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xcat-core/xCAT-server/lib/xcat/plugins/ipmi.pm
Jarrod Johnson b4bda3e80f Add support for non-zero LUN 
Systems are now more likely to do non-zero LUN
2024-02-28 12:34:27 +01:00

9197 lines
329 KiB
Perl
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#!/usr/bin/perl
# IBM(c) 2007 EPL license http://www.eclipse.org/legal/epl-v10.html
#egan@us.ibm.com
#modified by jbjohnso@us.ibm.com
#(C)IBM Corp
# VIM: set tabstop=8 softtabstop=0 expandtab shiftwidth=4 smarttab
#
package xCAT_plugin::ipmi;
BEGIN
{
$::XCATROOT = $ENV{'XCATROOT'} ? $ENV{'XCATROOT'} : '/opt/xcat';
}
use lib "$::XCATROOT/lib/perl";
use strict;
use warnings "all";
use xCAT::GlobalDef;
use xCAT_monitoring::monitorctrl;
use xCAT::SPD qw/decode_spd/;
use xCAT::IPMI;
use xCAT::PasswordUtils;
use File::Basename;
my %needbladeinv;
use POSIX qw(ceil floor);
use Storable qw(nstore_fd retrieve_fd thaw freeze);
use Scalar::Util qw(looks_like_number);
use xCAT::Utils;
use xCAT::TableUtils;
use xCAT::IMMUtils;
use xCAT::ServiceNodeUtils;
use xCAT::SvrUtils;
use xCAT::NetworkUtils;
use xCAT::Usage;
use File::Path;
use File::Spec;
use Thread qw(yield);
use LWP 5.64;
use HTTP::Request::Common;
use Time::HiRes qw/time/;
my $iem_support;
my $vpdhash;
my %allerrornodes = ();
my %newnodestatus = ();
my $global_sessdata;
my %child_pids;
my $xcatdebugmode = 0;
my $IPMIXCAT = "/opt/xcat/bin/ipmitool-xcat";
my $NON_BLOCK = 1;
my $BIG_DATA_MACHINE_MODELS = "8001-22C|9006-22C|5104-22C|8001-12C|9006-12C";
my $PUPDATE_UPDATE_BMC=1;
my $PUPDATE_UPDATE_PNOR=1;
use constant RFLASH_LOG_DIR => "/var/log/xcat/rflash";
if (-d RFLASH_LOG_DIR) {
chmod 0700, RFLASH_LOG_DIR;
} else {
mkpath(RFLASH_LOG_DIR, 0, 0700);
}
require xCAT::data::ibmhwtypes;
eval {
require IBM::EnergyManager;
$iem_support = 1;
};
require Exporter;
our @ISA = qw(Exporter);
our @EXPORT = qw(
ipmicmd
);
sub handled_commands {
return {
rpower => 'nodehm:power,mgt', #done
renergy => 'nodehm:mgt', #support renergy for OperPOWER servers
getipmicons => 'ipmi', #done
rspconfig => 'nodehm:mgt', #done
rspreset => 'nodehm:mgt', #done
rvitals => 'nodehm:mgt', #done
rinv => 'nodehm:mgt', #done
rflash => 'nodehm:mgt', #done
rsetboot => 'nodehm:mgt', #done
rbeacon => 'nodehm:mgt', #done
reventlog => 'nodehm:mgt',
ripmi => 'ipmi',
# rfrurewrite => 'nodehm:mgt', #deferred, doesn't even work on several models, no one asks about it, keeping it commented for future requests
getrvidparms => 'nodehm:mgt', #done
rscan => 'nodehm:mgt', # used to scan the mic cards installed on the target node
}
}
use POSIX "WNOHANG";
use IO::Handle;
use IO::Socket;
use IO::Select;
use Class::Struct;
use Digest::MD5 qw(md5);
use POSIX qw(WNOHANG mkfifo strftime);
use Fcntl qw(:flock);
#local to module
my $callback;
my $ipmi_bmcipaddr;
my $timeout;
my $port;
my $debug;
my $ndebug = 0;
my $sock;
my $noclose;
my %sessiondata; #hold per session variables, in preparation for single-process strategy
my %pendingtransactions; #list of peers with callbacks, callback arguments, and timer expiry data
my $ipmiv2 = 0;
my $authoffset = 0;
my $enable_cache = "yes";
my $cache_dir = "/var/cache/xcat";
#my $ibmledtab = $ENV{XCATROOT}."/lib/GUMI/ibmleds.tab";
use xCAT::data::ibmleds;
use xCAT::data::ipmigenericevents;
use xCAT::data::ipmisensorevents;
my $cache_version = 4;
my %sdr_caches; #store sdr cachecs in memory indexed such that identical nodes do not hit the disk multiple times
#my $status_noop="XXXno-opXXX";
# Firmware data hash
my %hpm_data_hash = ();
my %idpxthermprofiles = (
'0z' => [ 0x37, 0x41, 0, 0, 0, 0, 5, 0xa, 0x3c, 0xa, 0xa, 0x1e ],
'1a' => [ 0x30, 0x3c, 0, 0, 0, 0, 5, 0xa, 0x3c, 0xa, 0xa, 0x1e ],
'2b' => [ 0x30, 0x3c, 0, 0, 0, 0, 5, 0xa, 0x3c, 0xa, 0xa, 0x1e ],
'3c' => [ 0x30, 0x3c, 0, 0, 0, 0, 5, 0xa, 0x3c, 0xa, 0xa, 0x1e ],
'4d' => [ 0x37, 0x44, 0, 0, 0, 0, 5, 0xa, 0x3c, 0xa, 0xa, 0x1e ],
'5e' => [ 0x37, 0x44, 0, 0, 0, 0, 5, 0xa, 0x3c, 0xa, 0xa, 0x1e ],
'6f' => [ 0x35, 0x44, 0, 0, 0, 0, 5, 0xa, 0x3c, 0xa, 0xa, 0x1e ],
);
my %codes = (
0x00 => "Command Completed Normal",
0xC0 => "Node busy, command could not be processed",
0xC1 => "Invalid or unsupported command",
0xC2 => "Command invalid for given LUN",
0xC3 => "Timeout while processing command, response unavailable",
0xC4 => "Out of space, could not execute command",
0xC5 => "Reservation canceled or invalid reservation ID",
0xC6 => "Request data truncated",
0xC7 => "Request data length invalid",
0xC8 => "Request data field length limit exceeded",
0xC9 => "Parameter out of range",
0xCA => "Cannot return number of requested data bytes",
0xCB => "Requested Sensor, data, or record not present",
0xCB => "Not present",
0xCC => "Invalid data field in Request",
0xCD => "Command illegal for specified sensor or record type",
0xCE => "Command response could not be provided",
0xCF => "Cannot execute duplicated request",
0xD0 => "Command reqponse could not be provided. SDR Repository in update mode",
0xD1 => "Command response could not be provided. Device in firmware update mode",
0xD2 => "Command response could not be provided. BMC initialization or initialization agent in progress",
0xD3 => "Destination unavailable",
0xD4 => "Insufficient privilege level",
0xD5 => "Command or request parameter(s) not supported in present state",
0xFF => "Unspecified error",
);
#Payload types:
# 0 => IPMI (format 1 0)
# 1 => SOL 1 0
# 0x10 => rmcp+ open req 1 0
# 0x11 => rmcp+ response 1 0
# 0x12 => rakp1 (all 1 0)
# 0x13 => rakp2
# 0x14 => rakp3
# 0x15 => rakp4
my %units = (
0 => "", #"unspecified",
1 => "C",
2 => "F",
3 => "K",
4 => "Volts",
5 => "Amps",
6 => "Watts",
7 => "Joules",
8 => "Coulombs",
9 => "VA",
10 => "Nits",
11 => "lumen",
12 => "lux",
13 => "Candela",
14 => "kPa",
15 => "PSI",
16 => "Newton",
17 => "CFM",
18 => "RPM",
19 => "Hz",
20 => "microsecond",
21 => "millisecond",
22 => "second",
23 => "minute",
24 => "hour",
25 => "day",
26 => "week",
27 => "mil",
28 => "inches",
29 => "feet",
30 => "cu in",
31 => "cu feet",
32 => "mm",
33 => "cm",
34 => "m",
35 => "cu cm",
36 => "cu m",
37 => "liters",
38 => "fluid ounce",
39 => "radians",
40 => "steradians",
41 => "revolutions",
42 => "cycles",
43 => "gravities",
44 => "ounce",
45 => "pound",
46 => "ft-lb",
47 => "oz-in",
48 => "gauss",
49 => "gilberts",
50 => "henry",
51 => "millihenry",
52 => "farad",
53 => "microfarad",
54 => "ohms",
55 => "siemens",
56 => "mole",
57 => "becquerel",
58 => "PPM",
59 => "reserved",
60 => "Decibels",
61 => "DbA",
62 => "DbC",
63 => "gray",
64 => "sievert",
65 => "color temp deg K",
66 => "bit",
67 => "kilobit",
68 => "megabit",
69 => "gigabit",
70 => "byte",
71 => "kilobyte",
72 => "megabyte",
73 => "gigabyte",
74 => "word",
75 => "dword",
76 => "qword",
77 => "line",
78 => "hit",
79 => "miss",
80 => "retry",
81 => "reset",
82 => "overflow",
83 => "underrun",
84 => "collision",
85 => "packets",
86 => "messages",
87 => "characters",
88 => "error",
89 => "correctable error",
90 => "uncorrectable error",
);
my %chassis_types = (
0 => "Unspecified",
1 => "Other",
2 => "Unknown",
3 => "Desktop",
4 => "Low Profile Desktop",
5 => "Pizza Box",
6 => "Mini Tower",
7 => "Tower",
8 => "Portable",
9 => "LapTop",
10 => "Notebook",
11 => "Hand Held",
12 => "Docking Station",
13 => "All in One",
14 => "Sub Notebook",
15 => "Space-saving",
16 => "Lunch Box",
17 => "Main Server Chassis",
18 => "Expansion Chassis",
19 => "SubChassis",
20 => "Bus Expansion Chassis",
21 => "Peripheral Chassis",
22 => "RAID Chassis",
23 => "Rack Mount Chassis",
);
my %MFG_ID = (
2 => "IBM",
343 => "Intel",
20301 => "IBM",
19046 => "Lenovo",
);
my %PROD_ID = (
"2:34869" => "e325",
"2:3" => "x346",
"2:4" => "x336",
"343:258" => "Tiger 2",
"343:256" => "Tiger 4",
);
my $localtrys = 3;
my $localdebug = 0;
struct SDR => {
rec_type => '$',
sensor_owner_id => '$',
sensor_owner_lun => '$',
sensor_number => '$',
entity_id => '$',
entity_instance => '$',
sensor_init => '$',
sensor_cap => '$',
sensor_type => '$',
event_type_code => '$',
ass_event_mask => '@',
deass_event_mask => '@',
dis_read_mask => '@',
sensor_units_1 => '$',
sensor_units_2 => '$',
sensor_units_3 => '$',
linearization => '$',
M => '$',
tolerance => '$',
B => '$',
accuracy => '$',
accuracy_exp => '$',
R_exp => '$',
B_exp => '$',
analog_char_flag => '$',
nominal_reading => '$',
normal_max => '$',
normal_min => '$',
sensor_max_read => '$',
sensor_min_read => '$',
upper_nr_threshold => '$',
upper_crit_thres => '$',
upper_ncrit_thres => '$',
lower_nr_threshold => '$',
lower_crit_thres => '$',
lower_ncrit_thres => '$',
pos_threshold => '$',
neg_threshold => '$',
id_string_type => '$',
id_string => '$',
#LED id
led_id => '$',
fru_type => '$',
fru_subtype => '$',
fru_oem => '$',
};
struct FRU => {
rec_type => '$',
desc => '$',
value => '$',
};
sub decode_fru_locator { #Handle fru locator records
my @locator = @_;
my $sdr = SDR->new();
$sdr->rec_type(0x11);
$sdr->sensor_owner_id("FRU");
$sdr->sensor_owner_lun("FRU");
$sdr->sensor_number($locator[7]);
unless ($locator[8] & 0x80 and ($locator[8] & 0x1f) == 0 and $locator[9] == 0) {
#only logical devices at lun 0 supported for now
return undef;
}
unless (($locator[16] & 0xc0) == 0xc0) { #Only unpacked ASCII for now, no unicode or BCD plus yet
return undef;
}
my $idlen = $locator[16] & 0x3f;
unless ($idlen > 1) { return undef; }
$sdr->id_string(pack("C*", @locator[ 17 .. 17 + $idlen - 1 ]));
$sdr->fru_type($locator[11]);
$sdr->fru_subtype($locator[12]);
$sdr->fru_oem($locator[15]);
return $sdr;
}
sub waitforack {
my $sock = shift;
my $select = new IO::Select;
$select->add($sock);
my $str;
if ($select->can_read(60)) { # Continue after 60 seconds, even if not acked...
if ($str = <$sock>) {
} else {
$select->remove($sock); #Block until parent acks data
}
}
}
sub translate_sensor {
my $reading = shift;
my $sdr = shift;
my $unitdesc;
my $value;
my $lformat;
my $per;
$unitdesc = $units{ $sdr->sensor_units_2 };
if ($sdr->rec_type == 1) {
$value = (($sdr->M * $reading) + ($sdr->B * (10**$sdr->B_exp))) * (10**$sdr->R_exp);
} else {
$value = $reading;
}
if ($sdr->rec_type != 1 or $sdr->linearization == 0) {
$reading = $value;
if ($value == int($value)) {
$lformat = "%-30s%8d%-20s";
} else {
$lformat = "%-30s%8.3f%-20s";
}
} elsif ($sdr->linearization == 7) {
if ($value > 0) {
$reading = 1 / $value;
} else {
$reading = 0;
}
$lformat = "%-30s%8d %-20s";
} else {
$reading = "RAW($sdr->linearization) $reading";
}
if ($sdr->sensor_units_1 & 1) {
$per = "% ";
} else {
$per = " ";
}
my $numformat = ($sdr->sensor_units_1 & 0b11000000) >> 6;
if ($numformat) {
if ($numformat eq 0b11) {
#Not sure what to do.. leave it alone for now
} else {
if ($reading & 0b10000000) {
if ($numformat eq 0b01) {
$reading = 0 - ((~($reading & 0b01111111)) & 0b1111111);
} elsif ($numformat eq 0b10) {
$reading = 0 - (((~($reading & 0b01111111)) & 0b1111111) + 1);
}
}
}
}
if ($unitdesc eq "Watts") {
my $f = ($reading * 3.413);
$unitdesc = "Watts (" . int($f + .5) . " BTUs/hr)";
#$f = ($reading * 0.00134);
#$unitdesc .= " $f horsepower)";
}
if ($unitdesc eq "C") {
my $f = ($reading * 9 / 5) + 32;
$unitdesc = "C (" . int($f + .5) . " F)";
}
if ($unitdesc eq "F") {
my $c = ($reading - 32) * 5 / 9;
$unitdesc = "F (" . int($c + .5) . " C)";
}
return "$reading $unitdesc";
}
sub ipmicmd {
my $sessdata = shift;
my $rc = 0;
my $text = "";
my $error = "";
my @output;
my $noclose = 0;
$sessdata->{ipmisession}->login(callback => \&on_bmc_connect, callback_args => $sessdata);
}
sub on_bmc_connect {
my $status = shift;
my $sessdata = shift;
my $command = $sessdata->{command};
if ($status =~ /ERROR:/) {
xCAT::SvrUtils::sendmsg([ 1, $status ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
#ok, detect some common prereqs here, notably:
#getdevid
if ($command eq "getrvidparms" or $command eq "rflash") {
unless (defined $sessdata->{device_id}) {
$sessdata->{ipmisession}->subcmd(netfn => 6, command => 1, data => [], callback => \&gotdevid, callback_args => $sessdata);
return;
}
if ($command eq "getrvidparms") {
getrvidparms($sessdata);
} else {
rflash($sessdata);
}
}
#initsdr
if ($command eq "rinv" or $command eq "reventlog" or $command eq "rvitals") {
unless (defined $sessdata->{device_id}) {
$sessdata->{ipmisession}->subcmd(netfn => 6, command => 1, data => [], callback => \&gotdevid, callback_args => $sessdata);
return;
}
unless ($sessdata->{sdr_hash}) {
initsdr($sessdata);
return;
}
}
if ($command eq "ping") {
xCAT::SvrUtils::sendmsg("ping", $callback, $sessdata->{node}, %allerrornodes);
return;
}
if ($command eq "rpower") {
unless ($sessdata->{subcommand} eq "reseat" or defined $sessdata->{device_id}) { #need get device id data initted for S3 support
$sessdata->{ipmisession}->subcmd(netfn => 6, command => 1, data => [], callback => \&gotdevid, callback_args => $sessdata);
return;
}
return power($sessdata);
} elsif ($command eq "ripmi") {
return ripmi($sessdata);
} elsif ($command eq "rspreset") {
return resetbmc($sessdata);
} elsif ($command eq "rbeacon") {
unless (defined $sessdata->{device_id}) { #need get device id data initted for SD350 workaround
$sessdata->{ipmisession}->subcmd(netfn => 6, command => 1, data => [], callback => \&gotdevid, callback_args => $sessdata);
return;
}
return beacon($sessdata);
} elsif ($command eq "rsetboot") {
return setboot($sessdata);
} elsif ($command eq "rspconfig") {
shift @{ $sessdata->{extraargs} };
# set username or/and password for specified userid #
if ($sessdata->{subcommand} =~ /userid|username|password/) {
setpassword($sessdata);
} else {
if ($sessdata->{subcommand} =~ /=/) {
setnetinfo($sessdata);
} else {
getnetinfo($sessdata);
}
}
} elsif ($command eq "rvitals") {
vitals($sessdata);
} elsif ($command eq "rinv") {
inv($sessdata);
} elsif ($command eq "reventlog") {
eventlog($sessdata);
} elsif ($command eq "renergy") {
unless (defined $sessdata->{device_id}) {
$sessdata->{ipmisession}->subcmd(netfn => 6, command => 1, data => [], callback => \&gotdevid, callback_args => $sessdata);
return;
}
renergy($sessdata);
}
return;
my @output;
my $rc; #in for testing, evaluated as a TODO
my $text;
my $error;
my $node;
my $subcommand = "";
if ($command eq "rvitals") {
($rc, @output) = vitals($subcommand);
}
elsif ($command eq "renergy") {
($rc, @output) = renergy($subcommand);
}
elsif ($command eq "rspreset") {
($rc, @output) = resetbmc();
$noclose = 1;
}
elsif ($command eq "reventlog") {
if ($subcommand eq "decodealert") {
($rc, $text) = decodealert(@_);
}
else {
($rc, @output) = eventlog($subcommand);
}
}
elsif ($command eq "rinv") {
($rc, @output) = inv($subcommand);
}
elsif ($command eq "fru") {
($rc, @output) = fru($subcommand);
}
elsif ($command eq "rgetnetinfo") {
my @subcommands = ($subcommand);
if ($subcommand eq "all") {
@subcommands = (
"ip",
"netmask",
"gateway",
"backupgateway",
"snmpdest1",
"snmpdest2",
"snmpdest3",
"snmpdest4",
"community",
);
my @coutput;
foreach (@subcommands) {
$subcommand = $_;
($rc, @output) = getnetinfo($subcommand);
push(@coutput, @output);
}
@output = @coutput;
}
else {
($rc, @output) = getnetinfo($subcommand);
}
}
elsif ($command eq "generic") {
($rc, @output) = generic($subcommand);
}
elsif ($command eq "rfrurewrite") {
($rc, @output) = writefru($subcommand, shift);
}
elsif ($command eq "fru") {
($rc, @output) = fru($subcommand);
}
elsif ($command eq "rsetboot") {
($rc, @output) = setboot($subcommand);
}
else {
$rc = 1;
$text = "unsupported command $command $subcommand";
}
if ($debug) {
print "$node: command completed\n";
}
if ($text) {
push(@output, $text);
}
return ($rc, @output);
}
sub resetbmc {
my $sessdata = shift;
$sessdata->{ipmisession}->subcmd(netfn => 6, command => 2, data => [], callback => \&resetedbmc, callback_args => $sessdata);
}
sub resetedbmc {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) {
xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes);
} else {
if ($rsp->{code}) {
if ($codes{ $rsp->{code} }) {
xCAT::SvrUtils::sendmsg([ 1, $codes{ $rsp->{code} } ], $callback, $sessdata->{node}, %allerrornodes);
} else {
xCAT::SvrUtils::sendmsg([ 1, sprintf("Unknown error %02xh", $rsp->{code}) ], $callback, $sessdata->{node}, %allerrornodes);
}
return;
}
xCAT::SvrUtils::sendmsg("BMC reset", $callback, $sessdata->{node}, %allerrornodes);
$sessdata->{ipmisession} = undef; #throw away now unusable session
}
}
sub setpassword {
my $sessdata = shift;
my $subcmd = $sessdata->{subcommand};
my $netfun = 0x06;
my $command = undef;
my ($subcommand, $argument) = split(/=/, $subcmd);
if ($subcommand eq "userid") {
if ($argument !~ /^\d+$/) {
return (1, "The value for $subcommand is invalid");
}
$sessdata->{onuserid} = $argument;
$sessdata->{subcommand} = shift @{ $sessdata->{extraargs} };
if ($sessdata->{subcommand} and $sessdata->{subcommand} ne '') {
setpassword($sessdata);
}
} elsif ($subcommand eq "username") {
unless ($sessdata->{onuserid}) {
my @cmdargv = @{ $sessdata->{extraargs} };
if (grep /userid/, @cmdargv) {
foreach my $opt (@cmdargv) {
if ($opt =~ m/userid=\s*(\d+)/) {
$sessdata->{onuserid} = $1;
last;
} else {
return (1, "The value for $subcommand is invalid");
}
}
} else {
$sessdata->{onuserid} = '2'; # The default userid will be 2 if no userid specified
}
}
my @data = ();
$command = 0x45;
@data = unpack("C*", $argument);
if ($#data > 15 or $#data < 0) {
xCAT::SvrUtils::sendmsg([ 1, "The username is invalid" ], $callback, $sessdata->{node}, %allerrornodes);
return (1, "The username is invalid.");
}
$sessdata->{newusername} = $argument;
my $index = $#data;
while ($index < 15) { # Username must be padded with 0 to 16 bytes for IPMI 2.0
push @data, 0;
$index += 1;
}
unshift @data, $sessdata->{onuserid} - '0'; # byte 1, userID, User ID 1 is permanently associated with User 1, the null user name
unless (exists($sessdata->{setuseraccess})) {
$sessdata->{setuseraccess} = 1;
}
$sessdata->{ipmisession}->subcmd(netfn => $netfun, command => $command, data => \@data, callback => \&password_set, callback_args => $sessdata);
} elsif ($subcommand eq "password") {
unless ($sessdata->{onuserid}) {
my @cmdargv = @{ $sessdata->{extraargs} };
if (grep /userid/, @cmdargv) {
foreach my $opt (@cmdargv) {
if ($opt =~ m/userid=\s*(\d+)/) {
$sessdata->{onuserid} = $1;
last;
} else {
return (1, "The value for $subcommand is invalid");
}
}
} else {
# If have username specified, if has been dealt will be store in newusername, else need to check the args array. And the default userid must be 2.
if (exists($sessdata->{newusername}) or (grep /username/, @{ $sessdata->{extraargs} })) {
$sessdata->{onuserid} = '2';
} else {
# If No username specified, the default userid will be 1.
$sessdata->{onuserid} = '1';
}
}
}
$command = 0x47;
my @data = ();
@data = unpack("C*", $argument);
if ($#data > 15 or $#data < 0) {
xCAT::SvrUtils::sendmsg([ 1, "The new password is invalid" ], $callback, $sessdata->{node}, %allerrornodes);
return (1, "The new password is invalid.");
}
$sessdata->{newpassword} = $argument;
my $index = $#data;
while ($index < 15) { # Password must be padded with 0 to 20 bytes for IPMI 2.0
push @data, 0;
$index += 1;
}
unless (exists($sessdata->{enableuserdone})) {
unshift @data, 0x01; # byte 2, operation: 0x00 disable user, 0x01 enable user, 0x02 set password, 0x03 test password
unshift @data, ($sessdata->{onuserid} - '0'); # byte 1, userID, User ID 1 is permanently associated with User 1, the null user name
$sessdata->{enableuserdone} = 1;
$sessdata->{ipmisession}->subcmd(netfn => $netfun, command => $command, data => \@data, callback => \&password_set, callback_args => $sessdata);
} else {
unshift @data, 0x02; # byte 2, operation: 0x00 disable user, 0x01 enable user, 0x02 set password, 0x03 test password
unshift @data, ($sessdata->{onuserid} - '0'); # byte 1, userID, User ID 1 is permanently associated with User 1, the null user name
unless (exists($sessdata->{setuseraccess})) {
$sessdata->{setuseraccess} = 1;
}
$sessdata->{ipmisession}->subcmd(netfn => $netfun, command => $command, data => \@data, callback => \&password_set, callback_args => $sessdata);
}
}
return;
}
sub password_set {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) {
xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
if ($rsp->{code}) {
if ($codes{ $rsp->{code} }) {
xCAT::SvrUtils::sendmsg([ 1, $codes{ $rsp->{code} } ], $callback, $sessdata->{node}, %allerrornodes);
} else {
xCAT::SvrUtils::sendmsg([ 1, sprintf("Unknown ipmi error %02xh", $rsp->{code}) ], $callback, $sessdata->{node}, %allerrornodes);
}
return;
}
if ($sessdata->{setuseraccess} and $sessdata->{onuserid} ne '1' and $sessdata->{onuserid} ne '2') {
setuseraccess($sessdata);
return;
}
if ($sessdata->{enableuserdone}) {
$sessdata->{enableuserdone} = 0;
setpassword($sessdata);
return;
}
# Won't update ipmi table, since option username=<> and password=<> can be run Respectively
#my $ipmitab = xCAT::Table->new('ipmi');
#if (!$ipmitab) {
# xCAT::SvrUtils::sendmsg([1, "Failed to update ipmi table."],$callback,$sessdata->{node},%allerrornodes);
#} else {
# if ($sessdata->{subcommand} =~ m/username/) {
# $ipmitab->setNodeAttribs($sessdata->{node}, {'username'=>$sessdata->{newusername}});
# xCAT::SvrUtils::sendmsg("set username Done",$callback,$sessdata->{node},%allerrornodes);
# } elsif ($sessdata->{subcommand} =~ m/password/) {
# $ipmitab->setNodeAttribs($sessdata->{node}, {'password'=>$sessdata->{newpassword}});
# xCAT::SvrUtils::sendmsg("set password Done",$callback,$sessdata->{node},%allerrornodes);
# }
#}
# Give out the return complete MSG
if ($sessdata->{subcommand} =~ m/username/) {
xCAT::SvrUtils::sendmsg("set username Done", $callback, $sessdata->{node}, %allerrornodes);
} elsif ($sessdata->{subcommand} =~ m/password/) {
xCAT::SvrUtils::sendmsg("set password Done", $callback, $sessdata->{node}, %allerrornodes);
}
$sessdata->{subcommand} = shift @{ $sessdata->{extraargs} };
if ($sessdata->{subcommand} and $sessdata->{subcommand} ne '') {
setpassword($sessdata);
}
return;
}
sub setuseraccess {
my $sessdata = shift;
my $channel_number = $sessdata->{ipmisession}->{currentchannel};
unless ($sessdata->{onuserid}) {
return;
}
$sessdata->{setuseraccess} = 0;
my @data = ();
push @data, (0xd0 | $channel_number);
push @data, ($sessdata->{onuserid} - '0');
push @data, 0x04;
push @data, 0;
$sessdata->{ipmisession}->subcmd(netfn => 0x06, command => 0x43, data => \@data, callback => \&password_set, callback_args => $sessdata);
return;
}
sub next_setnetinfo {
my $rsp = shift;
my $sessdata = shift;
&setnetinfo($sessdata);
}
sub setnetinfo {
my $sessdata = shift;
my $subcommand = $sessdata->{subcommand};
my $argument;
($subcommand, $argument) = split(/=/, $subcommand);
my @input = @_;
my $netfun = 0x0c;
my @cmd;
my @returnd = ();
my $error;
my $rc = 0;
my $text;
my $code;
my $match;
my $channel_number = $sessdata->{ipmisession}->{currentchannel};
if ($subcommand eq "snmpdest") {
$subcommand = "snmpdest1";
}
unless (defined($argument)) {
return 0;
}
if ($subcommand eq "thermprofile") {
return idpxthermprofile($argument);
}
if ($subcommand eq "alert" and $argument eq "on" or $argument =~ /^en/ or $argument =~ /^enable/) {
$netfun = 0x4;
@cmd = (0x12, 0x9, 0x1, 0x18, 0x11, 0x00);
} elsif ($subcommand eq "alert" and $argument eq "off" or $argument =~ /^dis/ or $argument =~ /^disable/) {
$netfun = 0x4;
@cmd = (0x12, 0x9, 0x1, 0x10, 0x11, 0x00);
}
elsif ($subcommand eq "garp") {
my $halfsec = $argument * 2; #pop(@input) * 2;
if ($halfsec > 255) {
$halfsec = 255;
}
if ($halfsec < 4) {
$halfsec = 4;
}
@cmd = (0x01, $channel_number, 0x0b, $halfsec);
}
elsif ($subcommand =~ m/community/) {
my $cindex = 0;
my @clist;
foreach (0 .. 17) {
push @clist, 0;
}
foreach (split //, $argument) {
$clist[ $cindex++ ] = ord($_);
}
@cmd = (1, $channel_number, 0x10, @clist);
}
elsif ($subcommand =~ m/snmpdest(\d+)/) {
my $dstip = $argument; #pop(@input);
$dstip = inet_ntoa(inet_aton($dstip));
my @dip = split /\./, $dstip;
@cmd = (0x01, $channel_number, 0x13, $1, 0x00, 0x00, $dip[0], $dip[1], $dip[2], $dip[3], 0, 0, 0, 0, 0, 0);
} elsif ($subcommand =~ m/netmask/) {
if ($argument =~ /\./) {
my @mask = split /\./, $argument;
foreach (0 .. 3) {
$mask[$_] = $mask[$_] + 0;
}
@cmd = (0x01, $channel_number, 0x6, @mask);
}
} elsif ($subcommand =~ m/gateway/ and $argument) {
my $gw = inet_ntoa(inet_aton($argument));
my @mask = split /\./, $gw;
foreach (0 .. 3) {
$mask[$_] = $mask[$_] + 0;
}
@cmd = (0x01, $channel_number, 12, @mask);
} elsif ($subcommand =~ m/vlan/) {
unless ( int($argument) == $argument ) {
$callback->({ errorcode => [1], error => ["The input $argument is invalid, please input an integer"] });
return;
}
unless (($argument>=1) && ($argument<=4096)) {
$callback->({ errorcode => [1], error => ["The input $argument is invalid, valid value [1-4096]"] });
return;
}
my @vlanparam = ();
$vlanparam[0] = ($argument & 0xff);
$vlanparam[1] = 0x80 | (($argument & 0xf00) >> 8);
@cmd = (0x01, $channel_number, 0x14, @vlanparam);
} elsif ($subcommand =~ m/ip/ and $argument =~ m/dhcp/) {
@cmd = (0x01, $channel_number, 0x4, 0x2);
} elsif ($subcommand =~ m/ip/) {
# Need to set ipsrc to static for IBM POWER S822LC and S812LC
if (exists($sessdata->{netinfo_setinprogress})) {
unless ($sessdata->{set_ipsrc_static}) {
$sessdata->{set_ipsrc_static} = 1;
$sessdata->{ipmisession}->subcmd(netfn => $netfun, command => 0x01, data => [ $channel_number, 0x04, 0x1 ], callback => \&next_setnetinfo, callback_args => $sessdata);
return;
}
}
my $mip = inet_ntoa(inet_aton($argument));
my @mask = split /\./, $mip;
foreach (0 .. 3) {
$mask[$_] = $mask[$_] + 0;
}
@cmd = (0x01, $channel_number, 0x3, @mask);
}
#elsif($subcommand eq "alert" ) {
# my $action=pop(@input);
# # print "action=$action\n";
# $netfun=0x28; #TODO: not right
# # mapping alert action to number
# my $act_number=8;
# if ($action eq "on") {$act_number=8;}
# elsif ($action eq "off") { $act_number=0;}
# else { return(1,"unsupported alert action $action");}
# @cmd = (0x12, $channel_number,0x09, 0x01, $act_number+16, 0x11,0x00);
#}
else {
return (1, "configuration of $subcommand is not implemented currently");
}
unless ($sessdata->{netinfo_setinprogress}) {
$sessdata->{netinfo_setinprogress} = '1';
$sessdata->{ipmisession}->subcmd(netfn => $netfun, command => 0x01, data => [ $channel_number, 0x0, 0x1 ], callback => \&next_setnetinfo, callback_args => $sessdata);
return;
}
my $command = shift @cmd;
$sessdata->{ipmisession}->subcmd(netfn => $netfun, command => $command, data => \@cmd, callback => \&netinfo_set, callback_args => $sessdata);
}
sub netinfo_set {
my $rsp = shift;
my $sessdata = shift;
if ($sessdata->{netinfo_setinprogress}) {
my $channel_number = $sessdata->{ipmisession}->{currentchannel};
delete $sessdata->{netinfo_setinprogress};
$sessdata->{rsp}->{error} = $rsp->{error};
$sessdata->{rsp}->{code} = $rsp->{code};
$sessdata->{ipmisession}->subcmd(netfn => 0x0c, command => 0x01, data => [ $channel_number, 0x0, 0x0 ], callback => \&netinfo_set, callback_args => $sessdata);
} else {
$rsp = $sessdata->{rsp};
}
if ($rsp->{error}) {
xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
if ($rsp->{code}) {
if ($codes{ $rsp->{code} }) {
xCAT::SvrUtils::sendmsg([ 1, $codes{ $rsp->{code} } ], $callback, $sessdata->{node}, %allerrornodes);
} else {
xCAT::SvrUtils::sendmsg([ 1, sprintf("Unknown ipmi error %02xh", $rsp->{code}) ], $callback, $sessdata->{node}, %allerrornodes);
}
return;
}
if ($sessdata->{subcommand} =~ m/^ip=dhcp/) {
$sessdata->{subcommand} = shift @{ $sessdata->{extraargs} };
if (!defined($sessdata->{subcommand}) or $sessdata->{subcommand} eq '') {
return;
}
}
getnetinfo($sessdata);
return;
}
sub getnetinfo {
my $sessdata = shift;
my $subcommand = $sessdata->{subcommand};
my $channel_number = $sessdata->{ipmisession}->{currentchannel};
$subcommand =~ s/=.*//;
if ($subcommand eq "thermprofile") {
my $code;
my @returnd;
my $thermdata;
my $netfun = 0x2e << 2; #currently combined netfun & lun, to be simplified later
my @cmd = (0x41, 0x4d, 0x4f, 0x00, 0x6f, 0xff, 0x61, 0x00);
my @bytes;
my $error = docmd($netfun, \@cmd, \@bytes);
@bytes = splice @bytes, 16;
my $validprofiles = "";
foreach (keys %idpxthermprofiles) {
if (sprintf("%02x %02x %02x %02x %02x %02x %02x", @bytes) eq sprintf("%02x %02x %02x %02x %02x %02x %02x", @{ $idpxthermprofiles{$_} })) {
$validprofiles .= "$_,";
}
}
if ($validprofiles) {
chop($validprofiles);
return (0, "The following thermal profiles are in effect: " . $validprofiles);
}
return (1, sprintf("Unable to identify current thermal profile: \"%02x %02x %02x %02x %02x %02x %02x\"", @bytes));
}
my @cmd;
my @returnd = ();
my $error;
my $rc = 0;
my $text;
my $code;
if ($subcommand eq "snmpdest") {
$subcommand = "snmpdest1";
}
my $netfun = 0x0c;
if ($subcommand eq "alert") {
$netfun = 0x4;
@cmd = (0x13, 9, 1, 0);
}
elsif ($subcommand eq "garp") {
@cmd = (0x02, $channel_number, 0x0b, 0x00, 0x00);
}
elsif ($subcommand =~ m/^snmpdest(\d+)/) {
@cmd = (0x02, $channel_number, 0x13, $1, 0x00);
}
elsif ($subcommand eq "vlan") {
@cmd = (0x02, $channel_number, 0x14, 0x00, 0x00);
}
elsif ($subcommand eq "ip") {
@cmd = (0x02, $channel_number, 0x03, 0x00, 0x00);
}
elsif ($subcommand eq "netmask") {
@cmd = (0x02, $channel_number, 0x06, 0x00, 0x00);
}
elsif ($subcommand eq "gateway") {
@cmd = (0x02, $channel_number, 0x0C, 0x00, 0x00);
}
elsif ($subcommand eq "backupgateway") {
@cmd = (0x02, $channel_number, 0x0E, 0x00, 0x00);
}
elsif ($subcommand eq "community") {
@cmd = (0x02, $channel_number, 0x10, 0x00, 0x00);
}
else {
return (1, "unsupported command getnetinfo $subcommand");
}
my $command = shift @cmd;
$sessdata->{ipmisession}->subcmd(netfn => $netfun, command => $command, data => \@cmd, callback => \&getnetinfo_response, callback_args => $sessdata);
}
sub getnetinfo_response {
my $rsp = shift;
my $sessdata = shift;
my $subcommand = $sessdata->{subcommand};
$subcommand =~ s/=.*//;
$sessdata->{subcommand} = shift @{ $sessdata->{extraargs} };
if ($rsp->{error}) {
xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
if ($rsp->{code}) {
if ($codes{ $rsp->{code} }) {
xCAT::SvrUtils::sendmsg([ 1, $codes{ $rsp->{code} } ], $callback, $sessdata->{node}, %allerrornodes);
} else {
xCAT::SvrUtils::sendmsg([ 1, sprintf("Unknown ipmi error %02xh", $rsp->{code}) ], $callback, $sessdata->{node}, %allerrornodes);
}
return;
}
if ($subcommand eq "snmpdest") {
$subcommand = "snmpdest1";
}
my $bmcifo = "";
if ($sessdata->{bmcnum} != 1) { $bmcifo .= " on BMC " . $sessdata->{bmcnum}; }
my @returnd = (0, @{ $rsp->{data} });
my $format = "%-25s";
if ($subcommand eq "garp") {
my $code = $returnd[2] / 2;
xCAT::SvrUtils::sendmsg(sprintf("$format %d", "Gratuitous ARP seconds:", $code), $callback, $sessdata->{node}, %allerrornodes);
}
elsif ($subcommand eq "alert") {
if ($returnd[3] & 0x8) {
xCAT::SvrUtils::sendmsg("SP Alerting: enabled" . $bmcifo, $callback, $sessdata->{node}, %allerrornodes);
} else {
xCAT::SvrUtils::sendmsg("SP Alerting: disabled" . $bmcifo, $callback, $sessdata->{node}, %allerrornodes);
}
}
elsif ($subcommand =~ m/^snmpdest(\d+)/) {
xCAT::SvrUtils::sendmsg(sprintf("$format %d.%d.%d.%d" . $bmcifo,
"SP SNMP Destination $1:",
$returnd[5],
$returnd[6],
$returnd[7],
$returnd[8]), $callback, $sessdata->{node}, %allerrornodes);
} elsif ($subcommand eq "vlan") {
if (($returnd[3] >> 7) & 0x01) {
xCAT::SvrUtils::sendmsg(sprintf("$format %d" . $bmcifo,
"BMC VLAN ID enabled:",
(($returnd[3] & 0x0f) << 8) | $returnd[2]), $callback, $sessdata->{node}, %allerrornodes);
} else {
xCAT::SvrUtils::sendmsg("BMC VLAN disabled" . $bmcifo, $callback, $sessdata->{node}, %allerrornodes);
}
} elsif ($subcommand eq "ip") {
xCAT::SvrUtils::sendmsg(sprintf("$format %d.%d.%d.%d" . $bmcifo,
"BMC IP:",
$returnd[2],
$returnd[3],
$returnd[4],
$returnd[5]), $callback, $sessdata->{node}, %allerrornodes);
} elsif ($subcommand eq "netmask") {
xCAT::SvrUtils::sendmsg(sprintf("$format %d.%d.%d.%d" . $bmcifo,
"BMC Netmask:",
$returnd[2],
$returnd[3],
$returnd[4],
$returnd[5]), $callback, $sessdata->{node}, %allerrornodes);
} elsif ($subcommand eq "gateway") {
xCAT::SvrUtils::sendmsg(sprintf("$format %d.%d.%d.%d" . $bmcifo,
"BMC Gateway:",
$returnd[2],
$returnd[3],
$returnd[4],
$returnd[5]), $callback, $sessdata->{node}, %allerrornodes);
} elsif ($subcommand eq "backupgateway") {
xCAT::SvrUtils::sendmsg(sprintf("$format %d.%d.%d.%d" . $bmcifo,
"BMC Backup Gateway:",
$returnd[2],
$returnd[3],
$returnd[4],
$returnd[5]), $callback, $sessdata->{node}, %allerrornodes);
} elsif ($subcommand eq "community") {
my $text = sprintf("$format ", "SP SNMP Community:");
my $l = 2;
while ($returnd[$l] ne 0) {
$l = $l + 1;
}
my $i = 2;
while ($i < $l) {
$text = $text . sprintf("%c", $returnd[$i]);
$i = $i + 1;
}
$text .= $bmcifo;
xCAT::SvrUtils::sendmsg($text, $callback, $sessdata->{node}, %allerrornodes);
}
if ($sessdata->{subcommand}) {
if ($sessdata->{subcommand} =~ /=/) {
setnetinfo($sessdata);
} else {
getnetinfo($sessdata);
}
}
return;
}
sub setboot {
my $sessdata = shift;
#This disables the 60 second timer
$sessdata->{ipmisession}->subcmd(netfn => 0, command => 8, data => [ 3, 8 ], callback => \&setboot_timerdisabled, callback_args => $sessdata);
}
sub setboot_timerdisabled {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) {
xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
if ($rsp->{code}) {
if ($codes{ $rsp->{code} }) {
xCAT::SvrUtils::sendmsg([ 1, $codes{ $rsp->{code} } ], $callback, $sessdata->{node}, %allerrornodes);
return;
} elsif ($rsp->{code} == 0x80) {
#xCAT::SvrUtils::sendmsg("Unable to disable countdown timer, boot device may revert in 60 seconds",$callback,$sessdata->{node},%allerrornodes);
} else {
xCAT::SvrUtils::sendmsg([ 1, sprintf("Unknown ipmi error %02xh", $rsp->{code}) ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
}
my $subcommand = undef;
if (@{ $sessdata->{extraargs} }) {
$subcommand = @{ $sessdata->{extraargs} }[0];
}
if (!defined($subcommand) or $subcommand =~ m/^stat/) {
setboot_stat("NOQUERY", $sessdata);
return;
} elsif ($subcommand !~ /net|hd|cd|floppy|def|setup/) {
xCAT::SvrUtils::sendmsg([ 1, "unsupported command setboot $subcommand" ], $callback, $sessdata->{node}, %allerrornodes);
} else {
$sessdata->{ipmisession}->subcmd(netfn => 0, command => 8, data => [ 0, 1 ], callback => \&setboot_setstart, callback_args => $sessdata);
}
}
sub setboot_setstart {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{code}) {
if ($codes{ $rsp->{code} }) {
xCAT::SvrUtils::sendmsg([ 1, $codes{ $rsp->{code} } ], $callback, $sessdata->{node}, %allerrornodes);
return;
} elsif ($rsp->{code} == 0x80) {
xCAT::SvrUtils::sendmsg("Unable to set boot param", $callback, $sessdata->{node}, %allerrornodes);
return;
} elsif ($rsp->{code} == 0x81) {
xCAT::SvrUtils::sendmsg("Attemp to set the 'set in process' value", $callback, $sessdata->{node}, %allerrornodes);
}
}
my $error;
@ARGV = @{ $sessdata->{extraargs} };
my $persistent = 0;
my $uefi = 0;
use Getopt::Long;
unless (GetOptions(
'p' => \$persistent,
'u' => \$uefi,
)) {
xCAT::SvrUtils::sendmsg([ 1, "Error parsing arguments" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
my $subcommand = shift @ARGV;
my @cmd;
my $overbootflags = 0x80 | $persistent << 6 | $uefi << 5;
if ($subcommand eq "net") {
@cmd = (0x5, $overbootflags, 0x4, 0x0, 0x0, 0x0);
}
elsif ($subcommand eq "hd") {
@cmd = (0x5, $overbootflags, 0x8, 0x0, 0x0, 0x0);
}
elsif ($subcommand eq "cd") {
@cmd = (0x5, $overbootflags, 0x14, 0x0, 0x0, 0x0);
}
elsif ($subcommand eq "floppy") {
@cmd = (0x5, $overbootflags, 0x3c, 0x0, 0x0, 0x0);
}
elsif ($subcommand =~ m/^def/) {
@cmd = (0x5, 0x0, 0x0, 0x0, 0x0, 0x0);
}
elsif ($subcommand eq "setup") { #Not supported by BMCs I've checked so far..
