package Anvil::Tools::Cluster ;
#
# This module contains methods related to Pacemaker/pcs and clustering functions in general.
#
use strict ;
use warnings ;
use Data::Dumper ;
use Scalar::Util qw( weaken isweak ) ;
use String::ShellQuote ;
use XML::LibXML ;
use XML::Simple qw( :strict ) ;
our $ VERSION = "3.0.0" ;
my $ THIS_FILE = "Cluster.pm" ;
### Methods;
# add_server
# assemble_storage_groups
# boot_server
# check_node_status
# check_server_constraints
# check_stonith_config
# delete_server
# get_fence_methods
# get_anvil_name
# get_anvil_uuid
# get_peers
# get_primary_host_uuid
# is_primary
# manage_fence_delay
# migrate_server
# parse_cib
# parse_crm_mon
# parse_quorum
# shutdown_server
# start_cluster
# which_node
# _set_server_constraint
= pod
= encoding utf8
= head1 NAME
Anvil::Tools:: Cluster
Provides all methods related to clustering specifically ( pacemaker , pcs , etc ) .
= head1 SYNOPSIS
use Anvil::Tools ;
# Get a common object handle on all Anvil::Tools modules.
my $ anvil = Anvil::Tools - > new ( ) ;
# Access to methods using '$anvil->Cluster->X'.
#
= head1 METHODS
Methods in this module ;
= cut
sub new
{
my $ class = shift ;
my $ self = { } ;
bless $ self , $ class ;
return ( $ self ) ;
}
# Get a handle on the Anvil::Tools object. I know that technically that is a sibling module, but it makes more
# sense in this case to think of it as a parent.
sub parent
{
my $ self = shift ;
my $ parent = shift ;
$ self - > { HANDLE } { TOOLS } = $ parent if $ parent ;
# Defend against memory leads. See Scalar::Util'.
if ( not isweak ( $ self - > { HANDLE } { TOOLS } ) )
{
weaken ( $ self - > { HANDLE } { TOOLS } ) ;
}
return ( $ self - > { HANDLE } { TOOLS } ) ;
}
#############################################################################################################
# Public methods #
#############################################################################################################
= head2 add_server
This takes a server name , finds where it is running and then adds it to pacemaker . On success , C << 0 >> is returned . If there is a problem , C << ! ! error ! ! >> is returned .
Parameters ;
= head3 server_name ( required )
This is the name of the server being added .
= cut
sub add_server
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 2 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->add_server()" } } ) ;
my $ server_name = defined $ parameter - > { server_name } ? $ parameter - > { server_name } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
server_name = > $ server_name ,
} } ) ;
if ( not $ server_name )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "log_0020" , variables = > { method = > "Cluster->add_server()" , parameter = > "server_name" } } ) ;
return ( "!!error!!" ) ;
}
# Are we in the cluster?
my ( $ problem ) = $ anvil - > Cluster - > parse_cib ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
if ( $ problem )
{
# The cluster isn't running, unable to add the server.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0211" , variables = > { server_name = > $ server_name } } ) ;
return ( "!!error!!" ) ;
}
# Does the server already exist?
if ( exists $ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ server_name } { type } )
{
# The server already exists
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0213" , variables = > { server_name = > $ server_name } } ) ;
return ( "!!error!!" ) ;
}
my $ local_ready = $ anvil - > data - > { cib } { parsed } { 'local' } { ready } ;
my $ local_name = $ anvil - > data - > { cib } { parsed } { 'local' } { name } ;
my $ peer_name = $ anvil - > data - > { cib } { parsed } { peer } { name } ;
my $ peer_ready = $ anvil - > data - > { cib } { parsed } { peer } { ready } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
local_name = > $ local_name ,
local_ready = > $ local_ready ,
peer_name = > $ peer_name ,
peer_ready = > $ peer_ready ,
} } ) ;
if ( not $ local_ready )
{
# Can't add it
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0212" , variables = > { server_name = > $ server_name } } ) ;
return ( "!!error!!" ) ;
}
# Find where the server is running. First, who is and where is my peer?
$ anvil - > Database - > get_anvils ( { debug = > $ debug } ) ;
my $ anvil_uuid = $ anvil - > Cluster - > get_anvil_uuid ( { debug = > $ debug } ) ;
my $ node1_host_uuid = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_node1_host_uuid } ;
my $ node2_host_uuid = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_node2_host_uuid } ;
my $ peer_host_uuid = $ anvil - > Get - > host_uuid ( ) eq $ node1_host_uuid ? $ node2_host_uuid : $ node1_host_uuid ;
my $ peer_target_ip = $ anvil - > Network - > find_target_ip ( { host_uuid = > $ peer_host_uuid } ) ;
my $ password = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_password } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
anvil_uuid = > $ anvil_uuid ,
node1_host_uuid = > $ node1_host_uuid ,
node2_host_uuid = > $ node2_host_uuid ,
peer_host_uuid = > $ peer_host_uuid ,
peer_target_ip = > $ peer_target_ip ,
password = > $ anvil - > Log - > is_secure ( $ password ) ,
} } ) ;
# Verify that the server is here or on the peer. We need to add the command to t
$ anvil - > Server - > find ( {
debug = > $ debug ,
server = > $ server_name ,
} ) ;
$ anvil - > Server - > find ( {
debug = > $ debug ,
refresh = > 0 ,
password = > $ password ,
target = > $ peer_target_ip ,
server = > $ server_name ,
} ) ;
# The host here is the full host name.
my $ host_name = $ anvil - > Get - > host_name ( ) ;
my $ server_state = $ anvil - > data - > { server } { location } { $ server_name } { status } ;
my $ server_host = $ anvil - > data - > { server } { location } { $ server_name } { host_name } ;
my $ target_role = $ server_state eq "running" ? "started" : "stopped" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
host_name = > $ host_name ,
server_state = > $ server_state ,
server_host = > $ server_host ,
target_role = > $ target_role ,
} } ) ;
### NOTE: 'INFINITY' doesn't work in some cases, so we set 1 day timeouts. If windows can't install
### an OS update in 24 hours, there's probably deeper issues.
### TODO: If the target_role is 'started' because the server was running, we may need to later do an
### update to set it to 'stopped' after we've verified it's in the cluster below.
my $ resource_command = $ anvil - > data - > { path } { exe } { pcs } . " resource create " . $ server_name . " ocf:alteeve:server name=\"" . $ server_name . "\" meta allow-migrate=\"true\" target-role=\"" . $ target_role . "\" op monitor interval=\"60\" start timeout=\"60\" on-fail=\"block\" stop timeout=\"300\" on-fail=\"block\" migrate_to timeout=\"600\" on-fail=\"block\"" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { resource_command = > $ resource_command } } ) ;
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { shell_call = > $ resource_command } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
my $ constraint_command = $ anvil - > data - > { path } { exe } { pcs } . " constraint location " . $ server_name . " prefers " ;
if ( ( $ server_state eq "running" ) && ( $ server_host ne $ host_name ) )
{
# Set the peer as primary.
$ constraint_command . = $ local_name . "=100 " . $ peer_name . "=200" ;
}
else
{
# Set us as primary.
$ constraint_command . = $ local_name . "=200 " . $ peer_name . "=100" ;
}
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { constraint_command = > $ constraint_command } } ) ;
undef $ output ;
undef $ return_code ;
( $ output , $ return_code ) = $ anvil - > System - > call ( { shell_call = > $ constraint_command } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
# Reload the CIB
( $ problem ) = $ anvil - > Cluster - > parse_cib ( { debug = > 2 } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
# Does the server already exist?
if ( not exists $ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ server_name } { type } )
{
# The server wasn't added
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0214" , variables = > { server_name = > $ server_name } } ) ;
return ( "!!error!!" ) ;
}
return ( 0 ) ;
}
= head2 assemble_storage_groups
This method takes an Anvil ! UUID and sees if there are any ungrouped LVM VGs that can be automatically grouped together .
Parameters ;
= head3 anvil_uuid ( required )
This is the Anvil ! UUID that we ' re looking for ungrouped VGs in .
= cut
sub assemble_storage_groups
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 2 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->assemble_storage_groups()" } } ) ;
my $ anvil_uuid = defined $ parameter - > { anvil_uuid } ? $ parameter - > { anvil_uuid } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
anvil_uuid = > $ anvil_uuid ,
} } ) ;
if ( not $ anvil_uuid )
{
# Can we deduce the anvil_uuid?
$ anvil_uuid = $ anvil - > Cluster - > get_anvil_uuid ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { anvil_uuid = > $ anvil_uuid } } ) ;
if ( not $ anvil_uuid )
{
# Still no anvil_uuid
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "log_0020" , variables = > { method = > "Cluster->assemble_storage_groups()" , parameter = > "anvil_uuid" } } ) ;
return ( "!!error!!" ) ;
}
}
# Get the node UUIDs for this anvil.
my $ query = "
SELECT
anvil_name ,
anvil_node1_host_uuid ,
anvil_node2_host_uuid ,
anvil_dr1_host_uuid
FROM
anvils
WHERE
anvil_uuid = ".$anvil->Database->quote($anvil_uuid)."
; " ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { query = > $ query } } ) ;
my $ results = $ anvil - > Database - > query ( { query = > $ query , source = > $ THIS_FILE , line = > __LINE__ } ) ;
my $ count = @ { $ results } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
results = > $ results ,
count = > $ count ,
} } ) ;
if ( not $ count )
{
# Not found.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0169" , variables = > { anvil_uuid = > $ anvil_uuid } } ) ;
return ( "!!error!!" ) ;
}
# Get the details.
my $ anvil_name = $ results - > [ 0 ] - > [ 0 ] ;
my $ node1_host_uuid = $ results - > [ 0 ] - > [ 1 ] ;
my $ node2_host_uuid = $ results - > [ 0 ] - > [ 2 ] ;
my $ dr1_host_uuid = defined $ results - > [ 0 ] - > [ 3 ] ? $ results - > [ 0 ] - > [ 3 ] : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
anvil_name = > $ anvil_name ,
node1_host_uuid = > $ node1_host_uuid ,
node2_host_uuid = > $ node2_host_uuid ,
dr1_host_uuid = > $ dr1_host_uuid ,
} } ) ;
# Load known storage groups.
$ anvil - > Database - > get_storage_group_data ( { debug = > $ debug } ) ;
# Look for ungrouped VGs and see if we can group them by matching identical sizes together.
my $ hosts = [ $ node1_host_uuid , $ node2_host_uuid ] ;
if ( $ dr1_host_uuid )
{
push @ { $ hosts } , $ dr1_host_uuid ;
}
else
{
# No DR.
$ anvil - > data - > { ungrouped_vg_count } { dr1 } = 0 ;
}
foreach my $ host_uuid ( @ { $ hosts } )
{
my $ this_is = "node1" ;
if ( $ host_uuid eq $ node2_host_uuid ) { $ this_is = "node2" ; }
elsif ( $ host_uuid eq $ dr1_host_uuid ) { $ this_is = "dr1" ; }
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { this_is = > $ this_is } } ) ;
$ anvil - > data - > { ungrouped_vg_count } { $ this_is } = 0 ;
my $ query = "
SELECT
scan_lvm_vg_uuid ,
scan_lvm_vg_name ,
scan_lvm_vg_extent_size ,
scan_lvm_vg_size ,
scan_lvm_vg_free ,
scan_lvm_vg_internal_uuid
FROM
scan_lvm_vgs
WHERE
scan_lvm_vg_host_uuid = ".$anvil->Database->quote($host_uuid)."
AND
scan_lvm_vg_name != 'DELETED'
ORDER BY
scan_lvm_vg_size ASC
; " ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { query = > $ query } } ) ;
my $ results = $ anvil - > Database - > query ( { query = > $ query , source = > $ THIS_FILE , line = > __LINE__ } ) ;
my $ count = @ { $ results } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
results = > $ results ,
count = > $ count ,
} } ) ;
foreach my $ row ( @ { $ results } )
{
my $ scan_lvm_vg_size = $ row - > [ 3 ] ;
my $ scan_lvm_vg_internal_uuid = $ row - > [ 5 ] ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
scan_lvm_vg_size = > $ scan_lvm_vg_size . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ scan_lvm_vg_size } ) . ")" ,
scan_lvm_vg_internal_uuid = > $ scan_lvm_vg_internal_uuid ,
} } ) ;
# Skip VGs that are in a group already.
if ( ( exists $ anvil - > data - > { storage_groups } { vg_uuid } { $ scan_lvm_vg_internal_uuid } ) &&
( $ anvil - > data - > { storage_groups } { vg_uuid } { $ scan_lvm_vg_internal_uuid } { storage_group_uuid } ) )
{
# Already in a group, we can skip it. We log this data for debugging reasons
# only.
my $ storage_group_uuid = $ anvil - > data - > { storage_groups } { vg_uuid } { $ scan_lvm_vg_internal_uuid } { storage_group_uuid } ;
my $ group_name = $ anvil - > data - > { storage_groups } { anvil_uuid } { $ anvil_uuid } { storage_group_uuid } { $ storage_group_uuid } { group_name } ;
#my $storage_group_member_uuid = $anvil->data->{storage_groups}{anvil_uuid}{$anvil_uuid}{storage_group_uuid}{$storage_group_uuid}{host_uuid}{$host_uuid}{vg_uuid}{$scan_lvm_vg_internal_uuid}{storage_group_member_uuid};
my $ storage_group_member_uuid = $ anvil - > data - > { storage_groups } { anvil_uuid } { $ anvil_uuid } { storage_group_uuid } { $ storage_group_uuid } { host_uuid } { $ host_uuid } { storage_group_member_uuid } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
anvil_uuid = > $ anvil_uuid ,
host_uuid = > $ host_uuid ,
storage_group_uuid = > $ storage_group_uuid ,
scan_lvm_vg_internal_uuid = > $ scan_lvm_vg_internal_uuid ,
storage_group_member_uuid = > $ storage_group_member_uuid ,
} } ) ;
next ;
}
$ anvil - > data - > { ungrouped_vg_count } { $ this_is } + + ;
$ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_uuid } = $ row - > [ 0 ] ;
$ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_name } = $ row - > [ 1 ] ;
$ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_extent_size } = $ row - > [ 2 ] ;
$ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_size } = $ row - > [ 3 ] ;
$ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_free } = $ row - > [ 4 ] ;
$ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_internal_uuid } = $ row - > [ 5 ] ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"ungrouped_vg_count::${this_is}" = > $ anvil - > data - > { ungrouped_vg_count } { $ this_is } ,
"ungrouped_vgs::${scan_lvm_vg_size}::host_uuid::${host_uuid}::vg_uuid" = > $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_uuid } ,
"ungrouped_vgs::${scan_lvm_vg_size}::host_uuid::${host_uuid}::vg_name" = > $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_name } ,
"ungrouped_vgs::${scan_lvm_vg_size}::host_uuid::${host_uuid}::vg_extent_size" = > $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_extent_size } . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_extent_size } } ) . ")" ,
"ungrouped_vgs::${scan_lvm_vg_size}::host_uuid::${host_uuid}::vg_size" = > $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_size } . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_size } } ) . ")" ,
"ungrouped_vgs::${scan_lvm_vg_size}::host_uuid::${host_uuid}::vg_free" = > $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_free } . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_free } } ) . ")" ,
"ungrouped_vgs::${scan_lvm_vg_size}::host_uuid::${host_uuid}::vg_internal_uuid" = > $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_internal_uuid } ,
} } ) ;
}
}
# Find ungrouped VGs and see if we can group them. First by looking for identical sizes.
my $ reload_storage_groups = 0 ;
foreach my $ scan_lvm_vg_size ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { ungrouped_vgs } } )
{
# If there are two or three VGs, we can create a group.
my $ count = keys % { $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
scan_lvm_vg_size = > $ scan_lvm_vg_size . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ scan_lvm_vg_size } ) . ")" ,
count = > $ count ,
} } ) ;
if ( ( $ count == 2 ) or ( $ count == 3 ) )
{
# Create the volume group ... group. First we need a group number
my $ storage_group_uuid = $ anvil - > Database - > insert_or_update_storage_groups ( {
debug = > 2 ,
storage_group_anvil_uuid = > $ anvil_uuid ,
} ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { storage_group_uuid = > $ storage_group_uuid } } ) ;
foreach my $ host_uuid ( keys % { $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } } )
{
my $ this_is = "node1" ;
if ( $ host_uuid eq $ node2_host_uuid ) { $ this_is = "node2" ; }
elsif ( $ host_uuid eq $ dr1_host_uuid ) { $ this_is = "dr1" ; }
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { this_is = > $ this_is } } ) ;
my $ storage_group_member_vg_uuid = $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_internal_uuid } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { storage_group_member_vg_uuid = > $ storage_group_member_vg_uuid } } ) ;
my $ storage_group_member_uuid = $ anvil - > Database - > insert_or_update_storage_group_members ( {
debug = > 2 ,
storage_group_member_storage_group_uuid = > $ storage_group_uuid ,
storage_group_member_host_uuid = > $ host_uuid ,
storage_group_member_vg_uuid = > $ storage_group_member_vg_uuid ,
} ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { storage_group_member_uuid = > $ storage_group_member_uuid } } ) ;
$ anvil - > data - > { ungrouped_vg_count } { $ this_is } - - ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"ungrouped_vg_count::${this_is}" = > $ anvil - > data - > { ungrouped_vg_count } { $ this_is } ,
} } ) ;
}
# Delete this so we don't keel creating new Storage groups.
delete $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } ;
# Reload storage group data
$ reload_storage_groups = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { reload_storage_groups = > $ reload_storage_groups } } ) ;
}
}
# If there's only one VG on each node that is ungrouped, group them even though they're not the same
# size. If DR also has only 1 VG ungrouped, it'll be added, too.
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"ungrouped_vg_count::node1" = > $ anvil - > data - > { ungrouped_vg_count } { node1 } ,
"ungrouped_vg_count::node2" = > $ anvil - > data - > { ungrouped_vg_count } { node2 } ,
"ungrouped_vg_count::dr1" = > $ anvil - > data - > { ungrouped_vg_count } { dr1 } ,
} } ) ;
if ( ( $ anvil - > data - > { ungrouped_vg_count } { node1 } == 1 ) && ( $ anvil - > data - > { ungrouped_vg_count } { node2 } == 1 ) )
{
# We do!
my $ storage_group_uuid = $ anvil - > Database - > create_storage_group ( {
debug = > $ debug ,
storage_group_anvil_uuid = > $ anvil_uuid ,
} ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { storage_group_uuid = > $ storage_group_uuid } } ) ;
my $ hosts = [ $ node1_host_uuid , $ node2_host_uuid ] ;
if ( $ anvil - > data - > { ungrouped_vg_count } { dr1 } == 1 )
{
push @ { $ hosts } , $ dr1_host_uuid ;
}
foreach my $ host_uuid ( @ { $ hosts } )
{
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { host_uuid = > $ host_uuid } } ) ;
# I need to find the size of VG UUID without knowing it's size.
my $ storage_group_member_vg_uuid = "" ;
foreach my $ scan_lvm_vg_size ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { ungrouped_vgs } } )
{
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
scan_lvm_vg_size = > $ scan_lvm_vg_size . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ scan_lvm_vg_size } ) . ")" ,
} } ) ;
if ( ( exists $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } ) &&
( $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_internal_uuid } ) )
{
# Found it.
$ storage_group_member_vg_uuid = $ anvil - > data - > { ungrouped_vgs } { $ scan_lvm_vg_size } { host_uuid } { $ host_uuid } { vg_internal_uuid } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { storage_group_member_vg_uuid = > $ storage_group_member_vg_uuid } } ) ;
}
}
my $ storage_group_member_uuid = $ anvil - > Database - > insert_or_update_storage_group_members ( {
debug = > $ debug ,
storage_group_member_storage_group_uuid = > $ storage_group_uuid ,
storage_group_member_host_uuid = > $ host_uuid ,
storage_group_member_vg_uuid = > $ storage_group_member_vg_uuid ,
} ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { storage_group_member_uuid = > $ storage_group_member_uuid } } ) ;
# Reload storage group data
$ reload_storage_groups = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { reload_storage_groups = > $ reload_storage_groups } } ) ;
}
}
if ( $ reload_storage_groups )
{
$ anvil - > Database - > get_storage_group_data ( { debug = > $ debug } ) ;
}
return ( 0 ) ;
}
= head2 boot_server
This uses pacemaker to boot a server .
