq 'msys'; chomp $$stdout; } if (defined $$stderr) { $$stderr =~ s/\r\n/\n/g if $Config{osname} eq 'msys'; chomp $$stderr; } # See http://perldoc.perl.org/perlvar.html#%24CHILD_ERROR # We don't use IPC::Run::Simple to limit dependencies. # # We always die on signal. my $core = $ret & 128 ? " (core dumped)" : ""; die "psql exited with signal " . ($ret & 127) . "$core: '$$stderr' while running '@psql_params'" if $ret & 127; $ret = $ret >> 8; if ($ret && $params{on_error_die}) { die "psql error: stderr: '$$stderr'\nwhile running '@psql_params'" if $ret == 1; die "connection error: '$$stderr'\nwhile running '@psql_params'" if $ret == 2; die "error running SQL: '$$stderr'\nwhile running '@psql_params' with sql '$sql'" if $ret == 3; die "psql returns $ret: '$$stderr'\nwhile running '@psql_params'"; } if (wantarray) { return ($ret, $$stdout, $$stderr); } else { return $ret; } } =pod =item $node->background_psql($dbname, \$stdin, \$stdout, $timer, %params) => harness Invoke B on B<$dbname> and return an IPC::Run harness object, which the caller may use to send input to B. The process's stdin is sourced from the $stdin scalar reference, and its stdout and stderr go to the $stdout scalar reference. This allows the caller to act on other parts of the system while idling this backend. The specified timer object is attached to the harness, as well. It's caller's responsibility to select the timeout length, and to restart the timer after each command if the timeout is per-command. psql is invoked in tuples-only unaligned mode with reading of B<.psqlrc> disabled. That may be overridden by passing extra psql parameters. Dies on failure to invoke psql, or if psql fails to connect. Errors occurring later are the caller's problem. psql runs with on_error_stop by default so that it will stop running sql and return 3 if passed SQL results in an error. Be sure to "finish" the harness when done with it. =over =item on_error_stop => 1 By default, the B method invokes the B program with ON_ERROR_STOP=1 set, so SQL execution is stopped at the first error and exit code 3 is returned. Set B to 0 to ignore errors instead. =item replication => B If set, add B to the conninfo string. Passing the literal value C results in a logical replication connection. =item extra_params => ['--single-transaction'] If given, it must be an array reference containing additional parameters to B. =back =cut sub background_psql { my ($self, $dbname, $stdin, $stdout, $timer, %params) = @_; local %ENV = $self->_get_env(); my $replication = $params{replication}; my @psql_params = ( $self->installed_command('psql'), '-XAtq', '-d', $self->connstr($dbname) . (defined $replication ? " replication=$replication" : ""), '-f', '-'); $params{on_error_stop} = 1 unless defined $params{on_error_stop}; push @psql_params, '-v', 'ON_ERROR_STOP=1' if $params{on_error_stop}; push @psql_params, @{ $params{extra_params} } if defined $params{extra_params}; # Ensure there is no data waiting to be sent: $$stdin = "" if ref($stdin); # IPC::Run would otherwise append to existing contents: $$stdout = "" if ref($stdout); my $harness = IPC::Run::start \@psql_params, '<', $stdin, '>', $stdout, $timer; # Request some output, and pump until we see it. This means that psql # connection failures are caught here, relieving callers of the need to # handle those. (Right now, we have no particularly good handling for # errors anyway, but that might be added later.) my $banner = "background_psql: ready"; $$stdin = "\\echo $banner\n"; pump $harness until $$stdout =~ /$banner/ || $timer->is_expired; die "psql startup timed out" if $timer->is_expired; return $harness; } =pod =item $node->interactive_psql($dbname, \$stdin, \$stdout, $timer, %params) => harness Invoke B on B<$dbname> and return an IPC::Run harness object, which the caller may use to send interactive input to B. The process's stdin is sourced from the $stdin scalar reference, and its stdout and stderr go to the $stdout scalar reference. ptys are used so that psql thinks it's being called interactively. The specified timer object is attached to the harness, as well. It's caller's responsibility to select the timeout length, and to restart the