@cmd = (0x5, $overbootflags, 0x18, 0x0, 0x0, 0x0);
}
elsif ($subcommand =~ m/^stat/) {
setboot_stat("NOQUERY", $sessdata);
return;
}
else {
xCAT::SvrUtils::sendmsg([ 1, "unsupported command setboot $subcommand" ], $callback, $sessdata->{node}, %allerrornodes);
}
$sessdata->{ipmisession}->subcmd(netfn => 0, command => 8, data => \@cmd, callback => \&setboot_done, callback_args => $sessdata);
}
sub setboot_done {
my $rsp = shift;
my $sessdata = shift;
if (ref $rsp) {
if ($rsp->{error}) { xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes); }
elsif ($rsp->{code}) {
if ($codes{ $rsp->{code} }) {
xCAT::SvrUtils::sendmsg([ 1, $codes{ $rsp->{code} } ], $callback, $sessdata->{node}, %allerrornodes);
} else {
xCAT::SvrUtils::sendmsg([ 1, sprintf("setboot_stat Unknown ipmi error %02xh", $rsp->{code}) ], $callback, $sessdata->{node}, %allerrornodes);
}
return;
}
}
$sessdata->{ipmisession}->subcmd(netfn => 0, command => 8, data => [ 0, 0 ], callback => \&setboot_stat, callback_args => $sessdata);
}
sub setboot_stat {
my $rsp = shift;
my $sessdata = shift;
if (ref $rsp) {
if ($rsp->{error}) { xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes); }
elsif ($rsp->{code}) {
if ($codes{ $rsp->{code} }) {
xCAT::SvrUtils::sendmsg([ 1, $codes{ $rsp->{code} } ], $callback, $sessdata->{node}, %allerrornodes);
} else {
xCAT::SvrUtils::sendmsg([ 1, sprintf("Unknown ipmi error %02xh", $rsp->{code}) ], $callback, $sessdata->{node}, %allerrornodes);
}
return;
}
}
$sessdata->{ipmisession}->subcmd(netfn => 0, command => 9, data => [ 5, 0, 0 ], callback => \&setboot_gotstat, callback_args => $sessdata);
}
sub setboot_gotstat {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) { xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes); }
elsif ($rsp->{code}) {
if ($codes{ $rsp->{code} }) {
xCAT::SvrUtils::sendmsg([ 1, $codes{ $rsp->{code} } ], $callback, $sessdata->{node}, %allerrornodes);
} else {
xCAT::SvrUtils::sendmsg([ 1, sprintf("Unknown ipmi error %02xh", $rsp->{code}) ], $callback, $sessdata->{node}, %allerrornodes);
}
return;
}
my %bootchoices = (
0 => 'BIOS default',
1 => 'Network',
2 => 'Hard Drive',
5 => 'CD/DVD',
6 => 'BIOS Setup',
15 => 'Floppy'
);
my @returnd = ($rsp->{code}, @{ $rsp->{data} });
unless ($returnd[3] & 0x80) {
xCAT::SvrUtils::sendmsg("boot override inactive", $callback, $sessdata->{node}, %allerrornodes);
return;
}
my $boot = ($returnd[4] & 0x3C) >> 2;
xCAT::SvrUtils::sendmsg($bootchoices{$boot}, $callback, $sessdata->{node}, %allerrornodes);
return;
}
sub idpxthermprofile {
#iDataplex thermal profiles as of 6/10/2008
my $subcommand = lc(shift);
my @returnd;
my $netfun = 0xb8;
my @cmd = (0x41, 0x4d, 0x4f, 0x00, 0x6f, 0xfe, 0x60, 0, 0, 0, 0, 0, 0, 0, 0xff);
if ($idpxthermprofiles{$subcommand}) {
push @cmd, @{ $idpxthermprofiles{$subcommand} };
} else {
return (1, "Not an understood thermal profile, expected a 2 hex digit value corresponding to chassis label on iDataplex server");
}
docmd(
$netfun,
\@cmd,
\@returnd
);
return (0, "OK");
}
sub is_systemx {
my $sessdata = shift;
return ($sessdata->{mfg_id} == 20301 or $sessdata->{mfg_id} == 2 or $sessdata->{mfg_id} == 19046);
}
sub getrvidparms {
my $sessdata = shift;
unless ($sessdata) { die "not fixed yet" }
#check devide id
if ($sessdata->{mfg_id} == 20301 and $sessdata->{prod_id} == 220) {
my $browser = LWP::UserAgent->new();
my $message = "WEBVAR_USERNAME=" . $sessdata->{ipmisession}->{userid} . "&WEBVAR_PASSWORD=" . $sessdata->{ipmisession}->{password};
$browser->cookie_jar({});
my $baseurl = "https://" . $sessdata->{ipmisession}->{bmc} . "/";
my $response = $browser->request(GET $baseurl. "rpc/WEBSES/validate.asp");
$response = $browser->request(POST $baseurl. "rpc/WEBSES/create.asp", 'Content-Type' => "application/x-www-form-urlencoded", Content => $message);
$response = $response->content;
if ($response and $response =~ /SESSION_COOKIE' : '([^']*)'/) {
foreach (keys %{ $browser->cookie_jar->{COOKIES} }) {
$browser->cookie_jar()->set_cookie(1, "SessionCookie", $1, "/", $_);
}
}
$response = $browser->request(GET $baseurl. "/Java/jviewer.jnlp?ext_ip=" . $sessdata->{ipmisession}->{bmc});
$response = $response->content;
xCAT::SvrUtils::sendmsg("method:imm", $callback, $sessdata->{node}, %allerrornodes);
xCAT::SvrUtils::sendmsg("jnlp:$response", $callback, $sessdata->{node}, %allerrornodes);
return;
}
unless ($sessdata->{mfg_id} == 2 or $sessdata->{mfg_id} == 01) { #Only implemented for IBM servers
xCAT::SvrUtils::sendmsg([ 1, "Remote video is not supported on this system" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
#TODO: use get bmc capabilities to see if rvid is actually supported before bothering the client java app
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 0x50, data => [], callback => \&getrvidparms_with_buildid, callback_args => $sessdata);
}
sub check_rsp_errors { #TODO: pass in command-specfic error code translation table
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) { #non ipmi error
xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes);
return 1;
}
if ($rsp->{code}) { #ipmi error
if ($codes{ $rsp->{code} }) {
xCAT::SvrUtils::sendmsg([ 1, $codes{ $rsp->{code} } ], $callback, $sessdata->{node}, %allerrornodes);
} else {
xCAT::SvrUtils::sendmsg([ 1, sprintf("Unknown error code %02xh", $rsp->{code}) ], $callback, $sessdata->{node}, %allerrornodes);
}
return 1;
}
return 0;
}
sub getrvidparms_imm2 {
my $rsp = shift;
my $sessdata = shift;
#wvid should be a possiblity, time to do the http...
$ENV{PERL_LWP_SSL_VERIFY_HOSTNAME} = 0; #TODO: for standalone IMMs, automate CSR retrieval and granting at setup itme
#for flex, grab the CA from each CMM and store in a way accessible to this command
#for now, accept the MITM risk no worse than http, the intent being feature parity
#with http: for envs with https only, like Flex
my $browser = LWP::UserAgent->new();
if ($sessdata->{ipmisession}->{bmc} =~ /^fe80/ and $sessdata->{ipmisession}->{bmc} =~ /%/) {
xCAT::SvrUtils::sendmsg([ 1, "wvid not supported with IPv6 LLA addressing mode" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
my $host = $sessdata->{ipmisession}->{bmc};
my $hostname;
($hostname, $host) = xCAT::NetworkUtils->gethostnameandip($host);
my $ip6mode = 0;
if ($host =~ /:/) { $ip6mode = 1; $host = "[" . $host . "]"; }
my $message = "user=" . $sessdata->{ipmisession}->{userid} . "&password=" . $sessdata->{ipmisession}->{password} . "&SessionTimeout=1200";
$browser->cookie_jar({});
my $httpport = 443;
my $baseurl = "https://$host/";
my $response = $browser->request(POST $baseurl. "data/login", Referer => "https://$host/designs/imm/index.php", 'Content-Type' => "application/x-www-form-urlencoded", Content => $message);
if ($response->code == 500) {
$httpport = 80;
$baseurl = "http://$host/";
$response = $browser->request(POST $baseurl. "data/login", Referer => "http://$host/designs/imm/index.php", 'Content-Type' => "application/x-www-form-urlencoded", Content => $message);
}
my $sessionid;
unless ($response->content =~ /\"ok\"?(.*)/ and $response->content =~ /\"authResult\":\"0\"/) {
xCAT::SvrUtils::sendmsg([ 1, "Server returned unexpected data" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
$response = $browser->request(GET $baseurl. "/designs/imm/remote-control.php");
if ($response->content =~ /isRPInstalled\s*=\s*'0'/) {
xCAT::SvrUtils::sendmsg([ 1, "Node does not have feature key for remote video" ], $callback, $sessdata->{node}, %allerrornodes);
$response = $browser->request(GET $baseurl. "data/logout");
return;
}
$response = $browser->request(GET $baseurl. "designs/imm/viewer(" . $host . '@' . $ip6mode . '@' . time() . '@1@0@1@jnlp)');
#arguments are host, then ipv6 or not, then timestamp, then whether to encrypte or not, singleusermode, finally 'notwin32'
my $jnlp = $response->content;
unless ($jnlp) { #ok, might be the newer syntax...
$response = $browser->request(GET $baseurl. "designs/imm/viewer(" . $host . '@' . $httpport . '@' . $ip6mode . '@' . time() . '@1@0@1@jnlp' . '@USERID@0@0@0@0' . ')');
#arguments are host, then ipv6 or not, then timestamp, then whether to encrypte or not, singleusermode, finally 'notwin32'
$jnlp = $response->content;
if ($jnlp =~ /Failed to parse ip format for request/) {
$response = $browser->request(GET $baseurl. "designs/imm/viewer(" . $host . '@' . $httpport . '@' . $ip6mode . '@' . time() . '@1@0@1@jnlp' . '@USERID@0@0@0@0@0' . ')');
#arguments are host, then ipv6 or not, then timestamp, then whether to encrypte or not, singleusermode, 'notwin32', and one more (unknown)
$jnlp = $response->content;
}
}
$response = $browser->request(GET $baseurl. "data/logout");
my $currnode = $sessdata->{node};
$jnlp =~ s!argument>title=.*Video Viewer</argument>!argument>title=$currnode wvid</argument>!;
xCAT::SvrUtils::sendmsg("method:imm", $callback, $sessdata->{node}, %allerrornodes);
xCAT::SvrUtils::sendmsg("jnlp:$jnlp", $callback, $sessdata->{node}, %allerrornodes);
}
sub getrvidparms_with_buildid {
if (check_rsp_errors(@_)) {
return;
}
my $rsp = shift;
my $sessdata = shift;
my @build_id = (0, @{ $rsp->{data} });
if ($build_id[1] == 0x54 and $build_id[2] == 0x43 and $build_id[3] == 0x4f and $build_id[4] == 0x4f) { ##Lenovo IMM2
return getrvidparms_imm2($rsp, $sessdata);
}
if ($build_id[1] == 0x31 and $build_id[2] == 0x41 and $build_id[3] == 0x4f and $build_id[4] == 0x4f) { #Only know how to cope with yuoo builds
return getrvidparms_imm2($rsp, $sessdata);
}
unless ($build_id[1] == 0x59 and $build_id[2] == 0x55 and $build_id[3] == 0x4f and $build_id[4] == 0x4f) { #Only know how to cope with yuoo builds
xCAT::SvrUtils::sendmsg([ 1, "Remote video is not supported on this system" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
#wvid should be a possiblity, time to do the http...
my $browser = LWP::UserAgent->new();
my $message = $sessdata->{ipmisession}->{userid} . "," . $sessdata->{ipmisession}->{password};
$browser->cookie_jar({});
my $baseurl = "http://" . $sessdata->{ipmisession}->{bmc} . "/";
my $response = $browser->request(POST $baseurl. "/session/create", 'Content-Type' => "text/xml", Content => $message);
my $sessionid;
if ($response->content =~ /^ok:?(.*)/) {
$sessionid = $1;
} else {
xCAT::SvrUtils::sendmsg([ 1, "Server returned unexpected data" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
$response = $browser->request(GET $baseurl. "/page/session.html"); #we don't care, but some firmware is confused if we don't
if ($sessionid) {
$response = $browser->request(GET $baseurl. "/kvm/kvm/jnlp?session_id=$sessionid");
} else {
$response = $browser->request(GET $baseurl. "/kvm/kvm/jnlp");
}
my $jnlp = $response->content;
if ($jnlp =~ /This advanced option requires the purchase and installation/) {
xCAT::SvrUtils::sendmsg([ 1, "Node does not have feature key for remote video" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
my $currnode = $sessdata->{node};
$jnlp =~ s!argument>title=.*Video Viewer</argument>!argument>title=$currnode wvid</argument>!;
xCAT::SvrUtils::sendmsg("method:imm", $callback, $sessdata->{node}, %allerrornodes);
xCAT::SvrUtils::sendmsg("jnlp:$jnlp", $callback, $sessdata->{node}, %allerrornodes);
my @cmdargv = @{ $sessdata->{extraargs} };
if (grep /-m/, @cmdargv) {
if ($sessionid) {
$response = $browser->request(GET $baseurl. "/kvm/vm/jnlp?session_id=$sessionid");
} else {
$response = $browser->request(GET $baseurl. "/kvm/vm/jnlp");
}
xCAT::SvrUtils::sendmsg("mediajnlp:" . $response->content, $callback, $sessdata->{node}, %allerrornodes);
}
return;
}
sub ripmi { #implement generic raw ipmi commands
my $sessdata = shift;
my $netfun = hex(shift @{ $sessdata->{extraargs} });
my $command = hex(shift @{ $sessdata->{extraargs} });
my @data;
foreach (@{ $sessdata->{extraargs} }) {
push @data, hex($_);
}
$sessdata->{ipmisession}->subcmd(netfn => $netfun, command => $command, data => \@data, callback => \&ripmi_callback, callback_args => $sessdata);
}
sub ripmi_callback {
if (check_rsp_errors(@_)) {
return;
}
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) {
xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
my $output = sprintf("%02X " x (scalar(@{ $rsp->{data} })), @{ $rsp->{data} });
xCAT::SvrUtils::sendmsg($output, $callback, $sessdata->{node}, %allerrornodes);
}
sub isfpc {
my $sessdata = shift;
return 1
}
sub isopenpower {
my $sessdata = shift;
if ($sessdata->{prod_id} == 43707 and $sessdata->{mfg_id} == 0) {
# mft_id 0 and prod_id 43707 is for Firestone,Minsky
return 1;
} elsif (($sessdata->{prod_id} =~ /^(?:0|2355|2437)$/) and $sessdata->{mfg_id} == 10876) {
# mfg_id 10876 is for IBM Power S822LC for Big Data (Supermicro), prod_id 2355 for B&S, and 0 or 2437 for Boston
return 1;
} else {
return 0;
}
}
sub check_firmware_version {
sub _on_receive_ugp {
my $rsp = shift;
my $sessdta = shift;
shift @{ $rsp->{data} };
return;
}
sub _on_receive_version {
my $rsp = shift;
my $sessdata = shift;
shift @{ $rsp->{data} };
my $c_id = $sessdata->{c_id};
$sessdata->{$c_id} = $rsp->{data};
}
sub _on_receive_component_name {
my $rsp = shift;
my $sessdata = shift;
shift @{ $rsp->{data} };
my $c_id = $sessdata->{c_id};
# Convert ASCII to char
my $format_string = "";
my $ascii_data = $rsp->{data};
for my $i (@${ascii_data}) {
if ($i != 0) {
$format_string = $format_string . chr($i);
}
}
$sessdata->{$c_id} = $format_string;
}
my $sessdata = shift;
my $firmware_version = shift;
my $component_string = shift;
# GET TARGET UPGRADE CAPABILITIES
$sessdata->{ipmisession}->subcmd(netfn => 0x2c, command => 0x2e,
data => [ 0 ],
callback => \&_on_receive_ugp,
callback_args => $sessdata);
while (xCAT::IPMI->waitforrsp()) { yield }
foreach my $c_id (@{ $sessdata->{component_ids} }) {
$sessdata->{c_id} = $c_id;
# Get component property 1 - Current firmware version
$sessdata->{ipmisession}->subcmd(netfn => 0x2c, command => 0x2f,
data => [ 0, $c_id / 2, 1 ],
callback => \&_on_receive_version,
callback_args => $sessdata);
while (xCAT::IPMI->waitforrsp()) { yield }
$firmware_version->{$c_id} = $sessdata->{$c_id};
# Get component property 2 - Component description string
$sessdata->{ipmisession}->subcmd(netfn => 0x2c, command => 0x2f,
data => [ 0, $c_id / 2, 2 ],
callback => \&_on_receive_component_name,
callback_args => $sessdata);
while (xCAT::IPMI->waitforrsp()) { yield }
$component_string->{$c_id} = $sessdata->{$c_id};
}
}
sub get_ipmitool_version {
my $version_ptr = shift;
my $cmd = "$IPMIXCAT -V";
my $output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
$callback->({ error => "Running ipmitool command failed. Error Code: $::RUNCMD_RC",
errorcode => 1 });
return -1;
}
$$version_ptr = (split(/ /, $output))[2];
return 0;
}
#----------------------------------------------------------------#
# Calculate IPMItool Version format:
# Example : 1.8.15 --> 1* 1 0000 0000 + 8 * 0000 0000 + 15
#----------------------------------------------------------------#
sub calc_ipmitool_version {
my $ver_str = shift;
my @vers = split(/\./, $ver_str);
return ord($vers[2]) + ord($vers[1]) * 10000 + ord($vers[0]) * 100000000;
}
#----------------------------------------------------------------#
# Check bmc status:
# Arguments:
# pre_cmd: A string prep cmd like ipmitool-xcat -H
# <bmc_addr> -I lan -U <bmc_userid> -P
# <bmc_password>
# inteval: inteval time to check
# retry: max retry time
# zz_retry: minimum number of 00 to receive before exiting
# sessdata: session data for display
# verbose: verbose output
# use_rc: Some machines, like IBM Power S822LC for Big Data (Supermicro), do not return
# a "00" ready string from calling ipmi raw command. Instead they return RC=0. This
# flag if 1, tells the check_bmc_status_with_ipmitool() to check the RC
# instead of "00" string. If set to 0, the "00" ready string is checked.
# Returns:
# 1 when bmc is up
# 0 when no response from bmc
#----------------------------------------------------------------#
sub check_bmc_status_with_ipmitool {
my $pre_cmd = shift;
my $interval = shift;
my $retry = shift;
my $zz_retry = shift;
my $sessdata = shift;
my $verbose = shift;
my $use_rc = shift;
my $count = 0;
my $zz_count = 0;
my $bmc_response = 0;
my $cmd = $pre_cmd . " raw 0x3a 0x0a";
my $bmc_ready_code = "00";
my $code_type = "ready";
if ($use_rc) {
$cmd = $cmd . " >> /dev/null 2>&1 ; echo \$?";
$bmc_ready_code = "0";
$code_type = "return";
}
# BMC response of " c0" means BMC still running IPL
# BMC response of " 00" means ready to flash
#
# Under certain conditions is it necessary to make sure BMC ready code 00 gets
# returned for several seconds. zz_retry argument is used to control how many iterations
# in the row 00 code is returned. This counter is reset if some other, non 00 code
# interrupts it.
while ($count < $retry) {
$bmc_response = xCAT::Utils->runcmd($cmd, -1);
if ($bmc_response =~ /$bmc_ready_code/) {
if ($zz_count > $zz_retry) {
# zero-zero ready code was received for $zz_count iterations - good to exit
if ($verbose) {
xCAT::SvrUtils::sendmsg("Received BMC $code_type code $bmc_ready_code for $zz_count iterations - BMC is ready.", $callback, $sessdata->{node}, %allerrornodes);
}
return 1;
}
else {
# check to make sure zero-zero is received again
if ($verbose) {
xCAT::SvrUtils::sendmsg("($zz_count) BMC $code_type code - $bmc_ready_code", $callback, $sessdata->{node}, %allerrornodes);
}
$zz_count++;
}
}
else {
if ($zz_count > 0) {
# zero-zero was received before, but now we get something else.
# reset the zero-zero counter to make sure we get $zz_count iterations of zero-zero
if ($verbose) {
xCAT::SvrUtils::sendmsg("Resetting counter because BMC $code_type code - $bmc_response", $callback, $sessdata->{node}, %allerrornodes);
}
$zz_count = 0;
}
}
sleep($interval);
$count++;
}
if ($verbose) {
xCAT::SvrUtils::sendmsg("Never received $code_type code $bmc_ready_code after $count retries - BMC not ready.", $callback, $sessdata->{node}, %allerrornodes);
}
return 0;
}
#----------------------------------------------------------------#
# Wait for OS to reboot by checking "nodestat" to be "sshd" :
# Arguments:
# initial_sleep: seconds to sleep before checking loop start
# inteval: inteval time to check
# retry: max retry time
# sessdata: session data for display
# verbose: verbose output
# Returns:
# 1 when OS is up
# 0 when no response of "sshd" from OS
#----------------------------------------------------------------#
sub wait_for_os_to_reboot {
my $initial_sleep = shift;
my $interval = shift;
my $retry = shift;
my $sessdata = shift;
my $verbose = shift;
my $cmd;
my $output;
if ($verbose) {
xCAT::SvrUtils::sendmsg("Sleeping for a few min waiting for node to power on before attempting to continue", $callback, $sessdata->{node}, %allerrornodes);
}
sleep($initial_sleep); # sleep initially for $initial_sleep seconds for node to reboot
# Start testing every $interval sec for node to be booted. Give up after $retry times.
foreach (1..$retry) {
# Test node is booted in to OS
$cmd = "nodestat $sessdata->{node} | /usr/bin/grep sshd";
$output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC == 0) {
# Node is ready to retry an upgrage
if ($verbose) {
xCAT::SvrUtils::sendmsg("Detected node booted. Will retry upgrade", $callback, $sessdata->{node}, %allerrornodes);
}
return 1; #Node booted
}
else {
# Still not booted, wait for $interval sec and try again
if ($verbose) {
$cmd = "nodestat $sessdata->{node}";
$output = xCAT::Utils->runcmd($cmd, -1);
my ($nodename, $state) = split(/:/, $output);
xCAT::SvrUtils::sendmsg("($_) Node still not ready. Current state - $state, test again in $interval sec.", $callback, $sessdata->{node}, %allerrornodes);
}
sleep($interval);
}
}
return 0; #Node did not boot after requested delay
}
sub do_firmware_update {
my $sessdata = shift;
my $ret;
my $ipmitool_ver;
my $verbose = 0;
my $retry = 2;
my $verbose_opt;
my $is_firestone = 0;
my $firestone_update_version;
my $htm_update_version;
my $pUpdate_directory;
$ret = get_ipmitool_version(\$ipmitool_ver);
exit $ret if $ret < 0;
# Update node status to indicate firmware update started
my $set_fw_update_status_func = sub {
my ($node, $callback) = @_;
my $status = "updating firmware";
my $nodelist_table = xCAT::Table->new('nodelist');
if (!$nodelist_table) {
xCAT::MsgUtils->message("S", "Unable to open nodelist table, denying");
} else {
$nodelist_table->setNodeAttribs($node, { status => $status });
$nodelist_table->close();
}
return;
};
my $exit_with_error_func = sub {
my ($node, $callback, $message) = @_;
my $status = "failed to update firmware";
my $nodelist_table = xCAT::Table->new('nodelist');
if (!$nodelist_table) {
xCAT::MsgUtils->message("S", "Unable to open nodelist table, denying");
} else {
$nodelist_table->setNodeAttribs($node, { status => $status });
$nodelist_table->close();
}
xCAT::MsgUtils->message("S", $node.": ".$message);
$callback->({ error => "$node: $message", errorcode => 1 });
exit -1;
};
my $exit_with_success_func = sub {
my ($node, $callback, $message) = @_;
my $status = "success updating firmware";
my $nodelist_table = xCAT::Table->new('nodelist');
if (!$nodelist_table) {
xCAT::MsgUtils->message("S", "Unable to open nodelist table, denying");
} else {
$nodelist_table->setNodeAttribs($node, { status => $status });
$nodelist_table->close();
}
xCAT::MsgUtils->message("S", $node.": ".$message);
$callback->({ data => "$node: $message" });
exit 0;
};
# only 1.8.15 or above support hpm update for firestone machines.
if (calc_ipmitool_version($ipmitool_ver) < calc_ipmitool_version("1.8.15")) {
$callback->({ error => "IPMITool $ipmitool_ver do not support firmware update for " .
"firestone machines, please setup IPMITool 1.8.15 or above.",
errorcode => 1 });
exit -1;
}
my $output;
my $bmc_addr = $sessdata->{ipmisession}->{bmc};
my $bmc_userid = $sessdata->{ipmisession}->{userid};
my $bmc_password = undef;
if (defined($sessdata->{ipmisession}->{password})) {
$bmc_password = $sessdata->{ipmisession}->{password};
}
my $hpm_file = $sessdata->{extraargs}->[0];
if ($hpm_file !~ /^\//) {
$hpm_file = xCAT::Utils->full_path($hpm_file, $::cwd);
}
my $rflash_log_file = xCAT::Utils->full_path($sessdata->{node}.".log", RFLASH_LOG_DIR);
# NOTE (chenglch) lanplus should be used for the task of hpm update
# which indicate the bmc support ipmi protocol version 2.0.
my $pre_cmd = "$IPMIXCAT -H $bmc_addr -I lanplus -U $bmc_userid";
if ($bmc_password) {
$pre_cmd = $pre_cmd . " -P $bmc_password";
}
#Update node status
$set_fw_update_status_func->($sessdata->{node}, $callback);
# check for 8335-GTB Model Type to adjust buffer size
my $buffer_size = "30000";
my $cmd = $pre_cmd . " fru print 3";
$output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Running ipmitool command $cmd failed: $output");
}
if ($output =~ /8335-GTB/) {
$buffer_size = "15000";
}
my $directory_name;
if (@{ $sessdata->{extraargs} } > 1) {
@ARGV = @{ $sessdata->{extraargs} };
use Getopt::Long;
GetOptions('d:s' => \$directory_name);
}
# check verbose, buffersize, and retry options
for my $opt (@{$sessdata->{'extraargs'}}) {
if ($opt =~ /-V{1,4}/) {
$verbose_opt = lc($opt);
$verbose = 1;
}
if ($opt =~ /buffersize=/) {
my ($attribute, $buffer_value) = split(/=/, $opt);
if ($buffer_value) {
# buffersize option was passed in, reset the default if valid
if (looks_like_number($buffer_value) and $buffer_value > 0) {
$buffer_size = $buffer_value;
}
else {
$exit_with_error_func->($sessdata->{node}, $callback,
"Invalid buffer size value $buffer_value");
}
}
}
if ($opt =~ /retry=/) {
my ($attribute, $retry_value) = split(/=/, $opt);
if (defined $retry_value) {
# retry option was passed in, reset the default if valid
if (looks_like_number($retry_value) and $retry_value >= 0) {
$retry = $retry_value;
}
else {
$exit_with_error_func->($sessdata->{node}, $callback,
"Invalid retry value $retry_value");
}
}
}
}
# For IBM Power S822LC for Big Data (Supermicro) machines such as
# P9 Boston (9006-22C, 9006-12C, 5104-22C) or P8 Briggs (8001-22C)
# firmware update is done using pUpdate utility expected to be in the
# specified data directory along with the update files .bin for BMC or .pnor for Host
if ($output =~ /$BIG_DATA_MACHINE_MODELS/) {
# Verify valid data directory was specified
if (defined $directory_name) {
unless (File::Spec->file_name_is_absolute($directory_name)) {
# Directory name was passed in as relative path, prepend current working dir
$directory_name = xCAT::Utils->full_path($directory_name, $::cwd);
}
# directory was passed in, verify it is valid
if (-d $directory_name) {
# Passed in directory name exists
$pUpdate_directory = $directory_name;
}
else {
$exit_with_error_func->($sessdata->{node}, $callback, "Can not access data directory $directory_name");
}
}
else {
$exit_with_error_func->($sessdata->{node}, $callback, "Directory name is required to update IBM Power S822LC for Big Data machines.");
}
# Verify specified directory contains pUpdate utility
unless (-e "$pUpdate_directory/pUpdate") {
$exit_with_error_func->($sessdata->{node}, $callback,
"Can not find pUpdate utility in data directory $pUpdate_directory.");
}
# Verify specified directory contains executable pUpdate utility
unless (-x "$pUpdate_directory/pUpdate") {
$exit_with_error_func->($sessdata->{node}, $callback,
"Execute permission is not set for pUpdate utility in data directory $pUpdate_directory.");
}
# Verify there is at least one of update files inside data directory - .bin or .pnor
my @pnor_files = <"$pUpdate_directory/*.pnor">; # Get a list of all .pnor files
my @bmc_files = <"$pUpdate_directory/*.bin">; # Get a list of all .bin files
if (scalar(@pnor_files) > 1) {
# Error if more than one .pnor file in data directory
$exit_with_error_func->($sessdata->{node}, $callback,
"Multiple Host update files detected in data directory $pUpdate_directory.");
}
if (scalar(@bmc_files) > 1) {
# Error if more than one .bin file in data directory
$exit_with_error_func->($sessdata->{node}, $callback,
"Multiple BMC update files detected in data directory $pUpdate_directory.");
}
my $pnor_file;
if (scalar(@pnor_files) > 0) {
$pnor_file = $pnor_files[0];
}
my $bmc_file;
if (scalar(@bmc_files) > 0) {
$bmc_file = $bmc_files[0];
}
# At least one update file is needed, .bmc or .pnor
unless ($pnor_file || $bmc_file) {
$exit_with_error_func->($sessdata->{node}, $callback,
"At least one update file (.bin or .pnor) needs to be in data directory $pUpdate_directory.");
}
xCAT::MsgUtils->message("S", "The PUPDATE options: UPDATE_BMC=$PUPDATE_UPDATE_BMC and UPDATE_PNOR=$PUPDATE_UPDATE_PNOR");
# All checks are done, run pUpdate utility on each of the update files found in
# the specified data directory
xCAT::SvrUtils::sendmsg("rflash started, Please wait...", $callback, $sessdata->{node});
# step 1 power off
$cmd = $pre_cmd . " chassis power off";
if ($verbose) {
xCAT::SvrUtils::sendmsg("Preparing to upgrade firmware, powering chassis off...", $callback, $sessdata->{node}, %allerrornodes);
}
$output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Running ipmitool command $cmd failed: $output");
}
unless (check_bmc_status_with_ipmitool($pre_cmd, 5, 10, 2, $sessdata, $verbose, 1)) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Timeout to check the bmc status");
}
# step 2 update BMC file or Host file, or both
if ($bmc_file and $PUPDATE_UPDATE_BMC) {
# BMC file was found in data directory, run update with it
my $pUpdate_bmc_cmd = "$pUpdate_directory/pUpdate -f $bmc_file -i lan -h $bmc_addr -u $bmc_userid -p $bmc_password >".$rflash_log_file." 2>&1";
if ($verbose) {
xCAT::SvrUtils::sendmsg([ 0,
"rflashing BMC, see the detail progress :\"tail -f $rflash_log_file\"" ],
$callback, $sessdata->{node});
}
my $output = xCAT::Utils->runcmd($pUpdate_bmc_cmd, -1);
if ($::RUNCMD_RC != 0) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Error running command $pUpdate_bmc_cmd");
}
# Wait for BMC to reboot before continuing to next step.
# Since this is a IBM Power S822LC for Big Data (Supermicro) machine, use RC to check if ready
unless (check_bmc_status_with_ipmitool($pre_cmd, 5, 60, 10, $sessdata, $verbose, 1)) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Timeout to check the bmc status");
}
}
if ($pnor_file and $PUPDATE_UPDATE_PNOR) {
# Host file was found in data directory, run update with it
my $pUpdate_pnor_cmd = "$pUpdate_directory/pUpdate -pnor $pnor_file -i lan -h $bmc_addr -u $bmc_userid -p $bmc_password >>".$rflash_log_file." 2>&1";
if ($verbose) {
xCAT::SvrUtils::sendmsg([ 0,
"rflashing Host, see the detail progress :\"tail -f $rflash_log_file\"" ],
$callback, $sessdata->{node});
}
my $output = xCAT::Utils->runcmd($pUpdate_pnor_cmd, -1);
if ($::RUNCMD_RC != 0) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Error running command $pUpdate_pnor_cmd");
}
}
# step 3 power on
$cmd = $pre_cmd . " chassis power on";
$output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Running ipmitool command $cmd failed: $output");
}
$exit_with_success_func->($sessdata->{node}, $callback, "Firmware updated, powering chassis on to populate FRU information...");
} else {
# The target machine is *NOT* IBM Power S822LC for Big Data (Supermicro)
# Only .hpm files is supported for such machine, no directory option is supported
if (defined $directory_name and $output =~ /Chassis Part Number\s*:\s*(\S*)/) {
my $model = $1;
$exit_with_error_func->($sessdata->{node}, $callback, "Flashing of $model is not supported with pUpdate, supported Model Types: $BIG_DATA_MACHINE_MODELS");
}
}
# If we fall through here, it is *NOT* IBM Power S822LC for Big Data (Supermicro) and we expact some data in hpm_data_hash.