If there is a problem , C << ! ! error ! ! >> is returned .
Parameters ;
= head3 server ( required )
This is the name of the server to boot .
= head3 node ( optional )
If set , a resource constraint is placed so that the server prefers one node over the other before it boots .
B << Note >> ; The method relies on pacemaker to boot the node . As such , if for some reason it decides the server can not be booted on the preferred node , it may boot on the other node . As such , this parameter does not guarantee that the server will be booted on the target node !
= head3 wait ( optional , default '1' )
This controls whether the method waits for the server to shut down before returning . By default , it will go into a loop and check every 2 seconds to see if the server is still running . Once it ' s found to be off , the method returns . If this is set to C << 0 >> , the method will return as soon as the request to shut down the server is issued .
= cut
sub boot_server
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->boot_server()" } } ) ;
my $ node = defined $ parameter - > { node } ? $ parameter - > { node } : "" ;
my $ server = defined $ parameter - > { server } ? $ parameter - > { server } : "" ;
my $ wait = defined $ parameter - > { 'wait' } ? $ parameter - > { 'wait' } : 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
node = > $ node ,
server = > $ server ,
'wait' = > $ wait ,
} } ) ;
if ( not $ server )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "log_0020" , variables = > { method = > "Cluster->boot_server()" , parameter = > "server" } } ) ;
return ( "!!error!!" ) ;
}
my $ host_type = $ anvil - > Get - > host_type ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { host_type = > $ host_type } } ) ;
if ( $ host_type ne "node" )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0146" , variables = > { server = > $ server } } ) ;
return ( "!!error!!" ) ;
}
my $ problem = $ anvil - > Cluster - > parse_cib ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
if ( $ problem )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0145" , variables = > { server = > $ server } } ) ;
return ( '!!error!!' ) ;
}
# Is this node fully in the cluster?
if ( not $ anvil - > data - > { cib } { parsed } { 'local' } { ready } )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0147" , variables = > { server = > $ server } } ) ;
return ( '!!error!!' ) ;
}
# Is the server one we know of?
if ( not exists $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } )
{
# The server isn't in the pacemaker config.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0149" , variables = > { server = > $ server } } ) ;
return ( '!!error!!' ) ;
}
# Is the server already running? If so, do nothing.
my $ status = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { status } ;
my $ host = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { host_name } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
status = > $ status ,
host = > $ host ,
} } ) ;
if ( $ status eq "running" )
{
# Nothing to do.
if ( ( not $ node ) or ( $ host eq $ node ) )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0548" , variables = > { server = > $ server } } ) ;
return ( 0 ) ;
}
else
{
# It's running, but on the other node.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , key = > "warning_0059" , variables = > {
server = > $ server ,
requested_node = > $ node ,
current_host = > $ host ,
} } ) ;
return ( 0 ) ;
}
}
if ( $ node )
{
$ anvil - > Cluster - > _set_server_constraint ( {
server = > $ server ,
preferred_node = > $ node ,
} ) ;
}
# Now boot the server.
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > 3 , shell_call = > $ anvil - > data - > { path } { exe } { pcs } . " resource enable " . $ server } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
if ( not $ wait )
{
# We're done.
return ( 0 ) ;
}
# Wait now for the server to start.
my $ waiting = 1 ;
while ( $ waiting )
{
$ anvil - > Cluster - > parse_cib ( { debug = > $ debug } ) ;
my $ status = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { status } ;
my $ host_name = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { host_name } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
status = > $ status ,
host_name = > $ host_name ,
} } ) ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0552" , variables = > { server = > $ server } } ) ;
if ( $ status eq "running" )
{
# It's up.
$ waiting = 0 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , key = > "log_0553" , variables = > {
server = > $ server ,
host_name = > $ host_name ,
} } ) ;
}
else
{
# Wait a bit and check again.
sleep 2 ;
}
}
return ( 0 ) ;
}
= head2 check_node_status
This takes a node name ( generally the short host name ) and , using a C << parse_cib >> call data ( made before calling this method ) , the node ' s ready state will be checked . If the node is ready , C << 1 >> is returned . If not , C << 0 >> is returned . If there is a problem , C << ! ! error ! ! >> is returned .
Parameters ;
= head3 node_name ( required )
This is the node name as used when configured in the cluster . In most cases , this is the short host name .
= cut
sub check_node_status
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->check_node_status()" } } ) ;
my $ node_name = defined $ parameter - > { node_name } ? $ parameter - > { node_name } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
node_name = > $ node_name ,
} } ) ;
if ( not $ node_name )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "log_0020" , variables = > { method = > "Cluster->get_host_from_uuid()" , parameter = > "host_uuid" } } ) ;
return ( "!!error!!" ) ;
}
if ( not exists $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } )
{
$ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { in_ccm } = 0 ;
$ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { crmd } = 0 ;
$ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { 'join' } = 0 ;
$ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { ready } = 0 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::node::${node_name}::node_state::in_ccm" = > $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { in_ccm } ,
"cib::parsed::data::node::${node_name}::node_state::crmd" = > $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { crmd } ,
"cib::parsed::data::node::${node_name}::node_state::join" = > $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { 'join' } ,
"cib::parsed::data::node::${node_name}::node_state::ready" = > $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { ready } ,
} } ) ;
}
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::node::${node_name}::node_state::ready" = > $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { ready } ,
} } ) ;
return ( $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { ready } ) ;
}
= head2 check_server_constraints
This method checks to see if the peer node is offline , and the local node is only . If this is the case , the location constraints for servers are checked to ensure that they favour the current host . If not , the location constraint is updated .
This is meant to be used to prevent servers from automatically migrating back to a node after it was fenced .
This method takes no parameters .
= cut
sub check_server_constraints
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->check_server_constraints()" } } ) ;
# Are we a node?
my $ host_type = $ anvil - > Get - > host_type ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { host_type = > $ host_type } } ) ;
if ( $ host_type ne "node" )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , priority = > "alert" , key = > "warning_0125" } ) ;
return ( "!!error!!" ) ;
}
# Are we in the cluster?
my $ problem = $ anvil - > Cluster - > parse_cib ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
if ( $ problem )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , priority = > "alert" , key = > "warning_0126" } ) ;
return ( '!!error!!' ) ;
}
# Are we a full member?
if ( not $ anvil - > data - > { cib } { parsed } { 'local' } { ready } )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , priority = > "alert" , key = > "warning_0127" } ) ;
return ( '!!error!!' ) ;
}
# Is our peer offline? If it's online, do nothing
if ( $ anvil - > data - > { cib } { parsed } { peer } { ready } )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 2 , key = > "log_0640" } ) ;
return ( 0 ) ;
}
# Get the list of fence methods for my peer and I and make sure their configs are valid.
my $ anvil_uuid = $ anvil - > Cluster - > get_anvil_uuid ( { debug = > $ debug } ) ;
my $ anvil_name = $ anvil - > Get - > anvil_name_from_uuid ( { debug = > $ debug , anvil_uuid = > $ anvil_uuid } ) ;
my $ local_node_name = $ anvil - > data - > { cib } { parsed } { 'local' } { name } ;
my $ local_host_uuid = $ anvil - > Get - > host_uuid ( ) ;
my $ peer_node_name = $ anvil - > data - > { cib } { parsed } { peer } { name } ;
my $ peer_host_uuid = $ anvil - > data - > { cib } { parsed } { peer } { host_uuid } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
anvil_uuid = > $ anvil_uuid ,
anvil_name = > $ anvil_name ,
local_node_name = > $ local_node_name ,
local_host_uuid = > $ local_host_uuid ,
peer_node_name = > $ peer_node_name ,
peer_host_uuid = > $ peer_host_uuid ,
} } ) ;
foreach my $ id ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { configuration } { constraints } { location } } )
{
my $ node_name = $ anvil - > data - > { cib } { parsed } { configuration } { constraints } { location } { $ id } { node } ;
my $ resource = $ anvil - > data - > { cib } { parsed } { configuration } { constraints } { location } { $ id } { resource } ;
my $ score = $ anvil - > data - > { cib } { parsed } { configuration } { constraints } { location } { $ id } { score } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
id = > $ id ,
node_name = > $ node_name ,
resource = > $ resource ,
score = > $ score ,
} } ) ;
$ anvil - > data - > { location_constraint } { resource } { $ resource } { node } { $ node_name } { score } = $ score ;
$ anvil - > data - > { location_constraint } { resource } { $ resource } { node } { $ node_name } { id } = $ id ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"location_constraint::resource::${resource}::node::${node_name}::score" = > $ anvil - > data - > { location_constraint } { resource } { $ resource } { node } { $ node_name } { score } ,
"location_constraint::resource::${resource}::node::${node_name}::id" = > $ anvil - > data - > { location_constraint } { resource } { $ resource } { node } { $ node_name } { id } ,
} } ) ;
}
# Higher score == preferred
foreach my $ resource ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { location_constraint } { resource } } )
{
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { resource = > $ resource } } ) ;
my $ high_score = 0 ;
my $ preferred_node = "" ;
foreach my $ node_name ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { location_constraint } { resource } { $ resource } { node } } )
{
my $ score = $ anvil - > data - > { location_constraint } { resource } { $ resource } { node } { $ node_name } { score } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
node_name = > $ node_name ,
score = > $ score ,
} } ) ;
if ( $ score > $ high_score )
{
$ high_score = $ score ;
$ preferred_node = $ node_name ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
high_score = > $ high_score ,
preferred_node = > $ preferred_node ,
} } ) ;
}
if ( $ local_node_name ne $ preferred_node )
{
# Make us the preferred node.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , key = > "log_0641" , variables = > { server = > $ resource } } ) ;
$ anvil - > Cluster - > _set_server_constraint ( {
server = > $ resource ,
preferred_node = > $ local_node_name ,
} ) ;
}
}
}
return ( 0 ) ;
}
= head2 check_stonith_config
This loads the running CIB and compares the fence ( stonith ) configuration against the records in the database . If a method needs to be updated , added or removed , this method will make those changes . As such , this method must be called on an active Anvil ! node in order to work .
This method will return C << ! ! error ! ! >> if called on a node that is not in a cluster , or called on a machine that isn ' t a node . Otherwise it returns C << 1 >> if something was changed , and returns C << 0 >> if no changes were made .
This method takes no parameters .
= cut
sub check_stonith_config
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->check_stonith_config()" } } ) ;
# Are we a node?
my $ host_type = $ anvil - > Get - > host_type ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { host_type = > $ host_type } } ) ;
if ( $ host_type ne "node" )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0298" , variables = > { host_type = > $ host_type } } ) ;
return ( '!!error!!' ) ;
}
# See if we already have a parsed CIB. Generally we're called by scan-cluster, so we should.
if ( not exists $ anvil - > data - > { cib } { parsed } )
{
my $ problem = $ anvil - > Cluster - > parse_cib ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
if ( ( $ problem ) or ( not $ anvil - > data - > { cib } { parsed } { 'local' } { ready } ) )
{
# We're not in a cluster or we're not ready
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0299" } ) ;
return ( '!!error!!' ) ;
}
}
# Get the list of fence methods for my peer and I and make sure their configs are valid.
my $ anvil_uuid = $ anvil - > Cluster - > get_anvil_uuid ( { debug = > $ debug } ) ;
my $ anvil_name = $ anvil - > Get - > anvil_name_from_uuid ( { debug = > $ debug , anvil_uuid = > $ anvil_uuid } ) ;
my $ local_node_name = $ anvil - > data - > { cib } { parsed } { 'local' } { name } ;
my $ local_host_uuid = $ anvil - > Get - > host_uuid ( ) ;
my $ peer_node_name = $ anvil - > data - > { cib } { parsed } { peer } { name } ;
my $ peer_host_uuid = $ anvil - > data - > { cib } { parsed } { peer } { host_uuid } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
anvil_uuid = > $ anvil_uuid ,
anvil_name = > $ anvil_name ,
local_node_name = > $ local_node_name ,
local_host_uuid = > $ local_host_uuid ,
peer_node_name = > $ peer_node_name ,
peer_host_uuid = > $ peer_host_uuid ,
} } ) ;
# Load host information so that we can check for IPMI configs, if needed.
$ anvil - > Database - > get_hosts ( { debug = > $ debug } ) ;
$ anvil - > Database - > get_anvils ( { debug = > $ debug } ) ;
$ anvil - > Database - > get_manifests ( { debug = > $ debug } ) ;
# Parse the manifest for the Anvil! so that we know what fence methods should be used.
my $ manifest_uuid = exists $ anvil - > data - > { manifests } { manifest_name } { $ anvil_name } { manifest_uuid } ? $ anvil - > data - > { manifests } { manifest_name } { $ anvil_name } { manifest_uuid } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { manifest_uuid = > $ manifest_uuid } } ) ;
# If we don't have a manifest_uuid, abort.
if ( not $ manifest_uuid )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0300" , variables = > { anvil_name = > $ anvil_name } } ) ;
return ( '!!error!!' ) ;
}
my $ problem = $ anvil - > Striker - > load_manifest ( { debug = > $ debug , manifest_uuid = > $ manifest_uuid } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
if ( $ problem )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0301" , variables = > { manifest_uuid = > $ manifest_uuid } } ) ;
return ( '!!error!!' ) ;
}
# If we have a local host_IPMI, test it.
my $ check_ipmi_config = 1 ;
if ( $ anvil - > data - > { hosts } { host_uuid } { $ local_host_uuid } { host_ipmi } )
{
my $ shell_call = $ anvil - > data - > { hosts } { host_uuid } { $ local_host_uuid } { host_ipmi } . " -o status" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , secure = > 1 , list = > { shell_call = > $ shell_call } } ) ;
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { shell_call = > $ shell_call , secure = > 1 } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
if ( $ return_code eq "0" )
{
# IPMI is fine.
$ check_ipmi_config = 0 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { check_ipmi_config = > $ check_ipmi_config } } ) ;
}
}
if ( $ check_ipmi_config )
{
# See if it needs to be configured or updated.
$ anvil - > System - > configure_ipmi ( { debug = > $ debug , manifest_uuid = > $ manifest_uuid } ) ;
}
# now lets check the stonith config.
$ anvil - > Cluster - > get_peers ( { debug = > $ debug } ) ;
my $ local_node_is = $ anvil - > data - > { sys } { anvil } { i_am } ;
my $ peer_node_is = $ anvil - > data - > { sys } { anvil } { peer_is } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
local_node_is = > $ local_node_is ,
peer_node_is = > $ peer_node_is ,
} } ) ;
# Collecting fence data is expensive, so lets only load if needed.
my $ update_fence_data = 1 ;
if ( ( exists $ anvil - > data - > { sys } { fence_data_updated } ) && ( $ anvil - > data - > { sys } { fence_data_updated } ) )
{
my $ age = time - $ anvil - > data - > { sys } { fence_data_updated } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { age = > $ age } } ) ;
if ( $ age < 86400 )
{
# Only refresh daily.
$ update_fence_data = 0 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { update_fence_data = > $ update_fence_data } } ) ;
}
}
if ( $ update_fence_data )
{
$ anvil - > Striker - > get_fence_data ( { debug = > ( $ debug + 1 ) } ) ;
}
### NOTE: This was copied from 'anvil-join-anvil' and modified.
# Now I know what I have, lets see what I should have.
my $ host_name = $ anvil - > Get - > host_name ;
my $ new_password = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_password } ;
my $ escaped_password = shell_quote ( $ new_password ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
host_name = > $ host_name ,
new_password = > $ anvil - > Log - > is_secure ( $ new_password ) ,
escaped_password = > $ anvil - > Log - > is_secure ( $ escaped_password ) ,
} } ) ;
$ anvil - > data - > { machine } { node1 } { host_name } = "" ;
$ anvil - > data - > { machine } { node1 } { host_uuid } = "" ;
$ anvil - > data - > { machine } { node1 } { use_delay } = 0 ;
$ anvil - > data - > { machine } { node2 } { host_name } = "" ;
$ anvil - > data - > { machine } { node2 } { host_uuid } = "" ;
$ anvil - > data - > { machine } { node2 } { use_delay } = 0 ;
if ( $ local_node_is eq "node1" )
{
# We're node 1
$ anvil - > data - > { machine } { node1 } { host_name } = $ local_node_name ;
$ anvil - > data - > { machine } { node1 } { host_uuid } = $ local_host_uuid ;
$ anvil - > data - > { machine } { node2 } { host_name } = $ peer_node_name ;
$ anvil - > data - > { machine } { node2 } { host_uuid } = $ peer_host_uuid ;
}
else
{
# Our peer is node 1
$ anvil - > data - > { machine } { node1 } { host_name } = $ peer_node_name ;
$ anvil - > data - > { machine } { node1 } { host_uuid } = $ peer_host_uuid ;
$ anvil - > data - > { machine } { node2 } { host_name } = $ local_node_name ;
$ anvil - > data - > { machine } { node2 } { host_uuid } = $ local_host_uuid ;
}
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"machine::node1::host_name" = > $ anvil - > data - > { machine } { node1 } { host_name } ,
"machine::node1::host_uuid" = > $ anvil - > data - > { machine } { node1 } { host_uuid } ,
"machine::node2::host_name" = > $ anvil - > data - > { machine } { node2 } { host_name } ,
"machine::node2::host_uuid" = > $ anvil - > data - > { machine } { node2 } { host_uuid } ,
} } ) ;
my $ something_changed = { } ;
my $ fence_order = { } ;
my $ fence_devices = { } ;
foreach my $ node ( "node1" , "node2" )
{
my $ node_name = $ anvil - > data - > { machine } { $ node } { host_name } ;
my $ host_uuid = $ anvil - > data - > { machine } { $ node } { host_uuid } ;
my $ host_ipmi = $ anvil - > data - > { hosts } { host_uuid } { $ host_uuid } { host_ipmi } ;
my $ ipmi_stonith_name = "ipmilan_" . $ node ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
node_name = > $ node_name ,
host_uuid = > $ host_uuid ,
host_ipmi = > $ host_ipmi =~ /passw/ ? $ anvil - > Log - > is_secure ( $ host_ipmi ) : $ host_ipmi ,
ipmi_stonith_name = > $ ipmi_stonith_name ,
} } ) ;
# This will store the fence level order. If something changes
$ fence_order - > { $ node_name } = [] ;
# This will switch to '1' if something changed, triggering a reconfig of the fencing levels.
$ something_changed - > { $ node_name } = 0 ;
# Does this stonith method already exist?
my $ create_entry = 0 ;
my $ delete_old = 0 ;
my $ pcs_add_command = "" ;
if ( $ host_ipmi )
{
push @ { $ fence_order - > { $ node_name } } , "fence_ipmilan" ;
$ fence_devices - > { $ node_name } { fence_ipmilan } = [ $ ipmi_stonith_name ] ;
# The --action switch needs to be 'pcmk_off_action' in pcs, so we convert it here.
$ host_ipmi =~ s/--action status// ;
$ host_ipmi =~ s/--action/--pcmk_off_action/ ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
host_ipmi = > $ host_ipmi =~ /passw/ ? $ anvil - > Log - > is_secure ( $ host_ipmi ) : $ host_ipmi ,
} } ) ;