timer after each command if the timeout is per-command. psql is invoked in tuples-only unaligned mode with reading of B<.psqlrc> disabled. That may be overridden by passing extra psql parameters. Dies on failure to invoke psql, or if psql fails to connect. Errors occurring later are the caller's problem. Be sure to "finish" the harness when done with it. The only extra parameter currently accepted is =over =item extra_params => ['--single-transaction'] If given, it must be an array reference containing additional parameters to B. =back This requires IO::Pty in addition to IPC::Run. =cut sub interactive_psql { my ($self, $dbname, $stdin, $stdout, $timer, %params) = @_; local %ENV = $self->_get_env(); my @psql_params = ( $self->installed_command('psql'), '-XAt', '-d', $self->connstr($dbname)); push @psql_params, @{ $params{extra_params} } if defined $params{extra_params}; # Ensure there is no data waiting to be sent: $$stdin = "" if ref($stdin); # IPC::Run would otherwise append to existing contents: $$stdout = "" if ref($stdout); my $harness = IPC::Run::start \@psql_params, 'pty>', $stdout, $timer; # Pump until we see psql's help banner. This ensures that callers # won't write anything to the pty before it's ready, avoiding an # implementation issue in IPC::Run. Also, it means that psql # connection failures are caught here, relieving callers of # the need to handle those. (Right now, we have no particularly # good handling for errors anyway, but that might be added later.) pump $harness until $$stdout =~ /Type "help" for help/ || $timer->is_expired; die "psql startup timed out" if $timer->is_expired; return $harness; } =pod =item $node->connect_ok($connstr, $test_name, %params) Attempt a connection with a custom connection string. This is expected to succeed. =over =item sql => B If this parameter is set, this query is used for the connection attempt instead of the default. =item expected_stdout => B If this regular expression is set, matches it with the output generated. =item log_like => [ qr/required message/ ] If given, it must be an array reference containing a list of regular expressions that must match against the server log, using C. =item log_unlike => [ qr/prohibited message/ ] If given, it must be an array reference containing a list of regular expressions that must NOT match against the server log. They will be passed to C. =back =cut sub connect_ok { local $Test::Builder::Level = $Test::Builder::Level + 1; my ($self, $connstr, $test_name, %params) = @_; my $sql; if (defined($params{sql})) { $sql = $params{sql}; } else { $sql = "SELECT \$\$connected with $connstr\$\$"; } my (@log_like, @log_unlike); if (defined($params{log_like})) { @log_like = @{ $params{log_like} }; } if (defined($params{log_unlike})) { @log_unlike = @{ $params{log_unlike} }; } my $log_location = -s $self->logfile; # Never prompt for a password, any callers of this routine should # have set up things properly, and this should not block. my ($ret, $stdout, $stderr) = $self->psql( 'postgres', $sql, extra_params => ['-w'], connstr => "$connstr", on_error_stop => 0); is($ret, 0, $test_name); if (defined($params{expected_stdout})) { like($stdout, $params{expected_stdout}, "$test_name: matches"); } if (@log_like or @log_unlike) { my $log_contents = TestLib::slurp_file($self->logfile, $log_location); while (my $regex = shift @log_like) { like($log_contents, $regex, "$test_name: log matches"); } while (my $regex = shift @log_unlike) { unlike($log_contents, $regex, "$test_name: log does not match"); } } } =pod =item $node->connect_fails($connstr, $test_name, %params) Attempt a connection with a custom connection string. This is expected to fail. =over =item expected_stderr => B If this regular expression is set, matches it with the output generated. =item log_like => [ qr/required message/ ] =item log_unlike => [ qr/prohibited message/ ] See C, above. =back =cut sub connect_fails { local $Test::Builder::Level = $Test::Builder::Level + 1; my ($self, $connstr, $test_name, %params) = @_; my (@log_like, @log_unlike); if (defined($params{log_like})) { @log_like = @{ $params{log_like} }; } if (defined($params{log_unlike})) { @log_unlike = @{ $params{log_unlike} }; } my $log_location = -s $self->logfile; # Never prompt for a password, any callers of this routine should # have set up things properly, and this should not block. my ($ret, $stdout, $stderr) = $self->psql( 'postgres', undef, extra_params => ['-w'], connstr => "$connstr"); isnt($ret, 0, $test_name); if (defined($params{expected_stderr})) { like($stderr, $params{expected_stderr}, "$test_name: matches"); } if (@log_like or @log_unlike) { my $log_contents = TestLib::slurp_file($self->logfile, $log_location); while (my $regex = shift @log_like) { like($log_contents, $regex, "$test_name: log matches"); } while (my $regex = shift @log_unlike) { unlike($log_contents, $regex, "$test_name: log does not match"); } } } =pod =item $node->poll_query_until($dbname, $query [, $expected ]) Run B<$query> repeatedly, until it returns the B<$expected> result ('t', or SQL boolean true, by default). Continues polling if B returns an error result. Times out after 180 seconds. Returns 1 if successful, 0 if timed out. =cut sub poll_query_until { my ($self, $dbname, $query, $expected) = @_; local %ENV = $self->_get_env(); $expected = 't' unless defined($expected); # default value my $cmd = [ $self->installed_command('psql'), '-XAt', '-d', $self->connstr($dbname) ]; my ($stdout, $stderr); my $max_attempts = 180 * 10; my $attempts = 0; while ($attempts < $max_attempts) { my $result = IPC::Run::run $cmd, '<', \$query, '>', \$stdout, '2>', \$stderr; $stdout =~ s/\r\n/\n/g if $Config{osname} eq 'msys'; chomp($stdout); if ($stdout eq $expected) { return 1; } # Wait 0.1 second before retrying. usleep(100_000); $attempts++; } # The query result didn't change in 180 seconds. Give up. Print the # output from the last attempt, hopefully that's useful for debugging. $stderr =~ s/\r\n/\n/g if $Config{osname} eq 'msys'; chomp($stderr); diag qq(poll_query_until timed out executing this query: $query expecting this output: $expected last actual query output: $stdout with stderr: $stderr); return 0; } =pod =item $node->command_ok(...) Runs a shell command like TestLib::command_ok, but with PGHOST and PGPORT set so that the command will default to connecting to this PostgresNode. =cut sub command_ok { local $Test::Builder::Level = $Test::Builder::Level + 1; my $self = shift; local %ENV = $self->_get_env(); TestLib::command_ok(@_); return; } =pod =item $node->command_fails(...) TestLib::command_fails with our connection parameters. See command_ok(...) =cut sub command_fails { local $Test::Builder::Level = $Test::Builder::Level + 1; my $self = shift; local %ENV = $self->_get_env(); TestLib::command_fails(@_); return; } =pod =item $node->command_like(...) TestLib::command_like with our connection parameters. See command_ok(...) =cut sub command_like { local $Test::Builder::Level = $Test::Builder::Level + 1; my $self = shift; local %ENV = $self->_get_env(); TestLib::command_like(@_); return; } =pod =item $node->command_checks_all(...) TestLib::command_checks_all with our connection parameters. See command_ok(...) =cut sub command_checks_all { local $Test::Builder::Level = $Test::Builder::Level + 1; my $self = shift; local %ENV = $self->_get_env(); TestLib::command_checks_all(@_); return; } =pod =item $node->issues_sql_like(cmd, expected_sql, test_name) Run a command on the node, then verify that $expected_sql appears in the server log file. =cut sub issues_sql_like { local $Test::Builder::Level = $Test::Builder::Level + 1; my ($self, $cmd, $expected_sql, $test_name) = @_; local %ENV = $self->_get_env(); my $log_location = -s $self->logfile; my $result = TestLib::run_log($cmd); ok($result, "@$cmd exit code 0"); my $log = TestLib::slurp_file($self->logfile, $log_location); like($log, $expected_sql, "$test_name: SQL found in server log"); return; } =pod =item $node->run_log(...) Runs a shell command like TestLib::run_log, but with connection parameters set so that the command will default to connecting to this PostgresNode. =cut sub run_log { my $self = shift; local %ENV = $self->_get_env(); TestLib::run_log(@_); return; } =pod =item $node->lsn(mode) Look up WAL locations on the server: * insert location (primary only, error on replica) * write