# Verify hpm_data_hash has some values
if (!exists($hpm_data_hash{deviceID})
|| !exists($hpm_data_hash{manufactureID})
|| !exists($hpm_data_hash{productID})) {
$exit_with_error_func->($sessdata->{node}, $callback, "Extract data from .hpm update file failed, no deviceID, productID or manufactureID got");
} elsif (($hpm_data_hash{deviceID} ne $sessdata->{device_id}) ||
($hpm_data_hash{productID} ne $sessdata->{prod_id}) ||
($hpm_data_hash{manufactureID} ne $sessdata->{mfg_id})) {
$exit_with_error_func->($sessdata->{node}, $callback, "The image file doesn't match target machine: \n$output");
}
# check for 8335-GTB Firmware above 1610A release. If below, exit
if ($output =~ /8335-GTB/) {
$cmd = $pre_cmd . " fru print 47";
$output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Running ipmitool command $cmd failed: $output");
}
my $grs_version = $output =~ /OP8_.*v(\d*\.\d*_\d*\.\d*)/;
if ($grs_version =~ /\d\.(\d+)_(\d+\.\d+)/) {
my $prim_grs_version = $1;
my $sec_grs_version = $2;
if ($prim_grs_version <= 7 && $sec_grs_version < 2.55) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Error: Current firmware level OP8v_$grs_version requires one-time manual update to at least version OP8v_1.7_2.55");
}
}
}
# For Firestone the update from 810 to 820 or from 820 to 810 needs to be done in 3 steps
# instead of usual one.
if ($output =~ /8335-GCA|8335-GTA/) {
$is_firestone = 1;
$cmd = $pre_cmd . " fru print 47";
$output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Running ipmitool command $cmd failed: $output");
}
# Check what firmware version is currently running on the machine
if ($output =~ /OP8_.*v\d\.\d+_(\d+)\.\d+/) {
my $frs_version = $1;
if ($frs_version == 1) {
$firestone_update_version = "810";
}
if ($frs_version == 2) {
$firestone_update_version = "820";
}
}
else {
$exit_with_error_func->($sessdata->{node}, $callback,
"Unable to determine firmware version currently installed. Verify that \"$cmd | grep OP8_v\" command returns a version.");
}
# Check what firmware version is specified in htm file
$cmd = "/usr/bin/grep -a FW_DESC $hpm_file";
$output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Running ipmitool command $cmd failed: $output");
}
# Parse out build date from the description string
if ($output =~ /FW_DESC=8335 \w+ \w+ \w+ (\w+)/) {
my $htm_date= $1;
# Parse out the year from "mmddyyyy" (skip 4 digits, grab last 4)
if ($htm_date =~ /\d{4}(\d+)/) {
my $htm_year = $1;
if ($htm_year == 2016) {
$htm_update_version = "810";
}
if ($htm_year == 2017) {
$htm_update_version = "820";
}
}
}
else {
$exit_with_error_func->($sessdata->{node}, $callback,
"Unable to determine firmware version of $hpm_file.");
}
}
if ($is_firestone and $firestone_update_version and
(($firestone_update_version eq "820" and $htm_update_version eq "810") or
($firestone_update_version eq "810" and $htm_update_version eq "820"))
) {
xCAT::SvrUtils::sendmsg("rflash started, Please wait...", $callback, $sessdata->{node}, %allerrornodes);
$retry = 0; # No retry support for 3 step update process
}
else {
xCAT::SvrUtils::sendmsg("rflash started, upgrade failure will be retried up to $retry times. Please wait...", $callback, $sessdata->{node}, %allerrornodes);
}
RETRY_UPGRADE:
my $failed_upgrade = 0;
# step 1 power off
$cmd = $pre_cmd . " chassis power off";
if ($verbose) {
xCAT::SvrUtils::sendmsg("Preparing to upgrade firmware, powering chassis off...", $callback, $sessdata->{node}, %allerrornodes);
}
$output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Running ipmitool command $cmd failed: $output");
}
# step 2 reset cold
$cmd = $pre_cmd . " mc reset cold";
$output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Running ipmitool command $cmd failed: $output");
}
# check reset status
unless (check_bmc_status_with_ipmitool($pre_cmd, 5, 60, 2, $sessdata, $verbose, 0)) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Timeout to check the bmc status");
}
# step 3 protect network
$cmd = $pre_cmd . " raw 0x32 0xba 0x18 0x00";
$output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Running ipmitool command $cmd failed: $output");
}
# step 4 upgrade firmware
# For firestone machines if updating from 810 to 820 version or from 820 to 810,
# extra steps are needed. Hanled in "if" block, "else" block is normal update in a single step.
if ($is_firestone and
(($firestone_update_version eq "820" and $htm_update_version eq "810") or
($firestone_update_version eq "810" and $htm_update_version eq "820"))
) {
# Step 4.1
$cmd = $pre_cmd . " -z " . $buffer_size . " hpm upgrade $hpm_file component 0 force ";
$cmd .= $verbose_opt;
$cmd .= " >".$rflash_log_file." 2>&1";
if ($verbose) {
xCAT::SvrUtils::sendmsg([ 0,
"rflashing component 0, see the detail progress :\"tail -f $rflash_log_file\"" ],
$callback, $sessdata->{node});
}
$output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
# Since "hpm update" command in step 4.1 above redirects standard out and error to a log file,
# nothing gets returned from execution of the command. Here if RC is not zero, we
# extract all lines containing "Error" from that log file and display them in the sendmsg below
my $get_error_cmd = "/usr/bin/grep Error $rflash_log_file";
$output = xCAT::Utils->runcmd($get_error_cmd, 0);
$exit_with_error_func->($sessdata->{node}, $callback,
"Running ipmitool command $cmd failed with rc=$::RUNCMD_RC and the following error messages:\n$output\nSee the $rflash_log_file for details.");
}
sleep(1); # Sleep for a second before next step
# Step 4.2
$cmd = $pre_cmd . " -z " . $buffer_size . " hpm upgrade $hpm_file component 1 force ";
$cmd .= $verbose_opt;
$cmd .= " >>".$rflash_log_file." 2>&1";
if ($verbose) {
xCAT::SvrUtils::sendmsg([ 0,
"rflashing component 1, see the detail progress :\"tail -f $rflash_log_file\"" ],
$callback, $sessdata->{node});
}
$output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
# Since "hpm update" command in step 4.2 above redirects standard out and error to a log file,
# nothing gets returned from execution of the command. Here if RC is not zero, we
# extract all lines containing "Error" from that log file and display them in the sendmsg below
my $get_error_cmd = "/usr/bin/grep Error $rflash_log_file";
$output = xCAT::Utils->runcmd($get_error_cmd, 0);
$exit_with_error_func->($sessdata->{node}, $callback,
"Running ipmitool command $cmd failed with rc=$::RUNCMD_RC and the following error messages:\n$output\nSee the $rflash_log_file for details.");
}
# Wait for BMC to reboot before continuing to next step
unless (check_bmc_status_with_ipmitool($pre_cmd, 5, 60, 10, $sessdata, $verbose, 0)) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Timeout waiting for the bmc ready status. Firmware update suspended");
}
# Step 4.3
$cmd = $pre_cmd . " -z " . $buffer_size . " hpm upgrade $hpm_file component 2 force ";
$cmd .= $verbose_opt;
$cmd .= " >>".$rflash_log_file." 2>&1";
if ($verbose) {
xCAT::SvrUtils::sendmsg([ 0,
"rflashing component 2, see the detail progress :\"tail -f $rflash_log_file\"" ],
$callback, $sessdata->{node});
}
$output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
# Since "hpm update" command in step 4.3 above redirects standard out and error to a log file,
# nothing gets returned from execution of the command. Here if RC is not zero, we
# extract all lines containing "Error" from that log file and display them in the sendmsg below
my $get_error_cmd = "/usr/bin/grep Error $rflash_log_file";
$output = xCAT::Utils->runcmd($get_error_cmd, 0);
$exit_with_error_func->($sessdata->{node}, $callback,
"Running ipmitool command $cmd failed with rc=$::RUNCMD_RC and the following error messages:\n$output\nSee the $rflash_log_file for details.");
}
}
else {
$cmd = $pre_cmd . " -z " . $buffer_size . " hpm upgrade $hpm_file force ";
$cmd .= $verbose_opt;
$cmd .= " >".$rflash_log_file." 2>&1";
if ($verbose) {
xCAT::SvrUtils::sendmsg([ 0,
"rflashing ... See the detail progress :\"tail -f $rflash_log_file\"" ],
$callback, $sessdata->{node});
}
$output = xCAT::Utils->runcmd($cmd, -1);
# if upgrade command failed and we exausted number of retries
# report an error, exit to the caller and leave node in powered off state
# otherwise report an error, power on the node and try upgrade again
if ($::RUNCMD_RC != 0) {
# Since "hpm update" command in step 4 above redirects standard out and error to a log file,
# nothing gets returned from execution of the command. Here if RC is not zero, we
# extract all lines containing "Error" from that log file and display them in the sendmsg below
my $get_error_cmd = "/usr/bin/grep Error $rflash_log_file";
$output = xCAT::Utils->runcmd($get_error_cmd, 0);
if ($retry == 0) {
# No more retries left, report an error and exit
$exit_with_error_func->($sessdata->{node}, $callback,
"Running ipmitool command $cmd failed with rc=$::RUNCMD_RC and the following error messages:\n$output\nSee the $rflash_log_file for details.");
}
else {
# Error upgrading, set a flag to attempt a retry
xCAT::SvrUtils::sendmsg("Running attempt $retry of ipmitool command $cmd failed with rc=$::RUNCMD_RC and the following error messages:\n$output\nSee the $rflash_log_file for details.", $callback, $sessdata->{node}, %allerrornodes);
$failed_upgrade = 1;
}
}
}
# step 5 power on
# check reset status
unless (check_bmc_status_with_ipmitool($pre_cmd, 5, 60, 10, $sessdata, $verbose, 0)) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Timeout to check the bmc status");
}
if ($failed_upgrade) {
xCAT::SvrUtils::sendmsg("Firmware update failed, powering chassis on for a retry. This can take several minutes. $retry retries left ...", $callback, $sessdata->{node}, %allerrornodes);
}
else {
if ($verbose) {
xCAT::SvrUtils::sendmsg("Firmware updated, powering chassis on to populate FRU information...", $callback, $sessdata->{node}, %allerrornodes);
}
}
$cmd = $pre_cmd . " chassis power on";
$output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
$exit_with_error_func->($sessdata->{node}, $callback,
"Running ipmitool command $cmd failed: $output");
}
if ($failed_upgrade) {
# Update has failed in step 4. Wait for node to reboot and try again
my $node_ready_for_retry = wait_for_os_to_reboot(300,10,30,$sessdata,$verbose);
if ($node_ready_for_retry) {
$retry--; # decrement number of retries left
# Yes, it is a goto statement here. Ugly, but removes the need to restructure
# the above block of code.
goto RETRY_UPGRADE;
}
else {
# After 10 min of waiting node has not rebooted. Give up retrying.
$exit_with_error_func->($sessdata->{node}, $callback,
"Giving up waiting for the node to reboot. No further retries will be attempted.");
}
}
else {
$exit_with_success_func->($sessdata->{node}, $callback,
"Success updating firmware.");
}
}
sub rflash {
my $sessdata = shift;
my $directory_flag = 0;
if (isopenpower($sessdata)) {
# Do firmware update for firestone here.
@{ $sessdata->{component_ids} } = qw/1 2 4/;
foreach my $opt (@{ $sessdata->{extraargs} }) {
if ($opt =~ /^(-c|--check)$/i) {
$sessdata->{subcommand} = "check";
# support verbose options for ipmitool command
} elsif ($opt =~ /^-d$/) {
# special handling if -d option which can be followed by a directory name
$directory_flag = 1; # set a flag that directory option was given
} elsif ($opt !~ /.*\.hpm$/i && $opt !~ /^-V{1,4}$|^--buffersize=|^--retry=/) {
# An unexpected flag was passed, but it could be a directory name. Display error only if not -d option
unless ($directory_flag) {
my $node = $sessdata->{node};
$callback->({ data => "$node: Error: The option $opt is not supported or invalid update file specified",
errorcode => 1 });
return;
}
}
}
# Send firmware version information to clent.
if ($sessdata->{subcommand} eq 'check') {
my %firmware_version;
my %comp_string;
check_firmware_version($sessdata, \%firmware_version, \%comp_string);
my $msg = "";
my $i;
for ($i = 0 ; $i < scalar(@{ $sessdata->{component_ids} }) ; $i++) {
my $c_id = ${ $sessdata->{component_ids} }[$i];
my $version = $firmware_version{$c_id};
my $format_string = $comp_string{$c_id};
my $format_ver = sprintf("%3d.%02x %02X%02X%02X%02X",
$version->[0], $version->[1], $version->[2], $version->[3], $version->[4], $version->[5]);
$msg = $msg . $sessdata->{node} . ": " .
"Node firmware version for $format_string component: $format_ver";
if ($i != scalar(@{ $sessdata->{component_ids} }) - 1) {
$msg = $msg . "\n";
}
}
$callback->({ data => $msg });
return;
}
return do_firmware_update($sessdata);
} elsif (isfpc($sessdata)) {
#first, start a fpc firmware transaction
$sessdata->{firmpath} = $sessdata->{subcommand};
$sessdata->{firmctx} = "init";
$sessdata->{ipmisession}->subcmd(netfn => 0x8, command => 0x17,
data => [ 0, 0, 1, 0, 0, 0, 0 ],
callback => \&fpc_firmup_config,
callback_args => $sessdata);
} else {
die "Unimplemented";
}
}
#----------------------------------------------------------------#
# Running rflash procedure in a child process
# Note (chenglch) If the parent process abort unexpectedly, the
# child process can not be terminated by xcat.
#----------------------------------------------------------------#
sub do_rflash_process {
my $node = shift;
my $pid = xCAT::Utils->xfork;
if (!defined($pid)) {
xCAT::SvrUtils::sendmsg([ 1, "Fork rflash process Error." ],
$callback, $node, %allerrornodes);
return;
}
# child
elsif ($pid == 0) {
unless (setpgrp()) {
xCAT::SvrUtils::sendmsg([ 1, "Faild to run setgprp for $$ process" ],
$callback, $node);
exit(1);
}
my $extra = $_[8];
my @exargs = @$extra;
my $programe = \$0;
$$programe = "$node: rflash child process";
if (grep(/^(-c|--check)$/i, @exargs)) {
$SIG{INT} = $SIG{TERM} = $SIG{HUP} = "DEFAULT";
}
# NOTE (chenglch): Actually if multiple client or rest api works on the same node,
# the bmc of the node may not be protected while rflash is running. As xcat may not
# support lock on node level, just require a lock for rflash command for specific node.
my $lock = xCAT::Utils->acquire_lock("rflash_$node", $NON_BLOCK);
if (!$lock) {
xCAT::SvrUtils::sendmsg([ 1, "rflash is running on $node, please retry after a while" ],
$callback, $node, %allerrornodes);
exit(1);
}
my $recover_image;
if (grep(/^(--recover)$/, @{ $extra })) {
if (@{ $extra } != 2) {
xCAT::SvrUtils::sendmsg([ 1, "The command format for recovery is invalid. Only support 'rflash <noderange> --recover <bmc_file_path>'" ],
$callback, $node);
exit(1);
}
my @argv = @{ $extra };
if ($argv[0] eq "--recover") {
$recover_image = $argv[1];
} elsif ($argv[1] eq "--recover") {
$recover_image = $argv[0];
}
}
if (defined($recover_image)) {
if ($recover_image !~ /^\//) {
$recover_image = xCAT::Utils->full_path($recover_image, $::cwd);
}
unless(-x "/usr/bin/tftp") {
$callback->({ error => "Could not find executable file /usr/bin/tftp, please setup tftp client.",
errorcode => 1 });
exit(1);
}
my $bmcip = $_[0];
my $cmd = "/usr/bin/tftp $bmcip -m binary -c put $recover_image ".basename($recover_image);
my $output = xCAT::Utils->runcmd($cmd, -1);
if ($::RUNCMD_RC != 0) {
if ($output =~ "timed out") {
# Time out running tftp command. One possible reason is BMC not in "brick protection" mode
$output .= " BMC might not be in 'Brick protection' state";
}
$callback->({ error => "Running tftp command \'$cmd\' failed. Error Code: $::RUNCMD_RC. Output: $output.",
errorcode => 1 });
exit(1);
}
# Sometimes tftp command retrun error message but without nonzero error code
if($output) {
$callback->({ error => "Running tftp command \'$cmd\' failed. Output: $output",
errorcode => 1 });
exit(1);
}
$callback->({ data => "$node: Successfully updated recovery image. BMC is restarting and will not be reachable for 5-10 minutes."});
exit(0);
}
donode($node, @_);
while (xCAT::IPMI->waitforrsp()) { yield }
xCAT::Utils->release_lock($lock, $NON_BLOCK);
exit(0);
}
# parent
else {
$child_pids{$pid} = $node;
}
return $pid;
}
sub start_rflash_processes {
my $donargs_ptr = shift;
my @donargs = @{$donargs_ptr};
my $ipmitimeout = shift;
my $ipmitrys = shift;
my $command = shift;
my %namedargs = @_;
my $extra = $namedargs{-args};
my @exargs = @$extra;
# rflash processes can not be terminated from client
if (!grep(/^(-c|--check)$/i, @exargs)) {
$SIG{INT} = $SIG{TERM} = $SIG{HUP}="IGNORE";
} else {
$SIG{INT} = $SIG{TERM} = $SIG{HUP} = sub {
foreach (keys %child_pids) {
kill 2, $_;
}
exit 0;
};
}
my $rflash_status;
foreach (@donargs) {
do_rflash_process($_->[0], $_->[1], $_->[2], $_->[3], $_->[4],
$ipmitimeout, $ipmitrys, $command, -args => \@exargs);
}
# Wait for all processes to end
while (keys %child_pids) {
my $cpid;
if (($cpid = wait()) > 0) {
delete $child_pids{$cpid};
}
}
}
sub fpc_firmup_config {
if (check_rsp_errors(@_)) {
abort_fpc_update($_[1]);
return;
}
my $rsp = shift;
my $sessdata = shift;
unless ($sessdata->{firmupxid}) {
$sessdata->{firmupxid} = $rsp->{data}->[0];
}
my $data;
if ($sessdata->{firmctx} eq 'init') {
$data = [ 0, $sessdata->{firmupxid}, 1, 0, 1, 0, 0, 0,
length($sessdata->{firmpath}),
unpack("C*", $sessdata->{firmpath}) ];
$sessdata->{firmctx} = 'p1';
} elsif ($sessdata->{firmctx} eq 'p1') {
$data = [ 0, $sessdata->{firmupxid}, 3, 0, 5 ];
$sessdata->{firmctx} = 'p2';
} elsif ($sessdata->{firmctx} eq 'p2') {
$data = [ 0, $sessdata->{firmupxid}, 4, 0, 0xa ];
$sessdata->{firmctx} = 'p3';
} elsif ($sessdata->{firmctx} eq 'p3') {
$data = [ 0, $sessdata->{firmupxid}, 5, 0, 3 ];
$sessdata->{firmctx} = 'p4';
} elsif ($sessdata->{firmctx} eq 'p4') {
$data = [ 0, $sessdata->{firmupxid}, 6, 0, 1 ];
$sessdata->{firmctx} = 'xfer';
xCAT::SvrUtils::sendmsg("Transferring firmware", $callback, $sessdata->{node}, %allerrornodes);
$sessdata->{ipmisession}->subcmd(netfn => 0x8, command => 0x19,
data => [ 0, $sessdata->{firmupxid} ],
callback => \&fpc_firmxfer_watch,
callback_args => $sessdata);
return;
}
$sessdata->{ipmisession}->subcmd(netfn => 0x8, command => 0x18,
data => $data,
callback => \&fpc_firmup_config,
callback_args => $sessdata);
}
sub abort_fpc_update {
my $sessdata = shift;
$sessdata->{ipmisession}->subcmd(netfn => 0x8, command => 0x15, data => [], callback => \&fpc_update_aborted, callback_args => $sessdata);
}
sub fpc_update_aborted {
check_rsp_errors(@_);
return;
}
sub fpc_firmxfer_watch {
my $abort = 0;
if ($_[0]->{code} == 0x89) {
xCAT::SvrUtils::sendmsg([ 1, "Transfer failed (wrong url?)" ], $callback, $_[1]->{node}, %allerrornodes);
$abort = 1;
} elsif ($_[0]->{code} == 0x91) {
xCAT::SvrUtils::sendmsg([ 1, "Invalid URL format given" ], $callback, $_[1]->{node}, %allerrornodes);
$abort = 1;
}
if ($abort) {
abort_fpc_update($_[1]);
return;
}
if (check_rsp_errors(@_)) {
abort_fpc_update($_[1]);
return;
}
my $rsp = shift;
my $sessdata = shift;
my $delay = 1;
my $watch = 2;
if ($sessdata->{firmctx} eq 'apply') { $delay = 15; $watch = 1; }
if (check_rsp_errors(@_)) {
return;
}
my $percent = 0;
if ($rsp->{data} and (scalar(@{ $rsp->{data} }) > 0)) {
$percent = $rsp->{data}->[0];
}
#$callback->({sinfo=>"$percent%"});
if ($percent == 100) {
if ($sessdata->{firmctx} eq 'xfer') {
xCAT::SvrUtils::sendmsg("Applying firmware", $callback, $sessdata->{node}, %allerrornodes);
$sessdata->{firmctx} = "apply";
$sessdata->{ipmisession}->subcmd(netfn => 0x8, command => 0x20,
data => [ 0, $sessdata->{firmupxid} ],
callback => \&fpc_firmxfer_watch,
callback_args => $sessdata);
return;
} else {
xCAT::SvrUtils::sendmsg("Resetting FPC", $callback, $sessdata->{node}, %allerrornodes);
resetbmc($sessdata);
}
} else {
$sessdata->{ipmisession}->subcmd(netfn => 0x8, command => 0x12,
data => [$watch],
delayxmit => $delay,
callback => \&fpc_firmxfer_watch,
callback_args => $sessdata);
}
}
my %fpcsessions;
sub reseat_node {
my $sessdata = shift;
if (1) { # TODO: FPC path checked for
my $mptab = xCAT::Table->new('mp', -create => 0);
unless ($mptab) {
xCAT::SvrUtils::sendmsg([ 1, "mp table must be configured for reseat" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
my $mpent = $mptab->getNodeAttribs($sessdata->{node}, [qw/mpa id/]);
unless ($mpent and $mpent->{mpa} and $mpent->{id}) {
xCAT::SvrUtils::sendmsg([ 1, "mp table must be configured for reseat" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
my $fpc = $mpent->{mpa};
my $ipmitab = xCAT::Table->new("ipmi");
my $ipmihash = $ipmitab->getNodesAttribs([$fpc], [ 'bmc', 'username', 'password' ]);
my $authdata = xCAT::PasswordUtils::getIPMIAuth(noderange => [$fpc], ipmihash => $ipmihash);
my $nodeuser = $authdata->{$fpc}->{username};
my $nodepass = $authdata->{$fpc}->{password};
$sessdata->{slotnumber} = $mpent->{id};
if (exists $fpcsessions{$mpent->{mpa}}) {
$sessdata->{fpcipmisession} = $fpcsessions{$mpent->{mpa}};
until ($sessdata->{fpcipmisession}->{logged}) {
$sessdata->{fpcipmisession}->waitforrsp(timeout=>1);
}
$sessdata->{fpcipmisession}->subcmd(netfn => 0x32, command => 0xa4,
data => [ $sessdata->{slotnumber}, 2 ],
callback => \&fpc_node_reseat_complete, callback_args => $sessdata);
} else {
$sessdata->{fpcipmisession} = xCAT::IPMI->new(bmc => $mpent->{mpa}, userid => $nodeuser, password => $nodepass);
$fpcsessions{$mpent->{mpa}} = $sessdata->{fpcipmisession};
$sessdata->{fpcipmisession}->login(callback => \&fpc_node_reseat, callback_args => $sessdata);
}
}
}
sub fpc_node_reseat {
my $status = shift;
my $sessdata = shift;
if ($status =~ /ERROR:/) {
xCAT::SvrUtils::sendmsg([ 1, $status ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
$sessdata->{fpcipmisession}->subcmd(netfn => 0x32, command => 0xa4,
data => [ $sessdata->{slotnumber}, 2 ],
callback => \&fpc_node_reseat_complete, callback_args => $sessdata);
}
sub fpc_node_reseat_complete {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) {
xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
if ($rsp->{code} == 0) {
xCAT::SvrUtils::sendmsg("reseat", $callback, $sessdata->{node}, %allerrornodes);
} elsif ($rsp->{code} == 0xd5) {
xCAT::SvrUtils::sendmsg([ 1, "No node in slot" ], $callback, $sessdata->{node}, %allerrornodes);
} else {
xCAT::SvrUtils::sendmsg([ 1, "Unknown error code " . $rsp->{code} ], $callback, $sessdata->{node}, %allerrornodes);
}
}
sub power {
my $sessdata = shift;
my $netfun = 0x00;
my @cmd;
my @returnd = ();
my $error;
my $rc = 0;
my $text;
my $code;
if (($sessdata->{subcommand} !~ /^on$|^off$|^reset$|^boot$|^stat$|^state$|^status$/) and isopenpower($sessdata)) {
xCAT::SvrUtils::sendmsg([ 1, "unsupported command rpower $sessdata->{subcommand} for OpenPOWER" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
if ($sessdata->{subcommand} eq "reseat") {
reseat_node($sessdata);
} elsif (not $sessdata->{acpistate} and is_systemx($sessdata)) { #Only implemented for IBM servers
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 0x1d, data => [1], callback => \&power_with_acpi, callback_args => $sessdata);
} else {
$sessdata->{ipmisession}->subcmd(netfn => 0, command => 1, data => [], callback => \&power_with_context, callback_args => $sessdata);
}
}
sub power_with_acpi {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) {
xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
if ($rsp->{code} == 0) {
if ($rsp->{data}->[0] == 3) {
$sessdata->{acpistate} = "suspend";
}
}
#unless ($text) { $text = sprintf("Unknown error code %02xh",$rsp->{code}); }
#xCAT::SvrUtils::sendmsg([1,$text],$callback,$sessdata->{node},%allerrornodes);
#}
$sessdata->{ipmisession}->subcmd(netfn => 0, command => 1, data => [], callback => \&power_with_context, callback_args => $sessdata);
}
sub power_with_context {
my $rsp = shift;
my $sessdata = shift;
my $text = "";
if ($rsp->{error}) {
xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
if ($rsp->{code} != 0) {
$text = $codes{ $rsp->{code} };
unless ($text) { $text = sprintf("Unknown error code %02xh", $rsp->{code}); }
xCAT::SvrUtils::sendmsg([ 1, $text ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
$sessdata->{powerstatus} = ($rsp->{data}->[0] & 1 ? "on" : "off");
my $reportstate;
if ($sessdata->{acpistate}) {
$reportstate = $sessdata->{acpistate};
} else {
$reportstate = $sessdata->{powerstatus};
}
if ($sessdata->{subcommand} eq "stat" or $sessdata->{subcommand} eq "state" or $sessdata->{subcommand} eq "status") {
if ($sessdata->{powerstatprefix}) {
xCAT::SvrUtils::sendmsg($sessdata->{powerstatprefix} . $reportstate, $callback, $sessdata->{node}, %allerrornodes);
} else {
xCAT::SvrUtils::sendmsg($reportstate, $callback, $sessdata->{node}, %allerrornodes);
}
if ($sessdata->{sensorstoread} and scalar @{ $sessdata->{sensorstoread} }) { #if we are in an rvitals path, hook back into good graces
$sessdata->{currsdr} = shift @{ $sessdata->{sensorstoread} };
readsensor($sessdata); #next
}
return;
}
my $subcommand = $sessdata->{subcommand};
if ($sessdata->{subcommand} eq "boot") {
$text = $sessdata->{powerstatus} . " ";
$subcommand = ($sessdata->{powerstatus} eq "on" ? "reset" : "on");
$sessdata->{subcommand} = $subcommand; #lazy typing..