# We have IPMI, so we also want fence_delay for this node.
$ anvil - > data - > { machine } { $ node } { use_delay } = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"machine::${node}::use_delay" = > $ anvil - > data - > { machine } { $ node } { use_delay } ,
} } ) ;
# If we're here, break up the command and turn it into the pcs call.
my $ old_switches = { } ;
my ( $ fence_agent , $ arguments ) = ( $ host_ipmi =~ /^\/.*\/(.*?)\s+(.*)$/ ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
fence_agent = > $ fence_agent ,
arguments = > $ arguments =~ /passw/ ? $ anvil - > Log - > is_secure ( $ arguments ) : $ arguments ,
} } ) ;
$ pcs_add_command = $ anvil - > data - > { path } { exe } { pcs } . " stonith create " . $ ipmi_stonith_name . " " . $ fence_agent . " pcmk_host_list=\"" . $ node_name . "\" " ;
my $ switches = $ anvil - > System - > parse_arguments ( { arguments = > $ arguments } ) ;
foreach my $ switch ( sort { $ a cmp $ b } keys % { $ switches } )
{
# Ignore 'delay', we handle that in Cluster->set_delay(); Also,
# convert '#!SET!#' to 'true'.
my $ value = $ switches - > { $ switch } ;
$ value =~ s/"/\\"/g ;
$ value =~ s/#!SET!#/true/g ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
switch = > $ switch ,
value = > $ value ,
} } ) ;
next if $ anvil - > data - > { fence_data } { $ fence_agent } { switch } { $ switch } { name } eq "delay" ;
next if $ anvil - > data - > { fence_data } { $ fence_agent } { switch } { $ switch } { name } eq "action" ;
# Find the argument=value version.
my $ argument = $ anvil - > data - > { fence_data } { $ fence_agent } { switch } { $ switch } { name } ;
$ pcs_add_command . = $ argument . "=\"" . $ value . "\" " ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
argument = > $ argument ,
value = > $ argument =~ /passw/ ? $ anvil - > Log - > is_secure ( $ value ) : $ value ,
pcs_add_command = > $ pcs_add_command =~ /passw/ ? $ anvil - > Log - > is_secure ( $ pcs_add_command ) : $ pcs_add_command ,
} } ) ;
# Store this to see if it's different from what's already in the CIB.
$ old_switches - > { $ argument } = $ value ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"old_switches->{$argument}" = > $ old_switches - > { $ argument } ,
} } ) ;
}
$ pcs_add_command . = "op monitor interval=\"60\"" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
pcs_add_command = > $ pcs_add_command =~ /passw/ ? $ anvil - > Log - > is_secure ( $ pcs_add_command ) : $ pcs_add_command ,
} } ) ;
# If there's an entry in the CIB, so if it's different somehow
if ( exists $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ ipmi_stonith_name } )
{
foreach my $ argument ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ ipmi_stonith_name } { argument } } )
{
next if $ argument eq "delay" ;
next if $ argument eq "action" ;
my $ old_entry = $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ ipmi_stonith_name } { argument } { $ argument } { value } ;
my $ new_entry = exists $ old_switches - > { $ argument } ? $ old_switches - > { $ argument } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
's1:argument' = > $ argument ,
's2:old_entry' = > $ old_entry ,
's3:new_entry' = > $ new_entry ,
} } ) ;
if ( $ old_entry ne $ new_entry )
{
# Changed, delete and recreate.
$ delete_old = 1 ;
$ create_entry = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
delete_old = > $ delete_old ,
create_entry = > $ create_entry ,
} } ) ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 1 , key = > "job_0117" } ) ;
last ;
}
# Delete the old switch.
delete $ old_switches - > { $ argument } ;
}
# Are there any old switches left?
my $ old_switch_count = keys % { $ old_switches } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
delete_old = > $ delete_old ,
old_switch_count = > $ old_switch_count ,
} } ) ;
if ( ( not $ delete_old ) && ( $ old_switch_count ) )
{
# Delete and recreate.
$ delete_old = 1 ;
$ create_entry = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
delete_old = > $ delete_old ,
create_entry = > $ create_entry ,
} } ) ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 1 , key = > "job_0117" } ) ;
}
}
else
{
# No existing entry, add a new one.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 1 , key = > "job_0116" } ) ;
$ create_entry = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { create_entry = > $ create_entry } } ) ;
}
}
elsif ( exists $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ ipmi_stonith_name } )
{
# There was an existing fence config, but there's no entry in 'host_ipmi'.
# Remove the stonith entry.
$ delete_old = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { delete_old = > $ delete_old } } ) ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 1 , key = > "job_0118" } ) ;
}
# Process the IPMI entry.
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
delete_old = > $ delete_old ,
create_entry = > $ create_entry ,
} } ) ;
if ( $ delete_old )
{
# Delete
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 1 , key = > "job_0119" , variables = > { device = > $ ipmi_stonith_name } } ) ;
my $ shell_call = $ anvil - > data - > { path } { exe } { pcs } . " stonith delete " . $ ipmi_stonith_name ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { shell_call = > $ shell_call } } ) ;
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > 3 , shell_call = > $ shell_call } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
if ( $ return_code )
{
# Something went wrong.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 0 , priority = > "err" , key = > "error_0138" , variables = > {
shell_call = > $ shell_call ,
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
return ( 1 ) ;
}
$ something_changed - > { $ node_name } = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { "something_changed->{$node_name}" = > $ something_changed - > { $ node_name } } } ) ;
}
if ( $ create_entry )
{
# Create.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 1 , key = > "job_0120" , variables = > { device = > $ ipmi_stonith_name } } ) ;
my $ shell_call = $ pcs_add_command ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { shell_call = > $ shell_call } } ) ;
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > 3 , shell_call = > $ shell_call } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
if ( $ return_code )
{
# Something went wrong.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 0 , priority = > "err" , key = > "error_0138" , variables = > {
shell_call = > $ shell_call ,
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
return ( 1 ) ;
}
$ something_changed - > { $ node_name } = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { "something_changed->{$node_name}" = > $ something_changed - > { $ node_name } } } ) ;
}
### Now any other fence devices.
foreach my $ device ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { manifests } { manifest_uuid } { $ manifest_uuid } { parsed } { machine } { $ node } { fence } } )
{
my $ delete_old = 0 ;
my $ create_entry = 0 ;
my $ old_switches = { } ;
my $ fence_uuid = $ anvil - > data - > { manifests } { manifest_uuid } { $ manifest_uuid } { parsed } { fences } { $ device } { uuid } ;
my $ fence_name = $ anvil - > data - > { fences } { fence_uuid } { $ fence_uuid } { fence_name } ;
my $ fence_arguments = $ anvil - > data - > { fences } { fence_uuid } { $ fence_uuid } { fence_arguments } ;
my $ fence_agent = $ anvil - > data - > { fences } { fence_uuid } { $ fence_uuid } { fence_agent } ;
my $ stonith_name = ( $ fence_agent =~ /^fence_(.*)$/ ) [ 0 ] . "_" . $ node . "_" . $ fence_name ;
my $ port = $ anvil - > data - > { manifests } { manifest_uuid } { $ manifest_uuid } { parsed } { machine } { $ node } { fence } { $ device } { port } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
device = > $ device ,
fence_uuid = > $ fence_uuid ,
fence_name = > $ fence_name ,
fence_arguments = > $ fence_arguments =~ /passw/ ? $ anvil - > Log - > is_secure ( $ fence_arguments ) : $ fence_arguments ,
stonith_name = > $ stonith_name ,
port = > $ port ,
} } ) ;
# We use this to tell if there are two or more entries per agent. If there
# are, we link them later when setting up the fence levels.
if ( not exists $ fence_devices - > { $ node_name } { $ fence_agent } )
{
push @ { $ fence_order - > { $ node_name } } , $ fence_agent ;
$ fence_devices - > { $ node_name } { $ fence_agent } = [] ;
}
push @ { $ fence_devices - > { $ node_name } { $ fence_agent } } , $ stonith_name ;
# Fence arguments use 'action', but pcs deprecated it in favour of 'pcmk_off_action', so rename it.
$ fence_arguments =~ s/action=/pcmk_off_action=/ ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
fence_arguments = > $ fence_arguments =~ /passw/ ? $ anvil - > Log - > is_secure ( $ fence_arguments ) : $ fence_arguments ,
} } ) ;
# Build the pcs command
my $ pcs_add_command = $ anvil - > data - > { path } { exe } { pcs } . " stonith create " . $ stonith_name . " " . $ fence_agent . " pcmk_host_list=\"" . $ node_name . "\" " . $ fence_arguments . " " ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
pcs_add_command = > $ pcs_add_command =~ /passw/ ? $ anvil - > Log - > is_secure ( $ pcs_add_command ) : $ pcs_add_command ,
} } ) ;
while ( $ fence_arguments =~ /=/ )
{
# Ignore 'delay', we handle that in Cluster->set_delay();
my $ pair = ( $ fence_arguments =~ /(\S*?=".*?")/ ) [ 0 ] ;
$ fence_arguments =~ s/$pair// ;
$ fence_arguments =~ s/^\s+// ;
$ fence_arguments =~ s/\s+$// ;
my ( $ argument , $ value ) = ( $ pair =~ /(.*)="(.*)"/ ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
's1:fence_arguments' = > $ fence_arguments ,
's2:pair' = > $ pair =~ /passw/ ? $ anvil - > Log - > is_secure ( $ pair ) : $ pair ,
's3:argument' = > $ argument ,
's4:value' = > $ argument =~ /passw/ ? $ anvil - > Log - > is_secure ( $ value ) : $ value ,
} } ) ;
# Ignore 'delay', we handle that in Cluster->set_delay();
if ( ( $ argument ne "pcmk_off_action" ) &&
( exists $ anvil - > data - > { fence_data } { $ fence_agent } { switch } { $ argument } { name } ) &&
( $ anvil - > data - > { fence_data } { $ fence_agent } { switch } { $ argument } { name } eq "delay" ) )
{
next ;
}
# Store this to see if it's different from what's already in the CIB.
$ old_switches - > { $ argument } = $ value ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"old_switches->{$argument}" = > $ old_switches - > { $ argument } ,
} } ) ;
}
if ( $ port )
{
$ port =~ s/"/\\"/g ;
$ pcs_add_command . = "port=\"" . $ port . "\" " ;
$ old_switches - > { port } = $ port ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
pcs_add_command = > $ pcs_add_command =~ /passw/ ? $ anvil - > Log - > is_secure ( $ pcs_add_command ) : $ pcs_add_command ,
"old_switches->{port}" = > $ old_switches - > { port } ,
} } ) ;
}
$ pcs_add_command . = "op monitor interval=\"60\"" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
pcs_add_command = > $ pcs_add_command =~ /passw/ ? $ anvil - > Log - > is_secure ( $ pcs_add_command ) : $ pcs_add_command ,
} } ) ;
# Does this device exist already?
if ( exists $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ stonith_name } )
{
foreach my $ argument ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ stonith_name } { argument } } )
{
next if $ argument eq "delay" ;
my $ old_entry = $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ stonith_name } { argument } { $ argument } { value } ;
my $ new_entry = exists $ old_switches - > { $ argument } ? $ old_switches - > { $ argument } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
's1:argument' = > $ argument ,
's2:old_entry' = > $ old_entry ,
's3:new_entry' = > $ new_entry ,
} } ) ;
if ( $ old_entry ne $ new_entry )
{
# Changed, delete and recreate.
$ delete_old = 1 ;
$ create_entry = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
delete_old = > $ delete_old ,
create_entry = > $ create_entry ,
} } ) ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 1 , key = > "job_0121" , variables = > { device = > $ stonith_name } } ) ;
last ;
}
# Delete the old switch.
delete $ old_switches - > { $ argument } ;
}
# Are there any old switches left?
my $ old_switch_count = keys % { $ old_switches } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { old_switch_count = > $ old_switch_count } } ) ;
if ( ( not $ delete_old ) && ( $ old_switch_count ) )
{
# Delete and recreate.
$ delete_old = 1 ;
$ create_entry = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
delete_old = > $ delete_old ,
create_entry = > $ create_entry ,
} } ) ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 1 , key = > "job_0121" , variables = > { device = > $ stonith_name } } ) ;
}
}
else
{
# No existing entry, add a new one.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 1 , key = > "job_0122" , variables = > { device = > $ stonith_name } } ) ;
$ create_entry = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { create_entry = > $ create_entry } } ) ;
}
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
delete_old = > $ delete_old ,
create_entry = > $ create_entry ,
} } ) ;
if ( $ delete_old )
{
# Delete
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 1 , key = > "job_0119" , variables = > { device = > $ stonith_name } } ) ;
my $ shell_call = $ anvil - > data - > { path } { exe } { pcs } . " stonith delete " . $ stonith_name ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { shell_call = > $ shell_call } } ) ;
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > 3 , shell_call = > $ shell_call } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
if ( $ return_code )
{
# Something went wrong.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 0 , priority = > "err" , key = > "error_0138" , variables = > {
shell_call = > $ shell_call ,
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
return ( 1 ) ;
}
$ something_changed - > { $ node_name } = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { "something_changed->{$node_name}" = > $ something_changed - > { $ node_name } } } ) ;
}
if ( $ create_entry )
{
# Create.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 1 , key = > "job_0120" , variables = > { device = > $ stonith_name } } ) ;
my $ shell_call = $ pcs_add_command ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { shell_call = > $ shell_call } } ) ;
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > 3 , shell_call = > $ shell_call } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
if ( $ return_code )
{
# Something went wrong.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 0 , priority = > "err" , key = > "error_0138" , variables = > {
shell_call = > $ shell_call ,
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
return ( 1 ) ;
}
$ something_changed - > { $ node_name } = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { "something_changed->{$node_name}" = > $ something_changed - > { $ node_name } } } ) ;
}
}
### If we had a fence_ipmilan entry, add a 'fence_delay' entry, if needed.
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"machine::${node}::use_delay" = > $ anvil - > data - > { machine } { $ node } { use_delay } ,
} } ) ;
if ( $ anvil - > data - > { machine } { $ node } { use_delay } )
{
my $ stonith_name = "delay_" . $ node ;
push @ { $ fence_order - > { $ node_name } } , "fence_delay" ;
$ fence_devices - > { $ node_name } { fence_delay } = [ $ stonith_name ] ;
# Add the fence delay if it doesn't exist yet.
if ( not exists $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ stonith_name } )
{
my $ shell_call = $ anvil - > data - > { path } { exe } { pcs } . " stonith create " . $ stonith_name . " fence_delay pcmk_host_list=\"" . $ node_name . "\" wait=\"60\" op monitor interval=\"60\"" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { shell_call = > $ shell_call } } ) ;
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > 3 , shell_call = > $ shell_call } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
if ( $ return_code )
{
# Something went wrong.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 0 , priority = > "err" , key = > "error_0138" , variables = > {
shell_call = > $ shell_call ,
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
return ( 1 ) ;
}
}
}
}
# Setup fence levels.
foreach my $ node_name ( sort { $ a cmp $ b } keys % { $ fence_order } )
{
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { "something_changed->{$node_name}" = > $ something_changed - > { $ node_name } } } ) ;
if ( $ something_changed - > { $ node_name } )
{
# Update our view of the cluster.
my $ problem = $ anvil - > Cluster - > parse_cib ( { debug = > 2 } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
# Delete any existing fence levels
if ( exists $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } )
{
foreach my $ index ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { order } } )
{
# pcs stonith level delete <index> <target>
my $ shell_call = $ anvil - > data - > { path } { exe } { pcs } . " stonith level delete " . $ index . " " . $ node_name ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { shell_call = > $ shell_call } } ) ;
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > 3 , shell_call = > $ shell_call } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
if ( $ return_code )
{
# Something went wrong.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 0 , priority = > "err" , key = > "error_0138" , variables = > {
shell_call = > $ shell_call ,
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
return ( 1 ) ;
}
}
}
# Create the new fence levels
my $ i = 1 ;
foreach my $ fence_agent ( @ { $ fence_order - > { $ node_name } } )
{
my $ devices = "" ;
foreach my $ device ( sort { $ a cmp $ b } @ { $ fence_devices - > { $ node_name } { $ fence_agent } } )
{
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { device = > $ device } } ) ;
$ devices . = $ device . "," ;
}
$ devices =~ s/,$// ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { devices = > $ devices } } ) ;
my $ shell_call = $ anvil - > data - > { path } { exe } { pcs } . " stonith level add " . $ i . " " . $ node_name . " " . $ devices ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { shell_call = > $ shell_call } } ) ;
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > 3 , shell_call = > $ shell_call } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
if ( $ return_code )
{
# Something went wrong.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , 'print' = > 1 , level = > 0 , priority = > "err" , key = > "error_0138" , variables = > {
shell_call = > $ shell_call ,
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
return ( 1 ) ;
}
$ i + + ;
}
}
}
return ( 0 ) ;
}
= head2 delete_server
This takes a server ( resource ) name and deletes it from pacemaker . If there is a problem , C << ! ! error ! ! >> is returned . Otherwise , C << 0 >> is removed either once the resource is deleted , or if the resource didn ' t exist in the first place .
Parameters ;
= head3 server_name ( required )
This is the name of the resource to delete .
= cut
sub delete_server
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->delete_server()" } } ) ;
my $ server_name = defined $ parameter - > { server_name } ? $ parameter - > { server_name } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
server_name = > $ server_name ,
} } ) ;
if ( not $ server_name )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "log_0020" , variables = > { method = > "Cluster->delete_server()" , parameter = > "server_name" } } ) ;
return ( '!!error!!' ) ;
}
my $ problem = $ anvil - > Cluster - > parse_cib ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
if ( $ problem )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0224" , variables = > { server_name = > $ server_name } } ) ;
return ( '!!error!!' ) ;
}
# Is this node fully in the cluster?
if ( not $ anvil - > data - > { cib } { parsed } { 'local' } { ready } )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0225" , variables = > { server_name = > $ server_name } } ) ;
return ( '!!error!!' ) ;
}
# Does the server exist in the config?
if ( not exists $ anvil - > data - > { cib } { parsed } { data } { server } { $ server_name } )
{
# The server is already gone.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0149" , variables = > { server_name = > $ server_name } } ) ;
return ( 0 ) ;
}
# Is the server running? If so, stop it first.
my $ status = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server_name } { status } ;
my $ host = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server_name } { host_name } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
status = > $ status ,
host = > $ host ,
} } ) ;
# Stop the server
if ( $ status eq "running" )
{
my $ problem = $ anvil - > Cluster - > shutdown_server ( {
server = > $ server_name ,
'wait' = > 1 ,
} ) ;
if ( $ problem )
{
# Failed to stop.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > 'err' , key = > "error_0223" , variables = > { server_name = > $ server_name } } ) ;
return ( '!!error!!' ) ;
}
}
# Now delete the resource. Any constraints will be deleted automatically.
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > $ debug , shell_call = > $ anvil - > data - > { path } { exe } { pcs } . " resource delete " . $ server_name } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
if ( not $ return_code )
{
# Success!
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , key = > "log_0587" , variables = > { server_name = > $ server_name } } ) ;
return ( 0 ) ;
}
else
{
# Unexpected return code.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > 'err' , key = > "error_0226" , variables = > {
server_name = > $ server_name ,
return_code = > $ return_code ,
output = > $ output ,
} } ) ;
return ( '!!error!!' ) ;
}
return ( 0 ) ;
}
= head2 get_fence_methods
This takes a host UUID , looks up which Anvil ! it belongs to , and then load and parses the recorded CIB , if possible . If one is found for the Anvil ! , it parses the fence methods and stores them in a hash .
If the target host is not in an Anvil ! , or there is no CIB recorded for the Anvi ! , C << 1 >> is returned .
B << Note >> : There is usually only one method , but if there are two or more , they must all be confirmed off before the fence action can be considered successful .
* fence_method:: <short_host_name> :: order:: <X> :: method:: <method> :: command
Parameters ;
= head3 host_uuid ( Optional , default Get - > host_uuid )
This is the host whose fence methods we ' re looking for .
