#!/usr/software/bin/perl # $Id: //depot/prod/test/main/storage/hdd/NADQ_SEA/NDATE_NVMe/NADQ02_NVMe_Hmr_Adp_Rst.thpl#1 $ # ## @summary Mode ## Disk Firmware Download in background/foreground mode # ## ## @description ## Verify that the drive can download disk firmware in foreground and background mode properly ## using the method available in the NetApp system. ## ## @Test Mode ## File system mode ## ## @Test bed setup ## FC : Cluster Fabric ## SATA : Cluster ## SAS : Cluster ## ## @usage ## The test can be run independently or with other tests as part of STEST. ## ## @dependencies ## Disk firmwares should be copied to ~/NDATE/FIRMWARE/DISKFW/HIGH folder for foreground ## ## @steps ## The test will execute steps mentioned below: ## ## ## @status Automated ######################################## ### Library functions ########################################## use strict; use Storage::NVMe_Common_Lib; use Storage::Common_Lib; use NACL::C::Statistics; use NACL::MTask::EventLogDetector; ######################################### ######################################### ### Initialization/declaration ######################################### ##### # Global parameters use vars qw( $FILER $MODE $FILER_CONN $TEST_CONFIG $TEST_SETUP $FILER_PROMPT $LOGDIR $EOE $TEST_WAIT_TIME $BOOT_MODE $BOOT_TYPE $SSD $EMAIL $MAIL_TO $MAIL_FROM $FILER_TYPE $FIRMWARE $RUNID $ARMADILLO ); my $params = NATE::ParamSet->new( global => 1 ); $FILER = $params->get( 'FILER', default => 'Filer' ); $TEST_CONFIG = $params->get( 'TEST_CONFIG', default => 'E' ); $TEST_WAIT_TIME = $params->get( 'TEST_WAIT_TIME', default => '3' ); $LOGDIR = $params->get( 'LOGDIR', default => undef ); $EOE = $params->get( 'EOE', default => 1 ); $EMAIL = $params->get( 'EMAIL', default => 'y' ); $MAIL_TO = $params->get( 'MAIL_TO', default => 'Email to' ); $MAIL_FROM = $params->get( 'MAIL_FROM', default => 'Email from' ); $TEST_SETUP = $params->get( 'TEST_SETUP', default => 'SAS' ); $BOOT_MODE = $params->get( 'BOOT_MODE', default => '1' ); $BOOT_TYPE = $params->get( 'BOOT_TYPE', default => 'A' ); $RUNID = $params->get( 'RUNID', default => undef ); $SSD = $params->get( 'SSD', default => 'no' ); $ARMADILLO = $params->get( 'ARMADILLO', default => '2' ); $FILER_TYPE = $params->get( 'FILER_TYPE', default => 'BR' ); $FIRMWARE = $params->get( 'FIRMWARE', default => 'Firmware file not entered' ); ################ # Testcase name ################ my $TC_name; $TC_name = "502_NADQ02_NVMe_Hmr_Ctrl_Rst"; #Common variable declaration my ( $email_subject, $email_body ); my @Nodes; my $filer_names; my $Mode; my $test_status = 0; my %nodes_filer; my $firmware_hash = {}; my @firmware_list; my $cnt = 1; my $disk_show_v; my %test_details; my $Home = $ENV{HOME}; my $test_wait_time = 12 * 3600; #12 Hrs test if ( $TEST_WAIT_TIME == 1 ) { $test_wait_time = ( $test_wait_time / 10 ); } elsif ( $TEST_WAIT_TIME == 2 ) { $test_wait_time = ( $test_wait_time / 2 ); } elsif ( $TEST_WAIT_TIME == 4 ) { $test_wait_time = ( ($test_wait_time) * (.95) ); } ######################################### # Test case available for execution ######################################### my @Testcases = ( NVMe_Hmr_Adp_Rst => "Hammer with reset command" ); &main(); sub main { # Debug break point $DB::single = 2; # Create Test Case Driver object $Test = new TCD( -testcases => [@Testcases] ); if ( $Test->error ) { $Test->log( $Test->errmsg ); $test_status = 1; $email_subject = "$TC_name : Test FAILED: FAIL"; $email_body = "Failed to instantiate Test object.