}
my %argmap = ( #english to ipmi dictionary
"on" => 1,
"off" => 0,
"softoff" => 5,
"reset" => 3,
"nmi" => 4,
"cycle" => 2,
);
if ($subcommand eq "on") {
if ($sessdata->{powerstatus} eq "on") {
if ($sessdata->{acpistate} and $sessdata->{acpistate} eq "suspend") { #ok, make this a wake
$sessdata->{subcommand} = "wake";
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 0x1d, data => [ 0, 0 ], callback => \&power_response, callback_args => $sessdata);
return;
}
xCAT::SvrUtils::sendmsg("on", $callback, $sessdata->{node}, %allerrornodes);
$allerrornodes{ $sessdata->{node} } = 1;
return; # don't bother sending command
}
} elsif ($subcommand eq "softoff" or $subcommand eq "off" or $subcommand eq "reset") {
if ($sessdata->{powerstatus} eq "off") {
xCAT::SvrUtils::sendmsg("off", $callback, $sessdata->{node}, %allerrornodes);
$allerrornodes{ $sessdata->{node} } = 1;
return;
}
} elsif ($subcommand eq "suspend") {
my $waitforsuspend;
my $failtopowerdown;
my $failtoreset;
if ($sessdata->{powerstatus} eq "off") {
xCAT::SvrUtils::sendmsg([ 1, "System is off, cannot be suspended" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
if (@{ $sessdata->{extraargs} } > 1) {
@ARGV = @{ $sessdata->{extraargs} };
use Getopt::Long;
unless (GetOptions(
'w:i' => \$waitforsuspend,
'o' => \$failtopowerdown,
'r' => \$failtoreset,
)) {
xCAT::SvrUtils::sendmsg([ 1, "Error parsing arguments" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
}
if (defined $waitforsuspend) {
if ($waitforsuspend == 0) { $waitforsuspend = 30; }
$sessdata->{waitforsuspend} = time() + $waitforsuspend;
}
$sessdata->{failtopowerdown} = $failtopowerdown;
$sessdata->{failtoreset} = $failtoreset;
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 0x1d, data => [ 0, 3 ], callback => \&power_response, callback_args => $sessdata);
return;
} elsif ($subcommand eq "wake") {
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 0x1d, data => [ 0, 0 ], callback => \&power_response, callback_args => $sessdata);
return;
} elsif (not $argmap{$subcommand}) {
xCAT::SvrUtils::sendmsg([ 1, "unsupported command power $subcommand" ], $callback);
return;
}
$sessdata->{ipmisession}->subcmd(netfn => 0, command => 2, data => [ $argmap{$subcommand} ], callback => \&power_response, callback_args => $sessdata);
}
sub power_response {
my $rsp = shift;
my $sessdata = shift;
my $newstat;
if ($rsp->{error}) {
xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
my @returnd = ($rsp->{code}, @{ $rsp->{data} });
if ($rsp->{code}) {
my $text = $codes{ $rsp->{code} };
unless ($text) { $text = sprintf("Unknown response %02xh", $rsp->{code}); }
xCAT::SvrUtils::sendmsg([ 1, $text ], $callback, $sessdata->{node}, %allerrornodes);
return;
} else {
my $command = $sessdata->{subcommand};
my $status = $sessdata->{powerstatus};
if ($command eq "on" or $command eq "boot") { $newstat = $::STATUS_POWERING_ON; }
if ($command eq "off" or $command eq "softoff") { $newstat = $::STATUS_POWERING_OFF; }
if ($command eq "reset") {
if ($status eq "off") {
$newstat = $::STATUS_POWERING_OFF;
} else {
$newstat = $::STATUS_POWERING_ON;
}
}
if ($newstat) {
push @{ $newnodestatus{$newstat} }, $sessdata->{node};
}
}
if ($sessdata->{waitforsuspend}) { #have to repeatedly power stat until happy or timeout exceeded
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 0x1d, data => [1], callback => \&power_wait_for_suspend, callback_args => $sessdata);
return;
}
xCAT::SvrUtils::sendmsg($sessdata->{subcommand}, $callback, $sessdata->{node}, %allerrornodes);
}
sub power_wait_for_suspend {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) {
xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
if ($rsp->{code} == 0) {
if ($rsp->{data}->[0] == 3) {
$sessdata->{acpistate} = "suspend";
}
}
if ($sessdata->{acpistate} eq "suspend") {
xCAT::SvrUtils::sendmsg("suspend", $callback, $sessdata->{node}, %allerrornodes);
} elsif ($sessdata->{waitforsuspend} <= time()) {
delete $sessdata->{waitforsuspend};
if ($sessdata->{failtopowerdown}) {
$sessdata->{subcommand} = 'off',
xCAT::SvrUtils::sendmsg([ 1, "Failed to enter suspend state, forcing off" ], $callback, $sessdata->{node}, %allerrornodes);
power($sessdata);
} elsif ($sessdata->{failtoreset}) {
$sessdata->{subcommand} = 'reset',
xCAT::SvrUtils::sendmsg([ 1, "Failed to enter suspend state, forcing reset" ], $callback, $sessdata->{node}, %allerrornodes);
power($sessdata);
} else {
xCAT::SvrUtils::sendmsg([ 1, "Failed to enter suspend state" ], $callback, $sessdata->{node}, %allerrornodes);
}
} else {
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 0x1d, delayxmit => 5, data => [1], callback => \&power_wait_for_suspend, callback_args => $sessdata);
}
}
sub generic {
my $subcommand = shift;
my $netfun;
my @args;
my @cmd;
my @returnd = ();
my $error;
my $rc = 0;
my $text;
my $code;
($netfun, @args) = split(/-/, $subcommand);
$netfun = oct($netfun);
printf("netfun: 0x%02x\n", $netfun);
print "command: ";
foreach (@args) {
push(@cmd, oct($_));
printf("0x%02x ", oct($_));
}
print "\n\n";
$error = docmd(
$netfun,
\@cmd,
\@returnd
);
if ($error) {
$rc = 1;
$text = $error;
}
$code = $returnd[0];
if ($code == 0x00) {
}
else {
$rc = 1;
$text = $codes{$code};
}
printf("return code: 0x%02x\n\n", $code);
print "return data:\n";
my @rdata = @returnd[ 1 .. @returnd - 2 ];
hexadump(\@rdata);
print "\n";
print "full output:\n";
hexadump(\@returnd);
print "\n";
# if(!$text) {
# $rc = 1;
# $text = sprintf("unknown response %02x",$code);
# }
return ($rc, $text);
}
sub beacon {
my $sessdata = shift;
my $subcommand = $sessdata->{subcommand};
my $ipmiv2 = 0;
if ($sessdata->{ipmisession}->{ipmiversion} eq '2.0') {
$ipmiv2 = 1;
}
if ($subcommand ne "on" and $subcommand ne "off") {
xCAT::SvrUtils::sendmsg([ 1, "Only 'on' or 'off' is supported for IPMI managed nodes."], $callback, $sessdata->{node}, %allerrornodes);
}
#if stuck with 1.5, say light for 255 seconds. In 2.0, specify to turn it on forever
if ($subcommand eq "on") {
if ($sessdata->{mfg_id} == 19046 and $sessdata->{prod_id} == 13616) { # Lenovo SD350
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 6, data => [ 1, 1 ], callback => \&beacon_answer, callback_args => $sessdata);
} elsif ($ipmiv2) {
$sessdata->{ipmisession}->subcmd(netfn => 0, command => 4, data => [ 0, 1 ], callback => \&beacon_answer, callback_args => $sessdata);
} else {
$sessdata->{ipmisession}->subcmd(netfn => 0, command => 4, data => [0xff], callback => \&beacon_answer, callback_args => $sessdata);
}
}
elsif ($subcommand eq "off") {
if ($ipmiv2) {
$sessdata->{ipmisession}->subcmd(netfn => 0, command => 4, data => [ 0, 0 ], callback => \&beacon_answer, callback_args => $sessdata);
} else {
$sessdata->{ipmisession}->subcmd(netfn => 0, command => 4, data => [0x0], callback => \&beacon_answer, callback_args => $sessdata);
}
}
else {
return;
}
}
sub beacon_answer {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) { #non ipmi error
xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
if ($rsp->{code}) { #ipmi error
if ($codes{ $rsp->{code} }) {
xCAT::SvrUtils::sendmsg([ 1, $codes{ $rsp->{code} } ], $callback);
} else {
xCAT::SvrUtils::sendmsg([ 1, sprintf("Unknown error code %02xh", $rsp->{code}) ], $callback, $sessdata->{node}, %allerrornodes);
}
return;
}
xCAT::SvrUtils::sendmsg($sessdata->{subcommand}, $callback, $sessdata->{node}, %allerrornodes);
}
sub inv {
my $sessdata = shift;
my $command = $sessdata->{command};
my $subcommand = $sessdata->{subcommand};
my $rc = 0;
my $text;
my @output;
my @types;
unless ($subcommand) {
$subcommand = "all";
}
if ($subcommand eq "all") {
@types = qw(model serial deviceid mprom guid misc hw asset firmware mac wwn);
}
elsif ($subcommand eq "asset") {
$sessdata->{skipotherfru} = 1;
@types = qw(asset);
}
elsif ($subcommand eq "firm" || $subcommand eq "firmware") {
$sessdata->{skipotherfru} = 1;
@types = qw(firmware);
}
elsif ($subcommand eq "model") {
$sessdata->{skipotherfru} = 1;
@types = qw(model);
}
elsif ($subcommand eq "serial") {
$sessdata->{skipotherfru} = 1;
@types = qw(serial);
}
elsif ($subcommand eq "vpd") {
$sessdata->{skipotherfru} = 1;
@types = qw(model serial deviceid mprom);
}
elsif ($subcommand eq "mprom") {
$sessdata->{skipfru} = 1; #full fru read is expensive, skip it
@types = qw(mprom);
}
elsif ($subcommand eq "misc") {
$sessdata->{skipotherfru} = 1;
@types = qw(misc);
}
elsif ($subcommand eq "deviceid") {
$sessdata->{skipfru} = 1; #full fru read is expensive, skip it
@types = qw(deviceid);
}
elsif ($subcommand eq "guid") {
$sessdata->{skipfru} = 1; #full fru read is expensive, skip it
@types = qw(guid);
}
elsif ($subcommand eq "uuid") {
$sessdata->{skipfru} = 1; #full fru read is expensive, skip it
@types = qw(guid);
}
elsif ($subcommand eq "hw" or $subcommand eq "dimm" or $subcommand eq "misc") {
@types = ($subcommand);
}
else {
my $usage_string = xCAT::Usage->getUsage($command);
$callback->({ error => ["$usage_string"], errorcode => [1] });
return 1;
}
$sessdata->{invtypes} = \@types;
initfru($sessdata);
}
sub fru_initted {
my $sessdata = shift;
my $key;
my @args = @{ $sessdata->{extraargs} };
my $up_group = undef;
if (grep /-t/, @args) {
$up_group = '1';
}
my @types = @{ $sessdata->{invtypes} };
my $format = "%-20s %s";
foreach $key (sort { $a <=> $b } keys %{ $sessdata->{fru_hash} }) {
my $fru = $sessdata->{fru_hash}->{$key};
my $type;
foreach $type (split /,/, $fru->rec_type) {
if (grep { $_ eq $type } @types) {
my $bmcifo = "";
if ($sessdata->{bmcnum} != 1) {
$bmcifo = " on BMC " . $sessdata->{bmcnum};
}
xCAT::SvrUtils::sendmsg(sprintf($format . $bmcifo, $sessdata->{fru_hash}->{$key}->desc . ":", $sessdata->{fru_hash}->{$key}->value), $callback, $sessdata->{node}, %allerrornodes);
if ($up_group and $type eq "model" and $fru->desc =~ /MTM/) {
my $tmp_pre = xCAT::data::ibmhwtypes::parse_group($fru->value);
if (defined($tmp_pre)) {
xCAT::TableUtils->updatenodegroups($sessdata->{node}, $tmp_pre);
}
}
last;
}
}
}
if ($sessdata->{isite} and (grep { $_ eq "mac" } @types)) {
$needbladeinv{$_} = "mac";
}
}
sub add_textual_fru {
my $parsedfru = shift;
my $description = shift;
my $category = shift;
my $subcategory = shift;
my $types = shift;
my $sessdata = shift;
my %args = @_;
if ($parsedfru->{$category} and $parsedfru->{$category}->{$subcategory}) {
my $fru;
my @subfrus;
if (ref $parsedfru->{$category}->{$subcategory} eq 'ARRAY') {
@subfrus = @{ $parsedfru->{$category}->{$subcategory} };
} else {
@subfrus = ($parsedfru->{$category}->{$subcategory})
}
my $index = 0;
foreach (@subfrus) {
$index++;
$fru = FRU->new();
$fru->rec_type($types);
if ($args{addnumber}) {
$fru->desc($description . " " . $index);
} else {
$fru->desc($description);
}
if (not ref $_) {
$fru->value($_);
} else {
if ($_->{encoding} == 3) {
$fru->value($_->{value});
} else {
$fru->value(phex($_->{value}));
}
}
$sessdata->{fru_hash}->{ $sessdata->{frudex} } = $fru;
$sessdata->{frudex} += 1;
}
}
}
sub add_textual_frus {
my $parsedfru = shift;
my $desc = shift;
my $categorydesc = shift;
my $category = shift;
my $type = shift;
my $sessdata = shift;
unless ($type) { $type = 'hw'; }
if ($desc =~ /System Firmware/i and $category =~ /product/i) {
$type = 'firmware,bmc';
}
if ( ($desc =~ /NODE \d+/ or $desc =~ /Backplane/) and $category =~ /chassis/) {
add_textual_fru($parsedfru, $desc . " " . $categorydesc . "Part Number", $category, "partnumber", 'model', $sessdata);
add_textual_fru($parsedfru, $desc . " " . $categorydesc . "Serial Number", $category, "serialnumber", 'serial', $sessdata);
} else {
add_textual_fru($parsedfru, $desc . " " . $categorydesc . "Part Number", $category, "partnumber", $type, $sessdata);
add_textual_fru($parsedfru, $desc . " " . $categorydesc . "Serial Number", $category, "serialnumber", $type, $sessdata);
}
add_textual_fru($parsedfru, $desc . " " . $categorydesc . "Manufacturer", $category, "manufacturer", $type, $sessdata);
add_textual_fru($parsedfru, $desc . " " . $categorydesc . "FRU Number", $category, "frunum", $type, $sessdata);
add_textual_fru($parsedfru, $desc . " " . $categorydesc . "Version", $category, "version", $type, $sessdata);
add_textual_fru($parsedfru, $desc . " " . $categorydesc . "MAC Address", $category, "macaddrs", "mac", $sessdata, addnumber => 1);
add_textual_fru($parsedfru, $desc . " " . $categorydesc . "WWN", $category, "wwns", "wwn", $sessdata, addnumber => 1);
add_textual_fru($parsedfru, $desc . " " . $categorydesc . "", $category, "name", $type, $sessdata);
if ($parsedfru->{$category}->{builddate}) {
add_textual_fru($parsedfru, $desc . " " . $categorydesc . "Manufacture Date", $category, "builddate", $type, $sessdata);
}
if ($parsedfru->{$category}->{buildlocation}) {
add_textual_fru($parsedfru, $desc . " " . $categorydesc . "Manufacture Location", $category, "buildlocation", $type, $sessdata);
}
if ($parsedfru->{$category}->{model}) {
add_textual_fru($parsedfru, $desc . " " . $categorydesc . "Model", $category, "model", $type, $sessdata);
}
add_textual_fru($parsedfru, $desc . " " . $categorydesc . "Additional Info", $category, "extra", $type, $sessdata);
}
sub initfru {
my $netfun = 0x28;
my $sessdata = shift;
$sessdata->{fru_hash} = {};
my $mfg_id = $sessdata->{mfg_id};
my $prod_id = $sessdata->{prod_id};
my $device_id = $sessdata->{device_id};
my $fru = FRU->new();
$fru->rec_type("deviceid");
$fru->desc("Manufacturer ID");
my $value = $mfg_id;
if ($MFG_ID{$mfg_id}) {
$value = "$MFG_ID{$mfg_id} ($mfg_id)";
}
$fru->value($value);
$sessdata->{fru_hash}->{mfg_id} = $fru;
$fru = FRU->new();
$fru->rec_type("deviceid");
$fru->desc("Product ID");
$value = $prod_id;
my $tmp = "$mfg_id:$prod_id";
if ($PROD_ID{$tmp}) {
$value = "$PROD_ID{$tmp} ($prod_id)";
}
$fru->value($value);
$sessdata->{fru_hash}->{prod_id} = $fru;
$fru = FRU->new();
$fru->rec_type("deviceid");
$fru->desc("Device ID");
$fru->value($device_id);
$sessdata->{fru_hash}->{device_id} = $fru;
$sessdata->{ipmisession}->subcmd(netfn => 0x6, command => 0x37, data => [], callback => \&gotguid, callback_args => $sessdata);
}
sub got_bmc_fw_info {
my $rsp = shift;
my $sessdata = shift;
my $fw_rev1 = $sessdata->{firmware_rev1};
my $fw_rev2 = $sessdata->{firmware_rev2};
my $mprom;
my $isanimm = 0;
if (ref $rsp and not $rsp->{error} and not $rsp->{code}) { #I am a callback and the command worked
my @returnd = (@{ $rsp->{data} });
my @a = ($fw_rev2);
my $prefix = pack("C*", @returnd[ 0 .. 3 ]);
if ($prefix =~ /yuoo/i or $prefix =~ /1aoo/i or $prefix =~ /tcoo/i) { #we have an imm
$isanimm = 1;
}
$mprom = sprintf("%d.%s (%s)", $fw_rev1, decodebcd(\@a), getascii(@returnd));
} else { #either not a callback or IBM call failed
my @a = ($fw_rev2);
$mprom = sprintf("%d.%s", $fw_rev1, decodebcd(\@a));
}
my $fru = FRU->new();
$fru->rec_type("mprom,firmware,bmc,imm");
$fru->desc("BMC Firmware");
$fru->value($mprom);
$sessdata->{fru_hash}->{mprom} = $fru;
$sessdata->{isanimm} = $isanimm;
if ($isanimm) {
#get_imm_property(property=>"/v2/bios/build_id",callback=>\&got_bios_buildid,sessdata=>$sessdata);
check_for_ite(sessdata => $sessdata);
} else {
initfru_with_mprom($sessdata);
}
}
sub got_bios_buildid {
my %res = @_;
my $sessdata = $res{sessdata};
if ($res{data}) {
$sessdata->{biosbuildid} = $res{data};
get_imm_property(property => "/v2/bios/pending_build_id", callback => \&got_bios_pending_buildid, sessdata => $sessdata);
} else {
initfru_with_mprom($sessdata);
}
}
sub got_bios_pending_buildid {
my %res = @_;
my $sessdata = $res{sessdata};
$sessdata->{biosbuildpending} = 0;
if ($res{data} and $res{data} ne ' ') {
$sessdata->{biosbuildpending} = $res{data};
}
get_imm_property(property => "/v2/bios/build_version", callback => \&got_bios_version, sessdata => $sessdata);
}
sub got_bios_version {
my %res = @_;
my $sessdata = $res{sessdata};
if ($res{data}) {
$sessdata->{biosbuildversion} = $res{data};
get_imm_property(property => "/v2/bios/build_date", callback => \&got_bios_date, sessdata => $sessdata);
} else {
initfru_with_mprom($sessdata);
}
}
sub got_bios_date {
my %res = @_;
my $sessdata = $res{sessdata};
if ($res{data}) {
$sessdata->{biosbuilddate} = $res{data};
my $fru = FRU->new();
$fru->rec_type("bios,uefi,firmware");
$fru->desc("UEFI Version");
my $pending = "";
if ($sessdata->{biosbuildpending}) {
$pending = " [PENDING: $sessdata->{biosbuildpending}]";
}
my $value = $sessdata->{biosbuildversion} . " (" . $sessdata->{biosbuildid} . " " . $sessdata->{biosbuilddate} . ")$pending";
$fru->value($value);
$sessdata->{fru_hash}->{uefi} = $fru;
get_imm_property(property => "/v2/fpga/build_id", callback => \&got_fpga_buildid, sessdata => $sessdata);
} else {
initfru_with_mprom($sessdata);
}
}
sub got_fpga_buildid {
my %res = @_;
my $sessdata = $res{sessdata};
if ($res{data}) {
$sessdata->{fpgabuildid} = $res{data};
get_imm_property(property => "/v2/fpga/build_version", callback => \&got_fpga_version, sessdata => $sessdata);
} else {
get_imm_property(property => "/v2/ibmc/dm/fw/bios/backup_build_id", callback => \&got_backup_bios_buildid, sessdata => $sessdata);
}
}
sub got_backup_bios_buildid {
my %res = @_;
my $sessdata = $res{sessdata};
if ($res{data}) {
$sessdata->{backupbiosbuild} = $res{data};
get_imm_property(property => "/v2/ibmc/dm/fw/bios/backup_build_version", callback => \&got_backup_bios_version, sessdata => $sessdata);
} else {
initfru_with_mprom($sessdata);
}
}
sub got_backup_bios_version {
my %res = @_;
my $sessdata = $res{sessdata};
if ($res{data}) {
$sessdata->{backupbiosversion} = $res{data};
my $fru = FRU->new();
$fru->rec_type("bios,uefi,firmware");
$fru->desc("Backup UEFI Version");
$fru->value($sessdata->{backupbiosversion} . " (" . $sessdata->{backupbiosbuild} . ")");
$sessdata->{fru_hash}->{backupuefi} = $fru;
get_imm_property(property => "/v2/ibmc/dm/fw/imm2/backup_build_id", callback => \&got_backup_imm_buildid, sessdata => $sessdata);
} else {
initfru_with_mprom($sessdata);
}
}
sub got_backup_imm_buildid {
my %res = @_;
my $sessdata = $res{sessdata};
if ($res{data}) {
$sessdata->{backupimmbuild} = $res{data};
get_imm_property(property => "/v2/ibmc/dm/fw/imm2/backup_build_version", callback => \&got_backup_imm_version, sessdata => $sessdata);
} else {
initfru_with_mprom($sessdata);
}
}
sub got_backup_imm_version {
my %res = @_;
my $sessdata = $res{sessdata};
if ($res{data}) {
$sessdata->{backupimmversion} = $res{data};
get_imm_property(property => "/v2/ibmc/dm/fw/imm2/backup_build_date", callback => \&got_backup_imm_builddate, sessdata => $sessdata);
} else {
initfru_with_mprom($sessdata);
}
}
sub got_backup_imm_builddate {
my %res = @_;
my $sessdata = $res{sessdata};
if ($res{data}) {
$sessdata->{backupimmdate} = $res{data};
my $fru = FRU->new();
$fru->rec_type("bios,uefi,firmware");
$fru->desc("Backup IMM Version");
$fru->value($sessdata->{backupimmversion} . " (" . $sessdata->{backupimmbuild} . " " . $sessdata->{backupimmdate} . ")");
$sessdata->{fru_hash}->{backupimm} = $fru;
get_imm_property(property => "/v2/ibmc/trusted_buildid", callback => \&got_trusted_imm, sessdata => $sessdata);
} else {
initfru_with_mprom($sessdata);
}
}
sub got_trusted_imm {
my %res = @_;
my $sessdata = $res{sessdata};
if ($res{data}) {
my $fru = FRU->new();
$fru->rec_type("bios,uefi,firmware");
$fru->desc("Trusted IMM Build");
$fru->value($res{data});
$sessdata->{fru_hash}->{trustedimm} = $fru;
}
initfru_with_mprom($sessdata);
}
sub got_fpga_version {
my %res = @_;
my $sessdata = $res{sessdata};
if ($res{data}) {
$sessdata->{fpgabuildversion} = $res{data};
get_imm_property(property => "/v2/fpga/build_date", callback => \&got_fpga_date, sessdata => $sessdata);
} else {
initfru_with_mprom($sessdata);
}
}
sub got_fpga_date {
my %res = @_;
my $sessdata = $res{sessdata};
if ($res{data}) {
$sessdata->{fpgabuilddate} = $res{data};
my $fru = FRU->new();
$fru->rec_type("fpga,firmware");
$fru->desc("FPGA Version");
$fru->value($sessdata->{fpgabuildversion} . " (" . $sessdata->{fpgabuildid} . " " . $sessdata->{fpgabuilddate} . ")");
$sessdata->{fru_hash}->{fpga} = $fru;
}
initfru_with_mprom($sessdata);
}
sub check_for_ite {
my %args = @_;
my @getpropertycommand;
my $sessdata = $args{sessdata};
$sessdata->{property_callback} = \&got_ite_check; #$args{callback};
@getpropertycommand = unpack("C*", "/v2/cmm/");
my $length = 0b10000000 | (scalar @getpropertycommand); #use length to store tlv
unshift @getpropertycommand, $length;
#command also needs the overall length
$length = (scalar @getpropertycommand);
unshift @getpropertycommand, 0; #do not recurse, though it's not going to matter anyway since we are just checking for the existence of the category
unshift @getpropertycommand, $length & 0xff;
unshift @getpropertycommand, ($length >> 8) & 0xff;
unshift @getpropertycommand, 2; #get all properties command,
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 0xc4, data => \@getpropertycommand, callback => \&got_imm_property, callback_args => $sessdata);
}
sub got_ite_check {
my %res = @_;
my $sessdata = $res{sessdata};
if ($res{ccode} == 9) { #success, end of tree means an ITE, remember this
$sessdata->{isite} = 1;
} else {
$sessdata->{isite} = 0;
}
get_imm_property(property => "/v2/bios/build_id", callback => \&got_bios_buildid, sessdata => $sessdata);
}
sub get_imm_property {
my %args = @_;
my @getpropertycommand;
my $sessdata = $args{sessdata};
$sessdata->{property_callback} = $args{callback};
@getpropertycommand = unpack("C*", $args{property});
my $length = 0b10000000 | (scalar @getpropertycommand); #use length to store tlv
unshift @getpropertycommand, $length;
#command also needs the overall length
$length = (scalar @getpropertycommand);
unshift @getpropertycommand, $length & 0xff;
unshift @getpropertycommand, ($length >> 8) & 0xff;
unshift @getpropertycommand, 0; #the actual 'get proprety' command is 0.
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 0xc4, data => \@getpropertycommand, callback => \&got_imm_property, callback_args => $sessdata);
}
sub got_imm_property {
if (check_rsp_errors(@_)) {
return;
}
my $rsp = shift;
my $sessdata = shift;
my @data = @{ $rsp->{data} };
my $propval = shift @data;
my %res;
$res{sessdata} = $sessdata;
$res{ccode} = $propval;
if ($propval == 0) { #success
shift @data; #discard payload size
shift @data; #discard payload size
while (@data) {
my $tlv = shift @data;
if ($tlv & 0b10000000) {
$tlv = $tlv & 0b1111111;
my @val = splice(@data, 0, $tlv);
$res{data} = unpack("Z*", pack("C*", @val));
}
}
}
$sessdata->{property_callback}->(%res);
}
sub initfru_withguid {
my $sessdata = shift;
my $mfg_id = $sessdata->{mfg_id};
my $prod_id = $sessdata->{prod_id};
my $mprom;
if (is_systemx($sessdata) && $prod_id != 34869) {
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 0x50, data => [], callback => \&got_bmc_fw_info, callback_args => $sessdata);
} else {
got_bmc_fw_info(0, $sessdata);
}
}
sub initfru_with_mprom {
my $sessdata = shift;
if ($sessdata->{skipfru}) {
fru_initted($sessdata);
return;
}
$sessdata->{currfruid} = 0;
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x10, data => [0], callback => \&process_currfruid, callback_args => $sessdata);
}
sub process_currfruid {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{code} == 0xcb) {
$sessdata->{currfrudata} = "Not Present";
$sessdata->{currfrudone} = 1;
add_fruhash($sessdata);
return;
}
if ($rsp and $rsp->{code}) { #non-zero return code..
$sessdata->{currfrudata} = "Unable to read";
if ($codes{ $rsp->{code} }) {
$sessdata->{currfrudata} .= " (" . $codes{ $rsp->{code} } . ")";
} else {
$sessdata->{currfrudata} .= sprintf(" (Unknown reason %02xh)", $rsp->{code});
}
$sessdata->{currfrudone} = 1;
add_fruhash($sessdata);
return;
}
if (check_rsp_errors($rsp, $sessdata)) {
return;
}
my @bytes = @{ $rsp->{data} };
$sessdata->{currfrusize} = ($bytes[1] << 8) + $bytes[0];
readcurrfrudevice(0, $sessdata);
}
sub initfru_zero {
my $sessdata = shift;
my $fruhash = shift;
my $frudex = 0;
my $fru;
if (defined $fruhash->{product}->{manufacturer}->{value}) {
$fru = FRU->new();
$fru->rec_type("misc");
$fru->desc("System Manufacturer");
if ($fruhash->{product}->{manufacturer}->{encoding} == 3) {
$fru->value($fruhash->{product}->{manufacturer}->{value});
} else {
$fru->value(phex($fruhash->{product}->{manufacturer}->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
if (defined $fruhash->{product}->{product}->{value}) {
$fru = FRU->new();
$fru->rec_type("model");
$fru->desc("System Description");
if ($fruhash->{product}->{product}->{encoding} == 3) {
$fru->value($fruhash->{product}->{product}->{value});
} else {
$fru->value(phex($fruhash->{product}->{product}->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
if (defined $fruhash->{product}->{model}->{value}) {
$fru = FRU->new();
$fru->rec_type("model");
$fru->desc("System Model/MTM");
if ($fruhash->{product}->{model}->{encoding} == 3) {
$fru->value($fruhash->{product}->{model}->{value});
} else {
$fru->value(phex($fruhash->{product}->{model}->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
if (defined $fruhash->{product}->{version}->{value}) {
$fru = FRU->new();
$fru->rec_type("misc");
$fru->desc("System Revision");
if ($fruhash->{product}->{version}->{encoding} == 3) {
$fru->value($fruhash->{product}->{version}->{value});
} else {
$fru->value(phex($fruhash->{product}->{version}->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
if (defined $fruhash->{product}->{serialnumber}->{value}) {
$fru = FRU->new();
$fru->rec_type("serial");
$fru->desc("System Serial Number");
if ($fruhash->{product}->{serialnumber}->{encoding} == 3) {
$fru->value($fruhash->{product}->{serialnumber}->{value});
} else {
$fru->value(phex($fruhash->{product}->{serialnumber}->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
if (defined $fruhash->{product}->{asset}->{value}) {
$fru = FRU->new();
$fru->rec_type("asset");
$fru->desc("System Asset Number");
if ($fruhash->{product}->{asset}->{encoding} == 3) {
$fru->value($fruhash->{product}->{asset}->{value});
} else {
$fru->value(phex($fruhash->{product}->{asset}->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
foreach (@{ $fruhash->{product}->{extra} }) {
$fru = FRU->new();
$fru->rec_type("misc");
$fru->desc("Product Extra data");
if ($_->{encoding} == 3) {
$fru->value($_->{value});
} else {
#print Dumper($_);
#print $_->{encoding};
next;
$fru->value(phex($_->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
if ($fruhash->{chassis}->{serialnumber}->{value}) {
$fru = FRU->new();
$fru->rec_type("serial");
$fru->desc("Chassis Serial Number");
if ($fruhash->{chassis}->{serialnumber}->{encoding} == 3) {
$fru->value($fruhash->{chassis}->{serialnumber}->{value});
} else {
$fru->value(phex($fruhash->{chassis}->{serialnumber}->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
if ($fruhash->{chassis}->{partnumber}->{value}) {
$fru = FRU->new();
$fru->rec_type("model");
$fru->desc("Chassis Part Number");
if ($fruhash->{chassis}->{partnumber}->{encoding} == 3) {
$fru->value($fruhash->{chassis}->{partnumber}->{value});
} else {
$fru->value(phex($fruhash->{chassis}->{partnumber}->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
foreach (@{ $fruhash->{chassis}->{extra} }) {
$fru = FRU->new();
$fru->rec_type("misc");
$fru->desc("Chassis Extra data");
if ($_->{encoding} == 3) {
$fru->value($_->{value});
} else {
next;
#print Dumper($_);
#print $_->{encoding};
$fru->value(phex($_->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
if ($fruhash->{board}->{builddate}) {
$fru = FRU->new();
$fru->rec_type("misc");
$fru->desc("Board manufacture date");
$fru->value($fruhash->{board}->{builddate});
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
if ($fruhash->{board}->{manufacturer}->{value}) {
$fru = FRU->new();
$fru->rec_type("misc");
$fru->desc("Board manufacturer");
if ($fruhash->{board}->{manufacturer}->{encoding} == 3) {
$fru->value($fruhash->{board}->{manufacturer}->{value});
} else {
$fru->value(phex($fruhash->{board}->{manufacturer}->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
if ($fruhash->{board}->{frunum}) {
$fru = FRU->new();
$fru->rec_type("misc");
$fru->desc("Board FRU Number");
$fru->value($fruhash->{board}->{frunum});
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
if ($fruhash->{board}->{revision}) {
$fru = FRU->new();
$fru->rec_type("misc");
$fru->desc("Board Revision");
$fru->value($fruhash->{board}->{revision});
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
if ($fruhash->{board}->{macaddrs}) {
my $macindex = 1;
foreach my $mac (@{ $fruhash->{board}->{macaddrs} }) {
$fru = FRU->new();
$fru->rec_type("mac");
$fru->desc("MAC Address $macindex");
$macindex++;
$fru->value($mac);
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
}
if ($fruhash->{board}->{wwns}) {
my $macindex = 1;
foreach my $mac (@{ $fruhash->{board}->{wwns} }) {
$fru = FRU->new();
$fru->rec_type("wwn");
$fru->desc("WWN $macindex");
$macindex++;
$fru->value($mac);
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
}
if ($fruhash->{board}->{name}->{value}) {
$fru = FRU->new();
$fru->rec_type("misc");
$fru->desc("Board Description");
if ($fruhash->{board}->{name}->{encoding} == 3) {
$fru->value($fruhash->{board}->{name}->{value});
} else {
$fru->value(phex($fruhash->{board}->{name}->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
if ($fruhash->{board}->{serialnumber}->{value}) {
$fru = FRU->new();
$fru->rec_type("misc");
$fru->desc("Board Serial Number");
if ($fruhash->{board}->{serialnumber}->{encoding} == 3) {
$fru->value($fruhash->{board}->{serialnumber}->{value});
} else {
$fru->value(phex($fruhash->{board}->{serialnumber}->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
if ($fruhash->{board}->{partnumber}->{value}) {
$fru = FRU->new();
$fru->rec_type("misc");
$fru->desc("Board Model Number");
if ($fruhash->{board}->{partnumber}->{encoding} == 3) {
$fru->value($fruhash->{board}->{partnumber}->{value});
} else {
$fru->value(phex($fruhash->{board}->{partnumber}->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
foreach (@{ $fruhash->{board}->{extra} }) {
$fru = FRU->new();
$fru->rec_type("misc");
$fru->desc("Board Extra data");
if ($_->{encoding} == 3) {
$fru->value($_->{value});
} else {
next;
#print Dumper($_);
#print $_->{encoding};
$fru->value(phex($_->{value}));
}
$sessdata->{fru_hash}->{ $frudex++ } = $fru;
}
#Ok, done with fru 0, on to the other fru devices from SDR
$sessdata->{frudex} = $frudex;
if ($sessdata->{skipotherfru}) { #skip non-primary fru devices
if ($sessdata->{skipotherfru} and isopenpower($sessdata)) {
# For openpower Big Data servers, fru 2 has MTM/Serial and fru 43 has firmware information
# For openpower HPC servers, fru 3 has MTM/Serial and fru 47 has firmware information
@{$sessdata->{frus_for_openpower}} = qw(2 3 43 47);
my %fruids_hash = map {$_ => 1} @{$sessdata->{frus_for_openpower}};
foreach my $key (keys %{ $sessdata->{sdr_hash} }) {
my $sdr = $sessdata->{sdr_hash}->{$key};
unless ($sdr->rec_type == 0x11) {
next;
}
my $fru_id = $sdr->sensor_number;
if (defined($fruids_hash{$fru_id})) {
$sessdata->{sdr_info_for_openpower}->{$fru_id} = $sdr;
}
}
$sessdata->{currfruid} = shift @{$sessdata->{frus_for_openpower}};
$sessdata->{currfrusdr} = $sessdata->{sdr_info_for_openpower}->{$sessdata->{currfruid}};
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x10, data => [ $sessdata->{currfruid} ], callback => \&process_currfruid, callback_args => $sessdata);
return;
}
fru_initted($sessdata);
return;
}
my $key;
my $subrc;
my %sdr_hash = %{ $sessdata->{sdr_hash} };
$sessdata->{dimmfru} = [];
$sessdata->{genhwfru} = [];
foreach $key (sort { $sdr_hash{$a}->id_string cmp $sdr_hash{$b}->id_string } keys %sdr_hash) {
my $sdr = $sdr_hash{$key};
unless ($sdr->rec_type == 0x11) { #skip non fru sdr stuff
next;
}
if ($sdr->id_string =~ "DIMM") { #DIMM.
# Can not always use "fru_subtype=1" for DIMM, sometimes on Power it is 2
push @{ $sessdata->{dimmfru} }, $sdr;
} elsif ($sdr->fru_subtype == 0 or $sdr->fru_subtype == 2) {
push @{ $sessdata->{genhwfru} }, $sdr;
}
}
if (scalar @{ $sessdata->{dimmfru} }) {
$sessdata->{currfrusdr} = shift @{ $sessdata->{dimmfru} };
while ($sessdata->{currfrusdr}->sensor_number == 0 and scalar @{ $sessdata->{dimmfru} }) {
$sessdata->{currfrusdr} = shift @{ $sessdata->{dimmfru} };
}
if ($sessdata->{currfrusdr}->sensor_number != 0) {
$sessdata->{currfruid} = $sessdata->{currfrusdr}->sensor_number;
$sessdata->{currfrutype} = "dimm";
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x10, data => [ $sessdata->{currfruid} ], callback => \&process_currfruid, callback_args => $sessdata);
return;
}
}
if (scalar @{ $sessdata->{genhwfru} }) {
$sessdata->{currfrusdr} = shift @{ $sessdata->{genhwfru} };
while ($sessdata->{currfrusdr}->sensor_number == 0 and scalar @{ $sessdata->{genhwfru} }) {
$sessdata->{currfrusdr} = shift @{ $sessdata->{genhwfru} };
}
if ($sessdata->{currfrusdr}->sensor_number != 0) {
$sessdata->{currfruid} = $sessdata->{currfrusdr}->sensor_number;
$sessdata->{currfrutype} = "genhw";
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x10, data => [ $sessdata->{currfruid} ], callback => \&process_currfruid, callback_args => $sessdata);
return;
}
}
fru_initted($sessdata);
}
sub get_frusize {
my $fruid = shift;
my $netfun = 0x28; # Storage (0x0A << 2)
my @cmd = (0x10, $fruid);
my @bytes;
my $error = docmd($netfun, \@cmd, \@bytes);
pop @bytes;
unless (defined $bytes[0] and $bytes[0] == 0) {
if ($codes{ $bytes[0] }) {
return (0, $codes{ $bytes[0] });
}
return (0, "FRU device $fruid inaccessible");
}
return ($bytes[2] << 8) + $bytes[1];
}
sub formfru {
my $fruhash = shift;
my $frusize = shift;
$frusize -= 8; #consume 8 bytes for mandatory header
my $availindex = 1;
my @bytes = (1, 0, 0, 0, 0, 0, 0, 0); #
if ($fruhash->{internal}) { #Allocate the space at header time
$bytes[1] = $availindex;
$availindex += ceil((scalar @{ $fruhash->{internal} }) / 8);
$frusize -= (scalar @{ $fruhash->{internal} }); #consume internal bytes
push @bytes, @{ $fruhash->{internal} };
}
if ($fruhash->{chassis}) {
$bytes[2] = $availindex;
push @bytes, @{ $fruhash->{chassis}->{raw} };
$availindex += ceil((scalar @{ $fruhash->{chassis}->{raw} }) / 8);
$frusize -= ceil((scalar @{ $fruhash->{chassis}->{raw} }) / 8) * 8;
}
if ($fruhash->{board}) {
$bytes[3] = $availindex;
push @bytes, @{ $fruhash->{board}->{raw} };
$availindex += ceil((scalar @{ $fruhash->{board}->{raw} }) / 8);
$frusize -= ceil((scalar @{ $fruhash->{board}->{raw} }) / 8) * 8;
}
#xCAT will always have a product FRU in this process
$bytes[4] = $availindex;
unless (defined $fruhash->{product}) { #Make sure there is a data structure
#to latch onto..