= cut
sub get_fence_methods
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->get_fence_methods()" } } ) ;
my $ host_uuid = defined $ parameter - > { host_uuid } ? $ parameter - > { host_uuid } : $ anvil - > Get - > host_uuid ;
my $ host_name = $ anvil - > Get - > host_name_from_uuid ( { debug = > $ debug , host_uuid = > $ host_uuid } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
host_uuid = > $ host_uuid ,
host_name = > $ host_name ,
} } ) ;
my $ short_host_name = $ host_name ;
$ short_host_name =~ s/\..*$// ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { short_host_name = > $ short_host_name } } ) ;
# Find the Anvil! UUID.
my $ anvil_uuid = $ anvil - > Cluster - > get_anvil_uuid ( { host_uuid = > $ host_uuid } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { anvil_uuid = > $ anvil_uuid } } ) ;
if ( not $ anvil_uuid )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0295" , variables = > { host_name = > $ host_name } } ) ;
return ( 1 ) ;
}
# Get the Anvil! name now, for logging.
my $ anvil_name = $ anvil - > Get - > anvil_name_from_uuid ( {
debug = > $ debug ,
anvil_uuid = > $ anvil_uuid ,
} ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { anvil_name = > $ anvil_name } } ) ;
### NOTE: This probably won't work with fence methods that require multiple calls be run in parallel.
### As this is PDUs usually, and we skip them anyway, this shouldn't be an issue.
my $ query = "SELECT scan_cluster_cib FROM scan_cluster WHERE scan_cluster_anvil_uuid = " . $ anvil - > Database - > quote ( $ anvil_uuid ) . ";" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { query = > $ query } } ) ;
my $ scan_cluster_cib = $ anvil - > Database - > query ( { query = > $ query , source = > $ THIS_FILE , line = > __LINE__ } ) - > [ 0 ] - > [ 0 ] ;
$ scan_cluster_cib = "" if not defined $ scan_cluster_cib ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { scan_cluster_cib = > $ scan_cluster_cib } } ) ;
if ( not $ scan_cluster_cib )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0296" , variables = > { anvil_name = > $ anvil_name } } ) ;
return ( 1 ) ;
}
# Delete past data, if any.
if ( exists $ anvil - > data - > { fence_method } { $ short_host_name } )
{
delete $ anvil - > data - > { fence_method } { $ short_host_name } ;
}
# Reading in fence data is expensive, so we only do it as needed.
my $ update_fence_data = 1 ;
if ( ( exists $ anvil - > data - > { sys } { fence_data_updated } ) && ( $ anvil - > data - > { sys } { fence_data_updated } ) )
{
my $ age = time - $ anvil - > data - > { sys } { fence_data_updated } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { age = > $ age } } ) ;
if ( $ age < 86400 )
{
# Only refresh daily.
$ update_fence_data = 0 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { update_fence_data = > $ update_fence_data } } ) ;
}
}
if ( $ update_fence_data )
{
$ anvil - > Striker - > get_fence_data ( { debug = > ( $ debug + 1 ) } ) ;
}
# Parse out the fence methods for this host.
my $ problem = $ anvil - > Cluster - > parse_cib ( {
debug = > $ debug ,
cib = > $ scan_cluster_cib ,
} ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
if ( not $ problem )
{
# Parsed! Do we have a fence method we can trust to check the power
# state of this node?
my $ node_name = exists $ anvil - > data - > { cib } { parsed } { data } { node } { $ short_host_name } ? $ short_host_name : $ host_name ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { node_name = > $ node_name } } ) ;
foreach my $ order ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { order } } )
{
my $ method = $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { order } { $ order } { devices } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
's1:order' = > $ order ,
's2:method' = > $ method ,
} } ) ;
foreach my $ this_method ( split /,/ , $ method )
{
my $ agent = $ anvil - > data - > { cib } { parsed } { data } { stonith } { primitive_id } { $ this_method } { agent } ;
# We ignore the fake, delay method
next if $ agent eq "fence_delay" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
's1:this_method' = > $ this_method ,
's2:agent' = > $ agent ,
} } ) ;
my $ shell_call = $ agent . " " ;
foreach my $ stdin_name ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ this_method } { argument } } )
{
next if $ stdin_name =~ /pcmk_o\w+_action/ ;
my $ switch = "" ;
my $ value = $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ this_method } { argument } { $ stdin_name } { value } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
's1:stdin_name' = > $ stdin_name ,
's2:value' = > $ value ,
} } ) ;
foreach my $ this_switch ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { fence_data } { $ agent } { switch } } )
{
my $ this_name = $ anvil - > data - > { fence_data } { $ agent } { switch } { $ this_switch } { name } ;
if ( $ stdin_name eq $ this_name )
{
$ switch = $ this_switch ;
my $ dashes = ( length ( $ switch ) > 1 ) ? "--" : "-" ;
$ shell_call . = $ dashes . $ switch . " \"" . $ value . "\" " ;
last ;
}
}
if ( not $ switch )
{
if ( $ anvil - > data - > { fence_data } { $ agent } { switch } { $ stdin_name } { name } )
{
my $ dashes = ( length ( $ stdin_name ) > 1 ) ? "--" : "-" ;
$ shell_call . = $ dashes . $ stdin_name . " \"" . $ value . "\" " ;
}
}
}
$ anvil - > data - > { fence_method } { $ short_host_name } { order } { $ order } { method } { $ this_method } { command } = $ shell_call ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"fence_method::${short_host_name}::order::${order}::method::${this_method}::command" = > $ anvil - > data - > { fence_method } { $ short_host_name } { order } { $ order } { method } { $ this_method } { command } ,
} } ) ;
}
}
}
return ( 0 ) ;
}
= head2 get_anvil_name
This returns the C << anvils >> - > C << anvil_name >> for a given C << anvil_uuid >> . If no C << anvil_uuid >> is passed , a check is made to see if this host is in an Anvil ! and , if so , the Anvil ! name it ' s a member of is returned .
If not match is found , a blank string is returned .
my $ anvil_name = $ anvil - > Cluster - > get_anvil_name ( { anvil_uuid = > "2ac4dbcb-25d2-44b2-ae07-59707b0551ca" } ) ;
Parameters ;
= head3 anvil_uuid ( optional , default Cluster - > get_anvil_uuid )
This is the C << anvil_uuid >> of the Anvil ! whose name we ' re looking for .
= cut
sub get_anvil_name
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->get_anvil_name()" } } ) ;
The core logic is done!!!! Still need to finish end-points for the WebUI to hook into, but the core of M3 is complete! Many, many bugs are expected, of course. :)
* Created DRBD->check_if_syncsource() and ->check_if_synctarget() that return '1' if the target host is currently SyncSource or SyncTarget for any resource, respectively.
* Updated DRBD->update_global_common() to return the unified-format diff if any changes were made to global-common.conf.
* Created ScanCore->check_health() that returns the health score for a host. Created ->count_servers() that returns the number of servers on a host, how much RAM is used by those servers and, if available, the estimated migration time of the servers. Updated ->check_temperature() to set/clear/return the time that a host has been in a warning or critical temperature state.
* Finished ScanCore->post_scan_analysis_node()!!! It certainly has bugs, and much testing is needed, but the logic is all in place! Oh what a slog that was... It should be far more intelligent than M2 though, once flushed out and tested.
* Created Server->active_migrations() that returns '1' if any servers are in a migration on an Anvil! system. Updated ->migrate_virsh() to record how long a migration took in the "server::migration_duration" variable, which is averaged by ScanCore->count_servers() to estimate migration times.
* Updated scan-drbd to check/update the global-common.conf file's config at the end of a scan.
* Updated ScanCore itself to not scan when in maintenance mode. Also updated it to call 'anvil-safe-start' when ScanCore starts, so long as it is within ten minutes of the host booting.
Signed-off-by: Digimer <digimer@alteeve.ca>
4 years ago
my $ anvil_uuid = defined $ parameter - > { anvil_uuid } ? $ parameter - > { anvil_uuid } : $ anvil - > Cluster - > get_anvil_uuid ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
anvil_uuid = > $ anvil_uuid ,
} } ) ;
my $ anvil_name = "" ;
if ( not $ anvil_uuid )
{
$ anvil_uuid = $ anvil - > Cluster - > get_anvil_uuid ( { debug = > $ debug } ) ;
}
if ( not $ anvil_uuid )
{
return ( $ anvil_name ) ;
}
# Load the Anvil! data.
$ anvil - > Database - > get_anvils ( { debug = > $ debug } ) ;
if ( exists $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } )
{
$ anvil_name = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_name } ;
}
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { anvil_name = > $ anvil_name } } ) ;
return ( $ anvil_name ) ;
}
= head2 get_anvil_uuid
This returns the C << anvils >> - > C << anvil_uuid >> that a host belongs to . If the host is not found in any Anvil ! , an empty string is returned .
Optionally , this method can be passed an C << anvil_name >> . If so , the name is used to find the UUID .
Parameters ;
= head3 anvil_name ( optional )
If set , this is used to look up the Anvil ! UUID .
= head3 host_uuid ( optional , default Get - > host_uuid )
This is the C << host_uuid >> of the host who we ' re looking for Anvil ! membership of .
= cut
sub get_anvil_uuid
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->get_anvil_uuid()" } } ) ;
my $ anvil_name = defined $ parameter - > { anvil_name } ? $ parameter - > { anvil_name } : "" ;
my $ host_uuid = defined $ parameter - > { host_uuid } ? $ parameter - > { host_uuid } : $ anvil - > Get - > host_uuid ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
anvil_name = > $ anvil_name ,
host_uuid = > $ host_uuid ,
} } ) ;
# Load the Anvil! data.
$ anvil - > Database - > get_anvils ( { debug = > $ debug } ) ;
if ( $ anvil_name )
{
# Convert to the UUID directly.
my $ anvil_uuid = "" ;
if ( exists $ anvil - > data - > { anvils } { anvil_name } { $ anvil_name } )
{
$ anvil_uuid = $ anvil - > data - > { anvils } { anvil_name } { $ anvil_name } { anvil_uuid } ;
}
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { anvil_uuid = > $ anvil_uuid } } ) ;
return ( $ anvil_uuid ) ;
}
my $ member_anvil_uuid = "" ;
foreach my $ anvil_uuid ( keys % { $ anvil - > data - > { anvils } { anvil_uuid } } )
{
my $ anvil_name = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_name } ;
my $ anvil_node1_host_uuid = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_node1_host_uuid } ;
my $ anvil_node2_host_uuid = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_node2_host_uuid } ;
my $ anvil_dr1_host_uuid = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_dr1_host_uuid } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
anvil_name = > $ anvil_name ,
anvil_node1_host_uuid = > $ anvil_node1_host_uuid ,
anvil_node2_host_uuid = > $ anvil_node2_host_uuid ,
anvil_dr1_host_uuid = > $ anvil_dr1_host_uuid ,
} } ) ;
if ( ( $ host_uuid eq $ anvil_node1_host_uuid ) or
( $ host_uuid eq $ anvil_node2_host_uuid ) or
( $ host_uuid eq $ anvil_dr1_host_uuid ) )
{
# Found ot!
$ member_anvil_uuid = $ anvil_uuid ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { member_anvil_uuid = > $ member_anvil_uuid } } ) ;
last ;
}
}
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { member_anvil_uuid = > $ member_anvil_uuid } } ) ;
return ( $ member_anvil_uuid ) ;
}
= head2 get_peers
This method uses the local machine 's host UUID and finds the host names of the cluster memebers. If this host is in a cluster and it is a node, the peer' s short host name is returned . Otherwise , an empty string is returned .
The data is stored as ;
sys::anvil::node1:: host_uuid
sys::anvil::node1:: host_name
sys::anvil::node2:: host_uuid
sys::anvil::node2:: host_name
sys::anvil::dr1:: host_uuid
sys::anvil::dr1:: host_name
To assist with lookup , the following are also set ;
sys::anvil:: i_am = { node1 , node2 , dr1 }
sys::anvil:: peer_is = { node1 , node2 } # Not set if this host is 'dr1'
This method takes no parameters .
= cut
sub get_peers
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->get_peers()" } } ) ;
$ anvil - > data - > { sys } { anvil } { node1 } { host_uuid } = "" ;
$ anvil - > data - > { sys } { anvil } { node1 } { host_name } = "" ;
$ anvil - > data - > { sys } { anvil } { node2 } { host_uuid } = "" ;
$ anvil - > data - > { sys } { anvil } { node2 } { host_name } = "" ;
$ anvil - > data - > { sys } { anvil } { dr1 } { host_uuid } = "" ;
$ anvil - > data - > { sys } { anvil } { dr1 } { host_name } = "" ;
$ anvil - > data - > { sys } { anvil } { i_am } = "" ;
$ anvil - > data - > { sys } { anvil } { peer_is } = "" ;
# Load hosts and anvils
$ anvil - > Database - > get_hosts ( { debug = > $ debug } ) ;
$ anvil - > Database - > get_anvils ( { debug = > $ debug } ) ;
# Is ths host in an anvil?
my $ host_uuid = $ anvil - > Get - > host_uuid ( { debug = > $ debug } ) ;
my $ in_anvil = "" ;
my $ found = 0 ;
my $ peer = "" ;
foreach my $ anvil_uuid ( keys % { $ anvil - > data - > { anvils } { anvil_uuid } } )
{
my $ anvil_node1_host_uuid = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_node1_host_uuid } ;
my $ anvil_node2_host_uuid = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_node2_host_uuid } ;
my $ anvil_dr1_host_uuid = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_dr1_host_uuid } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
anvil_node1_host_uuid = > $ anvil_node1_host_uuid ,
anvil_node2_host_uuid = > $ anvil_node2_host_uuid ,
anvil_dr1_host_uuid = > $ anvil_dr1_host_uuid ,
} } ) ;
if ( $ host_uuid eq $ anvil_node1_host_uuid )
{
# Found our Anvil!, and we're node 1.
$ found = 1 ;
$ anvil - > data - > { sys } { anvil } { i_am } = "node1" ;
$ anvil - > data - > { sys } { anvil } { peer_is } = "node2" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
found = > $ found ,
"sys::anvil::i_am" = > $ anvil - > data - > { sys } { anvil } { i_am } ,
"sys::anvil::peer_is" = > $ anvil - > data - > { sys } { anvil } { peer_is } ,
} } ) ;
}
elsif ( $ host_uuid eq $ anvil_node2_host_uuid )
{
# Found our Anvil!, and we're node 1.
$ found = 1 ;
$ anvil - > data - > { sys } { anvil } { i_am } = "node2" ;
$ anvil - > data - > { sys } { anvil } { peer_is } = "node1" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
found = > $ found ,
"sys::anvil::i_am" = > $ anvil - > data - > { sys } { anvil } { i_am } ,
"sys::anvil::peer_is" = > $ anvil - > data - > { sys } { anvil } { peer_is } ,
} } ) ;
}
elsif ( $ host_uuid eq $ anvil_dr1_host_uuid )
{
# Found our Anvil!, and we're node 1.
$ found = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { found = > $ found } } ) ;
}
if ( $ found )
{
$ anvil - > data - > { sys } { anvil } { node1 } { host_uuid } = $ anvil_node1_host_uuid ;
$ anvil - > data - > { sys } { anvil } { node1 } { host_name } = $ anvil - > data - > { hosts } { host_uuid } { $ anvil_node1_host_uuid } { host_name } ;
$ anvil - > data - > { sys } { anvil } { node2 } { host_uuid } = $ anvil_node2_host_uuid ;
$ anvil - > data - > { sys } { anvil } { node2 } { host_name } = $ anvil - > data - > { hosts } { host_uuid } { $ anvil_node2_host_uuid } { host_name } ;
$ anvil - > data - > { sys } { anvil } { dr1 } { host_uuid } = $ anvil_dr1_host_uuid ? $ anvil_dr1_host_uuid : "" ;
$ anvil - > data - > { sys } { anvil } { dr1 } { host_name } = $ anvil_dr1_host_uuid ? $ anvil - > data - > { hosts } { host_uuid } { $ anvil_dr1_host_uuid } { host_name } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"sys::anvil::node1::host_uuid" = > $ anvil - > data - > { sys } { anvil } { node1 } { host_uuid } ,
"sys::anvil::node1::host_name" = > $ anvil - > data - > { sys } { anvil } { node1 } { host_name } ,
"sys::anvil::node2::host_uuid" = > $ anvil - > data - > { sys } { anvil } { node2 } { host_uuid } ,
"sys::anvil::node2::host_name" = > $ anvil - > data - > { sys } { anvil } { node2 } { host_name } ,
"sys::anvil::dr1::host_uuid" = > $ anvil - > data - > { sys } { anvil } { dr1 } { host_uuid } ,
"sys::anvil::dr1::host_name" = > $ anvil - > data - > { sys } { anvil } { dr1 } { host_name } ,
} } ) ;
# If this is a node, return the peer's short host name.
if ( $ anvil - > data - > { sys } { anvil } { i_am } )
{
$ peer = $ anvil - > data - > { sys } { anvil } { i_am } eq "node1" ? $ anvil - > data - > { sys } { anvil } { node1 } { host_name } : $ anvil - > data - > { sys } { anvil } { node2 } { host_name } ;
$ peer =~ s/\..*// ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { peer = > $ peer } } ) ;
}
last ;
}
}
return ( $ peer ) ;
}
= head2 get_primary_host_uuid
This takes an Anvil ! UUID and returns with node is currently the "primary" node . That is to say , which node has the most servers running on it , by allocated RAM . For example , if node 1 has two servers , each with 8 GiB of RAN and node 2 has one VM with 32 GiB of RAM , node 2 will be considered primary as it would take longest to migrate servers off .
If all is equal , node 1 is considered primary . If only one node is a cluster member , it is considered primary . If neither node is up , an empty string is returned .
Parameters ;
= head3 anvil_uuid ( optional , default Cluster - > get_anvil_uuid )
This is the Anvil ! UUID we ' re looking for the primary node in .