\nLog Location : $LOGDIR\n"; send_message( mail_subject => $email_subject, mail_body => $email_body, MAIL_FROM => $MAIL_FROM, MAIL_TO => $MAIL_TO, EOE => $EOE, EMAIL => $EMAIL ); return $TCD::FAIL; } # Performs method callbacks $Test->run_test(); if ( $Test->error ) { $Test->log( $Test->errmsg ); return $TCD::FAIL; } exit(0); } ## end sub main ########## INIT ################################################### # This init subroutine will initialise the filer. #################################################################### sub init() { $Test->description(" Initialising all required variables and filer connections "); $filer_names = $Test->get_param("FILER"); # Capturing Filer names from the param(Test_Suite) ##Check for duplicate node object and push unique node object in Nodes array. my @temp_nodes = NACL::C::Node->find(); # Find Nodes/Filers used in the test, Based on FILER param. foreach my $Node (@temp_nodes) { my $FILER_C = $Node->name(); $nodes_filer{$FILER_C} = $Node; } @Nodes = values(%nodes_filer); # Contains Node object used for test execution. sort(@Nodes); $Mode = $Nodes[0]->mode(); logcomment("Checking for execution mode"); logcomment( "FILER- $filer_names : $TC_name : started, expected max completion time 30 Min : " . scalar( localtime() ) ); logcomment( "FILER- $filer_names : Log file for this test case: \n $LOGDIR/$TC_name" . ".log " . scalar( localtime() ) ); return $TCD::PASS; } ########## SETUP ################################################### # setup automatically called before executing tests #################################################################### sub setup() { $Test->description("Setup the environment for the test execution "); logcomment("Mode of filer $filer_names : $Mode"); my $node_ref = \@Nodes; version_test( node_present => $node_ref, tc_name => $TC_name ); ##################################################################### # Pre test proces : call for pre_n_post test process ##################################################################### nvme_pre_test( node_present => $node_ref, Test => $Test, change_state_to => "MAINT", filer_mode => $Mode ); return $TCD::PASS; } sub NVMe_Hmr_Adp_Rst { my @subtests; my $status = 0; logcomment( "Number of nodes are " . scalar @Nodes . " and the filer are $filer_names" ); my $partition = 0; logcomment("Checking whether the system is PARTITIONED or UNPARTITIONED"); my $FILER_C = $Nodes[0]->name(); my $disk_hash = disk_show_v( Node => $Nodes[0] ); foreach ( keys %{$disk_hash} ) { if ( $_ =~ /P\d+$/ ) { $partition = 1; last; } } if ( $partition == 1 ) { my @Nodes_tmp = (); push( @Nodes_tmp, $Nodes[0] ); my $Filer = $Nodes[0]->name(); logcomment("SYSTEM is PARTITIONED, Test will run only on single node i.e., on $Filer node"); @Nodes = (); @Nodes = @Nodes_tmp; } else { logcomment("SYSTEM is NOT PARTITIONED, Test will execute on both nodes"); } logcomment("DEBUG : NODE PRESENT : @Nodes"); foreach my $Node (@Nodes) { my $FILER_C = $Node->name(); push( @subtests, subtest( \&exe_hmar_rest_sub, -runid, "Exe_Hmr_Rst_$FILER_C", -bg, "--", $Node ) ); } Subtest::wait_finish( subtest => [@subtests] ); my $status = status_return( subtest_ref => [@subtests] ); logcomment("Total test status is : $status"); if ( $status == 0 ) { return $TCD::PASS; } else { return $TCD::FAIL; } } sub exe_hmar_rest_sub { $Test->description("Execute Hammer and Reset command "); my ( @Nodes, %filer_nvol ); my $Home = $ENV{HOME}; my @NON_RT_AGG; my @NON_RT_VOLS; my %filer_nvol = (); my $create_agg_n_vol = 0; my $aggr_vol_found = 0; my @list_of_disk_2_pwrcy = (); push( @Nodes, shift(@_) ); logcomment("Total Nodes - @Nodes"); logcomment( "Filer passed to the subtest :: " . $Nodes[0]->name() ); #STEP 1 nvme_eye_catcher( Test => $Test, string => "STEP 1 : List all drives " ); my $disk_list = nvme_list_only_nvme( node_present => [ $Nodes[0] ] ); #STEP 2 nvme_eye_catcher( Test => $Test, string => "STEP 2 : Check non-root aggregate and create one non-root aggregate with filersio" ); foreach my $Node (@Nodes) { $Node->refresh_command_interface(); my $FILER_C = $Node->name(); my $Api_Set_Obj = $Node->get_7m_or_nodescope_apiset(); $Api_Set_Obj->set_timeout( "connectrec-timeout" => 72000000 ); $Api_Set_Obj->execute_raw_command( 'command' => "\013" ); $Api_Set_Obj->execute_raw_command( 'command' => "\013" ); my $Host = host($FILER_C); my $fsio = 10; sleep 30; my $spare_list = nvme_sto_agg_show_spare_dsk( Node => $Node ); my @spare_drvs = keys %$spare_list; my $spare_count = @spare_drvs; logcomment("$FILER_C : Total spare are : $spare_count and Spare Drive are : @spare_drvs"); logcomment("Create new vol"); logcomment("DEBUG :FILERSIO THREADS : $FILER_SIO "); sleep 30; $Api_Set_Obj->execute_raw_command( 'command' => "\013" ); my $return_filersio_thrds = nvme_multi_aggr_with_rd_wr_vol_n_fsio( API_con => $Api_Set_Obj, filer => $FILER_C, fsio => $FILER_SIO, loc_drvs => \@spare_drvs, Node => $Node, ); my @loc_all_threads; foreach my $fil ( keys %$return_filersio_thrds ) { my $sio_th = $return_filersio_thrds->{$fil}->{'SIO_CMD'}; @loc_all_threads = @$sio_th; } logcomment("Filer sio Started "); logcomment("@loc_all_threads"); logcomment(" $FILER_C completed"); sleep 30; $Api_Set_Obj->execute_raw_command( 'command' => "\013" ); } #STEP 3 : nvme_eye_catcher( Test => $Test, string => "STEP 3 : Get drives where IO is executing" ); foreach my $Node (@Nodes) { $Node->refresh_command_interface(); my $API_obj = $Node->get_7m_or_nodescope_apiset(); $API_obj->set_timeout( 'connectrec-timeout' => 7200 ); my $FILER_C = $Node->name(); my ( $non_rt_status, @non_rt_agg ) = nvme_check_non_root_aggr( Node => $Node ); logcomment("Aggregate(s) found : @non_rt_agg"); logcomment("Get Drives of all non-root aggregates : @non_rt_agg"); foreach my $agr (@non_rt_agg) { logcomment("Get drives of $agr"); foreach ( split( /\n/, $after ) ) { #Do not match the uninitialised next if ( $_ =~ /parity uninit/ ); if ( $_ =~ /(data|dparity|parity)\s*(\S+)/ ) { my $disk = $2; $disk =~ s/(P|L)\d+$//g; push( @list_of_disk_2_pwrcy, $disk ); } } } logcomment("Drives : @list_of_disk_2_pwrcy will be powercycled , where IO are running"); } #STEP 4 nvme_eye_catcher( Test => $Test, string => "STEP 4 : Verify that filersio is running." ); foreach my $Node (@Nodes) { my $FILER_C = $Node->name(); my $Api_Set_Obj = $Node->get_7m_or_nodescope_apiset( connid => 'console' ); my $out = $Api_Set_Obj->execute_raw_command( command => "run local filersio status" ); if ( $out =~ /no instances currently running/ ) { logcomment("**FATAL** : $FILER_C : NO IO Instances are currently running"); } else { logcomment("Filersio isnstances are executing on $FILER_C"); } sleep(10); } #STEP 5 nvme_eye_catcher( Test => $Test, string => "STEP 5 : Verify IOs