$fruhash->{product} = {};
}
my @prodbytes = buildprodfru($fruhash->{product});
push @bytes, @prodbytes;
$availindex += ceil((scalar @prodbytes) / 8);
$frusize -= ceil((scalar @prodbytes) / 8) * 8;
#End of product fru setup
if ($fruhash->{extra}) {
$bytes[5] = $availindex;
push @bytes, @{ $fruhash->{extra} };
$frusize -= ceil((scalar @{ $fruhash->{extra} }) / 8) * 8;
#Don't need to track availindex anymore
}
$bytes[7] = dochksum([ @bytes[ 0 .. 6 ] ]);
if ($frusize < 0) {
return undef;
} else {
return \@bytes;
}
}
sub transfieldtobytes {
my $hashref = shift;
unless (defined $hashref) {
return (0xC0);
}
my @data;
my $size;
if ($hashref->{encoding} == 3) {
@data = unpack("C*", $hashref->{value});
} else {
@data = @{ $hashref->{value} };
}
$size = scalar(@data);
if ($size > 64) {
die "Field too large for IPMI FRU specification";
}
unshift(@data, $size | ($hashref->{encoding} << 6));
return @data;
}
sub mergefru {
my $sessdata = shift;
my $phash = shift; #Product hash
unless ($phash) { die "here" }
my $currnode = $sessdata->{node};
if ($vpdhash->{$currnode}->[0]->{mtm}) {
$phash->{model}->{encoding} = 3;
$phash->{model}->{value} = $vpdhash->{$currnode}->[0]->{mtm};
}
if ($vpdhash->{$currnode}->[0]->{serial}) {
$phash->{serialnumber}->{encoding} = 3;
$phash->{serialnumber}->{value} = $vpdhash->{$currnode}->[0]->{serial};
}
if ($vpdhash->{$currnode}->[0]->{asset}) {
$phash->{asset}->{encoding} = 3;
$phash->{asset}->{value} = $vpdhash->{$currnode}->[0]->{asset};
}
}
sub buildprodfru {
my $sessdata = shift;
my $prod = shift;
mergefru($sessdata, $prod);
my $currnode = $sessdata->{node};
my @bytes = (1, 0, 0);
my @data;
my $padsize;
push @bytes, transfieldtobytes($prod->{manufacturer});
push @bytes, transfieldtobytes($prod->{product});
push @bytes, transfieldtobytes($prod->{model});
push @bytes, transfieldtobytes($prod->{version});
push @bytes, transfieldtobytes($prod->{serialnumber});
push @bytes, transfieldtobytes($prod->{asset});
push @bytes, transfieldtobytes($prod->{fruid});
push @bytes, transfieldtobytes($prod->{fruid});
foreach (@{ $prod->{extra} }) {
my $sig = getascii(transfieldtobytes($_));
unless ($sig and $sig =~ /FRU by xCAT/) {
push @bytes, transfieldtobytes($_);
}
}
push @bytes, transfieldtobytes({ encoding => 3, value => "$currnode FRU by xCAT " . xCAT::Utils::Version('short') });
push @bytes, (0xc1);
$bytes[1] = ceil((scalar(@bytes) + 1) / 8);
$padsize = (ceil((scalar(@bytes) + 1) / 8) * 8) - scalar(@bytes) - 1;
while ($padsize--) {
push @bytes, (0x00);
}
$padsize = dochksum(\@bytes); #reuse padsize for a second to store checksum
push @bytes, $padsize;
return @bytes;
}
sub fru {
my $subcommand = shift;
my $netfun = 0x28;
my @cmd;
my @returnd = ();
my $error;
my $rc = 0;
my $text;
my @output;
my $code;
@cmd = (0x10, 0x00);
$error = docmd(
$netfun,
\@cmd,
\@returnd
);
if ($error) {
$rc = 1;
$text = $error;
return ($rc, $text);
}
$code = $returnd[0];
if ($code == 0x00) {
}
else {
$rc = 1;
$text = $codes{$code};
}
if ($rc != 0) {
if (!$text) {
$text = sprintf("unknown response %02x", $code);
}
return ($rc, $text);
}
my $fru_size_ls = $returnd[1];
my $fru_size_ms = $returnd[2];
my $fru_size = $fru_size_ms * 256 + $fru_size_ls;
if ($subcommand eq "dump") {
print "FRU Size: $fru_size\n";
my ($rc, @output) = frudump(0, $fru_size, 8);
if ($rc) {
return ($rc, @output);
}
hexadump(\@output);
return (0, "");
}
if ($subcommand eq "wipe") {
my @bytes = ();
for (my $i = 0 ; $i < $fru_size ; $i++) {
push(@bytes, 0xff);
}
my ($rc, $text) = fruwrite(0, \@bytes, 8);
if ($rc) {
return ($rc, $text);
}
return (0, "FRU $fru_size bytes wiped");
}
return (0, "");
}
sub add_fruhash {
my $sessdata = shift;
my $fruhash;
if ($sessdata->{currfruid} != 0 and not ref $sessdata->{currfrudata}) {
my $fru = FRU->new();
if ($sessdata->{currfrutype} and $sessdata->{currfrutype} eq 'dimm') {
$fru->rec_type("dimm,hw");
} else {
$fru->rec_type("hw");
}
$fru->value($sessdata->{currfrudata});
if ($sessdata->{currfrusdr}) {
$fru->desc($sessdata->{currfrusdr}->id_string);
}
$sessdata->{fru_hash}->{ $sessdata->{frudex} } = $fru;
$sessdata->{frudex} += 1;
} elsif ($sessdata->{currfrutype} and $sessdata->{currfrutype} eq 'dimm') {
$fruhash = decode_spd(@{ $sessdata->{currfrudata} });
if ($fruhash->{product}->{model} =~ "Unrecognized SPD") {
# If decode_spd() was not able to parse SPD data for DIMM, try parsefru()
#
# Yes, it is a goto statement here. Ugly, but removes the need to restructure
goto PARSEFRU_DIMM;
}
} else {
PARSEFRU_DIMM:
my $err;
$global_sessdata = $sessdata; #pass by global, evil, but practical this time
($err, $fruhash) = parsefru($sessdata->{currfrudata});
$global_sessdata = undef; #revert state of global
if ($err) {
my $fru = FRU->new();
if ($sessdata->{currfrutype} and $sessdata->{currfrutype} eq 'dimm') {
$fru->rec_type("dimm,hw");
} else {
$fru->rec_type("hw");
}
$fru->value($err);
if ($sessdata->{currfrusdr} and scalar keys %{$sessdata->{currfrusdr}} ) {
$fru->desc($sessdata->{currfrusdr}->id_string);
}
if (exists($sessdata->{frudex})) {
$sessdata->{fru_hash}->{ $sessdata->{frudex} } = $fru;
$sessdata->{frudex} += 1;
}
undef $sessdata->{currfrudata}; #skip useless calls to add more frus when parsing failed miserably anyway
#xCAT::SvrUtils::sendmsg([1,":Error reading fru area ".$sessdata->{currfruid}.": $err"],$callback);
#return;
}
}
if ($sessdata->{currfruid} == 0) {
initfru_zero($sessdata, $fruhash);
return;
} elsif (ref $sessdata->{currfrudata}) {
if ($sessdata->{currfrutype} and $sessdata->{currfrutype} eq 'dimm') {
add_textual_frus($fruhash, $sessdata->{currfrusdr}->id_string, "", "product", "dimm,hw", $sessdata);
add_textual_frus($fruhash, $sessdata->{currfrusdr}->id_string, "Board ", "board", "dimm,hw", $sessdata);
} else {
add_textual_frus($fruhash, $sessdata->{currfrusdr}->id_string, "Board ", "board", undef, $sessdata);
add_textual_frus($fruhash, $sessdata->{currfrusdr}->id_string, "Product ", "product", undef, $sessdata);
add_textual_frus($fruhash, $sessdata->{currfrusdr}->id_string, "Chassis ", "chassis", undef, $sessdata);
}
}
if ($sessdata->{skipotherfru}) {
if (scalar @{$sessdata->{frus_for_openpower}}) {
$sessdata->{currfruid} = shift @{$sessdata->{frus_for_openpower}};
$sessdata->{currfrusdr} = $sessdata->{sdr_info_for_openpower}->{$sessdata->{currfruid}};
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x10, data => [ $sessdata->{currfruid} ], callback => \&process_currfruid, callback_args => $sessdata);
return;
}
fru_initted($sessdata);
return;
}
if (scalar @{ $sessdata->{dimmfru} }) {
$sessdata->{currfrusdr} = shift @{ $sessdata->{dimmfru} };
while ($sessdata->{currfrusdr}->sensor_number == 0 and scalar @{ $sessdata->{dimmfru} }) {
$sessdata->{currfrusdr} = shift @{ $sessdata->{dimmfru} };
}
if ($sessdata->{currfrusdr}->sensor_number != 0) {
$sessdata->{currfruid} = $sessdata->{currfrusdr}->sensor_number;
$sessdata->{currfrutype} = "dimm";
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x10, data => [ $sessdata->{currfruid} ], callback => \&process_currfruid, callback_args => $sessdata);
return;
}
}
if (scalar @{ $sessdata->{genhwfru} }) {
$sessdata->{currfrusdr} = shift @{ $sessdata->{genhwfru} };
while ($sessdata->{currfrusdr}->sensor_number == 0 and scalar @{ $sessdata->{genhwfru} }) {
$sessdata->{currfrusdr} = shift @{ $sessdata->{genhwfru} };
}
if ($sessdata->{currfrusdr}->sensor_number != 0) {
$sessdata->{currfruid} = $sessdata->{currfrusdr}->sensor_number;
$sessdata->{currfrutype} = "genhw";
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x10, data => [ $sessdata->{currfruid} ], callback => \&process_currfruid, callback_args => $sessdata);
return;
}
}
fru_initted($sessdata);
}
sub readcurrfrudevice {
my $rsp = shift;
my $sessdata = shift;
my $chunk = 16; #we have no idea how much will be supported to grab at a time, stick to 16 as a magic number for the moment
if (not ref $rsp) {
$sessdata->{currfruoffset} = 0;
$sessdata->{currfrudata} = [];
$sessdata->{currfrudone} = 0;
$sessdata->{currfruchunk} = 16;
} else {
if ($rsp->{code} != 0xcb and check_rsp_errors($rsp, $sessdata)) {
return;
} elsif ($rsp->{code} == 0xcb) {
$sessdata->{currfrudata} = "Not Present";
$sessdata->{currfrudone} = 1;
add_fruhash($sessdata);
return;
}
my @data = @{ $rsp->{data} };
if ($data[0] != $sessdata->{currfruchunk}) {
# Fix FRU 43,48 and 49 for GRS server that they can not return as much data as shall return
if ($data[0] ge 0) {
$sessdata->{currfrudone} = 1;
} else {
my $text = "Received incorrect data from BMC for FRU ID: " . $sessdata->{currfruid};
xCAT::SvrUtils::sendmsg($text, $callback, $sessdata->{node}, %allerrornodes);
add_fruhash($sessdata);
return;
}
}
shift @data;
push @{ $sessdata->{currfrudata} }, @data;
if ($sessdata->{currfrudone}) {
if ($sessdata->{isite} and $sessdata->{currfrusdr} and ($sessdata->{currfrusdr}->fru_oem & 0x80)) {
#IBM OEM command, d0,51,0 further qualifies the command name, we'll first take a stop at block 0, offset 2, one byte, to get VPD version number
#command structured as:
#d0,51,0 = command set identifier
#lsb of offset
#msb of offset
#address type (1 for fru id)
#address (fru id for our use)
#1 - fixed value
#lsb - size
#msb - size
#vpd_base_specivication_ver2.x
$sessdata->{ipmisession}->subcmd(netfn => 0x2e, command => 0x51, data => [ 0xd0, 0x51, 0, 0x2, 0x0, 1, $sessdata->{currfruid}, 1, 1, 0 ], callback => \&got_vpd_version, callback_args => $sessdata);
} else {
add_fruhash($sessdata);
}
return;
}
}
my $ms = $sessdata->{currfruoffset} >> 8;
my $ls = $sessdata->{currfruoffset} & 0xff;
if ($sessdata->{currfruoffset} + 16 >= $sessdata->{currfrusize}) {
$chunk = $sessdata->{currfrusize} - $sessdata->{currfruoffset}; # shrink chunk to only get the remainder data
$sessdata->{currfrudone} = 1;
} else {
$sessdata->{currfruoffset} += $chunk;
}
$sessdata->{currfruchunk} = $chunk;
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x11, data => [ $sessdata->{currfruid}, $ls, $ms, $chunk ], callback => \&readcurrfrudevice, callback_args => $sessdata);
}
sub got_vpd_version {
my $rsp = shift;
my $sessdata = shift;
unless ($rsp and not $rsp->{error} and $rsp->{code} == 0 and $rsp->{data}->[5] == 2) { #unless the query was successful and major vpd version was 2
#short over to adding the fru hash as-is
add_fruhash($sessdata);
return;
}
#making it this far, we have affirmative confirmation of ibm oem vpd data, time to chase component mac, wwpn, and maybe mezz firmware
#will need:
# block 0, offset 0c8h use the offset to add to block 1 offsets (usually 400h), denoting as $blone
# block 1, $blone+6 - 216 bytes: 6 sets of 36 byte version information (TODO)
# block 1, $blone+0x1d0: port type first 4 bits protocol, last 3 bits addressing
# block 1, $blone+0x240: 64 bytes, up to 8 sets of addresses, mac is left aligned
# block 1, $blone+0x300: if mac+wwn, grab wwn
$sessdata->{ipmisession}->subcmd(netfn => 0x2e, command => 0x51, data => [ 0xd0, 0x51, 0, 0xc8, 0x0, 1, $sessdata->{currfruid}, 1, 2, 0 ], callback => \&got_vpd_block1, callback_args => $sessdata);
}
sub got_vpd_block1 {
my $rsp = shift;
my $sessdata = shift;
unless ($rsp and not $rsp->{error} and $rsp->{code} == 0) { # if this should go wonky, jump ahead
add_fruhash($sessdata);
return;
}
$sessdata->{vpdblock1offset} = $rsp->{data}->[5] << 8 + $rsp->{data}->[6];
my $ptoffset = $sessdata->{vpdblock1offset} + 0x1d0;
$sessdata->{ipmisession}->subcmd(netfn => 0x2e, command => 0x51, data => [ 0xd0, 0x51, 0, $ptoffset & 0xff, $ptoffset >> 8, 1, $sessdata->{currfruid}, 1, 1, 0 ], callback => \&got_portaddr_type, callback_args => $sessdata);
}
sub got_portaddr_type {
my $rsp = shift;
my $sessdata = shift;
unless ($rsp and not $rsp->{error} and $rsp->{code} == 0) { # if this should go wonky, jump ahead
add_fruhash($sessdata);
return;
}
my $addrtype = $rsp->{data}->[5] & 0b111;
if ($addrtype == 0b101) {
$sessdata->{needmultiaddr} = 1;
$sessdata->{curraddrtype} = "mac";
} elsif ($addrtype == 0b1) {
$sessdata->{curraddrtype} = "mac";
} elsif ($addrtype == 0b10) {
$sessdata->{curraddrtype} = "wwn";
} else { #for now, skip polling addresses I haven't examined directly
add_fruhash($sessdata);
return;
}
my $addroffset = $sessdata->{vpdblock1offset} + 0x240;
$sessdata->{ipmisession}->subcmd(netfn => 0x2e, command => 0x51, data => [ 0xd0, 0x51, 0, $addroffset & 0xff, $addroffset >> 8, 1, $sessdata->{currfruid}, 1, 64, 0 ], callback => \&got_vpd_addresses, callback_args => $sessdata);
}
sub got_vpd_addresses {
my $rsp = shift;
my $sessdata = shift;
unless ($rsp and not $rsp->{error} and $rsp->{code} == 0) { # if this should go wonky, jump ahead
add_fruhash($sessdata);
return;
}
my @addrdata = @{ $rsp->{data} };
splice @addrdata, 0, 5; # remove the header info
my $macstring = "1";
while ($macstring !~ /^00:00:00:00:00:00/) {
my @currmac = splice @addrdata, 0, 8;
unless ((scalar @currmac) == 8) {
last;
}
$macstring = sprintf("%02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x", @currmac);
if ($macstring =~ /^00:00:00:00:00:00:00:00/) {
last;
}
if ($sessdata->{curraddrtype} eq "mac") {
$macstring =~ s/:..:..$//;
push @{ $sessdata->{currmacs} }, $macstring;
} elsif ($sessdata->{curraddrtype} eq "wwn") {
push @{ $sessdata->{currwwns} }, $macstring;
}
}
if ($sessdata->{needmultiaddr}) {
$sessdata->{needmultiaddr} = 0;
$sessdata->{curraddrtype} = "wwn";
my $addroffset = $sessdata->{vpdblock1offset} + 0x300;
$sessdata->{ipmisession}->subcmd(netfn => 0x2e, command => 0x51, data => [ 0xd0, 0x51, 0, $addroffset & 0xff, $addroffset >> 8, 1, $sessdata->{currfruid}, 1, 64, 0 ], callback => \&got_vpd_addresses, callback_args => $sessdata);
return;
}
add_fruhash($sessdata);
}
sub parsefru {
my $bytes = shift;
my $fruhash;
my $curridx; #store indexes as needed for convenience
my $currsize; #store current size
my $subidx;
my @currarea;
unless (ref $bytes) {
return $bytes, undef;
}
if (!defined $bytes->[0]) {
return "clear", undef;
}
unless ($bytes->[0] == 1) {
if ($bytes->[0] == 0 or $bytes->[0] == 0xff) { #not in spec, but probably unitialized, xCAT probably will rewrite fresh
return "clear", undef;
} else { #some meaning suggested, but not parsable, xCAT shouldn't meddle
return "Unrecognized FRU format", undef;
}
}
elsif (!$bytes->[1] and !$bytes->[2] and !$bytes->[3] and !$bytes->[4] and !$bytes->[5]) {
return "No data available", undef;
}
if ($bytes->[1]) { #The FRU spec, unfortunately, gave no easy way to tell the size of internal area
#consequently, will find the next defined field and preserve the addressing and size of current FRU
#area until then
my $internal_size;
if ($bytes->[2]) {
$internal_size = $bytes->[2] * 8 - ($bytes->[1] * 8);
} elsif ($bytes->[3]) {
$internal_size = $bytes->[3] * 8 - ($bytes->[1] * 8);
} elsif ($bytes->[4]) {
$internal_size = $bytes->[4] * 8 - ($bytes->[1] * 8);
} elsif ($bytes->[5]) {
$internal_size = $bytes->[5] * 8 - ($bytes->[1] * 8);
} else { #The FRU area is intact enough to signify xCAT can't safely manipulate contents
return "unknown-winternal", undef;
}
#capture slice of bytes
$fruhash->{internal} = [ @{$bytes}[ ($bytes->[1] * 8) .. ($bytes->[1] * 8 + $internal_size - 1) ] ]; #,$bytes->[1]*8,$internal_size];
}
if ($bytes->[2]) { #Chassis info area, xCAT will preserve fields, not manipulate them
$curridx = $bytes->[2] * 8;
unless ($bytes->[$curridx] == 1) { #definitely unparsable, but the section is preservable
return "unknown-COULDGUESS", undef; #be lazy for now, TODO revisit this and add guessing if it ever matters
}
$currsize = ($bytes->[ $curridx + 1 ]) * 8;
if ($currsize > 0) {
@currarea = @{$bytes}[ $curridx .. ($curridx + $currsize - 1) ]; #splice @$bytes,$curridx,$currsize;
$fruhash->{chassis} = parsechassis(@currarea);
}
}
if ($bytes->[3]) { #Board info area, to be preserved
$curridx = $bytes->[3] * 8;
unless ($bytes->[$curridx] == 1) {
return "unknown-COULDGUESS", undef;
}
$currsize = ($bytes->[ $curridx + 1 ]) * 8;
# some systems have malformed board info
# Just in case, give the board area parser access to end
# of total area unless product or multirecord is there
my $endidx = $#{$bytes};
if ($bytes->[4] or $bytes->[5]) {
$endidx = $curridx + $currsize - 1;
}
if ($currsize > 0) {
@currarea = @{$bytes}[ $curridx .. $endidx ];
$fruhash->{board} = parseboard(@currarea);
}
}
if (ref $global_sessdata->{currmacs}) {
$fruhash->{board}->{macaddrs} = [];
push @{ $fruhash->{board}->{macaddrs} }, @{ $global_sessdata->{currmacs} };
delete $global_sessdata->{currmacs}; # consume the accumulated mac addresses to avoid afflicting subsequent fru
}
if (ref $global_sessdata->{currwwns}) {
push @{ $fruhash->{board}->{wwns} }, @{ $global_sessdata->{currwwns} };
delete $global_sessdata->{currwwns}; # consume wwns
}
if ($bytes->[4]) { #Product info area present, will probably be thoroughly modified
$curridx = $bytes->[4] * 8;
unless ($bytes->[$curridx] == 1) {
return "unknown-COULDGUESS", undef;
}
$currsize = ($bytes->[ $curridx + 1 ]) * 8;
if ($currsize > 0) {
@currarea = @{$bytes}[ $curridx .. ($curridx + $currsize - 1) ];
$fruhash->{product} = parseprod(@currarea);
}
}
if ($bytes->[5]) { #Generic multirecord present..
$fruhash->{extra} = [];
my $last = 0;
$curridx = $bytes->[5] * 8;
my $currsize;
if ($bytes->[$curridx] <= 5) { #don't even try to parse unknown stuff
#some records don't comply to any SPEC
while (not $last and $curridx < (scalar @$bytes)) {
if ($bytes->[ $curridx + 1 ] & 128) {
$last = 1;
}
$currsize = $bytes->[ $curridx + 2 ];
push @{ $fruhash->{extra} }, @{$bytes}[ $curridx .. $curridx + 4 + $currsize - 1 ];
$curridx += 5 + $currsize;
}
}
}
return 0, $fruhash;
}
sub parseprod {
my @area = @_;
my %info;
my $language = $area[2];
my $idx = 3;
my $currsize;
my $currdata;
my $encode;
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
unless ($currsize) {
return \%info;
}
$idx += $currsize;
if ($currsize > 1) {
$info{manufacturer}->{encoding} = $encode;
$info{manufacturer}->{value} = $currdata;
}
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
unless ($currsize) {
return \%info;
}
$idx += $currsize;
if ($currsize > 1) {
$info{product}->{encoding} = $encode;
$info{product}->{value} = $currdata;
}
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
unless ($currsize) {
return \%info;
}
$idx += $currsize;
if ($currsize > 1) {
$info{model}->{encoding} = $encode;
$info{model}->{value} = $currdata;
}
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
unless ($currsize) {
return \%info;
}
$idx += $currsize;
if ($currsize > 1) {
$info{version}->{encoding} = $encode;
$info{version}->{value} = $currdata;
}
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
unless ($currsize) {
return \%info;
}
$idx += $currsize;
if ($currsize > 1) {
$info{serialnumber}->{encoding} = $encode;
$info{serialnumber}->{value} = $currdata;
}
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
unless ($currsize) {
return \%info;
}
$idx += $currsize;
if ($currsize > 1) {
$info{asset}->{encoding} = $encode;
$info{asset}->{value} = $currdata;
}
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
unless ($currsize) {
return \%info;
}
$idx += $currsize;
if ($currsize > 1) {
$info{fruid}->{encoding} = $encode;
$info{fruid}->{value} = $currdata;
}
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
if ($currsize) {
$info{extra} = [];
}
while ($currsize > 0) {
if ($currsize > 1) {
push @{ $info{extra} }, { value => $currdata, encoding => $encode };
}
$idx += $currsize;
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
if ($currsize < 0) { last }
}
return \%info;
}
sub parseboard {
my @area = @_;
my %boardinf;
my $idx = 6;
my $language = $area[2];
my $tstamp = ($area[3] + ($area[4] << 8) + ($area[5] << 16)) * 60 + 820472400; #820472400 is meant to be 1/1/1996
$boardinf{raw} = [@area]; #store for verbatim replacement
unless ($tstamp == 820472400) {
$boardinf{builddate} = scalar localtime($tstamp);
}
my $encode;
my $currsize;
my $currdata;
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
unless ($currsize) {
return \%boardinf;
}
$idx += $currsize;
if ($currsize > 1) {
$boardinf{manufacturer}->{encoding} = $encode;
$boardinf{manufacturer}->{value} = $currdata;
}
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
unless ($currsize) {
return \%boardinf;
}
$idx += $currsize;
if ($currsize > 1) {
$boardinf{name}->{encoding} = $encode;
$boardinf{name}->{value} = $currdata;
}
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
unless ($currsize) {
return \%boardinf;
}
$idx += $currsize;
if ($currsize > 1) {
$boardinf{serialnumber}->{encoding} = $encode;
$boardinf{serialnumber}->{value} = $currdata;
}
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
unless ($currsize) {
return \%boardinf;
}
$idx += $currsize;
if ($currsize > 1) {
$boardinf{partnumber}->{encoding} = $encode;
$boardinf{partnumber}->{value} = $currdata;
}
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
unless ($currsize) {
return \%boardinf;
}
$idx += $currsize;
if ($currsize > 1) {
$boardinf{fruid}->{encoding} = $encode;
$boardinf{fruid}->{value} = $currdata;
}
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
if ($currsize) {
$boardinf{extra} = [];
}
while ($currsize > 0) {
if ($currsize > 1) {
push @{ $boardinf{extra} }, { value => $currdata, encoding => $encode };
}
$idx += $currsize;
($currsize, $currdata, $encode) = extractfield(\@area, $idx);
if ($currsize < 0) { last }
}
if ($global_sessdata->{isanimm}) { #we can understand more specifically some of the extra fields...
$boardinf{frunum} = $boardinf{extra}->[0]->{value};
$boardinf{revision} = $boardinf{extra}->[4]->{value};
#time to process the mac field...
my $macdata = $boardinf{extra}->[6]->{value};
my $macstring = "1";
my $macprefix;
while ($macdata and ref $macdata and $macstring !~ /00:00:00:00:00:00/ and not ref $global_sessdata->{currmacs}) {
my @currmac = splice @$macdata, 0, 6;
unless ((scalar @currmac) == 6) {
last;
}
$macstring = sprintf("%02x:%02x:%02x:%02x:%02x:%02x", @currmac);
unless ($macprefix) {
$macprefix = substr($macstring, 0, 8);
}
if ($macstring !~ /00:00:00:00:00:00/ and $macstring =~ /^$macprefix/) {
push @{ $boardinf{macaddrs} }, $macstring;
}
}
delete $boardinf{extra};
}
return \%boardinf;
}
sub parsechassis {
my @chassarea = @_;
my %chassisinf;
my $currsize;
my $currdata;
my $idx = 3;
my $encode;
$chassisinf{raw} = [@chassarea]; #store for verbatim replacement
$chassisinf{type} = "unknown";
if ($chassis_types{ $chassarea[2] }) {
$chassisinf{type} = $chassis_types{ $chassarea[2] };
}
if ($chassarea[$idx] == 0xc1) {
return \%chassisinf;
}
($currsize, $currdata, $encode) = extractfield(\@chassarea, $idx);
unless ($currsize) {
return \%chassisinf;
}
$idx += $currsize;
if ($currsize > 1) {
$chassisinf{partnumber}->{encoding} = $encode;
$chassisinf{partnumber}->{value} = $currdata;
}
($currsize, $currdata, $encode) = extractfield(\@chassarea, $idx);
unless ($currsize) {
return \%chassisinf;
}
$idx += $currsize;
if ($currsize > 1) {
$chassisinf{serialnumber}->{encoding} = $encode;
$chassisinf{serialnumber}->{value} = $currdata;
}
($currsize, $currdata, $encode) = extractfield(\@chassarea, $idx);
if ($currsize) {
$chassisinf{extra} = [];
}
while ($currsize > 0) {
if ($currsize > 1) {
push @{ $chassisinf{extra} }, { value => $currdata, encoding => $encode };
}
$idx += $currsize;
($currsize, $currdata, $encode) = extractfield(\@chassarea, $idx);
if ($currsize < 0) { last }
}
return \%chassisinf;
}
sub extractfield { #idx is location of the type/length byte, returns something appropriate
my $area = shift;
my $idx = shift;
my $language = shift;
my $data;
if ($idx >= scalar @$area) {
# The global_sessdata store the sessdata for a node when parsefru, and it is cleaned after parsefru
xCAT::SvrUtils::sendmsg([ 1, "Error encountered when parsing FRU data from BMC" ], $callback, $global_sessdata->{node}, %allerrornodes);
return 0, undef, undef;
}
my $size = $area->[$idx] & 0b00111111;
my $encoding = ($area->[$idx] & 0b11000000) >> 6;
unless ($size) {
return 1, undef, undef;
}
if ($size == 1 && $encoding == 3) {
return 0, '', '';
}
if ($encoding == 3) {
$data = getascii(@$area[ $idx + 1 .. $size + $idx ]);
} else {
$data = [ @$area[ $idx + 1 .. $size + $idx ] ];
}
return $size + 1, $data, $encoding;
}
sub writefru {
my $netfun = 0x28; # Storage (0x0A << 2)
my @cmd = (0x10, 0);
my @bytes;
my $error = docmd($netfun, \@cmd, \@bytes);
pop @bytes;
unless (defined $bytes[0] and $bytes[0] == 0) {
return (1, "FRU device 0 inaccessible");
}
my $frusize = ($bytes[2] << 8) + $bytes[1];
($error, @bytes) = frudump(0, $frusize, 16);
if ($error) {
return (1, "Error retrieving FRU: " . $error);
}
my $fruhash;
($error, $fruhash) = parsefru(\@bytes);
my $newfru = formfru($fruhash, $frusize);
unless ($newfru) {
return (1, "FRU data will not fit in BMC FRU space, fields too long");
}
my $rc = 1;
my $writeattempts = 0;
my $text;
while ($rc and $writeattempts < 15) {
if ($writeattempts) {
sleep 1;
}
($rc, $text) = fruwrite(0, $newfru, 8);
if ($text =~ /rotected/) {
last;
}
$writeattempts++;
}
if ($rc) {
return ($rc, $text);
}
return (0, "FRU Updated");
}
sub fruwrite {
my $offset = shift;
my $bytes = shift;
my $chunk = shift;
my $length = @$bytes;
my $netfun = 0x28;
my @cmd;
my @returnd = ();
my $error;
my $rc = 0;
my $text;
my @output;
my $code;
my @fru_data = ();
for (my $c = $offset ; $c < $length + $offset ; $c += $chunk) {
my $ms = int($c / 0x100);
my $ls = $c - $ms * 0x100;
@cmd = (0x12, 0x00, $ls, $ms, @$bytes[ $c - $offset .. $c - $offset + $chunk - 1 ]);
$error = docmd(
$netfun,
\@cmd,
\@returnd
);
if ($error) {
$rc = 1;
$text = $error;
return ($rc, $text);
}
$code = $returnd[0];
if ($code == 0x00) {
}
else {
$rc = 1;
$text = $codes{$code};
}
if ($rc != 0) {
if ($code == 0x80) {
$text = "Write protected FRU";
}
if (!$text) {
$text = sprintf("unknown response %02x", $code);
}
return ($rc, $text);
}
my $count = $returnd[1];
if ($count != $chunk) {
$rc = 1;
$text = "FRU write error (bytes requested: $chunk, wrote: $count)";
return ($rc, $text);
}
}
return (0);
}
sub decodealert {
my $sessdata = shift;
my $skip_sdrinit = 0;
unless (ref $sessdata) { #called from xcat traphandler
$sessdata = { sdr_hash => {} };
$skip_sdrinit = 1; #TODO sdr_init, cache only to avoid high trap handling overhead
}
my $trap = shift;
if ($trap =~ /xCAT_plugin::ipmi/) {
$trap = shift;
$skip_sdrinit = 1;
}
my $node = shift;
my @pet = @_;
my $rc;
my $text;
my $type;
my $desc;
#my $ipmisensoreventtab = "$ENV{XCATROOT}/lib/GUMI/ipmisensorevent.tab";
#my $ipmigenericeventtab = "$ENV{XCATROOT}/lib/GUMI/ipmigenericevent.tab";
my $offsetmask = 0b00000000000000000000000000001111;
my $offsetrmask = 0b00000000000000000000000001110000;
my $assertionmask = 0b00000000000000000000000010000000;
my $eventtypemask = 0b00000000000000001111111100000000;
my $sensortypemask = 0b00000000111111110000000000000000;
my $reservedmask = 0b11111111000000000000000000000000;
my $offset = $trap & $offsetmask;
my $offsetr = $trap & $offsetrmask;
my $event_dir = $trap & $assertionmask;
my $event_type = ($trap & $eventtypemask) >> 8;
my $sensor_type = ($trap & $sensortypemask) >> 16;
my $reserved = ($trap & $reservedmask) >> 24;
if ($debug >= 2) {
printf("offset: %02xh\n", $offset);
printf("offsetr: %02xh\n", $offsetr);
printf("assertion: %02xh\n", $event_dir);
printf("eventtype: %02xh\n", $event_type);
printf("sensortype: %02xh\n", $sensor_type);
printf("reserved: %02xh\n", $reserved);
}
my @hex = (0, @pet);
my $pad = $hex[0];
my @uuid = @hex[ 1 .. 16 ];
my @seqnum = @hex[ 17, 18 ];
my @timestamp = @hex[ 19, 20, 21, 22 ];
my @utcoffset = @hex[ 23, 24 ];
my $trap_source_type = $hex[25];
my $event_source_type = $hex[26];
my $sev = $hex[27];
my $sensor_device = $hex[28];
my $sensor_num = $hex[29];
my $entity_id = $hex[30];
my $entity_instance = $hex[31];
my $event_data_1 = $hex[32];
my $event_data_2 = $hex[33];
my $event_data_3 = $hex[34];
my @event_data = @hex[ 35 .. 39 ];
my $langcode = $hex[40];
my $mfg_id = $hex[41] + $hex[42] * 0x100 + $hex[43] * 0x10000 + $hex[44] * 0x1000000;
my $prod_id = $hex[45] + $hex[46] * 0x100;
my @oem = $hex[ 47 .. @hex - 1 ];
if ($sev == 0x00) {
$sev = "LOG";
}
elsif ($sev == 0x01) {
$sev = "MONITOR";
}
elsif ($sev == 0x02) {
$sev = "INFORMATION";
}
elsif ($sev == 0x04) {
$sev = "OK";
}
elsif ($sev == 0x08) {
$sev = "WARNING";
}
elsif ($sev == 0x10) {
$sev = "CRITICAL";
}
elsif ($sev == 0x20) {
$sev = "NON-RECOVERABLE";
}
else {
$sev = "UNKNOWN-SEVERITY:$sev";
}
$text = "$sev:";
($rc, $type, $desc) = getsensorevent($sensor_type, $offset, "ipmisensorevents");
if ($rc == 1) {
$type = "Unknown Type $sensor_type";
$desc = "Unknown Event $offset";
$rc = 0;
}
if ($event_type <= 0x0c) {
my $gtype;
my $gdesc;
($rc, $gtype, $gdesc) = getsensorevent($event_type, $offset, "ipmigenericevents");
if ($rc == 1) {
$gtype = "Unknown Type $gtype";
$gdesc = "Unknown Event $offset";
$rc = 0;
}
$desc = $gdesc;
}
if ($type eq "" || $type eq "-") {
$type = "OEM Sensor Type $sensor_type"
}
if ($desc eq "" || $desc eq "-") {
$desc = "OEM Sensor Event $offset"
}
if ($type eq $desc) {
$desc = "";
}
my $extra_info = getaddsensorevent($sensor_type, $offset, $event_data_1, $event_data_2, $event_data_3);
if ($extra_info) {
if ($desc) {
$desc = "$desc $extra_info";
}
else {
$desc = "$extra_info";
}
}
$text = "$text $type,";
$text = "$text $desc";
my $key;
my $sensor_desc = sprintf("Sensor 0x%02x", $sensor_num);
my %sdr_hash = %{ $sessdata->{sdr_hash} };
foreach $key (keys %sdr_hash) {
my $sdr = $sdr_hash{$key};
if ($sdr->sensor_number == $sensor_num and $sdr->rec_type != 192 and $sdr->rec_type != 17) {
$sensor_desc = $sdr_hash{$key}->id_string;
if ($sdr->rec_type == 0x01) {
last;
}
}
}
$text = "$text ($sensor_desc)";
if ($event_dir) {
$text = "$text - Recovered";
}
return (0, $text);
}
sub readauxentry {
my $netfn = 0x2e << 2;
my $entrynum = shift;
my $entryls = ($entrynum & 0xff);
my $entryms = ($entrynum >> 8);
my @cmd = (0x93, 0x4d, 0x4f, 0x00, $entryls, $entryms, 0, 0, 0xff, 0x5); #Get log size andup to 1275 bytes of data, keeping it under 1500 to accomodate mixed-mtu circumstances
my @data;
my $error = docmd(
$netfn,
\@cmd,
\@data
);
if ($error) { return $error; }
if ($data[0]) { return $data[0]; }
my $text;
unless ($data[1] == 0x4d and $data[2] == 0x4f and $data[3] == 0) { return "Unrecognized response format" }
$entrynum = $data[6] + ($data[7] << 8);
if (($data[10] & 1) == 1) {
$text = "POSSIBLY INCOMPLETE DATA FOLLOWS:\n";
}
my $addtext = "";
if ($data[5] > 5) {
$addtext = "\nTODO:SUPPORT MORE DATA THAT WAS SEEN HERE";
}
@data = splice @data, 11;
pop @data;
while (scalar(@data)) {
my @subdata = splice @data, 0, 30;
my $numbytes = scalar(@subdata);
my $formatstring = "%02x" x $numbytes;
$formatstring =~ s/%02x%02x/%02x%02x /g;
$text .= sprintf($formatstring . "\n", @subdata);
}
$text .= $addtext;
return (0, $entrynum, $text);
}
sub eventlog {
my $sessdata = shift;
my $subcommand = $sessdata->{subcommand};
my $cmdargv = $sessdata->{extraargs};
unless ($sessdata) { die "not fixed yet" }
my $netfun = 0x0a;
my @cmd;
my @returnd = ();
my $error;
my $rc = 0;
my $text;
my $code;
my @output;
my $entry;
$sessdata->{fullsel} = 0;
my @sel;
my $mfg_id;
my $prod_id;
my $device_id;
#device id needed here
$rc = 0;
#reventlog <node> [[all] [-s] | <num> [-s]| clear]
$subcommand = undef;
my $arg = shift(@$cmdargv);
while ($arg) {
if ($arg eq "all" or $arg eq "clear" or $arg =~ /^\d+$/) {
if (defined($subcommand)) {
return (1, "revenglog $subcommand $arg invalid");
}
$subcommand = $arg;
} elsif ($arg =~ /^-s$/) {
$sessdata->{sort} = 1;
} else {
return (1, "unsupported command eventlog $arg");
}
$arg = shift(@$cmdargv);
}
unless (defined($subcommand)) {
$subcommand = 'all';
}
if ($subcommand eq "all") {
$sessdata->{fullsel} = 1;
}
elsif ($subcommand eq "clear") {
if (exists($sessdata->{sort})) {
return (1, "option \"first\" can not work with $subcommand");
}
}
elsif ($subcommand =~ /^\d+$/) {
$sessdata->{numevents} = $subcommand;
$sessdata->{displayedevents} = 0;
}
else {
return (1, "unsupported command eventlog $subcommand");
}
$sessdata->{subcommand} = $subcommand;
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x48, data => [], callback => \&eventlog_with_time, callback_args => $sessdata);
}
sub eventlog_with_time {
if (check_rsp_errors(@_)) {
return;
}
my $rsp = shift;
my $sessdata = shift;
my @returnd = (0, @{ $rsp->{data} });
#Here we set tfactor based on the delta between the BMC reported time and our
#time. The IPMI spec says the BMC should return seconds since 1970 in local
#time, but the reality is the firmware pushing to the BMC has no context
#to know, so here we guess and adjust all timestamps based on delta between
#our now and the BMC's now
$sessdata->{tfactor} = $returnd[4] << 24 | $returnd[3] << 16 | $returnd[2] << 8 | $returnd[1];
if ($sessdata->{tfactor} > 0x20000000) {
$sessdata->{tfactor} -= time();
} else {
$sessdata->{tfactor} = 0;
}
$sessdata->{ipmisession}->subcmd(netfn => 0x0a, command => 0x40, data => [], callback => \&eventlog_with_selinfo, callback_args => $sessdata);
}
sub eventlog_with_selinfo {
if (check_rsp_errors(@_)) {
return;
}
my $rsp = shift;
my $sessdata = shift;
my $code = $rsp->{code};
my @returnd = (0, @{ $rsp->{data} });
#sif($code == 0x81) {
# $rc = 1;
# $text = "cannot execute command, SEL erase in progress";
#}
my $sel_version = $returnd[1];
if ($sel_version != 0x51) {
xCAT::SvrUtils::sendmsg(sprintf("SEL version 51h support only, version reported: %x", $sel_version), $callback, $sessdata->{node}, %allerrornodes);
return;
}
hexdump(\@returnd);
my $num_entries = ($returnd[3] << 8) + $returnd[2];
if ($num_entries <= 0) {
xCAT::SvrUtils::sendmsg("no SEL entries", $callback, $sessdata->{node}, %allerrornodes);
return;
}
my $canres = $returnd[14] & 0b00000010;
if (!$canres) {
xCAT::SvrUtils::sendmsg([ 1, "SEL reservation not supported" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
my $subcommand = $sessdata->{subcommand};
if ($subcommand =~ /clear/) { #Don't bother with a reservation unless a clear is involved
#atomic SEL retrieval need not require it, so an event during retrieval will not kill reventlog effort off
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x42, data => [], callback => \&clear_sel_with_reservation, callback_args => $sessdata);
return;
} elsif ($sessdata->{mfg_id} == 2) {
#read_ibm_auxlog($sessdata); #TODO JBJ fix this back in
#return;
#For requests other than clear, we check for IBM extended auxillary log data
}
$sessdata->{selentries} = [];
$sessdata->{selentry} = 0;
if (exists($sessdata->{sort})) {
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x43, data => [ 0, 0, 0xFF, 0xFF, 0x00, 0xFF ], callback => \&got_sel, callback_args => $sessdata);
} else {
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x43, data => [ 0, 0, 0x00, 0x00, 0x00, 0xFF ], callback => \&got_sel, callback_args => $sessdata);
}
}
sub got_sel {
if (check_rsp_errors(@_)) {
return;
}
my $rsp = shift;
my $sessdata = shift;
my @returnd = (0, @{ $rsp->{data} });
#elsif($code == 0x81) {
# $rc = 1;
# $text = "cannot execute command, SEL erase in progress";
#}
my $next_rec_ls;
my $next_rec_ms;
my @sel_data = @returnd[ 3 .. 19 ];
if (exists($sessdata->{sort})) {
$next_rec_ls = $sel_data[0] - 1;
$next_rec_ms = $sel_data[1];
if (($next_rec_ls < 0) && ($next_rec_ms > 0)) {
$next_rec_ls += 256;
$next_rec_ms -= 1;
}
} else {
$next_rec_ls = $returnd[1];
$next_rec_ms = $returnd[2];
}
$sessdata->{selentry} += 1;
if ($debug) {
print $sessdata->{selentry} . ": ";
hexdump(\@sel_data);
}
my $record_id = $sel_data[0] + $sel_data[1] * 256;
my $record_type = $sel_data[2];
if ($record_type == 0x02) {
}
else {
my $text = getoemevent($record_type, $sessdata->{mfg_id}, \@sel_data);
my $entry = $sessdata->{selentry};
if ($sessdata->{auxloginfo} and $sessdata->{auxloginfo}->{$entry}) {
$text .= " With additional data:\n" . $sessdata->{auxloginfo}->{$entry};
}
if ($sessdata->{fullsel}) {
xCAT::SvrUtils::sendmsg($text, $callback, $sessdata->{node}, %allerrornodes);
} else {
push(@{ $sessdata->{selentries} }, $text);
}
if (($next_rec_ms == 0xFF && $next_rec_ls == 0xFF) or
($next_rec_ms == 0x0 && $next_rec_ls == 0x0)) {
sendsel($sessdata);
return;
}
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x43, data => [ 0, 0, $next_rec_ls, $next_rec_ms, 0x00, 0xFF ], callback => \&got_sel, callback_args => $sessdata);
return;
}
my $timestamp = ($sel_data[3] | $sel_data[4] << 8 | $sel_data[5] << 16 | $sel_data[6] << 24);
unless ($timestamp < 0x20000000) { #IPMI Spec says below this is effectively BMC uptime, not correctable
$timestamp -= $sessdata->{tfactor}; #apply correction factor based on how off the current BMC clock is from management server
}
my ($seldate, $seltime) = timestamp2datetime($timestamp);
# $text = "$entry: $seldate $seltime";
my $text = ":$seldate $seltime";
# my $gen_id_slave_addr = ($sel_data[7] & 0b11111110) >> 1;
# my $gen_id_slave_addr_hs = ($sel_data[7] & 0b00000001);
# my $gen_id_ch_num = ($sel_data[8] & 0b11110000) >> 4;
# my $gen_id_ipmb = ($sel_data[8] & 0b00000011);
my $sensor_owner_id = $sel_data[7];
my $sensor_owner_lun = $sel_data[8];
my $sensor_type = $sel_data[10];
my $sensor_num = $sel_data[11];
my $event_dir = $sel_data[12] & 0b10000000;
my $event_type = $sel_data[12] & 0b01111111;
my $offset = $sel_data[13] & 0b00001111;
my $event_data_1 = $sel_data[13];
my $event_data_2 = $sel_data[14];
my $event_data_3 = $sel_data[15];
my $sev = 0;
$sev = ($sel_data[14] & 0b11110000) >> 4;
# if($event_type != 1) {
# $sev = ($sel_data[14] & 0b11110000) >> 4;
# }
# $text = "$text $sev:";
my $type;
my $desc;
my $rc;
($rc, $type, $desc) = getsensorevent($sensor_type, $offset, "ipmisensorevents");
if ($rc == 1) {
$type = "Unknown Type $sensor_type";
$desc = "Unknown Event $offset";
$rc = 0;
}
if ($event_type <= 0x0c) {
my $gtype;
my $gdesc;
($rc, $gtype, $gdesc) = getsensorevent($event_type, $offset, "ipmigenericevents");
if ($rc == 1) {
$gtype = "Unknown Type $gtype";
$gdesc = "Unknown Event $offset";
$rc = 0;
}
$desc = $gdesc;
}
if ($type eq "" || $type eq "-") {
$type = "OEM Sensor Type $sensor_type"
}
if ($desc eq "" || $desc eq "-") {
$desc = "OEM Sensor Event $offset"
}
if ($type eq $desc) {
$desc = "";
}
my $extra_info = getaddsensorevent($sensor_type, $offset, $event_data_1, $event_data_2, $event_data_3);
if ($extra_info) {
if ($desc) {
$desc = "$desc $extra_info";
}
else {
$desc = "$extra_info";
}
}
$text = "$text $type,";
$text = "$text $desc";
# my $key;
my $key = $sensor_owner_id . "." . $sensor_owner_lun . "." . $sensor_num;
my $sensor_desc = sprintf("Sensor 0x%02x", $sensor_num);
# foreach $key (keys %sdr_hash) {
# my $sdr = $sdr_hash{$key};
# if($sdr->sensor_number == $sensor_num) {
# $sensor_desc = $sdr_hash{$key}->id_string;
# last;
# }
# }
my %sdr_hash = %{ $sessdata->{sdr_hash} };
if (defined $sdr_hash{$key}) {
$sensor_desc = $sdr_hash{$key}->id_string;
if ($sdr_hash{$key}->event_type_code == 1) {
if (($event_data_1 & 0b11000000) == 0b01000000) {
$sensor_desc .= " reading " . translate_sensor($event_data_2, $sdr_hash{$key});
if (($event_data_1 & 0b00110000) == 0b00010000) {
$sensor_desc .= " with threshold " . translate_sensor($event_data_3, $sdr_hash{$key});
}
}
}
}
$text = "$text ($sensor_desc)";
if ($event_dir) {
$text = "$text - Recovered";
}
my $entry = $sessdata->{selentry};
if ($sessdata->{bmcnum} != 1) {
$text .= " on BMC " . $sessdata->{bmcnum};
}
if ($sessdata->{auxloginfo} and $sessdata->{auxloginfo}->{$entry}) {
$text .= " with additional data:";
if ($sessdata->{fullsel} || ($sessdata->{numevents}
&& $sessdata->{numevents} > $sessdata->{displayedevents})) {
xCAT::SvrUtils::sendmsg($text, $callback, $sessdata->{node}, %allerrornodes);
foreach (split /\n/, $sessdata->{auxloginfo}->{$entry}) {
xCAT::SvrUtils::sendmsg($_, $sessdata->{node});
}
$sessdata->{displayedevents}++;
} else {
push(@{ $sessdata->{selentries} }, $text);
push @{ $sessdata->{selentries} }, split /\n/, $sessdata->{auxloginfo}->{$entry};
}
} else {
if ($sessdata->{fullsel} || ($sessdata->{numevents}
&& $sessdata->{numevents} > $sessdata->{displayedevents})) {
xCAT::SvrUtils::sendmsg($text, $callback, $sessdata->{node}, %allerrornodes);
$sessdata->{displayedevents}++;
} else {
push(@{ $sessdata->{selentries} }, $text);
}
}
if (($next_rec_ms == 0xFF && $next_rec_ls == 0xFF) or
($next_rec_ms == 0x0 && $next_rec_ls == 0x0)) {
sendsel($sessdata);
return;
}
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x43, data => [ 0, 0, $next_rec_ls, $next_rec_ms, 0x00, 0xFF ], callback => \&got_sel, callback_args => $sessdata);
}
sub sendsel {
my $sessdata = shift;
####my @routput = reverse(@output);
####my @noutput;
####my $c;
####foreach(@routput) {
#### $c++;
#### if($c > $num) {
#### last;
#### }
#### push(@noutput,$_);
####}
####@output = reverse(@noutput);
####return($rc,@output);
}
sub clear_sel_with_reservation {
if (check_rsp_errors(@_)) {
return;
}
my $rsp = shift;
my $sessdata = shift;
my @returnd = (0, @{ $rsp->{data} });
#elsif($code == 0x81) {
# $rc = 1;
# $text = "cannot execute command, SEL erase in progress";
#}
$sessdata->{res_id_ls} = $returnd[1];
$sessdata->{res_id_ms} = $returnd[2];
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x47, data => [ $sessdata->{res_id_ls}, $sessdata->{res_id_ms}, 0x43, 0x4c, 0x52, 0xaa ], callback => \&wait_for_selerase, callback_args => $sessdata);
}
sub wait_for_selerase {
my $rsp = shift;
my $sessdata = shift;
my @returnd = (0, @{ $rsp->{data} });
my $erase_status = $returnd[1] & 0b00000001;
xCAT::SvrUtils::sendmsg("SEL cleared", $callback, $sessdata->{node}, %allerrornodes);
}
#commenting out usless 'while 0' loop.