= cut
sub get_primary_host_uuid
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->get_primary_host_uuid()" } } ) ;
my $ anvil_uuid = defined $ parameter - > { anvil_uuid } ? $ parameter - > { anvil_uuid } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
anvil_uuid = > $ anvil_uuid ,
} } ) ;
if ( not $ anvil_uuid )
{
my $ anvil_uuid = $ anvil - > Cluster - > get_anvil_uuid ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { anvil_uuid = > $ anvil_uuid } } ) ;
}
if ( not $ anvil_uuid )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "log_0020" , variables = > { method = > "Cluster->get_primary_host_uuid()" , parameter = > "anvil_uuid" } } ) ;
return ( "" ) ;
}
# Get the two node UUIDs.
$ anvil - > Database - > get_anvils ( { debug = > $ debug } ) ;
if ( not exists $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } )
{
# Invalid Anvil! UUID.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0169" , variables = > { anvil_uuid = > $ anvil_uuid } } ) ;
return ( "" ) ;
}
my $ node1_host_uuid = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_node1_host_uuid } ;
my $ node1_target_ip = $ anvil - > Network - > find_target_ip ( { debug = > $ debug , host_uuid = > $ node1_host_uuid } ) ;
my $ node2_host_uuid = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_node2_host_uuid } ;
my $ node2_target_ip = $ anvil - > Network - > find_target_ip ( { debug = > $ debug , host_uuid = > $ node2_host_uuid } ) ;
my $ password = $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_password } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
node1_host_uuid = > $ node1_host_uuid ,
node1_target_ip = > $ node1_target_ip ,
node2_host_uuid = > $ node2_host_uuid ,
node2_target_ip = > $ node2_target_ip ,
password = > $ anvil - > Log - > is_secure ( $ password ) ,
} } ) ;
# Are the nodes up?
my $ node1_access = $ anvil - > Remote - > test_access ( {
debug = > $ debug ,
target = > $ node1_target_ip ,
password = > $ password ,
} ) ;
my $ node2_access = $ anvil - > Remote - > test_access ( {
debug = > $ debug ,
target = > $ node2_target_ip ,
password = > $ password ,
} ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
node1_access = > $ node1_access ,
node2_access = > $ node2_access ,
} } ) ;
# Can we parse the CIB from node 1?
my $ cib_from = "" ;
if ( $ node1_access )
{
my $ problem = $ anvil - > Cluster - > parse_cib ( {
debug = > $ debug ,
target = > $ node1_target_ip ,
password = > $ password ,
} ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
if ( not $ problem )
{
$ cib_from = "node1" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { cib_from = > $ cib_from } } ) ;
}
elsif ( $ node2_access )
{
# Try to read the CIB from node 2.
my $ problem = $ anvil - > Cluster - > parse_cib ( {
debug = > $ debug ,
target = > $ node2_target_ip ,
password = > $ password ,
} ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
if ( not $ problem )
{
$ cib_from = "node2" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { cib_from = > $ cib_from } } ) ;
}
}
}
# If we failed to load the CIB, we're done.
if ( not $ cib_from )
{
return ( "" ) ;
}
# Is the node we got the CIB from fully in the cluster?
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::local::ready" = > $ anvil - > data - > { cib } { parsed } { 'local' } { ready } ,
"cib::parsed::peer::ready" = > $ anvil - > data - > { cib } { parsed } { peer } { ready } ,
} } ) ;
if ( ( $ anvil - > data - > { cib } { parsed } { 'local' } { ready } ) && ( not $ anvil - > data - > { cib } { parsed } { peer } { ready } ) )
{
# The node we got the CIB from is ready, the other node is not.
if ( $ cib_from eq "node1" )
{
# Node 1 is primary
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { node1_host_uuid = > $ node1_host_uuid } } ) ;
return ( $ node1_host_uuid ) ;
}
else
{
# Node 2 is primary
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { node2_host_uuid = > $ node2_host_uuid } } ) ;
return ( $ node2_host_uuid ) ;
}
}
elsif ( ( not $ anvil - > data - > { cib } { parsed } { 'local' } { ready } ) && ( $ anvil - > data - > { cib } { parsed } { peer } { ready } ) )
{
# Opposite; the other node is ready and the node we read from was not.
if ( $ cib_from eq "node1" )
{
# Node 2 is primary
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { node2_host_uuid = > $ node2_host_uuid } } ) ;
return ( $ node2_host_uuid ) ;
}
else
{
# Node 1 is primary
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { node1_host_uuid = > $ node1_host_uuid } } ) ;
return ( $ node1_host_uuid ) ;
}
}
# Still alive? Both nodes are in the cluster. Start counting RAM allocated to servers.
my $ node1_ram_in_use_by_servers = 0 ;
my $ node2_ram_in_use_by_servers = 0 ;
# Loop through servers.
foreach my $ server_name ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { servers } { anvil_uuid } { $ anvil_uuid } { server_name } } )
{
my $ server_uuid = $ anvil - > data - > { servers } { anvil_uuid } { $ anvil_uuid } { server_name } { $ server_name } { server_uuid } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
server_name = > $ server_name ,
server_uuid = > $ server_uuid ,
} } ) ;
my $ server_host_uuid = $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_host_uuid } ;
my $ server_state = $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_state } ;
my $ server_ram_in_use = $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_ram_in_use } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
server_host_uuid = > $ server_host_uuid ,
server_state = > $ server_state ,
server_ram_in_use = > $ server_ram_in_use . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ server_ram_in_use } ) . ")"
} } ) ;
next if $ server_state ne "running" ;
if ( $ server_host_uuid eq $ node1_host_uuid )
{
$ node1_ram_in_use_by_servers += $ server_ram_in_use ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
node1_ram_in_use_by_servers = > $ node1_ram_in_use_by_servers . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ node1_ram_in_use_by_servers } ) . ")"
} } ) ;
}
elsif ( $ server_host_uuid eq $ node2_host_uuid )
{
$ node2_ram_in_use_by_servers += $ server_ram_in_use ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
node2_ram_in_use_by_servers = > $ node2_ram_in_use_by_servers . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ node2_ram_in_use_by_servers } ) . ")"
} } ) ;
}
}
# if we're node 1 and have equal RAM, or we have more RAM, we're primary.
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
node1_ram_in_use_by_servers = > $ node1_ram_in_use_by_servers . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ node1_ram_in_use_by_servers } ) . ")" ,
node2_ram_in_use_by_servers = > $ node2_ram_in_use_by_servers . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ node2_ram_in_use_by_servers } ) . ")" ,
} } ) ;
if ( ( $ node1_ram_in_use_by_servers == $ node2_ram_in_use_by_servers ) or
( $ node1_ram_in_use_by_servers > $ node2_ram_in_use_by_servers ) )
{
# Matching RAM, node 1 wins, or node 1 has more RAM.
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { node1_host_uuid = > $ node1_host_uuid } } ) ;
return ( $ node1_host_uuid ) ;
}
else
{
# Node 2 has more RAM in use, it's primary
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { node2_host_uuid = > $ node2_host_uuid } } ) ;
return ( $ node2_host_uuid ) ;
}
# This should never be hit
return ( "" ) ;
}
= head2 is_primary
This methid returns C << 1 >> if the caller is the "primary" node in the cluster , C << 0 >> in all other cases .
"Primary" , in this context , means ;
" The node that is running the servers .
" If both nodes are running servers, then the node with the most active RAM (summed from the RAM allocated to running servers) is deemed " primary " ( would take the longest to migrate servers off ) .
" If both nodes have no servers , or the amount of RAM allocated to running servers is the same , node 1 is deemed primary .
" If only one node is up , it is deemed primary .
This method takes no parameters .
= cut
sub is_primary
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->is_primary()" } } ) ;
my $ host_uuid = $ anvil - > Get - > host_uuid ( { debug = > $ debug } ) ;
my $ host_type = $ anvil - > Get - > host_type ( { debug = > $ debug } ) ;
my $ anvil_uuid = $ anvil - > Cluster - > get_anvil_uuid ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
host_uuid = > $ host_uuid ,
host_type = > $ host_type ,
anvil_uuid = > $ anvil_uuid ,
} } ) ;
if ( $ host_type ne "node" )
{
# Not a node? not primary.
return ( 0 ) ;
}
if ( not $ anvil_uuid )
{
# Not an Anvil! member, so, ya...
return ( 0 ) ;
}
# Are we in the cluster? If not, we're not primary.
my $ problem = $ anvil - > Cluster - > parse_cib ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
if ( $ problem )
{
# Nope.
return ( 0 ) ;
}
# Is this node fully in the cluster?
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::local::ready" = > $ anvil - > data - > { cib } { parsed } { 'local' } { ready } ,
} } ) ;
if ( not $ anvil - > data - > { cib } { parsed } { 'local' } { ready } )
{
# Nope.
return ( 0 ) ;
}
# Still alive? Excellent! What state is our peer in?
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::peer::ready" = > $ anvil - > data - > { cib } { parsed } { peer } { ready } ,
} } ) ;
if ( not $ anvil - > data - > { cib } { parsed } { peer } { ready } )
{
# Our peer is not ready, so we're primary
return ( 1 ) ;
}
# If we're alive, both we and our peer is online. Who is primary?
$ anvil - > Cluster - > get_peers ( ) ;
my $ peer_is = $ anvil - > data - > { sys } { anvil } { peer_is } ;
my $ my_host_uuid = $ anvil - > Get - > host_uuid ;
my $ peer_host_uuid = $ peer_is eq "node2" ? $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_node2_host_uuid } : $ anvil - > data - > { anvils } { anvil_uuid } { $ anvil_uuid } { anvil_node1_host_uuid } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
peer_is = > $ peer_is ,
my_host_uuid = > $ my_host_uuid ,
peer_host_uuid = > $ peer_host_uuid ,
} } ) ;
my $ my_ram_in_use_by_servers = 0 ;
my $ peer_ram_in_use_by_servers = 0 ;
# Loop through servers.
foreach my $ server_name ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { servers } { anvil_uuid } { $ anvil_uuid } { server_name } } )
{
my $ server_uuid = $ anvil - > data - > { servers } { anvil_uuid } { $ anvil_uuid } { server_name } { $ server_name } { server_uuid } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
server_name = > $ server_name ,
server_uuid = > $ server_uuid ,
} } ) ;
my $ server_host_uuid = $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_host_uuid } ;
my $ server_state = $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_state } ;
my $ server_ram_in_use = $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_ram_in_use } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
server_host_uuid = > $ server_host_uuid ,
server_state = > $ server_state ,
server_ram_in_use = > $ server_ram_in_use . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ server_ram_in_use } ) . ")"
} } ) ;
next if $ server_state ne "running" ;
if ( $ server_host_uuid eq $ my_host_uuid )
{
$ my_ram_in_use_by_servers += $ server_ram_in_use ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
my_ram_in_use_by_servers = > $ my_ram_in_use_by_servers . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ my_ram_in_use_by_servers } ) . ")"
} } ) ;
}
elsif ( $ server_host_uuid eq $ peer_host_uuid )
{
$ peer_ram_in_use_by_servers += $ server_ram_in_use ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
peer_ram_in_use_by_servers = > $ peer_ram_in_use_by_servers . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ peer_ram_in_use_by_servers } ) . ")"
} } ) ;
}
}
# if we're node 1 and have equal RAM, or we have more RAM, we're primary.
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
my_ram_in_use_by_servers = > $ my_ram_in_use_by_servers . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ my_ram_in_use_by_servers } ) . ")" ,
peer_ram_in_use_by_servers = > $ peer_ram_in_use_by_servers . " (" . $ anvil - > Convert - > bytes_to_human_readable ( { 'bytes' = > $ peer_ram_in_use_by_servers } ) . ")" ,
} } ) ;
if ( ( $ my_ram_in_use_by_servers == $ peer_ram_in_use_by_servers ) && ( $ peer_is eq "node2" ) )
{
# Matching RAM and we're node 1, so we're primary.
return ( 1 ) ;
}
elsif ( $ my_ram_in_use_by_servers > $ peer_ram_in_use_by_servers )
{
# More RAM allocated to us than our peer, we're primary.
return ( 1 ) ;
}
# Any other condition, and we're not primary.
return ( 0 ) ;
}
= head2 manage_fence_delay
This method checks or sets the fence delay that controls which node survives in a network split . Generally , this is the node hosting servers , as ScanCore ' s C << scan - cluster >> should set this based on where the servers are runn .
If C << set >> is given an invalid host name , or if this is called on a node that is not a cluster member , C << ! ! error ! ! >> is returned . Otherwise , the node with the delay favouring it is returned . If , somehow , neither node has a delay , then an empty string is returned .
B << Note >> : This must run on a node in a cluster .
Parameters ;
= head3 prefer ( optional )
If this is set to a node name , that node will have the fence delay set to favour it . Specifically , the first fence method on this node has the C << delay = "15" >> argument added to it . If a delay is found on any other method , it is removed .
= cut
sub manage_fence_delay
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->manage_fence_delay()" } } ) ;
my $ prefer = defined $ parameter - > { prefer } ? $ parameter - > { prefer } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
prefer = > $ prefer ,
} } ) ;
# Are we a node?
my $ host_type = $ anvil - > Get - > host_type ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { host_type = > $ host_type } } ) ;
if ( $ host_type ne "node" )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "alert" , key = > "warning_0123" } ) ;
return ( "!!error!!" ) ;
}
# Are we in the cluster?
my $ problem = $ anvil - > Cluster - > parse_cib ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
if ( $ problem )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "alert" , key = > "warning_0124" } ) ;
return ( '!!error!!' ) ;
}
# Are we a full member?
if ( not $ anvil - > data - > { cib } { parsed } { 'local' } { ready } )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "alert" , key = > "warning_0125" } ) ;
return ( '!!error!!' ) ;
}
# Now look for stonith info.
foreach my $ node_name ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { data } { node } } )
{
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { node_name = > $ node_name } } ) ;
foreach my $ order ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { order } } )
{
my $ method = $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { order } { $ order } { devices } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
's1:order' = > $ order ,
's2:method' = > $ method ,
} } ) ;
foreach my $ this_method ( split /,/ , $ method )
{
my $ agent = $ anvil - > data - > { cib } { parsed } { data } { stonith } { primitive_id } { $ this_method } { agent } ;
# We ignore the fake, delay method
next if $ agent eq "fence_delay" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
's1:this_method' = > $ this_method ,
's2:agent' = > $ agent ,
} } ) ;
my $ config_line = $ agent . " " ;
foreach my $ stdin_name ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ this_method } { argument } } )
{
next if $ stdin_name =~ /pcmk_o\w+_action/ ;
my $ value = $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ this_method } { argument } { $ stdin_name } { value } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
's1:stdin_name' = > $ stdin_name ,
's2:value' = > $ value ,
} } ) ;
$ config_line . = $ stdin_name . "=\"" . $ value . "\" " ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { config_line = > $ config_line } } ) ;
}
$ anvil - > data - > { fence_method } { $ node_name } { order } { $ order } { method } { $ this_method } { command } = $ config_line ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"fence_method::${node_name}::order::${order}::method::${this_method}::command" = > $ anvil - > data - > { fence_method } { $ node_name } { order } { $ order } { method } { $ this_method } { command } ,
} } ) ;
}
}
}
my $ preferred_node = "" ;
foreach my $ node_name ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { fence_method } } )
{
# There's only one, no reason to sort
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { node_name = > $ node_name } } ) ;
foreach my $ method ( keys % { $ anvil - > data - > { fence_method } { $ node_name } { order } { 1 } { method } } )
{
my $ config_line = $ anvil - > data - > { fence_method } { $ node_name } { order } { 1 } { method } { $ method } { command } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
's1:method' = > $ method ,
's2:config_line' = > $ config_line ,
} } ) ;
if ( $ config_line =~ / delay="(\d+)"/ )
{
# If we're being asked to set a preferred node, and this isn't it, remove it.
if ( ( $ prefer ) && ( $ prefer ne $ node_name ) )
{
# Remove it.
$ config_line =~ s/ delay=".*?"// ;
my $ shell_call = $ anvil - > data - > { path } { exe } { pcs } . " stonith update " . $ method . " " . $ config_line ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { shell_call = > $ shell_call } } ) ;
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > ( $ debug + 1 ) , shell_call = > $ shell_call } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
# Make sure we're not the preferred host anymore.
$ preferred_node = $ anvil - > Cluster - > manage_fence_delay ( { debug = > $ debug } ) ; ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { preferred_node = > $ preferred_node } } ) ;
if ( ( $ preferred_node ne "!!error!!" ) && ( $ preferred_node ne $ node_name ) )
{
# Success! Register an alert.
my $ variables = {
node = > $ node_name ,
} ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , key = > "message_0253" , variables = > $ variables } ) ;
$ anvil - > Alert - > register ( { alert_level = > "notice" , message = > "message_0253" , variables = > $ variables , set_by = > $ THIS_FILE } ) ;
}
else
{
# What?!
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0310" , variables = > {
node = > $ node_name ,
current = > $ preferred_node ,
} } ) ;
return ( "!!error!!" )
}
}
else
{
$ preferred_node = $ node_name ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { preferred_node = > $ preferred_node } } ) ;
}
}
else
{
# If 'prefer' is set, and this is the node, add it.
if ( ( $ prefer ) && ( $ prefer eq $ node_name ) )
{
$ config_line . = " delay=\"15\"" ;
my $ shell_call = $ anvil - > data - > { path } { exe } { pcs } . " stonith update " . $ method . " " . $ config_line ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { shell_call = > $ shell_call } } ) ;
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > ( $ debug + 1 ) , shell_call = > $ shell_call } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
# Verify that this is now the prferred host.
$ preferred_node = $ anvil - > Cluster - > manage_fence_delay ( { debug = > $ debug } ) ; ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { preferred_node = > $ preferred_node } } ) ;
if ( $ prefer eq $ preferred_node )
{
# Success! Register an alert.
my $ variables = {
node = > $ node_name ,
} ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , key = > "message_0254" , variables = > $ variables } ) ;
$ anvil - > Alert - > register ( { alert_level = > "notice" , message = > "message_0254" , variables = > $ variables , set_by = > $ THIS_FILE } ) ;
return ( $ prefer ) ;
}
else
{
# What?!
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0309" , variables = > {
prefer = > $ prefer ,
current = > $ preferred_node ,
} } ) ;
return ( "!!error!!" )
}
}
}
}
}
return ( $ preferred_node ) ;
}
= head2 migrate_server
This manipulates pacemaker ' s location constraints to trigger a pacemaker - controlled migration of one or more servers .
This method works by confirming that the server is running and it not on the target C << node >> . If the server is server indeed needs to be migrated , a location constraint is set to give preference to the target node . Optionally , this method can wait until the migration is complete .
B << Note >> : This method does not make the actual C << virsh >> call ! To perform a migration B << OUTSIDE >> pacemaker , use C << Server - > migrate_virsh ( ) >> .
Parameters ;
= head3 server ( required )
This is the server to migrate .
= head3 node ( required )
This is the name of the node to move the server to .
= head3 wait ( optional , default '1' )
This controls whether the method waits for the server to shut down before returning . By default , it will go into a loop and check every 2 seconds to see if the server is still running . Once it ' s found to be off , the method returns . If this is set to C << 0 >> , the method will return as soon as the request to shut down the server is issued .
= cut
sub migrate_server
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->migrate_server()" } } ) ;
my $ server = defined $ parameter - > { server } ? $ parameter - > { server } : "" ;
my $ node = defined $ parameter - > { node } ? $ parameter - > { node } : "" ;
my $ wait = defined $ parameter - > { 'wait' } ? $ parameter - > { 'wait' } : 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
server = > $ server ,
node = > $ node ,
'wait' = > $ wait ,
} } ) ;
if ( not $ server )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "log_0020" , variables = > { method = > "Cluster->migrate_server()" , parameter = > "server" } } ) ;
return ( "!!error!!" ) ;
}
my $ host_type = $ anvil - > Get - > host_type ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { host_type = > $ host_type } } ) ;
if ( $ host_type ne "node" )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0154" , variables = > { server = > $ server } } ) ;
return ( "!!error!!" ) ;
}
my $ problem = $ anvil - > Cluster - > parse_cib ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
if ( $ problem )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0155" , variables = > { server = > $ server } } ) ;
return ( '!!error!!' ) ;
}
# Are both nodes fully in the cluster?
if ( not $ anvil - > data - > { cib } { parsed } { 'local' } { ready } )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0156" , variables = > { server = > $ server } } ) ;
return ( '!!error!!' ) ;
}
if ( not $ anvil - > data - > { cib } { parsed } { peer } { ready } )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0157" , variables = > { server = > $ server } } ) ;
return ( '!!error!!' ) ;
}
# Is the server one we know of?
if ( not exists $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } )
{
# The server isn't in the pacemaker config.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0158" , variables = > { server = > $ server } } ) ;
return ( '!!error!!' ) ;
}
# Is the server already running? If so, where?
my $ status = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { status } ;
my $ host = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { host_name } ;
my $ role = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { role } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
status = > $ status ,
host = > $ host ,
role = > $ role ,
} } ) ;
if ( ( $ status eq "off" ) or ( $ status eq "stopped" ) )
{
# It's not running on either node, nothing to do.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , key = > "warning_0061" , variables = > {
server = > $ server ,
requested_node = > $ node ,
} } ) ;
return ( 0 ) ;
}
elsif ( ( $ status eq "running" ) && ( $ host eq $ node ) )
{
# Already running on the target.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0549" , variables = > {
server = > $ server ,
requested_node = > $ node ,
} } ) ;
return ( 0 ) ;
}
elsif ( lc ( $ role ) eq "stopping" )
{
# It's stopping, don't migrate.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , key = > "warning_0064" , variables = > {
server = > $ server ,
requested_node = > $ node ,
} } ) ;
return ( '!!error!!' ) ;
}
elsif ( lc ( $ role ) eq "migating" )
{
# It's stopping, don't migrate.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , key = > "warning_0065" , variables = > {
server = > $ server ,
requested_node = > $ node ,
} } ) ;
return ( '!!error!!' ) ;
}
elsif ( $ status ne "running" )
{
# The server is in an unknown state.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , key = > "warning_0061" , variables = > {
server = > $ server ,
current_host = > $ host ,
current_state = > $ status ,
} } ) ;
return ( '!!error!!' ) ;
}
### NOTE: A server's state is set in Server->migrate_virsh(), so we don't need to do it here.
# change the constraint to trigger the move.
if ( $ node )
{
$ anvil - > Cluster - > _set_server_constraint ( {
server = > $ server ,
preferred_node = > $ node ,
} ) ;
}
if ( not $ wait )
{
# We'll leave it to the scan-server scan agent to clear the migration flag from the database.
return ( 0 ) ;
}
# Wait now for the server to start.
my $ waiting = 1 ;
while ( $ waiting )
{
$ anvil - > Cluster - > parse_cib ( { debug = > $ debug } ) ;
my $ status = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { status } ;
my $ host_name = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { host_name } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
status = > $ status ,
host_name = > $ host_name ,
} } ) ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0550" , variables = > {
server = > $ server ,
requested_node = > $ node ,
} } ) ;
if ( ( $ status eq "running" ) && ( $ host_name eq $ node ) )
{
# It's done.
$ waiting = 0 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , key = > "log_0551" , variables = > {
server = > $ server ,
requested_node = > $ node ,
} } ) ;
}
else
{
# Wait a bit and check again.
sleep 2 ;
}
}
return ( 0 ) ;
}
= head2 parse_cib
This reads in the CIB XML and parses it from a local or remote system . On success , it returns C << 0 >> . On failure ( ie: pcsd isn ' t running ) , returns C << 1 >> .