location (primary only, error on replica) * flush location (primary only, error on replica) * receive location (always undef on primary) * replay location (always undef on primary) mode must be specified. =cut sub lsn { my ($self, $mode) = @_; my %modes = ( 'insert' => 'pg_current_wal_insert_lsn()', 'flush' => 'pg_current_wal_flush_lsn()', 'write' => 'pg_current_wal_lsn()', 'receive' => 'pg_last_wal_receive_lsn()', 'replay' => 'pg_last_wal_replay_lsn()'); $mode = '' if !defined($mode); croak "unknown mode for 'lsn': '$mode', valid modes are " . join(', ', keys %modes) if !defined($modes{$mode}); my $result = $self->safe_psql('postgres', "SELECT $modes{$mode}"); chomp($result); if ($result eq '') { return; } else { return $result; } } =pod =item $node->wait_for_catchup(standby_name, mode, target_lsn) Wait for the node with application_name standby_name (usually from node->name, also works for logical subscriptions) until its replication location in pg_stat_replication equals or passes the upstream's WAL insert point at the time this function is called. By default the replay_lsn is waited for, but 'mode' may be specified to wait for any of sent|write|flush|replay. The connection catching up must be in a streaming state. If there is no active replication connection from this peer, waits until poll_query_until timeout. Requires that the 'postgres' db exists and is accessible. target_lsn may be any arbitrary lsn, but is typically $primary_node->lsn('insert'). If omitted, pg_current_wal_lsn() is used. This is not a test. It die()s on failure. =cut sub wait_for_catchup { my ($self, $standby_name, $mode, $target_lsn) = @_; $mode = defined($mode) ? $mode : 'replay'; my %valid_modes = ('sent' => 1, 'write' => 1, 'flush' => 1, 'replay' => 1); croak "unknown mode $mode for 'wait_for_catchup', valid modes are " . join(', ', keys(%valid_modes)) unless exists($valid_modes{$mode}); # Allow passing of a PostgresNode instance as shorthand if (blessed($standby_name) && $standby_name->isa("PostgresNode")) { $standby_name = $standby_name->name; } my $lsn_expr; if (defined($target_lsn)) { $lsn_expr = "'$target_lsn'"; } else { $lsn_expr = 'pg_current_wal_lsn()'; } print "Waiting for replication conn " . $standby_name . "'s " . $mode . "_lsn to pass " . $lsn_expr . " on " . $self->name . "\n"; my $query = qq[SELECT $lsn_expr <= ${mode}_lsn AND state = 'streaming' FROM pg_catalog.pg_stat_replication WHERE application_name = '$standby_name';]; $self->poll_query_until('postgres', $query) or croak "timed out waiting for catchup"; print "done\n"; return; } =pod =item $node->wait_for_slot_catchup(slot_name, mode, target_lsn) Wait for the named replication slot to equal or pass the supplied target_lsn. The location used is the restart_lsn unless mode is given, in which case it may be 'restart' or 'confirmed_flush'. Requires that the 'postgres' db exists and is accessible. This is not a test. It die()s on failure. If the slot is not active, will time out after poll_query_until's timeout. target_lsn may be any arbitrary lsn, but is typically $primary_node->lsn('insert'). Note that for logical slots, restart_lsn is held down by the oldest in-progress tx. =cut sub wait_for_slot_catchup { my ($self, $slot_name, $mode, $target_lsn) = @_; $mode = defined($mode) ? $mode : 'restart'; if (!($mode eq 'restart' || $mode eq 'confirmed_flush')) { croak "valid modes are restart, confirmed_flush"; } croak 'target lsn must be specified' unless defined($target_lsn); print "Waiting for replication slot " . $slot_name . "'s " . $mode . "_lsn to pass " . $target_lsn . " on " . $self->name . "\n"; my $query = qq[SELECT '$target_lsn' <= ${mode}_lsn FROM pg_catalog.pg_replication_slots WHERE slot_name = '$slot_name';]; $self->poll_query_until('postgres', $query) or croak "timed out waiting for catchup"; print "done\n"; return; } =pod =item $node->query_hash($dbname, $query, @columns) Execute $query on $dbname, replacing any appearance of the string __COLUMNS__ within the query with a comma-separated list of @columns. If __COLUMNS__ does not appear in the query, its result columns must EXACTLY match the order and number (but not necessarily alias) of supplied @columns. The