#skip test for now, need to get new res id for some machines
# while($erase_status == 0 && 0) {
# sleep(1);
# @cmd=(0x47,$res_id_ls,$res_id_ms,0x43,0x4c,0x52,0x00);
# $error = docmd(
# $netfun,
# \@cmd,
# \@returnd
# );
# if($error) {
# $rc = 1;
# $text = $error;
# return($rc,$text);
# }
# $code = $returnd[0];
# if($code == 0x00) {
# }
# else {
# $rc = 1;
# $text = $codes{$code};
# }
# if($rc != 0) {
# if(!$text) {
# $text = sprintf("unknown response %02x",$code);
# }
# return($rc,$text);
# }
# $erase_status = $returnd[1] & 0b00000001;
# }
sub read_ibm_auxlog {
my $sessdata = shift;
my $entry = $sessdata->{selentry};
my @auxdata;
my $netfn = 0xa << 2;
my @auxlogcmd = (0x5a, 1);
my $error = docmd(
$netfn,
\@auxlogcmd,
\@auxdata);
#print Dumper(\@auxdata);
unless ($error or $auxdata[0] or $auxdata[5] != 0x4d or $auxdata[6] != 0x4f or $auxdata[7] != 0x0) { #Don't bother if support cannot be confirmed by service processor
$netfn = 0x2e << 2; #switch netfunctions to read
my $numauxlogs = $auxdata[8] + ($auxdata[9] << 8);
my $auxidx = 1;
my $rc;
my $entry;
my $extdata;
while ($auxidx <= $numauxlogs) {
($rc, $entry, $extdata) = readauxentry($auxidx++);
unless ($rc) {
if ($sessdata->{auxloginfo}->{$entry}) {
$sessdata->{auxloginfo}->{$entry} .= "!" . $extdata;
} else {
$sessdata->{auxloginfo}->{$entry} = $extdata;
}
}
}
if ($sessdata->{auxloginfo}->{0}) {
if ($sessdata->{fullsel}) {
foreach (split /!/, $sessdata->{auxloginfo}->{0}) {
sendoutput(0, ":Unassociated auxillary data detected:");
foreach (split /\n/, $_) {
sendoutput(0, $_);
}
}
}
}
#print Dumper(\%auxloginfo);
}
}
sub getoemevent {
my $record_type = shift;
my $mfg_id = shift;
my $sel_data = shift;
my $sessdata;
my $text = ":";
if ($record_type < 0xE0 && $record_type > 0x2F) { #Should be timestampped, whatever it is
my $timestamp = (@$sel_data[3] | @$sel_data[4] << 8 | @$sel_data[5] << 16 | @$sel_data[6] << 24);
unless ($timestamp < 0x20000000) {
$timestamp -= $sessdata->{tfactor};
}
my ($seldate, $seltime) = timestamp2datetime($timestamp);
my @rest = @$sel_data[ 7 .. 15 ];
if ($mfg_id == 2) {
$text .= "$seldate $seltime IBM OEM Event-";
if ($rest[3] == 0 && $rest[4] == 0 && $rest[7] == 0) {
$text = $text . "PCI Event/Error, details in next event"
} elsif ($rest[3] == 1 && $rest[4] == 0 && $rest[7] == 0) {
$text = $text . "Processor Event/Error occurred, details in next event"
} elsif ($rest[3] == 2 && $rest[4] == 0 && $rest[7] == 0) {
$text = $text . "Memory Event/Error occurred, details in next event"
} elsif ($rest[3] == 3 && $rest[4] == 0 && $rest[7] == 0) {
$text = $text . "Scalability Event/Error occurred, details in next event"
} elsif ($rest[3] == 4 && $rest[4] == 0 && $rest[7] == 0) {
$text = $text . "PCI bus Event/Error occurred, details in next event"
} elsif ($rest[3] == 5 && $rest[4] == 0 && $rest[7] == 0) {
$text = $text . "Chipset Event/Error occurred, details in next event"
} elsif ($rest[3] == 6 && $rest[4] == 1 && $rest[7] == 0) {
$text = $text . "BIOS/BMC Power Executive mismatch (BIOS $rest[5], BMC $rest[6])"
} elsif ($rest[3] == 6 && $rest[4] == 2 && $rest[7] == 0) {
$text = $text . "Boot denied due to power limitations"
} else {
$text = $text . "Unknown event " . phex(\@rest);
}
} else {
$text .= "$seldate $seltime " . sprintf("Unknown OEM SEL Type %02x:", $record_type) . phex(\@rest);
}
} else { #Non-timestamped
my %memerrors = (
0x00 => "DIMM enabled",
0x01 => "DIMM disabled, failed ECC test",
0x02 => "POST/BIOS memory test failed, DIMM disabled",
0x03 => "DIMM disabled, non-supported memory device",
0x04 => "DIMM disabled, non-matching or missing DIMM(s)",
);
my %pcierrors = (
0x00 => "Device OK",
0x01 => "Required ROM space not available",
0x02 => "Required I/O Space not available",
0x03 => "Required memory not available",
0x04 => "Required memory below 1MB not available",
0x05 => "ROM checksum failed",
0x06 => "BIST failed",
0x07 => "Planar device missing or disabled by user",
0x08 => "PCI device has an invalid PCI configuration space header",
0x09 => "FRU information for added PCI device",
0x0a => "FRU information for removed PCI device",
0x0b => "A PCI device was added, PCI FRU information is stored in next log entry",
0x0c => "A PCI device was removed, PCI FRU information is stored in next log entry",
0x0d => "Requested resources not available",
0x0e => "Required I/O Space Not Available",
0x0f => "Required I/O Space Not Available",
0x10 => "Required I/O Space Not Available",
0x11 => "Required I/O Space Not Available",
0x12 => "Required I/O Space Not Available",
0x13 => "Planar video disabled due to add in video card",
0x14 => "FRU information for PCI device partially disabled ",
0x15 => "A PCI device was partially disabled, PCI FRU information is stored in next log entry",
0x16 => "A 33Mhz device is installed on a 66Mhz bus, PCI device information is stored in next log entry",
0x17 => "FRU information, 33Mhz device installed on 66Mhz bus",
0x18 => "Merge cable missing",
0x19 => "Node 1 to Node 2 cable missing",
0x1a => "Node 1 to Node 3 cable missing",
0x1b => "Node 2 to Node 3 cable missing",
0x1c => "Nodes could not merge",
0x1d => "No 8 way SMP cable",
0x1e => "Primary North Bridge to PCI Host Bridge IB Link has failed",
0x1f => "Redundant PCI Host Bridge IB Link has failed",
);
my %procerrors = (
0x00 => "Processor has failed BIST",
0x01 => "Unable to apply processor microcode update",
0x02 => "POST does not support current stepping level of processor",
0x03 => "CPU mismatch detected",
);
my @rest = @$sel_data[ 3 .. 15 ];
if ($record_type == 0xE0 && $rest[0] == 2 && $mfg_id == 2 && $rest[1] == 0 && $rest[12] == 1) { #Rev 1 POST memory event
$text = "IBM Memory POST Event-";
my $msuffix = sprintf(", chassis %d, card %d, dimm %d", $rest[3], $rest[4], $rest[5]);
#the next bit is a basic lookup table, should implement as a table ala ibmleds.tab, or a hash... yeah, a hash...
$text = $text . $memerrors{ $rest[2] } . $msuffix;
} elsif ($record_type == 0xE0 && $rest[0] == 1 && $mfg_id == 2 && $rest[12] == 0) { #A processor error or event, rev 0 only known in the spec I looked at
$text = $text . $procerrors{ $rest[1] };
} elsif ($record_type == 0xE0 && $rest[0] == 0 && $mfg_id == 2) { #A PCI error or event, rev 1 or 2, the revs differe in endianness
my $msuffix;
if ($rest[12] == 0) {
$msuffix = sprintf("chassis %d, slot %d, bus %s, device %02x%02x:%02x%02x", $rest[2], $rest[3], $rest[4], $rest[5], $rest[6], $rest[7], $rest[8]);
} elsif ($rest[12] == 1) {
$msuffix = sprintf("chassis %d, slot %d, bus %s, device %02x%02x:%02x%02x", $rest[2], $rest[3], $rest[4], $rest[5], $rest[6], $rest[7], $rest[8]);
} else {
return ("Unknown IBM PCI event/error format");
}
$text = $text . $pcierrors{ $rest[1] } . $msuffix;
} else {
#Some event we can't define that is OEM or some otherwise unknown event
$text = sprintf("SEL Type %02x:", $record_type) . phex(\@rest);
}
} #End timestampped intepretation
return ($text);
}
sub getsensorevent
{
my $sensortype = sprintf("%02Xh", shift);
my $sensoroffset = sprintf("%02Xh", shift);
my $file = shift;
my @line;
my $type;
my $code;
my $desc;
my $offset;
my $rc = 1;
if ($file eq "ipmigenericevents") {
if ($xCAT::data::ipmigenericevents::ipmigenericevents{"$sensortype,$sensoroffset"}) {
($type, $desc) = split(/,/, $xCAT::data::ipmigenericevents::ipmigenericevents{"$sensortype,$sensoroffset"}, 2);
return (0, $type, $desc);
}
if ($xCAT::data::ipmigenericevents::ipmigenericevents{"$sensortype,-"}) {
($type, $desc) = split(/,/, $xCAT::data::ipmigenericevents::ipmigenericevents{"$sensortype,-"}, 2);
return (0, $type, $desc);
}
}
if ($file eq "ipmisensorevents") {
if ($xCAT::data::ipmisensorevents::ipmisensorevents{"$sensortype,$sensoroffset"}) {
($type, $desc) = split(/,/, $xCAT::data::ipmisensorevents::ipmisensorevents{"$sensortype,$sensoroffset"}, 2);
return (0, $type, $desc);
}
if ($xCAT::data::ipmisensorevents::ipmisensorevents{"$sensortype,-"}) {
($type, $desc) = split(/,/, $xCAT::data::ipmisensorevents::ipmisensorevents{"$sensortype,-"}, 2);
return (0, $type, $desc);
}
}
return (0, "No Mappings found ($sensortype)", "No Mappings found ($sensoroffset)");
}
sub getaddsensorevent {
my $sensor_type = shift;
my $offset = shift;
my $event_data_1 = shift;
my $event_data_2 = shift;
my $event_data_3 = shift;
my $text = "";
if ($sensor_type == 0x08 && $offset == 6) {
my %extra = (
0x0 => "Vendor mismatch",
0x1 => "Revision mismatch",
0x2 => "Processor missing",
0x3 => "Power Supply rating mismatch",
0x4 => "Voltage rating mismatch",
);
if ($extra{$event_data_3}) {
$text = $extra{$event_data_3};
}
}
if ($sensor_type == 0x0C) {
$text = sprintf("Memory module %d", $event_data_3);
}
if ($sensor_type == 0x0f) {
if ($offset == 0x00) {
my %extra = (
0x00 => "Unspecified",
0x01 => "No system memory installed",
0x02 => "No usable system memory",
0x03 => "Unrecoverable hard disk failure",
0x04 => "Unrecoverable system board failure",
0x05 => "Unrecoverable diskette failure",
0x06 => "Unrecoverable hard disk controller failure",
0x07 => "Unrecoverable keyboard failure",
0x08 => "Removable boot media not found",
0x09 => "Unrecoverable video controller failure",
0x0a => "No video device detected",
0x0b => "Firmware (BIOS) ROM corruption detected",
0x0c => "CPU voltage mismatch",
0x0d => "CPU speed matching failure",
);
$text = $extra{$event_data_2};
}
if ($offset == 0x02) {
my %extra = (
0x00 => "Unspecified",
0x01 => "Memory initialization",
0x02 => "Hard-disk initialization",
0x03 => "Secondary processor(s) initialization",
0x04 => "User authentication",
0x05 => "User-initiated system setup",
0x06 => "USB resource configuration",
0x07 => "PCI resource configuration",
0x08 => "Option ROM initialization",
0x09 => "Video initialization",
0x0a => "Cache initialization",
0x0b => "SM Bus initialization",
0x0c => "Keyboard controller initialization",
0x0d => "Embedded controller/management controller initialization",
0x0e => "Docking station attachement",
0x0f => "Enabling docking station",
0x10 => "Docking staion ejection",
0x11 => "Disable docking station",
0x12 => "Calling operating system wake-up vector",
0x13 => "Starting operating system boot process, call init 19h",
0x14 => "Baseboard or motherboard initialization",
0x16 => "Floppy initialization",
0x17 => "Keyboard test",
0x18 => "Pointing device test",
0x19 => "Primary processor initialization",
);
$text = $extra{$event_data_2};
}
}
if ($sensor_type == 0x10) {
if ($offset == 0x0) {
$text = sprintf("Memory module %d", $event_data_2);
} elsif ($offset == 0x01) {
$text = "Disabled for ";
unless ($event_data_3 & 0x20) {
if ($event_data_3 & 0x10) {
$text .= "assertions of";
} else {
$text .= "deassertions of";
}
}
$text .= sprintf("type %02xh/offset %02xh", $event_data_2, $event_data_3 & 0x0F);
} elsif ($offset == 0x05) {
$text = "$event_data_3% full";
} elsif ($offset == 0x06) {
if (defined $event_data_2) {
if (defined($event_data_3) and ($event_data_3 & 0x80 == 0x80)) {
$text = "Vendor-specific processor number:";
} else {
$text = "Entity Instance number:";
}
$text .= sprintf("%02xh", $event_data_2 & 0xff);
} else {
$text = "for all Processor sensors";
}
}
}
if ($sensor_type == 0x12) {
if ($offset == 0x03) {
my %extra = {
0x0 => "Log Entry Action: entry added",
0x1 => "Log Entry Action: entry added because event did not be map to standard IPMI event",
0x2 => "Log Entry Action: entry added along with one or more corresponding SEL entries",
0x3 => "Log Entry Action: log cleared",
0x4 => "Log Entry Action: log disabled",
0x5 => "Log Entry Action: log enabled",
};
$text = "$text, " . $extra{ ($event_data_2 >> 4) & 0x0f };
%extra = {
0x0 => "Log Type:MCA Log",
0x1 => "Log Type:OEM 1",
0x2 => "Log Type:OEM 2",
};
$text = "$text, " . $extra{ ($event_data_2) & 0x0f };
$text =~ s/^, //;
}
if ($offset == 0x04) {
if ($event_data_2 & 0b00100000) {
$text = "$text, NMI";
}
if ($event_data_2 & 0b00010000) {
$text = "$text, OEM action";
}
if ($event_data_2 & 0b00001000) {
$text = "$text, power cycle";
}
if ($event_data_2 & 0b00000100) {
$text = "$text, reset";
}
if ($event_data_2 & 0b00000010) {
$text = "$text, power off";
}
if ($event_data_2 & 0b00000001) {
$text = "$text, Alert";
}
$text =~ s/^, //;
}
if ($offset == 0x05) {
if ($event_data_2 & 0x80) {
$text = "$text, event is second of pair";
} elsif ($event_data_2 & 0x80 == 0) {
$text = "$text, event is first of pair";
}
if ($event_data_2 & 0x0F == 0x1) {
$text = "$text, SDR Timestamp Clock updated";
} elsif ($event_data_2 & 0x0F == 0x0) {
$text = "$text, SEL Timestamp Clock updated";
}
$text =~ s/^, //;
}
}
if ($sensor_type == 0x1d && $offset == 0x07) {
my %causes = (
0 => "Unknown",
1 => "Chassis reset via User command to BMC",
2 => "Reset button",
3 => "Power button",
4 => "Watchdog action",
5 => "OEM",
6 => "AC Power apply force on",
7 => "Restore previous power state on AC",
8 => "PEF initiated reset",
9 => "PEF initiated power cycle",
10 => "Soft reboot",
11 => "RTC Wake",
);
if ($causes{ $event_data_2 & 0xf }) {
$text = $causes{$event_data_2};
} else {
$text = "Unrecognized cause " . $event_data_2 & 0xf;
}
$text .= "via channel $event_data_3";
}
if ($sensor_type == 0x21) {
my %extra = (
0 => "PCI slot",
1 => "Drive array",
2 => "External connector",
3 => "Docking port",
4 => "Other slot",
5 => "Sensor ID",
6 => "AdvncedTCA",
7 => "Memory slot",
8 => "FAN",
9 => "PCIe",
10 => "SCSI",
11 => "SATA/SAS",
);
$text = $extra{ $event_data_2 & 127 };
unless ($text) {
$text = "Unknown slot/conn type " . $event_data_2 & 127;
}
$text .= " $event_data_3";
}
if ($sensor_type == 0x23) {
my %extra = (
0x10 => "SMI",
0x20 => "NMI",
0x30 => "Messaging Interrupt",
0xF0 => "Unspecified",
0x01 => "BIOS FRB2",
0x02 => "BIOS/POST",
0x03 => "OS Load",
0x04 => "SMS/OS",
0x05 => "OEM",
0x0F => "Unspecified"
);
if ($extra{ $event_data_2 & 0xF0 }) {
$text = $extra{ $event_data_2 & 0xF0 };
}
if ($extra{ $event_data_2 & 0x0F }) {
$text .= ", " . $extra{ $event_data_2 & 0x0F };
}
$text =~ s/^, //;
}
if ($sensor_type == 0x28) {
if ($offset == 0x4) {
$text = "Sensor $event_data_2";
} elsif ($offset == 0x5) {
$text = "";
my $logicalfru = 0;
if ($event_data_2 & 128) {
$logicalfru = 1;
}
my $intelligent = 1;
if ($event_data_2 & 24) {
$text .= "LUN " . ($event_data_2 & 24) >> 3;
} else {
$intelligent = 0;
}
if ($event_data_2 & 7) {
$text .= "Bus ID " . ($event_data_2 & 7);
}
if ($logicalfru) {
$text .= "FRU ID " . $event_data_3;
} elsif (not $intelligent) {
$text .= "I2C addr " . $event_data_3 >> 1;
}
}
}
if ($sensor_type == 0x2a) {
$text = sprintf("Channel %d, User %d", $event_data_3 & 0x0f, $event_data_2 & 0x3f);
if ($offset == 1) {
if (($event_data_3 & 207) == 1) {
$text .= " at user request";
} elsif (($event_data_3 & 207) == 2) {
$text .= " timed out";
} elsif (($event_data_3 & 207) == 3) {
$text .= " configuration change";
}
}
}
if ($sensor_type == 0x2b) {
my %extra = (
0x0 => "Unspecified",
0x1 => "BMC device ID",
0x2 => "BMC Firmware",
0x3 => "BMC Hardware",
0x4 => "BMC manufacturer",
0x5 => "IPMI Version",
0x6 => "BMC aux firmware ID",
0x7 => "BMC boot block",
0x8 => "Other BMC Firmware",
0x09 => "BIOS/EFI change",
0x0a => "SMBIOS change",
0x0b => "OS change",
0x0c => "OS Loader change",
0x0d => "Diagnostics change",
0x0e => "Management agent change",
0x0f => "Management software change",
0x10 => "Management middleware change",
0x11 => "FPGA/CPLD/PSoC change",
0x12 => "FRU change",
0x13 => "device addition/removal",
0x14 => "Equivalent replacement",
0x15 => "Newer replacement",
0x16 => "Older replacement",
0x17 => "DIP/Jumper change",
);
if ($extra{$event_data_2}) {
$text = $extra{$event_data_2};
} else {
$text = "Unknown version change type $event_data_2";
}
}
if ($sensor_type == 0x2c) {
my %extra = (
0 => "",
1 => "Software dictated",
2 => "Latch operated",
3 => "Hotswap buton pressed",
4 => "automatic operation",
5 => "Communication lost",
6 => "Communication lost locally",
7 => "Unexpected removal",
8 => "Operator intervention",
9 => "Unknwon IPMB address",
10 => "Unexpected deactivation",
0xf => "unknown",
);
if ($extra{ $event_data_2 >> 4 }) {
$text = $extra{ $event_data_2 >> 4 };
} else {
$text = "Unrecognized cause " . $event_data_2 >> 4;
}
my $prev_state = $event_data_2 & 0xf;
unless ($prev_state == $offset) {
my %oldstates = (
0 => "Not Installed",
1 => "Inactive",
2 => "Activation requested",
3 => "Activating",
4 => "Active",
5 => "Deactivation requested",
6 => "Deactivating",
7 => "Communication lost",
);
if ($oldstates{$prev_state}) {
$text .= "(was " . $oldstates{$prev_state} . ")";
} else {
$text .= "(was in unrecognized state $prev_state)";
}
}
}
return ($text);
}
sub initiem {
my $sessdata = shift;
$sessdata->{iem} = IBM::EnergyManager->new();
my @payload = $sessdata->{iem}->get_next_payload();
my $netfun = shift @payload;
my $command = shift @payload;
$sessdata->{ipmisession}->subcmd(netfn => $netfun, command => $command, data => \@payload, callback => \&ieminitted, callback_args => $sessdata);
}
sub ieminitted {
my $rsp = shift;
my $sessdata = shift;
my @returnd = ($rsp->{code}, @{ $rsp->{data} });
$sessdata->{iem}->handle_next_payload(@returnd);
$sessdata->{iemcallback}->($sessdata);
}
sub readenergy {
my $sessdata = shift;
unless ($iem_support) {
xCAT::SvrUtils::sendmsg([ 1, ":IBM::EnergyManager package required for this value" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
my @entries;
$sessdata->{iemcallback} = \&readenergy_withiem;
initiem($sessdata);
}
sub readenergy_withiem {
my $sessdata = shift;
$sessdata->{iem}->prep_get_precision();
$sessdata->{iemcallback} = \&got_precision;
execute_iem_commands($sessdata); #this gets all precision data initialized for AC and DC
# we need not make use of the generic extraction function, so we call execute_iem instead of process_data
#sorry the perl api I wrote sucks..
}
sub got_precision {
my $sessdata = shift;
$sessdata->{iem}->prep_get_ac_energy();
$sessdata->{iemcallback} = \&got_ac_energy;
process_data_from_iem($sessdata);
}
sub got_ac_energy {
my $sessdata = shift;
unless ($sessdata->{abortediem}) {
$sessdata->{iemtextdata} .= sprintf(" +/-%.1f%%", $sessdata->{iem}->energy_ac_precision() * 0.1); #note while \x{B1} would be cool, it's non-trivial to support
xCAT::SvrUtils::sendmsg($sessdata->{iemtextdata}, $callback, $sessdata->{node}, %allerrornodes);
$sessdata->{abortediem} = 0;
}
#this would be 'if sessdata->{abortediem}'. Thus far this is only triggered in the case of a system that fairly obviously
#shouldn't have an AC meter. As a consequence, don't output data that would suggest a user might actually get it
#in that case, another entity can provide a measure of the AC usage, but only an aggregate measure not an individual measure
# $sessdata->{iemtextdata} = "AC Energy Usage: ";
# if ($sessdata->{abortediemreason}) {
# $sessdata->{iemtextdata} .= $sessdata->{abortediemreason};
# }
# xCAT::SvrUtils::sendmsg($sessdata->{iemtextdata},$callback,$sessdata->{node},%allerrornodes);
$sessdata->{iem}->prep_get_dc_energy();
$sessdata->{iemcallback} = \&got_dc_energy;
process_data_from_iem($sessdata);
}
sub got_ac_energy_with_precision {
my $sessdata = shift;
$sessdata->{iemtextdata} .= sprintf(" +/-%.1f%%", $sessdata->{iem}->energy_ac_precision() * 0.1); #note while \x{B1} would be cool, it's non-trivial to support
xCAT::SvrUtils::sendmsg($sessdata->{iemtextdata}, $callback, $sessdata->{node}, %allerrornodes);
$sessdata->{iem}->prep_get_dc_energy();
$sessdata->{iemcallback} = \&got_dc_energy;
process_data_from_iem($sessdata);
}
sub got_dc_energy {
my $sessdata = shift;
$sessdata->{iemtextdata} .= sprintf(" +/-%.1f%%", $sessdata->{iem}->energy_dc_precision() * 0.1);
xCAT::SvrUtils::sendmsg($sessdata->{iemtextdata}, $callback, $sessdata->{node}, %allerrornodes);
if (scalar @{ $sessdata->{sensorstoread} }) {
$sessdata->{currsdr} = shift @{ $sessdata->{sensorstoread} };
readsensor($sessdata); #next sensor
}
}
sub execute_iem_commands {
my $sessdata = shift;
my @payload = $sessdata->{iem}->get_next_payload();
if (scalar @payload) {
my $netfun = shift @payload;
my $command = shift @payload;
$sessdata->{ipmisession}->subcmd(netfn => $netfun, command => $command, data => \@payload, callback => \&executed_iem_command, callback_args => $sessdata);
} else { #complete, return to callback
$sessdata->{iemcallback}->($sessdata);
}
}
sub executed_iem_command {
my $rsp = $_[0];
my $sessdata = $_[1];
if ($rsp->{code} == 0xcb) {
$sessdata->{abortediem} = 1;
$sessdata->{abortediemreason} = "Not Present";
$sessdata->{iemcallback}->($sessdata);
return;
}
if (check_rsp_errors(@_)) { #error while in an IEM transaction, skip to the end
$sessdata->{abortediem} = 1;
$sessdata->{iemcallback}->($sessdata);
return;
}
my @returnd = ($rsp->{code}, @{ $rsp->{data} });
$sessdata->{iem}->handle_next_payload(@returnd);
execute_iem_commands($sessdata);
}
sub process_data_from_iem {
my $sessdata = shift;
my @returnd;
$sessdata->{iemdatacallback} = $sessdata->{iemcallback};
$sessdata->{iemcallback} = \&got_data_to_process_from_iem;
execute_iem_commands($sessdata);
}
sub got_data_to_process_from_iem {
my $sessdata = shift;
my @iemdata = $sessdata->{iem}->extract_data;
my $label = shift @iemdata;
my $units = shift @iemdata;
my $value = 0;
my $shift = 0;
while (scalar @iemdata) { #stuff the 64-bits of data into an int, would break in 32 bit
$value += pop(@iemdata) << $shift;
#$value.=sprintf("%02x ",shift @iemdata);
$shift += 8;
}
if ($units eq "mJ") {
$units = "kWh";
$value = $value / 3600000000;
$sessdata->{iemtextdata} = sprintf("$label: %.4f $units", $value);
} elsif ($units eq "mW") {
$units = "W";
$value = $value / 1000.0;
$sessdata->{iemtextdata} = sprintf("$label: %.1f $units", $value);
}
$sessdata->{iemdatacallback}->($sessdata);
}
sub gotchassis { #get chassis status command
my $rsp = shift;
my $sessdata = shift;
unless (check_rsp_errors($rsp, $sessdata)) {
my @data = @{ $rsp->{data} };
my $powerstat;
if ($data[0] & 1) {
$powerstat = "on";
} else {
$powerstat = "off";
}
xCAT::SvrUtils::sendmsg("Power Status: $powerstat", $callback, $sessdata->{node}, %allerrornodes);
if ($data[0] & 0b10) {
$powerstat = "true";
} else {
$powerstat = "false";
}
xCAT::SvrUtils::sendmsg("Power Overload: $powerstat", $callback, $sessdata->{node}, %allerrornodes);
if ($data[0] & 0b100) {
$powerstat = "active";
} else {
$powerstat = "inactive";
}
xCAT::SvrUtils::sendmsg("Power Interlock: $powerstat", $callback, $sessdata->{node}, %allerrornodes);
if ($data[0] & 0b1000) {
$sessdata->{healthsummary} &= 2; #set to critical state
$powerstat = "true";
} else {
$powerstat = "false";
}
xCAT::SvrUtils::sendmsg("Power Fault: $powerstat", $callback, $sessdata->{node}, %allerrornodes);
if ($data[0] & 0b10000) {
$sessdata->{healthsummary} &= 2; #set to critical state
$powerstat = "true";
} else {
$powerstat = "false";
}
xCAT::SvrUtils::sendmsg("Power Control Fault: $powerstat", $callback, $sessdata->{node}, %allerrornodes);
my $powpolicy = ($data[0] & 0b1100000) >> 5;
my %powpolicies = (0 => "Always off", 1 => "Last State", 2 => "Always on", 3 => "Unknown");
xCAT::SvrUtils::sendmsg("Power Restore Policy: " . $powpolicies{$powpolicy}, $callback, $sessdata->{node}, %allerrornodes);
my @lastevents;
if ($data[1] & 0b1) {
push @lastevents, "AC failed";
}
if ($data[1] & 0b10) {
$sessdata->{healthsummary} &= 2; #set to critical state
push @lastevents, "Power overload";
}
if ($data[1] & 0b100) {
$sessdata->{healthsummary} &= 1; #set to critical state
push @lastevents, "Interlock activated";
}
if ($data[1] & 0b1000) {
$sessdata->{healthsummary} &= 2; #set to critical state
push @lastevents, "Power Fault";
}
if ($data[1] & 0b10000) {
push @lastevents, "By Request";
}
my $lastevent = join(",", @lastevents);
xCAT::SvrUtils::sendmsg("Last Power Event: $lastevent", $callback, $sessdata->{node}, %allerrornodes);
if ($data[2] & 0b1) {
$sessdata->{healthsummary} &= 1; #set to warn state
$powerstat = "active";
} else {
$powerstat = "inactive";
}
xCAT::SvrUtils::sendmsg("Chassis intrusion: $powerstat", $callback, $sessdata->{node}, %allerrornodes);
if ($data[2] & 0b10) {
$powerstat = "active";
} else {
$powerstat = "inactive";
}
xCAT::SvrUtils::sendmsg("Front Panel Lockout: $powerstat", $callback, $sessdata->{node}, %allerrornodes);
if ($data[2] & 0b100) { # drive fault
$sessdata->{healthsummary} &= 2; #set to critical state
$powerstat = "true";
} else {
$powerstat = "false";
}
xCAT::SvrUtils::sendmsg("Drive Fault: $powerstat", $callback, $sessdata->{node}, %allerrornodes);
if ($data[2] & 0b1000) { # fan fault
$sessdata->{healthsummary} &= 1; #set to warn state
$powerstat = "true";
} else {
$powerstat = "false";
}
xCAT::SvrUtils::sendmsg("Cooling Fault: $powerstat", $callback, $sessdata->{node}, %allerrornodes);
if ($data[2] & 0b1000000) { #can look at light status
my $idstat = ($data[2] & 0b110000) >> 4;
my %idstats = (0 => "off", 1 => "on", 2 => "on", 3 => "unknown");
xCAT::SvrUtils::sendmsg("Identify Light: " . $idstats{$idstat}, $callback, $sessdata->{node}, %allerrornodes);
}
}
#$sessdata->{powerstatprefix}="Power Status: ";
if ($sessdata->{sensorstoread} and scalar @{ $sessdata->{sensorstoread} }) {
$sessdata->{currsdr} = shift @{ $sessdata->{sensorstoread} };
readsensor($sessdata); #next sensor
}
}
sub readchassis {
my $sessdata = shift;
$sessdata->{ipmisession}->subcmd(netfn => 0x0, command => 0x1, data => [], callback => \&gotchassis, callback_args => $sessdata);
}
sub checkleds {
my $sessdata = shift;
my @cmd;
my @returnd = ();
my $error;
my $led_id_ms;
my $led_id_ls;
my $rc = 0;
my @output = ();
my $text = "";
my $key;
my $mfg_id = $sessdata->{mfg_id};
#TODO device id
unless (is_systemx($sessdata)) {
xCAT::SvrUtils::sendmsg("LED status not supported on this system", $callback, $sessdata->{node}, %allerrornodes);
return;
}
my %sdr_hash = %{ $sessdata->{sdr_hash} };
$sessdata->{doleds} = [];
foreach $key (sort { $sdr_hash{$a}->id_string cmp $sdr_hash{$b}->id_string } keys %sdr_hash) {
my $sdr = $sdr_hash{$key};
if ($sdr->rec_type == 0xC0 && $sdr->sensor_type == 0xED) {
#this stuff is to help me build the file from spec paste
#my $tehstr=sprintf("grep 0x%04X /opt/xcat/lib/x3755led.tab",$sdr->led_id);
#my $tehstr=`$tehstr`;
#$tehstr =~ s/^0x....//;
#printf("%X.%X.0x%04x",$mfg_id,$prod_id,$sdr->led_id);
#print $tehstr;
#We are inconsistant in our spec, first try a best guess
#at endianness, assume the smaller value is MSB
if (($sdr->led_id & 0xff) > ($sdr->led_id >> 8)) {
$led_id_ls = $sdr->led_id & 0xff;
$led_id_ms = $sdr->led_id >> 8;
} else {
$led_id_ls = $sdr->led_id >> 8;
$led_id_ms = $sdr->led_id & 0xff;
}
push @{ $sessdata->{doleds} }, [ $led_id_ms, $led_id_ls, $sdr ];
}
}
$sessdata->{doled} = shift @{ $sessdata->{doleds} };
if ($sessdata->{doled}) {
$sessdata->{current_led_sdr} = pop @{ $sessdata->{doled} };
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 0xc0, data => $sessdata->{doled}, callback => \&did_led, callback_args => $sessdata);
} else {
xCAT::SvrUtils::sendmsg("No supported LEDs found in system", $callback, $sessdata->{node}, %allerrornodes);
}
# if ($#output==-1) {
# push(@output,"No active error LEDs detected");
# }
}
sub did_led {
my $rsp = $_[0];
my $sessdata = $_[1];
my $mfg_id = $sessdata->{mfg_id};
my $prod_id = $sessdata->{prod_id};
my $sdr = $sessdata->{current_led_sdr};
if (not $sessdata->{ledswappedendian} and $_[0]->{code} == 0xc9) { #missed an endian guess probably
$sessdata->{ledswappedendian} = 1;
my @doled;
$doled[0] = $sessdata->{doled}->[1];
$doled[1] = $sessdata->{doled}->[0];
$sessdata->{doled} = \@doled;
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 0xc0, data => $sessdata->{doled}, callback => \&did_led, callback_args => $sessdata);
return;
} elsif ($_[0]->{code} == 0xc9) {
$_[0]->{code} = 0; #TODO: some system actually gives an led locator record that doesn't exist....