If you call this against a remote machine , the data will be loaded the same as if it had been run locally . As such , if this is used from a Striker , be mindful of if it was called on Node 1 or 2 .
Parameters ;
= head3 cib ( optional )
B << Note >> : Generally this should not be used .
By default , the CIB is read by calling C << pcs cluster cib >> . However , this parameter can be used to pass in a CIB instead . If this is set , the live CIB is B << NOT >> read .
= head3 password ( optional )
This is the password to use when connecting to a remote machine . If not set , but C << target >> is , an attempt to connect without a password will be made .
= head3 port ( optional )
This is the TCP port to use when connecting to a remote machine . If not set , but C << target >> is , C << 22 >> will be used .
= head3 remote_user ( optional , default root )
If C << target >> is set , this will be the user we connect to the remote machine as .
= head3 target ( optional )
This is the IP or host name of the machine to read the version of . If this is not set , the local system ' s version is checked .
= cut
sub parse_cib
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->parse_cib()" } } ) ;
my $ cib = defined $ parameter - > { cib } ? $ parameter - > { cib } : "" ;
my $ password = defined $ parameter - > { password } ? $ parameter - > { password } : "" ;
my $ port = defined $ parameter - > { port } ? $ parameter - > { port } : "" ;
my $ remote_user = defined $ parameter - > { remote_user } ? $ parameter - > { remote_user } : "root" ;
my $ target = defined $ parameter - > { target } ? $ parameter - > { target } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
cib = > $ cib ,
password = > $ anvil - > Log - > is_secure ( $ password ) ,
port = > $ port ,
remote_user = > $ remote_user ,
target = > $ target ,
} } ) ;
# If we parsed before, delete it.
if ( exists $ anvil - > data - > { cib } { parsed } )
{
delete $ anvil - > data - > { cib } { parsed } ;
}
# This stores select data we've pulled out that's meant to be easier to find.
if ( exists $ anvil - > data - > { cib } { data } )
{
delete $ anvil - > data - > { cib } { data } ;
}
my $ problem = 1 ;
my $ cib_data = "" ;
my $ return_code = 0 ;
if ( $ cib )
{
$ cib_data = $ cib ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { cib_data = > $ cib_data } } ) ;
}
else
{
my $ shell_call = $ anvil - > data - > { path } { exe } { pcs } . " cluster cib" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { shell_call = > $ shell_call } } ) ;
if ( $ anvil - > Network - > is_local ( { host = > $ target } ) )
{
# Local call
( $ cib_data , $ return_code ) = $ anvil - > System - > call ( { debug = > ( $ debug + 1 ) , shell_call = > $ shell_call } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
cib_data = > $ cib_data ,
return_code = > $ return_code ,
} } ) ;
}
else
{
# Remote call.
( $ cib_data , my $ error , $ return_code ) = $ anvil - > Remote - > call ( {
debug = > ( $ debug + 1 ) ,
shell_call = > $ shell_call ,
target = > $ target ,
port = > $ port ,
password = > $ password ,
remote_user = > $ remote_user ,
} ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
error = > $ error ,
cib_data = > $ cib_data ,
return_code = > $ return_code ,
} } ) ;
}
}
if ( $ return_code )
{
# Failed to read the CIB.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "warning_0052" } ) ;
}
else
{
local $@ ;
my $ dom = eval { XML::LibXML - > load_xml ( string = > $ cib_data ) ; } ;
if ( $@ )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "warning_0053" , variables = > {
cib = > $ cib_data ,
error = > $@ ,
} } ) ;
}
else
{
### NOTE: Full CIB details;
### - https://clusterlabs.org/pacemaker/doc/en-US/Pacemaker/2.0/html-single/Pacemaker_Explained/index.html
# Successful parse!
$ problem = 0 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
foreach my $ nvpair ( $ dom - > findnodes ( '/cib/configuration/crm_config/cluster_property_set/nvpair' ) )
{
my $ nvpair_id = $ nvpair - > { id } ;
foreach my $ variable ( sort { $ a cmp $ b } keys % { $ nvpair } )
{
next if $ variable eq "id" ;
$ anvil - > data - > { cib } { parsed } { configuration } { crm_config } { cluster_property_set } { nvpair } { $ nvpair_id } { $ variable } = $ nvpair - > { $ variable } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::configuration::crm_config::cluster_property_set::nvpair::${nvpair_id}::${variable}" = > $ anvil - > data - > { cib } { parsed } { configuration } { crm_config } { cluster_property_set } { nvpair } { $ nvpair_id } { $ variable } ,
} } ) ;
}
}
foreach my $ node ( $ dom - > findnodes ( '/cib/configuration/nodes/node' ) )
{
my $ node_id = $ node - > { id } ;
foreach my $ variable ( sort { $ a cmp $ b } keys % { $ node } )
{
next if $ variable eq "id" ;
$ anvil - > data - > { cib } { parsed } { configuration } { nodes } { $ node_id } { $ variable } = $ node - > { $ variable } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::configuration::nodes::${node_id}::${variable}" = > $ anvil - > data - > { cib } { parsed } { configuration } { nodes } { $ node_id } { $ variable } ,
} } ) ;
if ( $ variable eq "uname" )
{
my $ node = $ node - > { $ variable } ;
$ anvil - > data - > { cib } { parsed } { data } { node } { $ node } { id } = $ node_id ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::node::${node}::id" = > $ anvil - > data - > { cib } { parsed } { data } { node } { $ node } { id } ,
} } ) ;
# Preload state values (in case they're not read in this CIB.
$ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ node_id } { in_ccm } = "false" ;
$ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ node_id } { crmd } = "offline" ;
$ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ node_id } { 'join' } = "down" ;
$ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ node_id } { 'maintenance-mode' } = "off" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::cib::node_state::${node_id}::in_ccm" = > $ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ node_id } { in_ccm } ,
"cib::parsed::cib::node_state::${node_id}::crmd" = > $ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ node_id } { crmd } ,
"cib::parsed::cib::node_state::${node_id}::join" = > $ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ node_id } { 'join' } ,
"cib::parsed::cib::node_state::${node_id}::maintenance-mode" = > $ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ node_id } { 'maintenance-mode' } ,
} } ) ;
}
}
foreach my $ instance_attributes ( $ node - > findnodes ( './instance_attributes' ) )
{
my $ instance_attributes_id = $ instance_attributes - > { id } ;
foreach my $ nvpair ( $ instance_attributes - > findnodes ( './nvpair' ) )
{
my $ id = $ nvpair - > { id } ;
my $ name = $ nvpair - > { name } ;
my $ value = $ nvpair - > { value } ;
$ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ node_id } { $ name } = $ value ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::cib::node_state::${node_id}::${name}" = > $ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ node_id } { $ name } ,
} } ) ;
}
}
}
foreach my $ clone ( $ dom - > findnodes ( '/cib/configuration/resources/clone' ) )
{
my $ clone_id = $ clone - > { id } ;
foreach my $ primitive ( $ clone - > findnodes ( './primitive' ) )
{
my $ primitive_id = $ primitive - > { id } ;
$ anvil - > data - > { cib } { parsed } { cib } { resources } { clone } { $ clone_id } { primitive } { $ primitive_id } { class } = $ primitive - > { class } ;
$ anvil - > data - > { cib } { parsed } { cib } { resources } { clone } { $ clone_id } { primitive } { $ primitive_id } { type } = $ primitive - > { type } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::cib::resources::clone::${clone_id}::primitive::${primitive_id}::class" = > $ anvil - > data - > { cib } { parsed } { cib } { resources } { clone } { $ clone_id } { primitive } { $ primitive_id } { class } ,
"cib::parsed::cib::resources::clone::${clone_id}::primitive::${primitive_id}::type" = > $ anvil - > data - > { cib } { parsed } { cib } { resources } { clone } { $ clone_id } { primitive } { $ primitive_id } { type } ,
} } ) ;
foreach my $ op ( $ primitive - > findnodes ( './operations/op' ) )
{
my $ op_id = $ op - > { id } ;
foreach my $ variable ( sort { $ a cmp $ b } keys % { $ op } )
{
next if $ variable eq "id" ;
$ anvil - > data - > { cib } { parsed } { cib } { resources } { clone } { $ clone_id } { operations } { $ op_id } { $ variable } = $ op - > { $ variable } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::cib::resources::clone::${clone_id}::operations::${op_id}::${variable}" = > $ anvil - > data - > { cib } { parsed } { cib } { resources } { clone } { $ clone_id } { operations } { $ op_id } { $ variable } ,
} } ) ;
}
}
}
foreach my $ meta_attributes ( $ clone - > findnodes ( './meta_attributes' ) )
{
my $ meta_attributes_id = $ meta_attributes - > { id } ;
foreach my $ nvpair ( $ meta_attributes - > findnodes ( './nvpair' ) )
{
my $ id = $ nvpair - > { id } ;
foreach my $ variable ( sort { $ a cmp $ b } keys % { $ nvpair } )
{
next if $ variable eq "id" ;
$ anvil - > data - > { cib } { parsed } { cib } { resources } { clone } { $ clone_id } { meta_attributes } { $ id } { $ variable } = $ nvpair - > { $ variable } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::cib::resources::clone::${clone_id}::meta_attributes::${id}::${variable}" = > $ anvil - > data - > { cib } { parsed } { cib } { resources } { clone } { $ clone_id } { meta_attributes } { $ id } { $ variable } ,
} } ) ;
}
}
}
}
foreach my $ fencing_level ( $ dom - > findnodes ( '/cib/configuration/fencing-topology/fencing-level' ) )
{
my $ id = $ fencing_level - > { id } ;
foreach my $ variable ( sort { $ a cmp $ b } keys % { $ fencing_level } )
{
next if $ variable eq "id" ;
$ anvil - > data - > { cib } { parsed } { configuration } { 'fencing-topology' } { 'fencing-level' } { $ id } { $ variable } = $ fencing_level - > { $ variable } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::configuration::fencing-topology::fencing-level::${id}::${variable}" = > $ anvil - > data - > { cib } { parsed } { configuration } { 'fencing-topology' } { 'fencing-level' } { $ id } { $ variable } ,
} } ) ;
}
}
foreach my $ constraint ( $ dom - > findnodes ( '/cib/configuration/constraints/rsc_location' ) )
{
my $ id = $ constraint - > { id } ;
$ anvil - > data - > { cib } { parsed } { configuration } { constraints } { location } { $ id } { node } = $ constraint - > { node } ;
$ anvil - > data - > { cib } { parsed } { configuration } { constraints } { location } { $ id } { resource } = $ constraint - > { rsc } ;
$ anvil - > data - > { cib } { parsed } { configuration } { constraints } { location } { $ id } { score } = $ constraint - > { score } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::configuration::constraints::location::${id}::node" = > $ anvil - > data - > { cib } { parsed } { configuration } { constraints } { location } { $ id } { node } ,
"cib::parsed::configuration::constraints::location::${id}::resource" = > $ anvil - > data - > { cib } { parsed } { configuration } { constraints } { location } { $ id } { resource } ,
"cib::parsed::configuration::constraints::location::${id}::score" = > $ anvil - > data - > { cib } { parsed } { configuration } { constraints } { location } { $ id } { score } ,
} } ) ;
}
foreach my $ node_state ( $ dom - > findnodes ( '/cib/status/node_state' ) )
{
my $ id = $ node_state - > { id } ;
foreach my $ variable ( sort { $ a cmp $ b } keys % { $ node_state } )
{
next if $ variable eq "id" ;
$ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ id } { $ variable } = $ node_state - > { $ variable } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::cib::node_state::${id}::${variable}" = > $ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ id } { $ variable } ,
} } ) ;
}
foreach my $ lrm ( $ node_state - > findnodes ( './lrm' ) )
{
my $ lrm_id = $ lrm - > { id } ;
foreach my $ lrm_resource ( $ lrm - > findnodes ( './lrm_resources/lrm_resource' ) )
{
my $ lrm_resource_id = $ lrm_resource - > { id } ;
$ anvil - > data - > { cib } { parsed } { cib } { status } { node_state } { $ id } { lrm_id } { $ lrm_id } { lrm_resource } { $ lrm_resource_id } { type } = $ lrm_resource - > { type } ;
$ anvil - > data - > { cib } { parsed } { cib } { status } { node_state } { $ id } { lrm_id } { $ lrm_id } { lrm_resource } { $ lrm_resource_id } { class } = $ lrm_resource - > { class } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::cib::status::node_state::${id}::lrm_id::${lrm_id}::lrm_resource::${lrm_resource_id}::type" = > $ anvil - > data - > { cib } { parsed } { cib } { status } { node_state } { $ id } { lrm_id } { $ lrm_id } { lrm_resource } { $ lrm_resource_id } { type } ,
"cib::parsed::cib::status::node_state::${id}::lrm_id::${lrm_id}::lrm_resource::${lrm_resource_id}::class" = > $ anvil - > data - > { cib } { parsed } { cib } { status } { node_state } { $ id } { lrm_id } { $ lrm_id } { lrm_resource } { $ lrm_resource_id } { class } ,
} } ) ;
foreach my $ lrm_rsc_op ( $ lrm_resource - > findnodes ( './lrm_rsc_op' ) )
{
my $ lrm_rsc_op_id = $ lrm_rsc_op - > { id } ;
foreach my $ variable ( sort { $ a cmp $ b } keys % { $ lrm_rsc_op } )
{
next if $ variable eq "id" ;
$ anvil - > data - > { cib } { parsed } { cib } { status } { node_state } { $ id } { lrm_id } { $ lrm_id } { lrm_resource } { $ lrm_resource_id } { lrm_rsc_op_id } { $ lrm_rsc_op_id } { $ variable } = $ lrm_rsc_op - > { $ variable } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::cib::status::node_state::${id}::lrm_id::${lrm_id}::lrm_resource::${lrm_resource_id}::lrm_rsc_op_id::${lrm_rsc_op_id}::${variable}" = > $ anvil - > data - > { cib } { parsed } { cib } { status } { node_state } { $ id } { lrm_id } { $ lrm_id } { lrm_resource } { $ lrm_resource_id } { lrm_rsc_op_id } { $ lrm_rsc_op_id } { $ variable } ,
} } ) ;
}
}
}
}
foreach my $ transient_attributes ( $ node_state - > findnodes ( './transient_attributes' ) )
{
# Currently, there seems to be no other data stored here.
my $ transient_attributes_id = $ transient_attributes - > { id } ;
foreach my $ instance_attributes ( $ transient_attributes - > findnodes ( './instance_attributes' ) )
{
$ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ id } { transient_attributes_id } { $ transient_attributes_id } { instance_attributes_id } = $ instance_attributes - > { id } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::cib::status::node_state::${id}::transient_attributes_id::${transient_attributes_id}::instance_attributes_id" = > $ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ id } { transient_attributes_id } { $ transient_attributes_id } { instance_attributes_id } ,
} } ) ;
}
}
}
foreach my $ primitive ( $ dom - > findnodes ( '/cib/configuration/resources/primitive' ) )
{
my $ id = $ primitive - > { id } ;
$ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ id } { type } = $ primitive - > { type } ;
$ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ id } { class } = $ primitive - > { class } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::cib::resources::primitive::${id}::type" = > $ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ id } { type } ,
"cib::parsed::cib::resources::primitive::${id}::class" = > $ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ id } { class } ,
} } ) ;
# If this is a stonith class, store the type as the 'agent' variable.
if ( $ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ id } { class } eq "stonith" )
{
$ anvil - > data - > { cib } { parsed } { data } { stonith } { primitive_id } { $ id } { agent } = $ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ id } { type } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::stonith::primitive_id::${id}::agent" = > $ anvil - > data - > { cib } { parsed } { data } { stonith } { primitive_id } { $ id } { agent } ,
} } ) ;
}
foreach my $ nvpair ( $ primitive - > findnodes ( './instance_attributes/nvpair' ) )
{
my $ nvpair_id = $ nvpair - > { id } ;
foreach my $ variable ( sort { $ a cmp $ b } keys % { $ nvpair } )
{
next if $ variable eq "id" ;
$ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ id } { instance_attributes } { $ nvpair_id } { $ variable } = $ nvpair - > { $ variable } ; ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::cib::resources::primitive::${id}::instance_attributes::${nvpair_id}::${variable}" = > $ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ id } { instance_attributes } { $ nvpair_id } { $ variable } ,
} } ) ;
}
}
foreach my $ nvpair ( $ primitive - > findnodes ( './operations/op' ) )
{
my $ nvpair_id = $ nvpair - > { id } ;
foreach my $ variable ( sort { $ a cmp $ b } keys % { $ nvpair } )
{
next if $ variable eq "id" ;
$ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ id } { operations } { op } { $ nvpair_id } { $ variable } = $ nvpair - > { $ variable } ; ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::cib::resources::primitive::${id}::operations::op::${nvpair_id}::${variable}" = > $ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ id } { operations } { op } { $ nvpair_id } { $ variable } ,
} } ) ;
}
}
}
foreach my $ attribute ( $ dom - > findnodes ( '/cib' ) )
{
foreach my $ variable ( sort { $ a cmp $ b } keys % { $ attribute } )
{
$ anvil - > data - > { cib } { parsed } { cib } { $ variable } = $ attribute - > { $ variable } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::cib::${variable}" = > $ anvil - > data - > { cib } { parsed } { cib } { $ variable } ,
} } ) ;