to the drives" ); foreach my $Node (@Nodes) { my $FILER_C = $Node->name(); logcomment("Verify IOs to the drives"); my $Api_Set_Obj = $Node->get_7m_or_nodescope_apiset( connid => 'console' ); $Api_Set_Obj->execute_raw_command( command => "run local sysstat -c 15 1" ); } #STEP 6 nvme_eye_catcher( Test => $Test, string => "STEP 6 : Execute IO for specified time along with contoller reset evry 60 seconds" ); foreach my $Node (@Nodes) { my $FILER_C = $Node->name(); my $Api_Set_Obj = $Node->get_7m_or_nodescope_apiset( connid => 'console' ); my $prompts_answers = [ ".*Do you want to continue.*" => 'y' ]; $Api_Set_Obj->execute_raw_command( 'command' => "set test", 'connectrec-match_table' => $prompts_answers ); $Api_Set_Obj->execute_raw_command( 'command' => "run local priv set -q test" ); logcomment("IO on these drives : @list_of_disk_2_pwrcy"); my $timeout = $test_wait_time; my ( $lsec, $lmin, $lhrs ) = gmtime($timeout); logcomment("Test executin time : $lhrs HOURS $lmin MINUTES and $lsec SECONDS"); my $curtime = time; my $endtime = $curtime + $timeout; my $loop = 0; while ( $curtime < $endtime ) { logcomment("Loop $loop Started"); logcomment("Current time : $curtime and Endtime :$endtime"); my $Api_Set_Obj = $Node->get_7m_or_nodescope_apiset( connid => 'console' ); logcomment("Check IO Status"); my $out = $Api_Set_Obj->execute_raw_command( command => "run local filersio status" ); if ( $out =~ /no instances currently running/ ) { logcomment("**FATAL** : $FILER_C : NO IO Instances are currently running"); } else { logcomment("Filersio isnstances are executing on $FILER_C"); } foreach my $rstdrv (@list_of_disk_2_pwrcy) { logcomment("Issuing controller reset to drive : $rstdrv "); $Api_Set_Obj->execute_raw_command( command => "run local \"priv set -q test;snvmadmin reset $rstdrv \"" ); logcomment("Waiting for 60 sec"); sleep 60; logcomment("Controller reset compelted on drive $rstdrv "); } logcomment("Verify IOs to the drives"); $Api_Set_Obj->execute_raw_command( command => "run local sysstat -c 15 1" ); logcomment("Verify IO status"); my $out = $Api_Set_Obj->execute_raw_command( command => "run local filersio status" ); if ( $out =~ /no instances currently running/ ) { logcomment("**FATAL** : $FILER_C : NO IO Instances are currently running"); } else { logcomment("Filersio isnstances are executing on $FILER_C"); } logcomment("End of loop $loop"); $curtime = time; my $time_left = $endtime - $curtime; my ( $lsec, $lmin, $lhrs ) = gmtime($time_left); if ( $time_left > 0 ) { logcomment("Remaining time for looping is $lhrs HOURS $lmin MINUTES and $lsec SECONDS"); } $loop++; } } #STEP 7 : nvme_eye_catcher( Test => $Test, string => "STEP 7 : abort filersio" ); logcomment("Aborting IO "); foreach my $Node (@Nodes) { my $FILER_C = $Node->name(); my $Api_Set_Obj = $Node->get_7m_or_nodescope_apiset( connid => 'console' ); $Api_Set_Obj->execute_raw_command( command => "run local filersio stop" ); logcomment("IO thread stopped "); } } ##################################################################### # Cleanup - Post Process ##################################################################### sub cleanup() { $Test->nlog(" $filer_names - Clean up and post test process"); @Nodes = node_new_obj( node_array => [@Nodes] ); my $node_ref = \@Nodes; nvme_post_test( node_present => $node_ref, Test => $Test, change_state_to => "MAINT", filer_mode => $Mode ); return $TCD::PASS; }