print "DEBUG: unfindable LED record\n";
}
$sessdata->{ledswappedendian} = 0; #reset ledswappedendian flag to allow future swaps
if (check_rsp_errors(@_)) {
return;
}
my $led_id_ls = $sessdata->{doled}->[1];
my $led_id_ms = $sessdata->{doled}->[0];
my @returnd = (0, @{ $rsp->{data} });
if ($returnd[2]) { # != 0) {
#It's on...
if ($returnd[6] == 4) {
xCAT::SvrUtils::sendmsg(sprintf("BIOS or admininstrator has %s lit", getsensorname($mfg_id, $prod_id, $sdr->led_id, "ibmleds", $sdr)), $callback, $sessdata->{node}, %allerrornodes);
$sessdata->{activeleds} = 1;
}
elsif ($returnd[6] == 3) {
xCAT::SvrUtils::sendmsg(sprintf("A user has manually requested LED 0x%04x (%s) be active", $sdr->led_id, getsensorname($mfg_id, $prod_id, $sdr->led_id, "ibmleds", $sdr)), $callback, $sessdata->{node}, %allerrornodes);
$sessdata->{activeleds} = 1;
}
elsif ($returnd[6] == 1 && $sdr->led_id != 0) {
xCAT::SvrUtils::sendmsg(sprintf("LED 0x%02x%02x (%s) active to indicate LED 0x%02x%02x (%s) is active", $led_id_ms, $led_id_ls, getsensorname($mfg_id, $prod_id, $sdr->led_id, "ibmleds", $sdr), $returnd[4], $returnd[5], getsensorname($mfg_id, $prod_id, ($returnd[4] << 8) + $returnd[5], "ibmleds")), $callback, $sessdata->{node}, %allerrornodes);
$sessdata->{activeleds} = 1;
}
elsif ($sdr->led_id == 0 and $led_id_ms == 0 and $led_id_ls == 0) {
xCAT::SvrUtils::sendmsg(sprintf("LED 0x0000 (%s) active to indicate system error condition.", getsensorname($mfg_id, $prod_id, $sdr->led_id, "ibmleds", $sdr)), $callback, $sessdata->{node}, %allerrornodes);
$sessdata->{activeleds} = 1;
if ($returnd[6] == 1 and $returnd[4] == 0xf and $returnd[5] == 0xff) {
$sessdata->{doled} = [ $returnd[4], $returnd[5] ];
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 0xc0, data => $sessdata->{doled}, callback => \&did_led, callback_args => $sessdata);
return;
}
}
elsif ($returnd[6] == 2) {
my $sensor_desc;
#Ok, LED is tied to a sensor..
my $sensor_num = $returnd[5];
my %sdr_hash = %{ $sessdata->{sdr_hash} };
foreach my $key (keys %sdr_hash) {
my $osdr = $sdr_hash{$key};
if ($osdr->sensor_number == $sensor_num and $osdr->rec_type != 192 and $osdr->rec_type != 17) {
$sensor_desc = $sdr_hash{$key}->id_string;
if ($osdr->rec_type == 0x01) {
last;
}
}
}
#push(@output,sprintf("Sensor 0x%02x (%s) has activated LED 0x%04x",$sensor_num,$sensor_desc,$sdr->led_id));
if ($led_id_ms == 0xf and $led_id_ls == 0xff) {
xCAT::SvrUtils::sendmsg(sprintf("LED active to indicate Sensor 0x%02x (%s) error.", $sensor_num, $sensor_desc), $callback, $sessdata->{node}, %allerrornodes);
} else {
xCAT::SvrUtils::sendmsg(sprintf("LED %02x%02x (%s) active to indicate Sensor 0x%02x (%s) error.", $led_id_ms, $led_id_ls, getsensorname($mfg_id, $prod_id, $sdr->led_id, "ibmleds", $sdr), $sensor_num, $sensor_desc), $callback, $sessdata->{node}, %allerrornodes);
}
$sessdata->{activeleds} = 1;
} else { #an LED is on for some other reason
#print "DEBUG: unknown LED reason code ".$returnd[6]."\n";
#TODO: discern meaning of more 'reason' codes, 5 and ff have come up
}
}
$sessdata->{doled} = shift @{ $sessdata->{doleds} };
if ($sessdata->{doled}) {
$sessdata->{current_led_sdr} = pop @{ $sessdata->{doled} };
$sessdata->{ipmisession}->subcmd(netfn => 0x3a, command => 0xc0, data => $sessdata->{doled}, callback => \&did_led, callback_args => $sessdata);
} elsif (not $sessdata->{activeleds}) {
xCAT::SvrUtils::sendmsg("No active error LEDs detected", $callback, $sessdata->{node}, %allerrornodes);
}
if (scalar @{ $sessdata->{sensorstoread} }) {
$sessdata->{currsdr} = shift @{ $sessdata->{sensorstoread} };
readsensor($sessdata); #next sensor
}
}
sub done_powerusage {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) {
xCAT::SvrUtils::sendmsg([ 1, "Get Power Reading failed" ], $callback, $sessdata->{node}, %allerrornodes);
} else {
my $e_id = shift(@{ $rsp->{data} });
if ($e_id ne 0xdc) {
xCAT::SvrUtils::sendmsg([ 1, "The Power Reading response is incorrect" ], $callback, $sessdata->{node}, %allerrornodes);
} else {
my $curr_power = $rsp->{data}->[0] + $rsp->{data}->[1] * 0x100;
my $mini_power = $rsp->{data}->[2] + $rsp->{data}->[3] * 0x100;
my $max_power = $rsp->{data}->[4] + $rsp->{data}->[5] * 0x100;
my $aver_power = $rsp->{data}->[6] + $rsp->{data}->[7] * 0x100;
my $time_stamp = $rsp->{data}->[8] + $rsp->{data}->[9] * 0x100 +
$rsp->{data}->[10] * 0x10000 + $rsp->{data}->[11] * 0x1000000;
my ($sec, $min, $hour, $day, $mon, $year) = localtime($time_stamp);
$mon += 1;
$year += 1900;
my $time_period = $rsp->{data}->[12] + $rsp->{data}->[13] * 0x100 +
$rsp->{data}->[14] * 0x10000 + $rsp->{data}->[15] * 0x1000000;
my $reading_state = (($rsp->{data}->[16] & 0x40) >> 6) ? "Active" : "Inactivate";
xCAT::SvrUtils::sendmsg("Current Power : $curr_power" . "W", $callback, $sessdata->{node}, %allerrornodes);
xCAT::SvrUtils::sendmsg("Minimum Power over sampling duration : $mini_power" . "W", $callback, $sessdata->{node}, %allerrornodes);
xCAT::SvrUtils::sendmsg("Maximum Power over sampling duration : $max_power" . "W", $callback, $sessdata->{node}, %allerrornodes);
xCAT::SvrUtils::sendmsg("Average Power over sampling duration : $aver_power" . "W", $callback, $sessdata->{node}, %allerrornodes);
xCAT::SvrUtils::sendmsg("Time Stamp : $mon/$day/$year - $hour:$min:$sec", $callback, $sessdata->{node}, %allerrornodes);
xCAT::SvrUtils::sendmsg("Statistics reporting time period : $time_period milliseconds", $callback, $sessdata->{node}, %allerrornodes);
xCAT::SvrUtils::sendmsg("Power Measurement : $reading_state", $callback, $sessdata->{node}, %allerrornodes);
}
}
do_dcmi_operating($sessdata);
}
my %dcmi_sensors = (
0x37 => "Inlet Temperature",
0x03 => "CPU Temperature",
0x07 => "Baseboard temperature",
);
sub do_temperature {
my $rsp = shift;
my $sessdata = shift;
my $cur_sensor = $sessdata->{dcmi_sensor}->{cur_sensor};
my $sensor_dis = "unknown sensor";
if (defined($cur_sensor) and exists($dcmi_sensors{$cur_sensor})) {
$sensor_dis = $dcmi_sensors{$cur_sensor};
}
if ($rsp->{error}) {
xCAT::SvrUtils::sendmsg([ 1, "Get Power Reading failed for $sensor_dis" ], $callback, $sessdata->{node}, %allerrornodes);
} elsif (exists($rsp->{data})) {
my $e_id = shift(@{ $rsp->{data} });
if ($e_id ne 0xdc) {
xCAT::SvrUtils::sendmsg([ 1, "The Power Reading response is incorrect for $sensor_dis" ], $callback, $sessdata->{node}, %allerrornodes);
} else {
my $num_of_instances = shift(@{ $rsp->{data} });
my $num_cur = shift(@{ $rsp->{data} });
if ($num_cur) {
while (scalar(@{ $rsp->{data} })) {
my $temp = shift(@{ $rsp->{data} });
my $iid = shift(@{ $rsp->{data} });
my $flag = ($temp & 0x80) >> 7;
$temp &= 0x7f;
if ($flag) {
$sessdata->{dcmi_sensor_instances}->{$cur_sensor}->{$iid} = "-$temp Centigrade";
} else {
$sessdata->{dcmi_sensor_instances}->{$cur_sensor}->{$iid} = "+$temp Centigrade";
}
}
}
}
}
{
my $sensor_eid = shift(@{ $sessdata->{dcmi_sensor}->{sensors} });
if ($sensor_eid) {
$sessdata->{dcmi_sensor}->{cur_sensor} = $sensor_eid;
# The raw format for dcmi command Get Temperature Reading
# ipmitool-xcat -I lanplus -H <bmc_ip> -U <bmc_username> -P <bmc_password> raw 0x2c 0x10 0xdc 0x01 <sensor entity_id> 0 0
$sessdata->{ipmisession}->subcmd(netfn => 0x2c, command => 0x10,
data => [ 0xdc, 0x01, $sensor_eid, 0, 0 ],
callback => \&do_temperature,
callback_args => $sessdata);
return;
}
}
done_temperature($sessdata);
}
sub done_temperature {
my $sessdata = shift;
foreach my $sid (sort keys %{ $sessdata->{dcmi_sensor_instances} }) {
my $sensor_dis = "unknown sensor";
if (exists($dcmi_sensors{$sid})) {
$sensor_dis = $dcmi_sensors{$sid};
}
foreach my $instance_id (sort keys %{ $sessdata->{dcmi_sensor_instances}->{$sid} }) {
my $temp = $sessdata->{dcmi_sensor_instances}->{$sid}->{$instance_id};
my $string = sprintf("%-36s", "$sensor_dis Instance $instance_id");
xCAT::SvrUtils::sendmsg("$string : $temp", $callback, $sessdata->{node}, %allerrornodes);
}
}
do_dcmi_operating($sessdata);
}
sub do_dcmi_operating {
my $sessdata = shift;
unless (scalar(@{ $sessdata->{energy_options} })) {
return;
} else {
my $cur_op = shift(@{ $sessdata->{energy_options} });
if ($cur_op eq "powerusage") {
# The raw format for dcmi command Get Power Reading:
# ipmitool-xcat -I lanplus -H <bmc_ip> -U <bmc_username> -P <bmc_password> raw 0x2c 0x02 0xdc 1 0 0
$sessdata->{ipmisession}->subcmd(netfn => 0x2c, command => 0x02,
data => [ 0xdc, 1, 0, 0 ],
callback => \&done_powerusage,
callback_args => $sessdata);
} elsif ($cur_op eq "temperature") {
# DCMI Sensor Entity ID
# 0x37/0x40 55 for Inlet Temperature
# 0x03/0x41 for CPU Temperature
# 0x07/0x42 for Baseboard temperature
@{ $sessdata->{dcmi_sensor}->{sensors} } = qw/55 3 7/;
&do_temperature({ startpoint => 1 }, $sessdata);
}
}
}
sub renergy {
my $sessdata = shift;
my @subcommands = @{ $sessdata->{extraargs} };
if (isopenpower($sessdata)) {
unless (@subcommands) {
@subcommands = qw/powerusage temperature/;
}
foreach (@subcommands) {
if ($_ eq "powerusage") {
push @{ $sessdata->{energy_options} }, 'powerusage';
} elsif ($_ eq "temperature") {
push @{ $sessdata->{energy_options} }, 'temperature';
} else {
if ($_ =~ /=/) {
xCAT::SvrUtils::sendmsg([ 1, "Only Query is supported" ], $callback, $sessdata->{node}, %allerrornodes);
} else {
xCAT::SvrUtils::sendmsg([ 1, "The option $_ is not supported" ], $callback, $sessdata->{node}, %allerrornodes);
}
return;
}
}
# DCMI -- Data Center Manageability Interface, for more info, pls reference http://www.intel.com/content/www/us/en/data-center/dcmi/data-center-manageability-interface.html
do_dcmi_operating($sessdata);
return;
} else {
if (grep /powerusage/, @subcommands) {
xCAT::SvrUtils::sendmsg([ 1, "The option 'powerusage' is only supported for OpenPOWER servers" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
if (grep /temperature/, @subcommands) {
xCAT::SvrUtils::sendmsg([ 1, "The option 'temperatue' is only supported for OpenPOWER servers" ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
}
unless ($iem_support) {
xCAT::SvrUtils::sendmsg(":Command unsupported without IBM::EnergyManager installed", $callback, $sessdata->{node});
return;
}
my @directives = ();
foreach (@subcommands) {
if ($_ eq 'cappingmaxmin') {
push @directives, 'cappingmax', 'cappingmin';
}
push @directives, split /,/, $_;
}
$sessdata->{directives} = \@directives;
$sessdata->{iemcallback} = \&renergy_withiem;
initiem($sessdata);
}
sub renergy_withiem {
my $sessdata = shift;
my @settable_keys = qw/savingstatus cappingstatus cappingwatt cappingvalue/;
my $directive = shift(@{ $sessdata->{directives} });
if ($sessdata->{iemtextdata}) {
xCAT::SvrUtils::sendmsg($sessdata->{iemtextdata}, $callback, $sessdata->{node}, %allerrornodes);
$sessdata->{iemtextdata} = "";
}
if ($sessdata->{gotcapstatus}) {
$sessdata->{gotcapstatus} = 0;
my $capenabled = $sessdata->{iem}->capping_enabled();
xCAT::SvrUtils::sendmsg("cappingstatus: " . ($capenabled ? "on" : "off"), $callback, $sessdata->{node}, %allerrornodes);
}
if ($sessdata->{gothistogram}) {
$sessdata->{gothistogram} = 0;
my @histdata = $sessdata->{iem}->extract_relative_histogram;
foreach (sort { $a <=> $b } keys %{ $histdata[0] }) {
xCAT::SvrUtils::sendmsg("$_: " . $histdata[0]->{$_}, $callback, $sessdata->{node}, %allerrornodes);
}
}
unless ($directive) {
return;
}
my $value = undef;
my $key = undef;
$sessdata->{iemcallback} = \&renergy_withiem;
if ($directive =~ /(.*)=(.*)\z/) {
$key = $1;
$value = $2;
unless (grep /$key/, @settable_keys and $value) {
return (1, "Malformed argument $directive");
}
if ($key eq "cappingwatt" or $key eq "cappingvalue") {
$value = $value * 1000; #convert to milliwatts
$sessdata->{iem}->prep_set_cap($value);
execute_iem_commands($sessdata); #this gets all precision data initialized
}
if ($key eq "cappingstatus") {
if (grep /$value/, qw/enable on 1/) {
$value = 1;
} else {
$value = 0;
}
$sessdata->{iem}->prep_set_capenable($value);
execute_iem_commands($sessdata); #this gets all precision data initialized
}
}
if ($directive =~ /cappingmin/) {
$sessdata->{iem}->prep_get_mincap();
process_data_from_iem($sessdata);
} elsif ($directive =~ /cappingmax$/) {
$sessdata->{iem}->prep_get_maxcap();
process_data_from_iem($sessdata);
}
if ($directive =~ /cappingvalue/) {
$sessdata->{iem}->prep_get_cap();
process_data_from_iem($sessdata);
}
if ($directive =~ /cappingstatus/) {
$sessdata->{iem}->prep_get_powerstatus();
$sessdata->{gotcapstatus} = 1;
execute_iem_commands($sessdata);
}
if ($directive =~ /relhistogram/) {
$sessdata->{gothistogram} = 1;
$sessdata->{iem}->prep_retrieve_histogram();
execute_iem_commands($sessdata);
}
return;
}
sub vitals {
my $sessdata = shift;
$sessdata->{healthsummary} = 0; #0 means healthy for now
my %sdr_hash = %{ $sessdata->{sdr_hash} };
my @textfilters;
foreach (@{ $sessdata->{extraargs} }) {
push @textfilters, (split /,/, $_);
}
unless (scalar @textfilters) { @textfilters = ("all"); }
my $rc = 0;
my $text;
my $key;
my %sensor_filters = ();
my @output;
my $reading;
my $unitdesc;
my $value;
my $extext;
my $format = "%-30s%8s %-20s";
my $doall;
$doall = 0;
$rc = 0;
#filters: defined in sensor type codes and data table
# 1 == temp, 2 == voltage 3== current (we lump in wattage here for lack of a better spot), 4 == fan
if (grep { $_ eq "all" } @textfilters) {
$sensor_filters{1} = 1; #,0x02,0x03,0x04); rather than filtering, unfiltered results
$sensor_filters{energy} = 1;
$sensor_filters{chassis} = 1;
$sensor_filters{leds} = 1;
$doall = 1;
}
if (grep /^temp$/, @textfilters) {
$sensor_filters{0x01} = 1;
}
if (grep /^voltage$/, @textfilters) {
$sensor_filters{0x02} = 1;
}
if (grep /^wattage$/, @textfilters) {
$sensor_filters{watt} = 1;
}
if (grep /^fanspeed$/, @textfilters) {
$sensor_filters{0x04} = 1;
}
if (grep /^power$/, @textfilters) { #power does not really include energy, but most people use 'power' to mean both
$sensor_filters{0x03} = 1;
$sensor_filters{powerstate} = 1;
$sensor_filters{energy} = 1;
}
if (grep /^energy$/, @textfilters) {
$sensor_filters{energy} = 1;
}
if (grep /^leds$/, @textfilters) {
$sensor_filters{leds} = 1;
}
if (grep /^chassis$/, @textfilters) {
$sensor_filters{chassis} = 1;
}
unless (keys %sensor_filters) {
xCAT::SvrUtils::sendmsg([ 1, "Unrecognized rvitals arguments " . join(" ", @{ $sessdata->{extraargs} }) ], $callback, $sessdata->{node}, %allerrornodes);
}
$sessdata->{sensorstoread} = [];
my %usedkeys;
foreach (keys %sensor_filters) {
my $filter = $_;
if ($filter eq "energy" or $filter eq "leds") { next; }
foreach $key (sort { $sdr_hash{$a}->id_string cmp $sdr_hash{$b}->id_string } keys %sdr_hash) {
if ($usedkeys{$key}) { next; } #avoid duplicate requests for sensor data
my $sdr = $sdr_hash{$key};
if (($doall and not $sdr->rec_type == 0x11 and not $sdr->sensor_type == 0xed) or ($sdr->rec_type == 0x01 and $sdr->sensor_type == $filter)) {
my $lformat = $format;
push @{ $sessdata->{sensorstoread} }, $sdr;
$usedkeys{$key} = 1;
} elsif ($filter eq "watt" and $sdr->sensor_units_2 and $sdr->sensor_units_2 == 0x06) {
push @{ $sessdata->{sensorstoread} }, $sdr;
$usedkeys{$key} = 1;
}
}
}
if ($sensor_filters{leds}) {
push @{ $sessdata->{sensorstoread} }, "leds";
#my @cleds;
#($rc,@cleds) = checkleds();
#push @output,@cleds;
}
if ($sensor_filters{powerstate} and not $sensor_filters{chassis}) {
push @{ $sessdata->{sensorstoread} }, "powerstat";
#($rc,$text) = power("stat");
#$text = sprintf($format,"Power Status:",$text,"");
#push(@output,$text);
}
if ($sensor_filters{energy}) {
if ($iem_support) {
push @{ $sessdata->{sensorstoread} }, "energy";
} #elsif (not $doall) {
#xCAT::SvrUtils::sendmsg([ 1, ":Energy data requires additional IBM::EnergyManager plugin in conjunction with IMM managed IBM equipment" ], $callback, $sessdata->{node}, %allerrornodes);
#}
#my @energies;
#($rc,@energies)=readenergy();
#push @output,@energies;
}
if ($sensor_filters{chassis}) {
unshift @{ $sessdata->{sensorstoread} }, "chassis";
}
if (scalar @{ $sessdata->{sensorstoread} }) {
$sessdata->{currsdr} = shift @{ $sessdata->{sensorstoread} };
readsensor($sessdata); #and we are off
}
}
sub sensorformat {
my $sessdata = shift;
my $sdr = $sessdata->{currsdr};
my $rc = shift;
my $reading = shift;
my $extext = shift;
my $unitdesc = "";
my $value;
my $lformat = "%-30s %-20s";
my $per = " ";
my $data;
if ($rc == 0) {
$data = translate_sensor($reading, $sdr);
} else {
$data = "N/A";
}
#$unitdesc.= sprintf(" %x",$sdr->sensor_type);
# use Data::Dumper;
# print Dumper($lformat,$sdr->id_string,$data);
my $text = sprintf($lformat, $sdr->id_string . ":", $data);
if ($extext) {
$text = "$text ($extext)";
}
if ($sessdata->{bmcnum} != 1) { $text .= " on BMC " . $sessdata->{bmcnum}; }
xCAT::SvrUtils::sendmsg($text, $callback, $sessdata->{node}, %allerrornodes);
if (scalar @{ $sessdata->{sensorstoread} }) {
$sessdata->{currsdr} = shift @{ $sessdata->{sensorstoread} };
readsensor($sessdata); #next
}
}
sub readsensor {
my $sessdata = shift;
if (not ref $sessdata->{currsdr}) {
if ($sessdata->{currsdr} eq "leds") {
checkleds($sessdata);
return;
} elsif ($sessdata->{currsdr} eq "powerstat") {
$sessdata->{powerstatprefix} = "Power Status: ";
$sessdata->{subcommand} = "stat";
power($sessdata);
return;
} elsif ($sessdata->{currsdr} eq "chassis") {
readchassis($sessdata);
return;
} elsif ($sessdata->{currsdr} eq "energy") {
readenergy($sessdata);
return;
} else {
xCAT::SvrUtils::sendmsg([ 1, "TODO: make " . $sessdata->{currsdr} . " work again" ], $callback, $sessdata->{node}, %allerrornodes);
}
return;
}
my $sensor = $sessdata->{currsdr}->sensor_number;
my $lun = $sessdata->{currsdr}->sensor_owner_lun;
$sessdata->{ipmisession}->subcmd(netfn => 0x4, command => 0x2d, lun => $lun, data => [$sensor], callback => \&sensor_was_read, callback_args => $sessdata);
}
sub sensor_was_read {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) {
xCAT::SvrUtils::sendmsg([ 1, $rsp->{error} ], $callback, $sessdata->{node}, %allerrornodes);
return;
}
if ($rsp->{code}) {
my $text = $codes{ $rsp->{code} };
unless ($text) { $text = sprintf("Unknown error %02xh", $rsp->{code}) }
return sensorformat($sessdata, 1, $text);
}
my @returnd = (0, @{ $rsp->{data} });
if ($returnd[2] & 0x20) {
return sensorformat($sessdata, 1, "N/A");
}
my $text = $returnd[1];
my $exdata1 = $returnd[3];
my $exdata2 = $returnd[3];
my $extext;
my @exparts;
my $sdr = $sessdata->{currsdr};
if ($sdr->event_type_code == 0x1) {
if ($exdata1 & 1 << 5) {
$extext = "At or above upper non-recoverable threshold";
} elsif ($exdata1 & 1 << 4) {
$extext = "At or above upper critical threshold";
} elsif ($exdata1 & 1 << 3) {
$extext = "At or above upper non-critical threshold";
}
if ($exdata1 & 1 << 2) {
$extext = "At or below lower non-critical threshold";
} elsif ($exdata1 & 1 << 1) {
$extext = "At or below lower critical threshold";
} elsif ($exdata1 & 1) {
$extext = "At or below lower non-recoverable threshold";
}
} elsif ($sdr->event_type_code == 0x6f) {
@exparts = ();
if ($sdr->sensor_type == 0x10) {
if ($exdata1 & 1 << 4) {
push @exparts, "SEL full";
} elsif ($exdata1 & 1 << 5) {
push @exparts, "SEL almost full";
}
if ($exdata1 & 1) {
push @exparts, "Correctable Memory Error Logging Disabled";
}
if ($exdata1 & 1 << 3) {
push @exparts, "All logging disabled";
} elsif ($exdata1 & 1 << 1) {
push @exparts, "Some logging disabled";
}
} elsif ($sdr->sensor_type == 0x7) {
@exparts = ();
if ($exdata1 & 1) {
push @exparts, "IERR";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Thermal trip";
}
if ($exdata1 & 1 << 2) {
push @exparts, "FRB1/BIST failure";
}
if ($exdata1 & 1 << 3) {
push @exparts, "FRB2/Hang in POST due to processor";
}
if ($exdata1 & 1 << 4) {
push @exparts, "FRB3/Processor Initialization failure";
}
if ($exdata1 & 1 << 5) {
push @exparts, "Configuration error";
}
if ($exdata1 & 1 << 6) {
push @exparts, "Uncorrectable CPU-complex error";
}
if ($exdata1 & 1 << 7) {
push @exparts, "Present";
}
if ($exdata1 & 1 << 8) {
push @exparts, "Processor disabled";
}
if ($exdata1 & 1 << 9) {
push @exparts, "Terminator present";
}
if ($exdata1 & 1 << 10) {
push @exparts, "Hardware throttled";
}
if ($exdata1 & 1 << 11) {
push @exparts, "Uncorrectable Machine Check Exception";
}
if ($exdata1 & 1 << 12) {
push @exparts, "Correctable Machine Check Error";
}
} elsif ($sdr->sensor_type == 0x8) {
@exparts = ();
if ($exdata1 & 1) {
push @exparts, "Present";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Failed";
}
if ($exdata1 & 1 << 2) {
push @exparts, "Failure predicted";
}
if ($exdata1 & 1 << 3) {
push @exparts, "AC Lost";
}
if ($exdata1 & 1 << 4) {
push @exparts, "AC input lost or out of range";
}
if ($exdata1 & 1 << 5) {
push @exparts, "AC input out of range";
}
if ($exdata1 & 1 << 6) {
push @exparts, "Configuration error";
}
if ($exdata1 & 1 << 7) {
push @exparts, "Power Supply Inactive";
}
if (@exparts) {
$extext = join(",", @exparts);
}
} elsif ($sdr->sensor_type == 0x13) {
@exparts = ();
if ($exdata1 & 1) {
push @exparts, "Front panel NMI/Diagnostic";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Bus timeout";
}
if ($exdata1 & 1 << 2) {
push @exparts, "I/O channel check NMI";
}
if ($exdata1 & 1 << 3) {
push @exparts, "Software NMI";
}
if ($exdata1 & 1 << 4) {
push @exparts, "PCI PERR";
}
if ($exdata1 & 1 << 5) {
push @exparts, "PCI SERR";
}
if ($exdata1 & 1 << 6) {
push @exparts, "EISA failsafe timeout";
}
if ($exdata1 & 1 << 7) {
push @exparts, "Bus correctable .rror";
}
if ($exdata1 & 1 << 8) {
push @exparts, "Bus uncorrectable error";
}
if ($exdata1 & 1 << 9) {
push @exparts, "Fatal NMI";
}
if ($exdata1 & 1 << 10) {
push @exparts, "Bus fatal error";
}
if ($exdata1 & 1 << 11) {
push @exparts, "Bus Degraded";
}
} elsif ($sdr->sensor_type == 0xc) {
@exparts = ();
if ($exdata1 & 1) {
push @exparts, "Correctable error(s)";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Uncorrectable error(s)";
}
if ($exdata1 & 1 << 2) {
push @exparts, "Parity";
}
if ($exdata1 & 1 << 3) {
push @exparts, "Memory scrub failure";
}
if ($exdata1 & 1 << 4) {
push @exparts, "DIMM disabled";
}
if ($exdata1 & 1 << 5) {
push @exparts, "Correctable error limit reached";
}
if ($exdata1 & 1 << 6) {
push @exparts, "Present";
}
if ($exdata1 & 1 << 7) {
push @exparts, "Configuration error";
}
if ($exdata1 & 1 << 8) {
push @exparts, "Spare";
}
if ($exdata1 & 1 << 9) {
push @exparts, "Memory Automatically Throttled";
}
if ($exdata1 & 1 << 10) {
push @exparts, "Critical Overtemperature";
}
if (@exparts) {
$extext = join(",", @exparts);
}
} elsif ($sdr->sensor_type == 0x21) {
@exparts = ();
if ($exdata1 & 1) {
push @exparts, "Fault";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Identify";
}
if ($exdata1 & 1 << 2) {
push @exparts, "Installed/attached";
}
if ($exdata1 & 1 << 3) {
push @exparts, "Ready for install";
}
if ($exdata1 & 1 << 4) {
push @exparts, "Ready for removal";
}
if ($exdata1 & 1 << 5) {
push @exparts, "Powered off";
}
if ($exdata1 & 1 << 6) {
push @exparts, "Removal requested";
}
if ($exdata1 & 1 << 7) {
push @exparts, "Interlocked";
}
if ($exdata1 & 1 << 8) {
push @exparts, "Disabled";
}
if ($exdata1 & 1 << 9) {
push @exparts, "Spare";
}
} elsif ($sdr->sensor_type == 0xf) {
@exparts = ();
if ($exdata1 & 1) {
push @exparts, "POST error";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Firmware hang";
}
if ($exdata1 & 1 << 2) {
push @exparts, "Firmware progress";
}
} elsif ($sdr->sensor_type == 0x9) {
@exparts = ();
if ($exdata1 & 1) {
push @exparts, "Power off";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Power Cycle";
}
if ($exdata1 & 1 << 2) {
push @exparts, "240VA Power Down";
}
if ($exdata1 & 1 << 3) {
push @exparts, "Interlock Power Down";
}
if ($exdata1 & 1 << 4) {
push @exparts, "AC lost";
}
if ($exdata1 & 1 << 5) {
push @exparts, "Soft power control failure";
}
if ($exdata1 & 1 << 6) {
push @exparts, "Power unit failure";
}
if ($exdata1 & 1 << 7) {
push @exparts, "Power unit failure predicted";
}
} elsif ($sdr->sensor_type == 0x12) {
@exparts = ();
if ($exdata1 & 1) {
push @exparts, "System Reconfigured";
}
if ($exdata1 & 1 << 1) {
push @exparts, "OEM System Boot Event";
}
if ($exdata1 & 1 << 2) {
push @exparts, "Undetermined system hardware failure";
}
if ($exdata1 & 1 << 3) {
push @exparts, "Aux log manipulated";
}
if ($exdata1 & 1 << 4) {
push @exparts, "PEF Action";
}
if ($exdata1 & 1 << 5) {
push @exparts, "Timestamp Clock Synch";
}
} elsif ($sdr->sensor_type == 0x1e) {
if ($exdata1 & 1) {
push @exparts, "No bootable media";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Non-bootable diskette left in drive";
}
if ($exdata1 & 1 << 2) {
push @exparts, "PXE Server not found";
}
if ($exdata1 & 1 << 3) {
push @exparts, "Invalid boot sector";
}
if ($exdata1 & 1 << 4) {
push @exparts, "Timeout waiting for user selection";
}
} elsif ($sdr->sensor_type == 0x1f) {
if ($exdata1 & 1) {
push @exparts, "boot completed";
}
if ($exdata1 & 1 << 1) {
push @exparts, "boot completed";
}
if ($exdata1 & 1 << 2) {
push @exparts, "PXE boot completed";
}
if ($exdata1 & 1 << 3) {
push @exparts, "Diagnostic boot completed";
}
if ($exdata1 & 1 << 4) {
push @exparts, "CD-ROM boot completed";
}
if ($exdata1 & 1 << 5) {
push @exparts, "ROM boot completed";
}
if ($exdata1 & 1 << 6) {
push @exparts, "boot completed-device not specified";
}
if ($exdata1 & 1 << 7) {
push @exparts, "Base OS Installation started";
}
if ($exdata1 & 1 << 8) {
push @exparts, "Base OS Installation completed";
}
if ($exdata1 & 1 << 9) {
push @exparts, "Base OS Installation aborted";
}
if ($exdata1 & 1 << 9) {
push @exparts, "Base OS Installation failed";
}
} elsif ($sdr->sensor_type == 0x25) {
if ($exdata1 & 1) {
push @exparts, "Present";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Absent";
}
if ($exdata1 & 1 << 2) {
push @exparts, "Disabled";
}
} elsif ($sdr->sensor_type == 0x23) {
if ($exdata1 & 1) {
push @exparts, "Expired";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Hard Reset";
}
if ($exdata1 & 1 << 2) {
push @exparts, "Power Down";
}
if ($exdata1 & 1 << 3) {
push @exparts, "Power Cycle";
}
if ($exdata1 & 1 << 8) {
push @exparts, "Timer interrupt";
}
} elsif ($sdr->sensor_type == 0xd) {
if ($exdata1 & 1) {
push @exparts, "Present";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Fault";
}
if ($exdata1 & 1 << 2) {
push @exparts, "Failure Predicted";
}
if ($exdata1 & 1 << 3) {
push @exparts, "Hot Spare";
}
if ($exdata1 & 1 << 4) {
push @exparts, "Consistency Check";
}
if ($exdata1 & 1 << 5) {
push @exparts, "Critical Array";
}
if ($exdata1 & 1 << 6) {
push @exparts, "Failed Array";
}
if ($exdata1 & 1 << 7) {
push @exparts, "Rebuilding";
}
if ($exdata1 & 1 << 8) {
push @exparts, "Rebuild aborted";
}
} elsif ($sdr->sensor_type == 0x20) {
if ($exdata1 & 1) {
push @exparts, "Critical stop during OS load";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Runtime Critical Stop";
}
if ($exdata1 & 1 << 2) {
push @exparts, "OS Graceful Stop";
}
if ($exdata1 & 1 << 3) {
push @exparts, "OS Graceful Shutdown";
}
if ($exdata1 & 1 << 4) {
push @exparts, "Soft Shutdown";
}
if ($exdata1 & 1 << 5) {
push @exparts, "Agent Not Responding";
}
} elsif ($sdr->sensor_type == 0x22) {
if ($exdata1 & 1) {
push @exparts, "working";
}
if ($exdata1 & 1 << 1) {
push @exparts, "sleeping";
}
if ($exdata1 & 1 << 2) {
push @exparts, "processor context lost";
}
if ($exdata1 & 1 << 3) {
push @exparts, "memory retained";
}
if ($exdata1 & 1 << 4) {
push @exparts, "non-volatile sleep";
}
if ($exdata1 & 1 << 5) {
push @exparts, "soft-off";
}
if ($exdata1 & 1 << 6) {
push @exparts, "soft-off";
}
if ($exdata1 & 1 << 7) {
push @exparts, "Mechanical off";
}
if ($exdata1 & 1 << 8) {
push @exparts, "Sleeping in as S1,S2, or S3 states";
}
if ($exdata1 & 1 << 9) {
push @exparts, "sleeping";
}
if ($exdata1 & 1 << 10) {
push @exparts, "entered by override";
}
if ($exdata1 & 1 << 11) {
push @exparts, "Legacy ON";
}
if ($exdata1 & 1 << 12) {
push @exparts, "Legacy OFF";
}
if ($exdata1 & 1 << 13) {
push @exparts, "Unknown";
}
} elsif ($sdr->sensor_type == 0x28) {
if ($exdata1 & 1) {
push @exparts, "Degraded or unavailable";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Degraded or unavailable";
}
if ($exdata1 & 1 << 2) {
push @exparts, "Offline";
}
if ($exdata1 & 1 << 3) {
push @exparts, "Unavailable";
}
if ($exdata1 & 1 << 4) {
push @exparts, "Sensor Failure";
}
if ($exdata1 & 1 << 5) {
push @exparts, "FRU Failure";
}
} elsif ($sdr->sensor_type == 0x29) {
if ($exdata1 & 1) {
push @exparts, "battery low";
}
if ($exdata1 & 1 << 1) {
push @exparts, "battery failed";
}
if ($exdata1 & 1 << 2) {
push @exparts, "battery presence detected";
}
} elsif ($sdr->sensor_type == 0x2a) {
if ($exdata1 & 1) {
push @exparts, "Session Activated";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Session Deactivated";
}
if ($exdata1 & 1 << 2) {
push @exparts, "Invalid username or password";
}
if ($exdata1 & 1 << 3) {
push @exparts, "Invalid password disable";
}
} elsif ($sdr->sensor_type == 0x2b) {
if ($exdata1 & 1) {
push @exparts, "Change detected";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Firmware change detected";
}
if ($exdata1 & 1 << 2) {
push @exparts, "Hardware incompatibility detected";
}
if ($exdata1 & 1 << 3) {
push @exparts, "Firmware incompatibility detected";
}
if ($exdata1 & 1 << 4) {
push @exparts, "Unsupported hardware version";
}
if ($exdata1 & 1 << 5) {
push @exparts, "Unsupported firmware verion";
}
if ($exdata1 & 1 << 6) {
push @exparts, "Hardware change successful";
}
if ($exdata1 & 1 << 7) {
push @exparts, "Firmware change successful";
}
} elsif ($sdr->sensor_type == 0x1b) {
if ($exdata1 & 1) {
push @exparts, "Cable connected";
}
if ($exdata1 & 1 << 1) {
push @exparts, "Incorrect cable connection";
}
} elsif ($sdr->sensor_type == 0x2c) {
if ($exdata1 & 1) {
push @exparts, "FRU Not Installed";
}
if ($exdata1 & 1 << 1) {
push @exparts, "FRU Inactive";
}
if ($exdata1 & 1 << 2) {
push @exparts, "FRU Activation Requested";
}
if ($exdata1 & 1 << 3) {
push @exparts, "FRU Activation In Progress";
}
if ($exdata1 & 1 << 4) {
push @exparts, "FRU Active";
}
if ($exdata1 & 1 << 5) {
push @exparts, "FRU Deactivation Requested";
}
if ($exdata1 & 1 << 6) {
push @exparts, "FRU Deactivation In Progress";
}
if ($exdata1 & 1 << 7) {
push @exparts, "FRU Communication Lost";
}
} elsif ($sdr->sensor_type >= 0xc0) {
$extext = "OEM Reserved " . $sdr->sensor_type;
} else {
$extext = "xCAT needs to add support for " . $sdr->sensor_type;
}
if (@exparts) {
$extext = join(",", @exparts);
}
}
return sensorformat($sessdata, 0, $text, $extext);
}
sub initsdr {
my $sessdata = shift;
my $netfun;
my @cmd;
my @returnd = ();
my $error;
my $rc = 0;
my $text;
my $code;
my $resv_id_ls;
my $resv_id_ms;
my $sdr_type;
my $sdr_offset;
my $sdr_len;
my @sdr_data = ();
my $offset;
my $len;
my $i;
# my $numbytes = 27;
my $ipmisensortab = "$ENV{XCATROOT}/lib/GUMI/ipmisensor.tab";
my $byte_format;
my $cache_file;
#device id data TODO
$sessdata->{ipmisession}->subcmd(netfn => 0x0a, command => 0x20, data => [], callback => \&got_sdr_rep_info, callback_args => $sessdata);
}
sub initsdr_withrepinfo {
my $sessdata = shift;
my $mfg_id = $sessdata->{mfg_id};
my $prod_id = $sessdata->{prod_id};
my $device_id = $sessdata->{device_id};
my $dev_rev = $sessdata->{device_rev};
my $fw_rev1 = $sessdata->{firmware_rev1};
my $fw_rev2 = $sessdata->{firmware_rev2};
my $num_sdr_records = $sessdata->{sdr_info}->{rec_count};
#TODO: beware of dynamic SDR contents
my $cache_name_id = "$mfg_id.$prod_id.$device_id.$dev_rev.$fw_rev1.$fw_rev2.$num_sdr_records";
my $cache_file = "$cache_dir/sdr_$cache_name_id";
$sessdata->{sdrcache_file} = $cache_file;
if ($enable_cache eq "yes") {
if ($sdr_caches{"$cache_name_id"}) {
$sessdata->{sdr_hash} = $sdr_caches{"$cache_name_id"};
on_bmc_connect("SUCCESS", $sessdata); #retry bmc_connect since sdr_cache is validated
return; #don't proceed to slow load
} else {
my $rc = loadsdrcache($sessdata, $cache_file);
if ($rc == 0) {
$sdr_caches{"$cache_name_id"} = $sessdata->{sdr_hash};
on_bmc_connect("SUCCESS", $sessdata); #retry bmc_connect since sdr_cache is validated
return; #don't proceed to slow load
}
}
}
if ($sessdata->{sdr_info}->{version} != 0x51) {
sendoutput(1, "SDR version unsupported.");
return (1); #bail, do not try to continue
}
if ($sessdata->{sdr_info}->{resv_sdr} != 1) {
sendoutput(1, "SDR reservation unsupported.");
return 1;
}
$sessdata->{ipmisession}->subcmd(netfn => 0x0a, command => 0x22, data => [], callback => \&reserved_sdr_repo, callback_args => $sessdata);
}
sub initsdr_withreservation {
my $sessdata = shift;
my $rid_ls = 0;
my $rid_ms = 0;
if ($sessdata->{sdr_nrid_ls}) { $rid_ls = $sessdata->{sdr_nrid_ls}; }
if ($sessdata->{sdr_nrid_ms}) { $rid_ms = $sessdata->{sdr_nrid_ms}; }
####if($debug) {
#### print "mfg,prod,dev: $mfg_id, $prod_id, $device_id\n";
#### printf("SDR info: %02x %d %d\n",$sdr_rep_info->version,$sdr_rep_info->rec_count,$sdr_rep_info->resv_sdr);
#### print "resv_id: $resv_id_ls $resv_id_ms\n";
####}
my $resv_id_ls = $sessdata->{resv_id_ls};
my $resv_id_ms = $sessdata->{resv_id_ms};
if ($rid_ls == 0xff and $rid_ms == 0xff) {
if ($enable_cache eq "yes") { #cache SDR repository for future use
storsdrcache($sessdata->{sdrcache_file}, $sessdata);
}
on_bmc_connect("SUCCESS", $sessdata); #go back armed with a capable reserviction
return; #Have reached the end
}
$sessdata->{sdr_fetch_args} = [ $resv_id_ls, $resv_id_ms, $rid_ls, $rid_ms, 0, 5 ];
$sessdata->{ipmisession}->subcmd(netfn => 0xa, command => 0x23, data => $sessdata->{sdr_fetch_args}, callback => \&start_sdr_record, callback_args => $sessdata);
return;
}
sub start_sdr_record {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) {
sendoutput(1, $rsp->{error});
return;
}
my $resv_id_ls = shift @{ $sessdata->{sdr_fetch_args} };
my $resv_id_ms = shift @{ $sessdata->{sdr_fetch_args} };
my $rid_ls = shift @{ $sessdata->{sdr_fetch_args} };
my $rid_ms = shift @{ $sessdata->{sdr_fetch_args} };
my @returnd = ($rsp->{code}, @{ $rsp->{data} });
my $code = $returnd[0];
if ($code != 0x00) {
my $text = $codes{$code};
if (!$text) {
$text = sprintf("unknown response %02x", $code);
}
sendoutput(1, $text);
return;
}
$sessdata->{sdr_nrid_ls} = $returnd[1];
$sessdata->{sdr_nrid_ms} = $returnd[2];
my $sdr_ver = $returnd[5];
my $sdr_type = $returnd[6];
$sessdata->{curr_sdr_type} = $sdr_type;
$sessdata->{curr_sdr_len} = $returnd[7] + 5;
if ($sdr_type == 0x01) {
$sessdata->{total_sdr_offset} = 0;
}
elsif ($sdr_type == 0x02) {
$sessdata->{total_sdr_offset} = 16; #TODO: understand this..