query must return zero or one rows. Return a hash-ref representation of the results of the query, with any empty or null results as defined keys with an empty-string value. There is no way to differentiate between null and empty-string result fields. If the query returns zero rows, return a hash with all columns empty. There is no way to differentiate between zero rows returned and a row with only null columns. =cut sub query_hash { my ($self, $dbname, $query, @columns) = @_; croak 'calls in array context for multi-row results not supported yet' if (wantarray); # Replace __COLUMNS__ if found substr($query, index($query, '__COLUMNS__'), length('__COLUMNS__')) = join(', ', @columns) if index($query, '__COLUMNS__') >= 0; my $result = $self->safe_psql($dbname, $query); # hash slice, see http://stackoverflow.com/a/16755894/398670 . # # Fills the hash with empty strings produced by x-operator element # duplication if result is an empty row # my %val; @val{@columns} = $result ne '' ? split(qr/\|/, $result, -1) : ('',) x scalar(@columns); return \%val; } =pod =item $node->slot(slot_name) Return hash-ref of replication slot data for the named slot, or a hash-ref with all values '' if not found. Does not differentiate between null and empty string for fields, no field is ever undef. The restart_lsn and confirmed_flush_lsn fields are returned verbatim, and also as a 2-list of [highword, lowword] integer. Since we rely on Perl 5.8.8 we can't "use bigint", it's from 5.20, and we can't assume we have Math::Bigint from CPAN either. =cut sub slot { my ($self, $slot_name) = @_; my @columns = ( 'plugin', 'slot_type', 'datoid', 'database', 'active', 'active_pid', 'xmin', 'catalog_xmin', 'restart_lsn'); return $self->query_hash( 'postgres', "SELECT __COLUMNS__ FROM pg_catalog.pg_replication_slots WHERE slot_name = '$slot_name'", @columns); } =pod =item $node->pg_recvlogical_upto(self, dbname, slot_name, endpos, timeout_secs, ...) Invoke pg_recvlogical to read from slot_name on dbname until LSN endpos, which corresponds to pg_recvlogical --endpos. Gives up after timeout (if nonzero). Disallows pg_recvlogical from internally retrying on error by passing --no-loop. Plugin options are passed as additional keyword arguments. If called in scalar context, returns stdout, and die()s on timeout or nonzero return. If called in array context, returns a tuple of (retval, stdout, stderr, timeout). timeout is the IPC::Run::Timeout object whose is_expired method can be tested to check for timeout. retval is undef on timeout. =cut sub pg_recvlogical_upto { my ($self, $dbname, $slot_name, $endpos, $timeout_secs, %plugin_options) = @_; local %ENV = $self->_get_env(); my ($stdout, $stderr); my $timeout_exception = 'pg_recvlogical timed out'; croak 'slot name must be specified' unless defined($slot_name); croak 'endpos must be specified' unless defined($endpos); my @cmd = ( $self->installed_command('pg_recvlogical'), '-S', $slot_name, '--dbname', $self->connstr($dbname)); push @cmd, '--endpos', $endpos; push @cmd, '-f', '-', '--no-loop', '--start'; while (my ($k, $v) = each %plugin_options) { croak "= is not permitted to appear in replication option name" if ($k =~ qr/=/); push @cmd, "-o", "$k=$v"; } my $timeout; $timeout = IPC::Run::timeout($timeout_secs, exception => $timeout_exception) if $timeout_secs; my $ret = 0; do { local $@; eval { IPC::Run::run(\@cmd, ">", \$stdout, "2>", \$stderr, $timeout); $ret = $?; }; my $exc_save = $@; if ($exc_save) { # IPC::Run::run threw an exception. re-throw unless it's a # timeout, which we'll handle by testing is_expired die $exc_save if (blessed($exc_save) || $exc_save !~ qr/$timeout_exception/); $ret = undef; die "Got timeout exception '$exc_save' but timer not expired?!" unless $timeout->is_expired; die "$exc_save waiting for endpos $endpos with stdout '$stdout', stderr '$stderr'" unless wantarray; } }; $stdout =~ s/\r\n/\n/g if $Config{osname} eq 'msys'; $stderr =~ s/\r\n/\n/g if $Config{osname} eq 'msys'; if (wantarray) { return ($ret, $stdout, $stderr, $timeout); } else { die "pg_recvlogical exited with code '$ret', stdout '$stdout' and stderr '$stderr'" if $ret; return $stdout; } } =pod =back =cut 1;