}
}
}
}
# Set some cluster value defaults.
$ anvil - > data - > { cib } { parsed } { data } { cluster } { 'maintenance-mode' } = "false" ;
foreach my $ nvpair_id ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { configuration } { crm_config } { cluster_property_set } { nvpair } } )
{
my $ variable = $ anvil - > data - > { cib } { parsed } { configuration } { crm_config } { cluster_property_set } { nvpair } { $ nvpair_id } { name } ;
my $ value = $ anvil - > data - > { cib } { parsed } { configuration } { crm_config } { cluster_property_set } { nvpair } { $ nvpair_id } { value } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
's1:nvpair_id' = > $ nvpair_id ,
's2:variable' = > $ variable ,
's3:value' = > $ value ,
} } ) ;
if ( $ variable eq "stonith-max-attempts" )
{
$ anvil - > data - > { cib } { parsed } { data } { stonith } { 'max-attempts' } = $ value ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::stonith::max-attempts" = > $ anvil - > data - > { cib } { parsed } { data } { stonith } { 'max-attempts' } ,
} } ) ;
}
if ( $ variable eq "stonith-enabled" )
{
$ anvil - > data - > { cib } { parsed } { data } { stonith } { enabled } = $ value eq "true" ? 1 : 0 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::stonith::enabled" = > $ anvil - > data - > { cib } { parsed } { data } { stonith } { enabled } ,
} } ) ;
}
if ( $ variable eq "cluster-name" )
{
$ anvil - > data - > { cib } { parsed } { data } { cluster } { name } = $ value ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::cluster::name" = > $ anvil - > data - > { cib } { parsed } { data } { cluster } { name } ,
} } ) ;
}
if ( $ variable eq "maintenance-mode" )
{
$ anvil - > data - > { cib } { parsed } { data } { cluster } { 'maintenance-mode' } = $ value ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::cluster::maintenance-mode" = > $ anvil - > data - > { cib } { parsed } { data } { cluster } { 'maintenance-mode' } ,
} } ) ;
}
}
# Pull some data out for easier access.
$ anvil - > data - > { cib } { parsed } { peer } { ready } = "" ;
$ anvil - > data - > { cib } { parsed } { peer } { name } = "" ;
foreach my $ node_name ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { data } { node } } )
{
# The "coming up" order is 'in_ccm' then 'crmd' then 'join'.
my $ node_id = $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { id } ;
my $ maintenance_mode = $ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ node_id } { 'maintenance-mode' } eq "on" ? 1 : 0 ; # 'on' or 'off' - Node is not monitoring resources
my $ in_ccm = $ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ node_id } { in_ccm } eq "true" ? 1 : 0 ; # 'true' or 'false' - Corosync member
my $ crmd = $ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ node_id } { crmd } eq "online" ? 1 : 0 ; # 'online' or 'offline' - In corosync process group
my $ join = $ anvil - > data - > { cib } { parsed } { cib } { node_state } { $ node_id } { 'join' } eq "member" ? 1 : 0 ; # 'member' or 'down' - Completed controller join process
my $ ready = ( ( $ in_ccm ) && ( $ crmd ) && ( $ join ) ) ? 1 : 0 ; # Our summary of if the node is "up"
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
's1:node_name' = > $ node_name ,
's2:node_id' = > $ node_id ,
's3:maintenance_mode' = > $ maintenance_mode ,
's4:in_ccm' = > $ in_ccm ,
's5:crmd' = > $ crmd ,
's6:join' = > $ join ,
's7:ready' = > $ ready ,
} } ) ;
# If the global maintenance mode is set, set maintenance mode to true.
if ( ( $ anvil - > data - > { cib } { parsed } { data } { cluster } { 'maintenance-mode' } ) && ( $ anvil - > data - > { cib } { parsed } { data } { cluster } { 'maintenance-mode' } eq "true" ) )
{
$ maintenance_mode = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { maintenance_mode = > $ maintenance_mode } } ) ;
}
$ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { pacemaker_id } = $ node_id ;
$ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { 'maintenance-mode' } = $ maintenance_mode ;
$ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { in_ccm } = $ in_ccm ;
$ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { crmd } = $ crmd ;
$ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { 'join' } = $ join ;
$ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { ready } = $ ready ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::node::${node_name}::node_state::pacemaker_id" = > $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { pacemaker_id } ,
"cib::parsed::data::node::${node_name}::node_state::maintenance_mode" = > $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { 'maintenance-mode' } ,
"cib::parsed::data::node::${node_name}::node_state::in_ccm" = > $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { in_ccm } ,
"cib::parsed::data::node::${node_name}::node_state::crmd" = > $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { crmd } ,
"cib::parsed::data::node::${node_name}::node_state::join" = > $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { 'join' } ,
"cib::parsed::data::node::${node_name}::node_state::ready" = > $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { node_state } { ready } ,
} } ) ;
# Is this me or the peer? Or if we're being called remotely, is the target (the short host
# name) the same?
my $ target_host_uuid = "" ;
my $ target_host_name = "" ;
my $ target_short_host_name = "" ;
if ( $ target )
{
( $ target_host_uuid , $ target_host_name ) = $ anvil - > Get - > host_from_ip_address ( {
debug = > $ debug ,
ip_address = > $ target ,
} ) ;
$ target_short_host_name = $ target_host_name ;
$ target_short_host_name =~ s/\..*$// ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
target_host_uuid = > $ target_host_uuid ,
target_host_name = > $ target_host_name ,
target_short_host_name = > $ target_short_host_name ,
} } ) ;
}
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
node_name = > $ node_name ,
target = > $ target ,
target_short_host_name = > $ target_short_host_name ,
} } ) ;
if ( ( $ node_name eq $ anvil - > Get - > host_name ) or
( $ node_name eq $ anvil - > Get - > short_host_name ) or
( ( $ target_short_host_name ) && ( $ node_name =~ /^$target_short_host_name/ ) ) )
{
# Me (or the node the CIB was read from).
$ anvil - > data - > { cib } { parsed } { 'local' } { ready } = $ node_name ;
$ anvil - > data - > { cib } { parsed } { 'local' } { name } = $ node_name ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::local::ready" = > $ anvil - > data - > { cib } { parsed } { 'local' } { ready } ,
"cib::parsed::local::name" = > $ anvil - > data - > { cib } { parsed } { 'local' } { name } ,
} } ) ;
}
else
{
# It's our peer. Note that we only get the peer's host UUID if we have a DB
# connection. This method is called by ocf:alteeve:anvil which skips the DB.
The core logic is done!!!! Still need to finish end-points for the WebUI to hook into, but the core of M3 is complete! Many, many bugs are expected, of course. :)
* Created DRBD->check_if_syncsource() and ->check_if_synctarget() that return '1' if the target host is currently SyncSource or SyncTarget for any resource, respectively.
* Updated DRBD->update_global_common() to return the unified-format diff if any changes were made to global-common.conf.
* Created ScanCore->check_health() that returns the health score for a host. Created ->count_servers() that returns the number of servers on a host, how much RAM is used by those servers and, if available, the estimated migration time of the servers. Updated ->check_temperature() to set/clear/return the time that a host has been in a warning or critical temperature state.
* Finished ScanCore->post_scan_analysis_node()!!! It certainly has bugs, and much testing is needed, but the logic is all in place! Oh what a slog that was... It should be far more intelligent than M2 though, once flushed out and tested.
* Created Server->active_migrations() that returns '1' if any servers are in a migration on an Anvil! system. Updated ->migrate_virsh() to record how long a migration took in the "server::migration_duration" variable, which is averaged by ScanCore->count_servers() to estimate migration times.
* Updated scan-drbd to check/update the global-common.conf file's config at the end of a scan.
* Updated ScanCore itself to not scan when in maintenance mode. Also updated it to call 'anvil-safe-start' when ScanCore starts, so long as it is within ten minutes of the host booting.
Signed-off-by: Digimer <digimer@alteeve.ca>
4 years ago
$ anvil - > data - > { cib } { parsed } { peer } { ready } = $ ready ;
$ anvil - > data - > { cib } { parsed } { peer } { name } = $ node_name ;
$ anvil - > data - > { cib } { parsed } { peer } { host_uuid } = $ anvil - > data - > { sys } { database } { connections } ? $ anvil - > Get - > host_uuid_from_name ( { debug = > $ debug , host_name = > $ node_name } ) : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
The core logic is done!!!! Still need to finish end-points for the WebUI to hook into, but the core of M3 is complete! Many, many bugs are expected, of course. :)
* Created DRBD->check_if_syncsource() and ->check_if_synctarget() that return '1' if the target host is currently SyncSource or SyncTarget for any resource, respectively.
* Updated DRBD->update_global_common() to return the unified-format diff if any changes were made to global-common.conf.
* Created ScanCore->check_health() that returns the health score for a host. Created ->count_servers() that returns the number of servers on a host, how much RAM is used by those servers and, if available, the estimated migration time of the servers. Updated ->check_temperature() to set/clear/return the time that a host has been in a warning or critical temperature state.
* Finished ScanCore->post_scan_analysis_node()!!! It certainly has bugs, and much testing is needed, but the logic is all in place! Oh what a slog that was... It should be far more intelligent than M2 though, once flushed out and tested.
* Created Server->active_migrations() that returns '1' if any servers are in a migration on an Anvil! system. Updated ->migrate_virsh() to record how long a migration took in the "server::migration_duration" variable, which is averaged by ScanCore->count_servers() to estimate migration times.
* Updated scan-drbd to check/update the global-common.conf file's config at the end of a scan.
* Updated ScanCore itself to not scan when in maintenance mode. Also updated it to call 'anvil-safe-start' when ScanCore starts, so long as it is within ten minutes of the host booting.
Signed-off-by: Digimer <digimer@alteeve.ca>
4 years ago
"cib::parsed::peer::ready" = > $ anvil - > data - > { cib } { parsed } { peer } { ready } ,
"cib::parsed::peer::name" = > $ anvil - > data - > { cib } { parsed } { peer } { name } ,
"cib::parsed::peer::host_uuid" = > $ anvil - > data - > { cib } { parsed } { peer } { host_uuid } ,
} } ) ;
}
}
# Fencing devices and levels.
my $ delay_set = 0 ;
foreach my $ primitive_id ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } } )
{
next if not $ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ primitive_id } { class } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { primitive_id = > $ primitive_id } } ) ;
if ( $ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ primitive_id } { class } eq "stonith" )
{
my $ variables = { } ;
my $ node_name = "" ;
foreach my $ fence_id ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ primitive_id } { instance_attributes } } )
{
my $ name = $ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ primitive_id } { instance_attributes } { $ fence_id } { name } ;
my $ value = $ anvil - > data - > { cib } { parsed } { cib } { resources } { primitive } { $ primitive_id } { instance_attributes } { $ fence_id } { value } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
's1:fence_id' = > $ fence_id ,
's2:name' = > $ name ,
's3:value' = > $ value ,
} } ) ;
if ( $ name eq "pcmk_host_list" )
{
$ node_name = $ value ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { node_name = > $ node_name } } ) ;
}
else
{
$ variables - > { $ name } = $ value ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { "variables->{$name}" = > $ variables - > { $ name } } } ) ;
}
}
if ( $ node_name )
{
my $ argument_string = "" ;
foreach my $ name ( sort { $ a cmp $ b } keys % { $ variables } )
{
$ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ primitive_id } { argument } { $ name } { value } = $ variables - > { $ name } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::node::${node_name}::fencing::device::${primitive_id}::argument::${name}::value" = > $ variables - > { $ name } ,
} } ) ;
if ( $ name eq "delay" )
{
$ delay_set = 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { delay_set = > $ delay_set } } ) ;
}
my $ value = $ variables - > { $ name } ;
$ value =~ s/"/\\"/g ;
$ argument_string . = $ name . "=\"" . $ value . "\" " ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
argument_string = > $ argument_string ,
} } ) ;
}
$ argument_string =~ s/ $// ;
$ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ primitive_id } { arguments } = $ argument_string ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::node::${node_name}::fencing::device::${primitive_id}::arguments" = > $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { device } { $ primitive_id } { arguments } ,
} } ) ;
}
}
}
$ anvil - > data - > { cib } { parsed } { data } { stonith } { delay_set } = $ delay_set ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::stonith::delay_set" = > $ anvil - > data - > { cib } { parsed } { data } { stonith } { delay_set } ,
} } ) ;
foreach my $ id ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { configuration } { 'fencing-topology' } { 'fencing-level' } } )
{
my $ node_name = $ anvil - > data - > { cib } { parsed } { configuration } { 'fencing-topology' } { 'fencing-level' } { $ id } { target } ;
my $ devices = $ anvil - > data - > { cib } { parsed } { configuration } { 'fencing-topology' } { 'fencing-level' } { $ id } { devices } ;
my $ index = $ anvil - > data - > { cib } { parsed } { configuration } { 'fencing-topology' } { 'fencing-level' } { $ id } { 'index' } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
node_name = > $ node_name ,
devices = > $ devices ,
'index' = > $ index ,
} } ) ;
$ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { order } { $ index } { devices } = $ devices ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::node::${node_name}::fencing::order::${index}::devices" = > $ anvil - > data - > { cib } { parsed } { data } { node } { $ node_name } { fencing } { order } { $ index } { devices } ,
} } ) ;
}
# Hosted server information... We can only get basic information out of the CIB, so we'll use crm_mon
# for details. We don't just rely on 'crm_mon' however, as servers that aren't running will not (yet)
# show there.
foreach my $ id ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { cib } { status } { node_state } } )
{
my $ node_name = $ anvil - > data - > { cib } { parsed } { configuration } { nodes } { $ id } { uname } ;
foreach my $ lrm_id ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { cib } { status } { node_state } { $ id } { lrm_id } } )
{
foreach my $ lrm_resource_id ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { cib } { status } { node_state } { $ id } { lrm_id } { $ lrm_id } { lrm_resource } } )
{
my $ lrm_resource_operations_count = keys % { $ anvil - > data - > { cib } { parsed } { cib } { status } { node_state } { $ id } { lrm_id } { $ lrm_id } { lrm_resource } { $ lrm_resource_id } { lrm_rsc_op_id } } ;
foreach my $ lrm_rsc_op_id ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { cib } { status } { node_state } { $ id } { lrm_id } { $ lrm_id } { lrm_resource } { $ lrm_resource_id } { lrm_rsc_op_id } } )
{
my $ type = $ anvil - > data - > { cib } { parsed } { cib } { status } { node_state } { $ id } { lrm_id } { $ lrm_id } { lrm_resource } { $ lrm_resource_id } { type } ;
my $ class = $ anvil - > data - > { cib } { parsed } { cib } { status } { node_state } { $ id } { lrm_id } { $ lrm_id } { lrm_resource } { $ lrm_resource_id } { class } ;
my $ operation = $ anvil - > data - > { cib } { parsed } { cib } { status } { node_state } { $ id } { lrm_id } { $ lrm_id } { lrm_resource } { $ lrm_resource_id } { lrm_rsc_op_id } { $ lrm_rsc_op_id } { operation } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
lrm_resource_operations_count = > $ lrm_resource_operations_count ,
type = > $ type ,
class = > $ class ,
operation = > $ operation ,
lrm_rsc_op_id = > $ lrm_rsc_op_id ,
} } ) ;
# Skip unless it's a server.
next if $ type ne "server" ;
# This will be updated below if the server is running.
if ( not exists $ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } )
{
$ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { status } = "off" ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { host_name } = "" ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { host_id } = "" ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { active } = "" ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { blocked } = "" ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { failed } = "" ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { managed } = "" ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { orphaned } = "" ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { role } = "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::server::${lrm_resource_id}::status" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { status } ,
"cib::parsed::data::server::${lrm_resource_id}::host_name" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { host_name } ,
"cib::parsed::data::server::${lrm_resource_id}::host_id" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { host_id } ,
"cib::parsed::data::server::${lrm_resource_id}::active" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { active } ,
"cib::parsed::data::server::${lrm_resource_id}::blocked" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { blocked } ,
"cib::parsed::data::server::${lrm_resource_id}::failed" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { failed } ,
"cib::parsed::data::server::${lrm_resource_id}::managed" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { managed } ,
"cib::parsed::data::server::${lrm_resource_id}::orphaned" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { orphaned } ,
"cib::parsed::data::server::${lrm_resource_id}::role" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ lrm_resource_id } { role } ,
} } ) ;
}
}
}
}
}
# Now call 'crm_mon --output-as=xml' to determine which resource are running where. As of the time
# of writing this (late 2020), stopped resources are not displayed. So the principle purpose of this
# call is to determine what resources are running, and where they are running.
$ anvil - > Cluster - > parse_crm_mon ( {
debug = > $ debug ,
password = > $ password ,
port = > $ port ,
remote_user = > $ remote_user ,
target = > $ target ,
} ) ;
foreach my $ server ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } } )
{
my $ host_name = defined $ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ server } { host } { node_name } ? $ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ server } { host } { node_name } : "" ;
my $ host_id = defined $ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ server } { host } { node_id } ? $ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ server } { host } { node_id } : "" ;
my $ role = $ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ server } { variables } { role } ;
my $ active = $ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ server } { variables } { active } eq "true" ? 1 : 0 ;
my $ blocked = $ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ server } { variables } { blocked } eq "true" ? 1 : 0 ;
my $ failed = $ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ server } { variables } { failed } eq "true" ? 1 : 0 ;
my $ managed = $ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ server } { variables } { managed } eq "true" ? 1 : 0 ;
my $ orphaned = $ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ server } { variables } { orphaned } eq "true" ? 1 : 0 ;
my $ status = lc ( $ role ) ;
if ( $ role )
{
### Known roles;
# Started
# Starting
# Migrating
# Stopping
$ status = $ active ? "running" : "off" ;
# If the role is NOT 'migrating', and we have a database connection, check to see if
# it's marked as such in the database.
if ( ( $ role ne "migrating" ) && ( $ anvil - > data - > { sys } { database } { connections } ) )
{
$ anvil - > Database - > get_servers ( { debug = > $ debug } ) ;
my $ anvil_uuid = $ anvil - > Cluster - > get_anvil_uuid ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { anvil_uuid = > $ anvil_uuid } } ) ;
my $ server_uuid = $ anvil - > Get - > server_uuid_from_name ( {
debug = > $ debug ,
server_name = > $ server ,
anvil_uuid = > $ anvil_uuid ,
} ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { server_uuid = > $ server_uuid } } ) ;
if ( ( $ server_uuid ) && ( exists $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } ) && ( $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_state } eq "migrating" ) )
{
# We need to clean up a stale migration state. It may
# not actually be 'running', but if not, scan-server
# will clean it up. So long as the state is
# 'migrating', scan-server won't touch it.
$ anvil - > Database - > insert_or_update_servers ( {
debug = > $ debug ,
server_uuid = > $ server_uuid ,
server_name = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_name } ,
server_anvil_uuid = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_anvil_uuid } ,
server_user_stop = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_user_stop } ,
server_start_after_server_uuid = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_start_after_server_uuid } ,
server_start_delay = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_start_delay } ,
server_host_uuid = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_host_uuid } ,
server_state = > "running" ,
server_live_migration = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_live_migration } ,
server_pre_migration_file_uuid = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_pre_migration_file_uuid } ,
server_pre_migration_arguments = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_pre_migration_arguments } ,
server_post_migration_file_uuid = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_post_migration_file_uuid } ,
server_post_migration_arguments = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_post_migration_arguments } ,
server_ram_in_use = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_ram_in_use } ,
server_configured_ram = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_configured_ram } ,
server_updated_by_user = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_updated_by_user } ,
server_boot_time = > $ anvil - > data - > { servers } { server_uuid } { $ server_uuid } { server_boot_time } ,
} ) ;
}
}
}
$ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { status } = $ status ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { host_name } = $ host_name ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { host_id } = $ host_id ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { role } = $ role ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { active } = $ active ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { blocked } = $ blocked ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { failed } = $ failed ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { managed } = $ managed ;
$ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { orphaned } = $ orphaned ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"cib::parsed::data::server::${server}::status" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { status } ,
"cib::parsed::data::server::${server}::host_name" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { host_name } ,
"cib::parsed::data::server::${server}::host_id" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { host_id } ,
"cib::parsed::data::server::${server}::role" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { role } ,
"cib::parsed::data::server::${server}::active" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { active } ,
"cib::parsed::data::server::${server}::blocked" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { blocked } ,
"cib::parsed::data::server::${server}::failed" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { failed } ,
"cib::parsed::data::server::${server}::managed" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { managed } ,
"cib::parsed::data::server::${server}::orphaned" = > $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { orphaned } ,
} } ) ;
}
# Debug code.
foreach my $ server ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { cib } { parsed } { data } { server } } )
{
my $ status = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { status } ;
my $ host_name = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { host_name } ;
my $ role = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { role } ;
my $ active = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { active } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
's1:server' = > $ server ,
's2:status' = > $ status ,
's2:host_name' = > $ host_name ,
's4:role' = > $ role ,
's5:active' = > $ active ,
} } ) ;
}
return ( $ problem ) ;
}
= head2 parse_crm_mon
This reads in the XML output of C << crm_mon >> and parses it . On success , it returns C << 0 >> . On failure ( ie: pcsd isn ' t running ) , returns C << 1 >> .
B << Note >> : At this time , this method only pulls out the host for running servers . More data may be parsed out at a future time .
Parameters ;
= head3 password ( optional )
This is the password to use when connecting to a remote machine . If not set , but C << target >> is , an attempt to connect without a password will be made .
= head3 port ( optional )
This is the TCP port to use when connecting to a remote machine . If not set , but C << target >> is , C << 22 >> will be used .
= head3 remote_user ( optional , default root )
If C << target >> is set , this will be the user we connect to the remote machine as .
= head3 target ( optional )
This is the IP or host name of the machine to read the version of . If this is not set , the local system ' s version is checked .
= head3 xml ( optional )
B << Note >> : Generally this should not be used .
By default , the C << crm_mon - - output - as = xml >> is read directly . However , this parameter can be used to pass in raw XML instead . If this is set , C << crm_mon >> is B << NOT >> invoked .
= cut
sub parse_crm_mon
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->parse_crm_mon()" } } ) ;
my $ xml = defined $ parameter - > { xml } ? $ parameter - > { xml } : "" ;
my $ password = defined $ parameter - > { password } ? $ parameter - > { password } : "" ;
my $ port = defined $ parameter - > { port } ? $ parameter - > { port } : "" ;
my $ remote_user = defined $ parameter - > { remote_user } ? $ parameter - > { remote_user } : "root" ;
my $ target = defined $ parameter - > { target } ? $ parameter - > { target } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
xml = > $ xml ,
} } ) ;
my $ problem = 1 ;
my $ crm_mon_data = "" ;
my $ return_code = 0 ;
if ( $ xml )
{
$ crm_mon_data = $ xml ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { crm_mon_data = > $ crm_mon_data } } ) ;
}
else
{
# When called on Striker during post-scan analysis, this won't work. So to avoid noise in the
# logs, we do en explicit check if the binary exists and exit quietly if it does not.
if ( not - e $ anvil - > data - > { path } { exe } { crm_mon } )
{
return ( 1 ) ;
}
my $ shell_call = $ anvil - > data - > { path } { exe } { crm_mon } . " --output-as=xml" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { shell_call = > $ shell_call } } ) ;
if ( $ anvil - > Network - > is_local ( { host = > $ target } ) )
{
# Local call
( $ crm_mon_data , $ return_code ) = $ anvil - > System - > call ( { debug = > ( $ debug + 1 ) , shell_call = > $ shell_call } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
crm_mon_data = > $ crm_mon_data ,
return_code = > $ return_code ,
} } ) ;
}
else
{
# Remote call.
( $ crm_mon_data , my $ error , $ return_code ) = $ anvil - > Remote - > call ( {
debug = > $ debug ,
shell_call = > $ shell_call ,
target = > $ target ,
port = > $ port ,
password = > $ password ,
remote_user = > $ remote_user ,
} ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
error = > $ error ,
crm_mon_data = > $ crm_mon_data ,
return_code = > $ return_code ,
} } ) ;
}
}
if ( $ return_code )
{
# Failed to read the CIB.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "warning_0062" } ) ;
}
else
{
local $@ ;
my $ dom = eval { XML::LibXML - > load_xml ( string = > $ crm_mon_data ) ; } ;
if ( $@ )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "warning_0063" , variables = > {
xml = > $ crm_mon_data ,
error = > $@ ,
} } ) ;
}
else
{
# Successful parse!
$ problem = 0 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
foreach my $ resource ( $ dom - > findnodes ( '/pacemaker-result/resources/resource' ) )
{
next if $ resource - > { resource_agent } ne "ocf::alteeve:server" ;
my $ id = $ resource - > { id } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { id = > $ id } } ) ;
foreach my $ variable ( sort { $ a cmp $ b } keys % { $ resource } )
{
next if $ variable eq "id" ;
$ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ id } { variables } { $ variable } = $ resource - > { $ variable } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"crm_mon::parsed::pacemaker-result::resources::resource::${id}::variables::${variable}" = > $ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ id } { variables } { $ variable } ,
} } ) ;
}
foreach my $ node ( $ resource - > findnodes ( './node' ) )
{
my $ node_id = $ node - > { id } ;
my $ node_name = $ node - > { name } ;
my $ cached = $ node - > { cached } ;
$ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ id } { host } { node_name } = $ node - > { name } ;
$ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ id } { host } { node_id } = $ node - > { id } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"crm_mon::parsed::pacemaker-result::resources::resource::${id}::host::node_name" = > $ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ id } { host } { node_name } ,
"crm_mon::parsed::pacemaker-result::resources::resource::${id}::host::node_id" = > $ anvil - > data - > { crm_mon } { parsed } { 'pacemaker-result' } { resources } { resource } { $ id } { host } { node_id } ,
} } ) ;
}
}
}
}
return ( $ problem ) ;
}
= head2 parse_quorum
This parses C << corosync - quorumtool - s - p >> to check the status of quorum , as it is more reliable that the CIB ' s c << have - quorum >> flag . This does not parse out per - node information .
b << Note >> : See c << man corosync - quorumtool >> for details on what these values store .
If the cluster is down , C << 1 >> is returned . Otherwise , C << 1 >> is returned .
Data is stored as:
quorum:: expected - votes
quorum:: flags
quorum:: nodes
quorum:: quorate
quorum:: ring_id
quorum:: total - votes
This method takes no parameters .
= cut
sub parse_quorum
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->parse_quorum()" } } ) ;
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > $ debug , shell_call = > $ anvil - > data - > { path } { exe } { 'corosync-quorumtool' } . " -p -s" } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
if ( $ return_code )
{
# Cluster is down
return ( 1 ) ;
}
else
{
$ anvil - > data - > { quorum } { 'expected-votes' } = "" ;
$ anvil - > data - > { quorum } { flags } = "" ;
$ anvil - > data - > { quorum } { nodes } = "" ;
$ anvil - > data - > { quorum } { quorate } = "" ;
$ anvil - > data - > { quorum } { ring_id } = "" ;
$ anvil - > data - > { quorum } { 'total-votes' } = "" ;
}
foreach my $ line ( split /\n/ , $ output )
{
$ line = $ anvil - > Words - > clean_spaces ( { string = > $ line } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { line = > $ line } } ) ;
if ( $ line =~ /Expected votes:\s+(\d+)$/ )
{
$ anvil - > data - > { quorum } { 'expected-votes' } = $ 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"quorum::expected-votes" = > $ anvil - > data - > { quorum } { 'expected-votes' } ,
} } ) ;
next ;
}
if ( $ line =~ /Flags:\s+(.*)$/ )
{
$ anvil - > data - > { quorum } { flags } = $ 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"quorum::flags" = > $ anvil - > data - > { quorum } { flags } ,
} } ) ;
next ;
}
if ( $ line =~ /Nodes:\s+(\d+)$/ )
{
$ anvil - > data - > { quorum } { nodes } = $ 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"quorum::nodes" = > $ anvil - > data - > { quorum } { nodes } ,
} } ) ;
next ;
}
if ( $ line =~ /Quorate:\s+(.*)$/ )
{
$ anvil - > data - > { quorum } { quorate } = lc ( $ 1 ) eq "yes" ? 1 : 0 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"quorum::quorate" = > $ anvil - > data - > { quorum } { quorate } ,
} } ) ;
next ;
}
if ( $ line =~ /Ring ID:\s+(.*)$/ )
{
$ anvil - > data - > { quorum } { ring_id } = $ 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"quorum::ring_id" = > $ anvil - > data - > { quorum } { ring_id } ,
} } ) ;
next ;
}
if ( $ line =~ /Nodes:\s+(\d+)$/ )
{
$ anvil - > data - > { quorum } { 'total-votes' } = $ 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
"quorum::total-votes" = > $ anvil - > data - > { quorum } { 'total-votes' } ,
} } ) ;
next ;
}
}
return ( 0 ) ;
}
= head2 shutdown_server
This shuts down a server that is running on the Anvil ! system . If there is a problem , C << ! ! error ! ! >> is returned . On success , C << 0 >> is returned .
B << Note >> : If C << wait >> is set to C << 0 >> , then C << 0 >> is returned once the shutdown is requested , not when it ' s actually turned off .
Parameters ;
= head3 server ( required )
This is the name of the server to shut down .
= head3 wait ( optional , default '1' )
This controls whether the method waits for the server to shut down before returning . By default , it will go into a loop and check every 2 seconds to see if the server is still running . Once it ' s found to be off , the method returns . If this is set to C << 0 >> , the method will return as soon as the request to shut down the server is issued .
= cut
sub shutdown_server
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->shutdown_server()" } } ) ;
my $ server = defined $ parameter - > { server } ? $ parameter - > { server } : "" ;
my $ wait = defined $ parameter - > { 'wait' } ? $ parameter - > { 'wait' } : 1 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
server = > $ server ,
'wait' = > $ wait ,
} } ) ;
if ( not $ server )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "log_0020" , variables = > { method = > "Cluster->shutdown_server()" , parameter = > "server" } } ) ;
return ( "!!error!!" ) ;
}
my $ host_type = $ anvil - > Get - > host_type ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { host_type = > $ host_type } } ) ;
if ( $ host_type ne "node" )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0150" , variables = > { server = > $ server } } ) ;
return ( "!!error!!" ) ;
}
my $ problem = $ anvil - > Cluster - > parse_cib ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
if ( $ problem )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0151" , variables = > { server = > $ server } } ) ;
return ( '!!error!!' ) ;
}
# Is this node fully in the cluster?
if ( not $ anvil - > data - > { cib } { parsed } { 'local' } { ready } )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0152" , variables = > { server = > $ server } } ) ;
return ( '!!error!!' ) ;
}
# Is the server one we know of?
if ( not exists $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } )
{
# The server isn't in the pacemaker config.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0153" , variables = > { server = > $ server } } ) ;
return ( '!!error!!' ) ;
}
# Is the server already stopped? If so, do nothing.
my $ status = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { status } ;
my $ host = defined $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { host_name } ? $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { host_name } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
status = > $ status ,
host = > $ host ,
} } ) ;
if ( ( $ status eq "off" ) or ( $ status eq "stopped" ) )
{
# Already off.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0548" , variables = > { server = > $ server } } ) ;
return ( 0 ) ;
}
elsif ( $ status ne "running" )
{
# It's in an unknown state, abort.
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 1 , key = > "warning_0060" , variables = > {
server = > $ server ,
current_host = > $ host ,
current_state = > $ status ,
} } ) ;
return ( '!!error!!' ) ;
}
# Now shut down the server.
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > $ debug , shell_call = > $ anvil - > data - > { path } { exe } { pcs } . " resource disable " . $ server } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
if ( not $ wait )
{
# We're done.
return ( 0 ) ;
}
# Wait now for the server to start.
my $ waiting = 1 ;
while ( $ waiting )
{
$ anvil - > Cluster - > parse_cib ( { debug = > $ debug } ) ;
my $ status = $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { status } ;
my $ host = defined $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { host_name } ? $ anvil - > data - > { cib } { parsed } { data } { server } { $ server } { host_name } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
status = > $ status ,
host = > $ host ,
} } ) ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0554" , variables = > { server = > $ server } } ) ;
if ( $ status eq "running" )
{
# Wait a bit and check again.
sleep 2 ;
}
else
{
# It's down.
$ waiting = 0 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0555" , variables = > { server = > $ server } } ) ;
}
}
return ( 0 ) ;
}
= head2 start_cluster
This will join the local node to the pacemaker cluster . Optionally , it can try to start the cluster on both nodes if C << all >> is set .
Parameters ;
= head3 all ( optional , default '0' )
If set , the cluster will be started on both ( all ) nodes .
= cut
sub start_cluster
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->start_cluster()" } } ) ;
my $ all = defined $ parameter - > { all } ? $ parameter - > { all } : 0 ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
all = > $ all ,
} } ) ;
my $ success = 1 ;
my $ shell_call = $ anvil - > data - > { path } { exe } { pcs } . " cluster start" ;
if ( $ all )
{
$ shell_call . = " --all" ;
}
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , secure = > 0 , list = > {
shell_call = > $ shell_call ,
} } ) ;
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > 3 , shell_call = > $ shell_call } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , secure = > 0 , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
return ( $ success ) ;
}
= head2 which_node
This method returns which node a given machine is in the cluster , returning either C << node1 >> or C << node2 >> . If the host is not a node , an empty string is returned .
This method is meant to compliment C << Database - > get_anvils ( ) >> to make it easy for tasks that only need to run on one node in the cluster to decide it that is them or not .
Parameters ;
= head3 host_name ( optional , default Get - > short_host_name )
This is the host name to look up . If not set , B << and >> C << node_uuid >> is also not set , the short host name of the local system is used .
B << Note >> ; If the host name is passed and the host UUID is not , and the host UUID can not be located ( or the host name is invalid ) , this method will return C << ! ! error ! ! >> .
= head3 host_uuid ( optional , default Get - > host_uuid )
This is the host UUID to look up . If not set , B << and >> C << node_name >> is also not set , the local system ' s host UUID is used .
= cut
sub which_node
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->start_cluster()" } } ) ;
my $ node_is = "" ;
my $ node_name = defined $ parameter - > { node_name } ? $ parameter - > { node_name } : "" ;
my $ node_uuid = defined $ parameter - > { node_uuid } ? $ parameter - > { node_uuid } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
node_name = > $ node_name ,
node_uuid = > $ node_uuid ,
} } ) ;
if ( ( not $ node_name ) && ( not $ node_uuid ) )
{
$ node_name = $ anvil - > Get - > short_host_name ( ) ;
$ node_uuid = $ anvil - > Get - > host_uuid ( ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
node_name = > $ node_name ,
node_uuid = > $ node_uuid ,
} } ) ;
}
elsif ( not $ node_uuid )
{
# Get the node UUID from the host name.
$ node_uuid = $ anvil - > Get - > host_name_from_uuid ( { host_name = > $ node_name } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { node_uuid = > $ node_uuid } } ) ;
if ( not $ node_uuid )
{
return ( "!!error!!" ) ;
}
}
# Load Anvil! systems.
if ( ( not exists $ anvil - > data - > { anvils } { anvil_name } ) && ( not $ anvil - > data - > { anvils } { anvil_name } ) )
{
$ anvil - > Database - > get_anvils ( { debug = > $ debug } ) ;
}
foreach my $ anvil_name ( sort { $ a cmp $ b } keys % { $ anvil - > data - > { anvils } { anvil_name } } )
{
my $ node1_host_uuid = $ anvil - > data - > { anvils } { anvil_name } { $ anvil_name } { anvil_node1_host_uuid } ;
my $ node2_host_uuid = $ anvil - > data - > { anvils } { anvil_name } { $ anvil_name } { anvil_node2_host_uuid } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
anvil_name = > $ anvil_name ,
node1_host_uuid = > $ node1_host_uuid ,
node2_host_uuid = > $ node2_host_uuid ,
} } ) ;
if ( $ node_uuid eq $ node1_host_uuid )
{
$ node_is = "node1" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { node_is = > $ node_is } } ) ;
last ;
}
elsif ( $ node_uuid eq $ node2_host_uuid )
{
$ node_is = "node2" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { node_is = > $ node_is } } ) ;
last ;
}
}
return ( $ node_is ) ;
}
# =head3
#
# Private Functions;
#
# =cut
#############################################################################################################
# Private functions #
#############################################################################################################
= head2 _set_server_constraint
This is a private method used to set a preferencial location constraint for a server . It takes a server name and a preferred host node . It checks to see if a location constraint exists and , if so , which node is preferred . If it is not the requested node , the constraint is updated . If no constraint exists , it is created .
Returns C << ! ! error ! ! >> if there is a problem , C << 0 >> otherwise
Parameters ;
= head3 server ( required )
This is the name of the server whose preferred host node priproty is being set .
= head3 preferred_node ( required )
This is the name the node that a server will prefer to run on .
= cut
sub _set_server_constraint
{
my $ self = shift ;
my $ parameter = shift ;
my $ anvil = $ self - > parent ;
my $ debug = defined $ parameter - > { debug } ? $ parameter - > { debug } : 3 ;
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , key = > "log_0125" , variables = > { method = > "Cluster->_set_server_constraint()" } } ) ;
my $ preferred_node = defined $ parameter - > { preferred_node } ? $ parameter - > { preferred_node } : "" ;
my $ server = defined $ parameter - > { server } ? $ parameter - > { server } : "" ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
server = > $ server ,
preferred_node = > $ preferred_node ,
} } ) ;
if ( not $ server )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "log_0020" , variables = > { method = > "Cluster->_set_server_constraint()" , parameter = > "server" } } ) ;
return ( "!!error!!" ) ;
}
if ( not $ preferred_node )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "log_0020" , variables = > { method = > "Cluster->_set_server_constraint()" , parameter = > "preferred_node" } } ) ;
return ( "!!error!!" ) ;
}
if ( not exists $ anvil - > data - > { cib } { parsed } { data } { cluster } { name } )
{
my $ problem = $ anvil - > Cluster - > parse_cib ( { debug = > $ debug } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > { problem = > $ problem } } ) ;
if ( $ problem )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0145" , variables = > { server = > $ server } } ) ;
}
}
# Is this node fully in the cluster?
if ( not $ anvil - > data - > { cib } { parsed } { 'local' } { ready } )
{
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0148" , variables = > {
server = > $ server ,
node = > $ preferred_node ,
} } ) ;
return ( '!!error!!' ) ;
}
my $ peer_name = $ anvil - > data - > { cib } { parsed } { peer } { name } ;
my $ local_name = $ anvil - > data - > { cib } { parsed } { 'local' } { name } ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
peer_name = > $ peer_name ,
local_name = > $ local_name ,
} } ) ;
my $ shell_call = "" ;
if ( $ preferred_node eq $ peer_name )
{
$ shell_call = $ anvil - > data - > { path } { exe } { pcs } . " constraint location " . $ server . " prefers " . $ peer_name . "=200 " . $ local_name . "=100" ;
}
elsif ( $ preferred_node eq $ local_name )
{
$ shell_call = $ anvil - > data - > { path } { exe } { pcs } . " constraint location " . $ server . " prefers " . $ peer_name . "=100 " . $ local_name . "=200" ;
}
else
{
# Invalid
$ anvil - > Log - > entry ( { source = > $ THIS_FILE , line = > __LINE__ , level = > 0 , priority = > "err" , key = > "error_0144" , variables = > {
server = > $ server ,
node = > $ preferred_node ,
node1 = > $ local_name ,
node2 = > $ peer_name ,
} } ) ;
return ( "!!error!!" ) ;
}
# Change the location constraint
my ( $ output , $ return_code ) = $ anvil - > System - > call ( { debug = > 3 , shell_call = > $ shell_call } ) ;
$ anvil - > Log - > variables ( { source = > $ THIS_FILE , line = > __LINE__ , level = > $ debug , list = > {
output = > $ output ,
return_code = > $ return_code ,
} } ) ;
return ( 0 ) ;
}