}
elsif ($sdr_type == 0xC0) {
#LED descriptor, maybe
}
elsif ($sdr_type == 0x11) { #FRU locator
}
elsif ($sdr_type == 0x12) {
initsdr_withreservation($sessdata); #next, skip this unsupported record type
return;
}
else {
initsdr_withreservation($sessdata); #next
return;
}
$sessdata->{sdr_data} = [ 0, 0, 0, $sdr_ver, $sdr_type, $sessdata->{curr_sdr_len} ]; #seems that an extra zero is prepended to allow other code to do 1 based counting out of laziness to match our index to the spec indicated index
$sessdata->{sdr_offset} = 5;
my $offset = 5; #why duplicate? to make for shorter typing
my $numbytes = 22;
if (5 < $sessdata->{curr_sdr_len}) { #can't imagine this not bing the case,but keep logic in case
if ($offset + $numbytes > $sessdata->{curr_sdr_len}) { #scale back request for remainder
$numbytes = $sessdata->{curr_sdr_len} - $offset;
}
$sessdata->{sdr_fetch_args} = [ $resv_id_ls, $resv_id_ms, $rid_ls, $rid_ms, $offset, $numbytes ];
$sessdata->{ipmisession}->subcmd(netfn => 0x0a, command => 0x23, data => $sessdata->{sdr_fetch_args}, callback => \&add_sdr_data, callback_args => $sessdata);
return;
} else {
initsdr_withreservation($sessdata); #next
return;
}
}
sub add_sdr_data {
my $rsp = shift;
my $sessdata = shift;
my $numbytes = $sessdata->{sdr_fetch_args}->[5];
my $offset = $sessdata->{sdr_offset}; #shorten typing a little
if ($rsp->{error}) {
sendoutput([ 1, $rsp->{error} ]);
return; #give up
}
my @returnd = ($rsp->{code}, @{ $rsp->{data} });
my $code = $returnd[0];
if ($code != 0x00) {
my $text = $codes{$code};
if (!$text) {
$text = sprintf("unknown response %02x", $code);
}
sendoutput([ 1, $text ]);
return; #abort the whole mess
}
push @{ $sessdata->{sdr_data} }, @returnd[ 3 .. @returnd - 1 ];
$sessdata->{sdr_offset} += $numbytes;
if ($sessdata->{sdr_offset} + $numbytes > $sessdata->{curr_sdr_len}) { #scale back request for remainder
$numbytes = $sessdata->{curr_sdr_len} - $sessdata->{sdr_offset};
}
$sessdata->{sdr_fetch_args}->[4] = $sessdata->{sdr_offset};
$sessdata->{sdr_fetch_args}->[5] = $numbytes;
if ($sessdata->{sdr_offset} < $sessdata->{curr_sdr_len}) {
$sessdata->{ipmisession}->subcmd(netfn => 0x0a, command => 0x23, data => $sessdata->{sdr_fetch_args}, callback => \&add_sdr_data, callback_args => $sessdata);
return;
} else { #in this case, time to parse the accumulated data
parse_sdr($sessdata);
}
}
sub parse_sdr { #parse sdr data, then cann initsdr_withreserveation to advance to next record
my $sessdata = shift;
my @sdr_data = @{ $sessdata->{sdr_data} };
#not bothering trying to keep a packet pending concurrent with operation, harder to code that
my $mfg_id = $sessdata->{mfg_id};
my $prod_id = $sessdata->{prod_id};
my $device_id = $sessdata->{device_id};
my $dev_rev = $sessdata->{device_rev};
my $fw_rev1 = $sessdata->{firmware_rev1};
my $fw_rev2 = $sessdata->{firmware_rev2};
my $sdr_type = $sessdata->{curr_sdr_type};
if ($sdr_type == 0x11) { #FRU locator
my $sdr = decode_fru_locator(@sdr_data);
if ($sdr) {
$sessdata->{sdr_hash}->{ $sdr->sensor_owner_id . "." . $sdr->sensor_owner_lun . "." . $sdr->sensor_number } = $sdr;
}
initsdr_withreservation($sessdata); #advance to next record
return;
}
####if($debug) {
#### hexadump(\@sdr_data);
####}
if ($sdr_type == 0x12) { #if required, TODO support type 0x12
hexadump(\@sdr_data);
initsdr_withreservation($sessdata); #next record
return;
}
my $sdr = SDR->new();
if (is_systemx($sessdata) && $sdr_type == 0xC0 && $sdr_data[9] == 0xED) {
#printf("%02x%02x\n",$sdr_data[13],$sdr_data[12]);
$sdr->rec_type($sdr_type);
$sdr->sensor_type($sdr_data[9]);
#Using an impossible sensor number to not conflict with decodealert
$sdr->sensor_owner_id(260);
$sdr->sensor_owner_lun(260);
$sdr->id_string("LED");
if ($sdr_data[12] > $sdr_data[13]) {
$sdr->led_id(($sdr_data[13] << 8) + $sdr_data[12]);
} else {
$sdr->led_id(($sdr_data[12] << 8) + $sdr_data[13]);
}
if (scalar(@sdr_data) > 17) { #well what do you know, we have an ascii description, probably...
my $id = unpack("Z*", pack("C*", @sdr_data[ 16 .. $#sdr_data ]));
if ($id) { $sdr->id_string($id); }
}
#$sdr->led_id_ms($sdr_data[13]);
#$sdr->led_id_ls($sdr_data[12]);
$sdr->sensor_number(sprintf("%04x", $sdr->led_id));
#printf("%02x,%02x,%04x\n",$mfg_id,$prod_id,$sdr->led_id);
#Was going to have a human readable name, but specs
#seem to not to match reality...
#$override_string = getsensorname($mfg_id,$prod_id,$sdr->sensor_number,$ipmiledtab);
#I'm hacking in owner and lun of 260 for LEDs....
$sessdata->{sdr_hash}->{ "260.260." . $sdr->led_id } = $sdr;
initsdr_withreservation($sessdata); #next record
return;
}
$sdr->rec_type($sdr_type);
$sdr->sensor_owner_id($sdr_data[6]);
$sdr->sensor_owner_lun($sdr_data[7]);
$sdr->sensor_number($sdr_data[8]);
$sdr->entity_id($sdr_data[9]);
$sdr->entity_instance($sdr_data[10]);
$sdr->sensor_type($sdr_data[13]);
$sdr->event_type_code($sdr_data[14]);
$sdr->sensor_units_2($sdr_data[22]);
$sdr->sensor_units_3($sdr_data[23]);
if ($sdr_type == 0x01) {
$sdr->sensor_units_1($sdr_data[21]);
$sdr->linearization($sdr_data[24] & 0b01111111);
$sdr->M(comp2int(10, (($sdr_data[26] & 0b11000000) << 2) + $sdr_data[25]));
$sdr->B(comp2int(10, (($sdr_data[28] & 0b11000000) << 2) + $sdr_data[27]));
$sdr->R_exp(comp2int(4, ($sdr_data[30] & 0b11110000) >> 4));
$sdr->B_exp(comp2int(4, $sdr_data[30] & 0b00001111));
} elsif ($sdr_type == 0x02) {
$sdr->sensor_units_1($sdr_data[21]);
}
$sdr->id_string_type($sdr_data[ 48 - $sessdata->{total_sdr_offset} ]);
my $override_string = getsensorname($mfg_id, $prod_id, $sdr->sensor_number);
if ($override_string ne "") {
$sdr->id_string($override_string);
}
else {
unless (defined $sdr->id_string_type) { initsdr_withreservation($sessdata); return; }
my $byte_format = ($sdr->id_string_type & 0b11000000) >> 6;
if ($byte_format == 0b11) {
my $len = ($sdr->id_string_type & 0b00011111) - 1;
if ($len > 1) {
$sdr->id_string(pack("C*", @sdr_data[ 49 - $sessdata->{total_sdr_offset} .. 49 - $sessdata->{total_sdr_offset} + $len ]));
}
else {
$sdr->id_string("no description");
}
}
elsif ($byte_format == 0b10) {
$sdr->id_string("ASCII packed unsupported");
}
elsif ($byte_format == 0b01) {
$sdr->id_string("BCD unsupported");
}
elsif ($byte_format == 0b00) {
my $len = ($sdr->id_string_type & 0b00011111) - 1;
if ($len > 1) { #It should be something, but need sample to code
$sdr->id_string("unicode unsupported");
} else {
initsdr_withreservation($sessdata); return;
}
}
}
$sessdata->{sdr_hash}->{ $sdr->sensor_owner_id . "." . $sdr->sensor_owner_lun . "." . $sdr->sensor_number } = $sdr;
initsdr_withreservation($sessdata); return;
}
sub getsensorname
{
my $mfgid = shift;
my $prodid = shift;
my $sensor = shift;
my $file = shift;
my $sdr = shift;
my $mfg;
my $prod;
my $type;
my $desc;
my $name = "";
if ($file and $file eq "ibmleds") {
if ($sdr and $sdr->id_string ne "LED") { return $sdr->id_string; } # this is preferred mechanism
if ($xCAT::data::ibmleds::leds{"$mfgid,$prodid"}->{$sensor}) {
return $xCAT::data::ibmleds::leds{"$mfgid,$prodid"}->{$sensor} . " LED";
} elsif ($ndebug) {
return "Unknown $sensor/$mfgid/$prodid";
} else {
return sprintf("LED 0x%x", $sensor);
}
} else {
return "";
}
}
sub getchassiscap {
my $netfun = 0x00;
my @cmd;
my @returnd = ();
my $error;
my $rc = 0;
my $text;
my $code;
@cmd = (0x00);
$error = docmd(
$netfun,
\@cmd,
\@returnd
);
if ($error) {
$rc = 1;
$text = $error;
return ($rc, $text);
}
$code = $returnd[0];
if ($code == 0x00) {
$text = "";
}
else {
$rc = 1;
$text = $codes{$code};
if (!$text) {
$rc = 1;
$text = sprintf("unknown response %02x", $code);
}
return ($rc, $text);
}
return ($rc, @returnd[ 1 .. @returnd - 2 ]);
}
sub gotdevid {
#($rc,$text,$mfg_id,$prod_id,$device_id,$dev_rev,$fw_rev1,$fw_rev2) = getdevid();
my $rsp = shift;
my $sessdata = shift;
my $text;
if ($rsp->{error}) {
sendoutput([ 1, $rsp->{error} ]);
return;
}
else {
my $code = $rsp->{code};
if ($code != 0x00) {
my $text = $codes{$code};
if (!$text) {
$text = sprintf("unknown response %02x", $code);
}
sendoutput([ 1, $text ]);
return;
}
}
my @returnd = ($rsp->{code}, @{ $rsp->{data} });
$sessdata->{device_id} = $returnd[1];
$sessdata->{device_rev} = $returnd[2] & 0b00001111;
$sessdata->{firmware_rev1} = $returnd[3] & 0b01111111;
$sessdata->{firmware_rev2} = $returnd[4];
$sessdata->{ipmi_ver} = $returnd[5];
$sessdata->{dev_support} = $returnd[6];
####my $sensor_device = 0;
####my $SDR = 0;
####my $SEL = 0;
####my $FRU = 0;
####my $IPMB_ER = 0;
####my $IPMB_EG = 0;
####my $BD = 0;
####my $CD = 0;
####if($dev_support & 0b00000001) {
#### $sensor_device = 1;
####}
####if($dev_support & 0b00000010) {
#### $SDR = 1;
####}
####if($dev_support & 0b00000100) {
#### $SEL = 1;
####}
####if($dev_support & 0b00001000) {
#### $FRU = 1;
####}
####if($dev_support & 0b00010000) {
#### $IPMB_ER = 1;
####}
####if($dev_support & 0b00100000) {
#### $IPMB_EG = 1;
####}
####if($dev_support & 0b01000000) {
#### $BD = 1;
####}
####if($dev_support & 0b10000000) {
#### $CD = 1;
####}
$sessdata->{mfg_id} = $returnd[7] + $returnd[8] * 0x100 + $returnd[9] * 0x10000;
$sessdata->{prod_id} = $returnd[10] + $returnd[11] * 0x100;
on_bmc_connect("SUCCESS", $sessdata);
# my @data = @returnd[12..@returnd-2];
# return($rc,$text,$mfg_id,$prod_id,$device_id,$device_rev,$firmware_rev1,$firmware_rev2);
}
sub gotguid {
if (check_rsp_errors(@_)) {
return;
}
my $rsp = shift;
my $sessdata = shift;
#my @guidcmd = (0x18,0x37);
#if($mfg_id == 2 && $prod_id == 34869) { TODO: if GUID is inaccurate on the products mentioned, this code may be uncommented
# @guidcmd = (0x18,0x08);
#}
#if($mfg_id == 2 && $prod_id == 4) {
# @guidcmd = (0x18,0x08);
#}
#if($mfg_id == 2 && $prod_id == 3) {
# @guidcmd = (0x18,0x08);
#}
my $fru = FRU->new();
$fru->rec_type("guid");
$fru->desc("UUID/GUID");
my $binuuid = pack("C*", @{ $rsp->{data} });
my @pieces = unpack("VvvNNN", $binuuid);
my @uuid = unpack("C*", pack("NnnNNN", @pieces));
$fru->value(sprintf("%02X%02X%02X%02X-%02X%02X-%02X%02X-%02X%02X-%02X%02X%02X%02X%02X%02X", @uuid));
$sessdata->{fru_hash}->{guid} = $fru;
initfru_withguid($sessdata);
}
sub got_sdr_rep_info {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) {
sendoutput([ 1, $rsp->{error} ]);
return;
}
else {
my $code = $rsp->{code};
if ($code != 0x00) {
my $text = $codes{$code};
if (!$text) {
$text = sprintf("unknown response %02x", $code);
}
sendoutput(1, $text);
return;
}
}
my @returnd = @{ $rsp->{data} };
$sessdata->{sdr_info}->{version} = $returnd[0];
$sessdata->{sdr_info}->{rec_count} = $returnd[1] + $returnd[2] << 8;
$sessdata->{sdr_info}->{resv_sdr} = ($returnd[13] & 0b00000010) >> 1;
initsdr_withrepinfo($sessdata);
}
sub reserved_sdr_repo {
my $rsp = shift;
my $sessdata = shift;
if ($rsp->{error}) {
sendoutput([ 1, $rsp->{error} ]);
return;
}
else {
my $code = $rsp->{code};
if ($code != 0x00) {
my $text = $codes{$code};
if (!$text) {
$text = sprintf("unknown response %02x", $code);
}
sendoutput([ 1, $text ]);
}
}
my @returnd = @{ $rsp->{data} };
$sessdata->{resv_id_ls} = $returnd[0];
$sessdata->{resv_id_ms} = $returnd[1];
initsdr_withreservation($sessdata);
}
sub dochksum()
{
my $data = shift;
my $sum = 0;
foreach (@$data) {
$sum += $_;
}
$sum = ~$sum + 1;
return ($sum & 0xFF);
}
sub hexdump {
my $data = shift;
foreach (@$data) {
printf("%02x ", $_);
}
print "\n";
}
sub getascii {
my @alpha;
my $text = "";
my $c = 0;
foreach (@_) {
if (defined $_ and $_ < 128 and $_ > 0x20) {
$alpha[$c] = sprintf("%c", $_);
} else {
$alpha[$c] = " ";
}
if ($alpha[$c] !~ /[\S]/) {
if ($alpha[ ($c - 1) ] !~ /\s/) {
$alpha[$c] = " ";
} else {
$c--;
}
}
$c++;
}
foreach (@alpha) {
$text = $text . $_;
}
$text =~ s/^\s+|\s+$//;
return $text;
}
sub phex {
my $data = shift;
my @alpha;
my $text = "";
my $c = 0;
foreach (@$data) {
$text = $text . sprintf("%02x ", $_);
$alpha[$c] = sprintf("%c", $_);
if ($alpha[$c] !~ /\w/) {
$alpha[$c] = " ";
}
$c++;
}
$text = $text . "(";
foreach (@alpha) {
$text = $text . $_;
}
$text = $text . ")";
return $text;
}
sub hexadump {
my $data = shift;
my @alpha;
my $c = 0;
foreach (@$data) {
printf("%02x ", $_);
$alpha[$c] = sprintf("%c", $_);
if ($_ < 0x20 or $_ > 0x7e) {
$alpha[$c] = ".";
}
$c++;
if ($c == 16) {
print " ";
foreach (@alpha) {
print $_;
}
print "\n";
@alpha = ();
$c = 0;
}
}
foreach ($c .. 16) {
print " ";
}
foreach (@alpha) {
print $_;
}
print "\n";
}
sub comp2int {
my $length = shift;
my $bits = shift;
my $neg = 0;
if ($bits & 2**($length - 1)) {
$neg = 1;
}
$bits &= (2**($length - 1) - 1);
if ($neg) {
$bits -= 2**($length - 1);
}
return ($bits);
}
sub timestamp2datetime {
my $ts = shift;
if ($ts < 0x20000000) {
return "BMC Uptime", sprintf("%6d s", $ts);
}
my @t = localtime($ts);
my $time = strftime("%H:%M:%S", @t);
my $date = strftime("%m/%d/%Y", @t);
return ($date, $time);
}
sub decodebcd {
my $numbers = shift;
my @bcd;
my $text;
my $ms;
my $ls;
foreach (@$numbers) {
$ms = ($_ & 0b11110000) >> 4;
$ls = ($_ & 0b00001111);
push(@bcd, $ms);
push(@bcd, $ls);
}
foreach (@bcd) {
if ($_ < 0x0a) {
$text .= $_;
}
elsif ($_ == 0x0a) {
$text .= " ";
}
elsif ($_ == 0x0b) {
$text .= "-";
}
elsif ($_ == 0x0c) {
$text .= ".";
}
}
return ($text);
}
# Save SDR "metadata" into cache file
sub storsdrcache {
my $file = shift;
my $sessdata = shift;
unless ($sessdata) { die "need to fix this one too" }
my $key;
my $fh;
system("mkdir -p $cache_dir");
if (!open($fh, ">$file")) {
return (1);
}
flock($fh, LOCK_EX) || return (1);
my $hdr;
$hdr->{xcat_sdrcacheversion} = $cache_version;
nstore_fd($hdr, $fh);
foreach $key (keys %{ $sessdata->{sdr_hash} }) {
my $r = $sessdata->{sdr_hash}->{$key};
nstore_fd($r, $fh);
}
close($fh);
return (0);
}
# Load SDR "metadata" from cache file
sub loadsdrcache {
my $sessdata = shift;
my $file = shift;
my $r;
my $c = 0;
my $fh;
if (!open($fh, "<$file")) {
return (1);
}
eval {
$r = retrieve_fd($fh);
};
if($@){
xCAT::MsgUtils->message("S", "loadsdrcache: Fatal error while retrieving data from $file, $@");
return 1;
}
unless ($r) { close($fh); return 1; }
unless ($r->{xcat_sdrcacheversion} and $r->{xcat_sdrcacheversion} == $cache_version) { close($fh); return 1; } #version mismatch
flock($fh, LOCK_SH) || return (1);
while () {
eval {
$r = retrieve_fd($fh);
} || last;
$sessdata->{sdr_hash}->{ $r->sensor_owner_id . "." . $r->sensor_owner_lun . "." . $r->sensor_number } = $r;
}
close($fh);
return (0);
}
sub randomizelist { #in place shuffle of list
my $list = shift;
my $index = @$list;
while ($index--) {
my $swap = int(rand($index + 1));
@$list[ $index, $swap ] = @$list[ $swap, $index ];
}
}
sub preprocess_request {
my $request = shift;
if (defined $request->{_xcatpreprocessed}->[0] and $request->{_xcatpreprocessed}->[0] == 1) {
# exit if preprocessed
return [$request];
}
my $callback = shift;
my @requests;
my $realnoderange = $request->{node}; #Should be arrayref
my $command = $request->{command}->[0];
my $extrargs = $request->{arg};
my @exargs = ($request->{arg});
my $delay = 0;
my $delayincrement = 0;
my $chunksize = 0;
if (ref($extrargs)) {
@exargs = @$extrargs;
}
my $usage_string = xCAT::Usage->parseCommand($command, @exargs);
if ($usage_string) {
$callback->({ data => $usage_string });
$request = {};
return;
}
my $all_noderange = $realnoderange;
if ($command eq "rpower") {
my $subcmd = $exargs[0];
if ($subcmd eq '') {
#$callback->({data=>["Please enter an action (eg: boot,off,on, etc)", $usage_string]});
#Above statement will miss error code, so replaced by the below statement
my $error_data = "";
foreach (@$all_noderange) {
$error_data .= "\n" if ($error_data);
$error_data .= "$_: Please enter an action (eg: boot,off,on, etc) when using mgt=ipmi.";
}
$callback->({ errorcode => [1], data => [ $error_data ] });
$request = {};
return 0;
}
#pdu commands will be handled in the pdu plugin
if(($subcmd eq 'pduoff') || ($subcmd eq 'pduon') || ($subcmd eq 'pdustat') || ($subcmd eq 'pdureset')){
return 0;
}
if (($subcmd ne 'reseat') && ($subcmd ne 'stat') && ($subcmd ne 'state') && ($subcmd ne 'status') && ($subcmd ne 'on') && ($subcmd ne 'off') && ($subcmd ne 'softoff') && ($subcmd ne 'nmi') && ($subcmd ne 'cycle') && ($subcmd ne 'reset') && ($subcmd ne 'boot') && ($subcmd ne 'wake') && ($subcmd ne 'suspend')) {
#$callback->({data=>["Unsupported command: $command $subcmd", $usage_string]});
#Above statement will miss error code, so replaced by the below statement
my $error_data = "";
foreach (@$all_noderange) {
$error_data .= "\n" if ($error_data);
$error_data .= "$_: Error: Unsupported command: $command $subcmd when using mgt=ipmi.";
}
$callback->({ errorcode => [1], data => [ $error_data ] });
$request = {};
return;
}
if (($subcmd eq 'on' or $subcmd eq 'reset' or $subcmd eq 'boot') and $::XCATSITEVALS{syspowerinterval}) {
unless ($::XCATSITEVALS{syspowermaxnodes}) {
my $error_data = "";
foreach (@$all_noderange) {
$error_data .= "\n" if ($error_data);
$error_data .= "$_: 'syspowermaxnodes` is required if 'syspowerinterval' is configured in the site table.";
}
$callback->({ errorcode => [1], error => [$error_data] });
$request = {};
return 0;
}
$chunksize = $::XCATSITEVALS{syspowermaxnodes};
$delayincrement = $::XCATSITEVALS{syspowerinterval};
}
} elsif ($command eq "renergy") {
# filter out the nodes which should be handled by ipmi.pm
my (@bmcnodes, @nohandle);
xCAT::Utils->filter_nodes($request, undef, undef, \@bmcnodes, \@nohandle);
$realnoderange = \@bmcnodes;
} elsif ($command eq "rspconfig") {
# filter out the nodes which should be handled by ipmi.pm
my (@bmcnodes, @nohandle);
xCAT::Utils->filter_nodes($request, undef, undef, \@bmcnodes, \@nohandle);
$realnoderange = \@bmcnodes;
if ($realnoderange) {
my $optset;
my $option;
my $error_data = "";
foreach (@exargs) {
if ($_ =~ /^(\w+)=(.*)/) {
if ($optset eq 0) {
foreach (@$all_noderange) {
$error_data .= "\n" if ($error_data);
$error_data .= "$_: Usage Error: Cannot display and change attributes on the same command when using mgt=ipmi..";
}
$callback->({ errorcode => [1], data => [ $error_data] });
$request = {};
return;
}
$optset = 1;
$option = $1;
} else {
if ($optset eq 1) {
foreach (@$all_noderange) {
$error_data .= "\n" if ($error_data);
$error_data .= "$_: Usage Error: Cannot display and change attributes on the same command when using mgt=ipmi.";
}
$callback->({ errorcode => [1], data => [ $error_data] });
$request = {};
return;
}
$option = $_;
$optset = 0;
}
unless ($option =~ /^USERID$|^ip$|^netmask$|^gateway$|^vlan$|^userid$|^username$|^password$|^snmpdest|^thermprofile$|^alert$|^garp$|^community$|^backupgateway$/) {
foreach (@$all_noderange) {
$error_data .= "\n" if ($error_data);
$error_data .= "$_: Error: Unsupported command: $command $option when using mgt=ipmi.";
}
$callback->({ errorcode => [1], data => [ $error_data ] });
$request = {};
return;
}
}
}
} elsif ($command eq "rinv") {
if ($exargs[0] eq "-t" and $#exargs == 0) {
unshift @{ $request->{arg} }, 'all';
} elsif ((grep /-t/, @exargs) and !(grep /(all|vpd)/, @exargs)) {
my $error_data = "";
foreach (@$all_noderange) {
$error_data .= "\n" if ($error_data);
$error_data .= "$_: option '-t' can only work with 'all' or 'vpd' when using mgt=ipmi.";
}
$callback->({ errorcode => [1], data => [ $error_data ] });
$request = {};
return 0;
}
}
if (!$realnoderange) {
$usage_string = xCAT::Usage->getUsage($command);
$callback->({ data => $usage_string });
$request = {};
return;
}
#print "noderange=@$noderange\n";
# find service nodes for requested nodes
# build an individual request for each service node
my @noderanges;
srand();
if ($chunksize) {
#first, we try to spread out the chunks so they don't happen to correlate to constrained service nodes or circuits
#for now, will get the sn map for all of them and interleave if dispatching
#if not dispatching, will randomize the noderange instead to lower likelihood of turning everything on a circuit at once
if (defined $::XCATSITEVALS{ipmidispatch} and $::XCATSITEVALS{ipmidispatch} =~ /0|n/i) { #no SN indicated, instead do randomize
randomizelist($realnoderange);
} else { # sn is indicated
my $bigsnmap = xCAT::ServiceNodeUtils->get_ServiceNode($realnoderange, "xcat", "MN");
foreach my $servicenode (keys %$bigsnmap) { #let's also shuffle within each service node responsibliity
randomizelist($bigsnmap->{$servicenode})
}
#now merge the per-servicenode list into a big list again
$realnoderange = [];
while (keys %$bigsnmap) {
foreach my $servicenode (keys %$bigsnmap) {
if (@{ $bigsnmap->{$servicenode} }) {
push(@$realnoderange, pop(@{ $bigsnmap->{$servicenode} }));
} else {
delete $bigsnmap->{$servicenode};
}
}
}
}
while (scalar(@$realnoderange)) {
my @tmpnoderange;
while (scalar(@$realnoderange) and $chunksize) {
push @tmpnoderange, (shift @$realnoderange);
$chunksize--;
}
push @noderanges, \@tmpnoderange;
$chunksize = $::XCATSITEVALS{syspowermaxnodes};
}
} else {
@noderanges = ($realnoderange);
}
foreach my $noderange (@noderanges) {
my $sn;
if (defined $::XCATSITEVALS{ipmidispatch} and $::XCATSITEVALS{ipmidispatch} =~ /0|n/i) {
$sn = { '!xcatlocal!' => $noderange };
} else {
$sn = xCAT::ServiceNodeUtils->get_ServiceNode($noderange, "xcat", "MN");
}
# build each request for each service node
foreach my $snkey (keys %$sn) {
#print "snkey=$snkey\n";
my $reqcopy = {%$request};
$reqcopy->{node} = $sn->{$snkey};
unless ($snkey eq '!xcatlocal!') {
$reqcopy->{'_xcatdest'} = $snkey;
}
$reqcopy->{_xcatpreprocessed}->[0] = 1;
if ($delay) {
$reqcopy->{'_xcatdelay'} = $delay;
}
push @requests, $reqcopy;
}
$delay += $delayincrement;
}
return \@requests;
}
sub getipmicons {
my $argr = shift;
#$argr is [$node,$nodeip,$nodeuser,$nodepass];
my $cb = shift;
my $ipmicons = { node => [ { name => [ $argr->[0] ] } ] };
$ipmicons->{node}->[0]->{bmcaddr}->[0] = $argr->[1];
$ipmicons->{node}->[0]->{bmcuser}->[0] = $argr->[2];
$ipmicons->{node}->[0]->{bmcpass}->[0] = $argr->[3];
my $ipmisess = xCAT::IPMI->new(bmc => $argr->[1], userid => $argr->[2], password => $argr->[3]);
if ($ipmisess->{error}) {
xCAT::SvrUtils::sendmsg([ 1, $ipmisess->{error} ], $cb, $argr->[0], %allerrornodes);
return;
}
$ipmisess->{ipmicons} = $ipmicons;
$ipmisess->{cb} = $cb;
$ipmisess->subcmd(netfn => 0x6, command => 0x38, data => [ 0x0e, 0x04 ], callback => \&got_channel_auth_cap_foripmicons, callback_args => $ipmisess);
}
sub got_channel_auth_cap_foripmicons {
my $rsp = shift;
my $ipmis = shift;
if ($rsp->{error}) {
return;
}
if ($rsp->{code} != 0) { return; }
my $cb = $ipmis->{cb};
$cb->($ipmis->{ipmicons}); #ipmicons);
}
# scan subroutine is used to scan the hardware devices which installed on the host node
# In current implementation, only the mic cards will be scanned.
# scan
# scan -u/-w/-z
my @rscan_header = (
[ "type", "%-8s" ],
[ "name", "" ],
[ "id", "%-8s" ],
[ "host", "" ]);
sub scan {
my $request = shift;
my $subreq = shift;
my $nodes = shift;
my $args = shift;
my $usage_string = "rscan [-u][-w][-z]";
my ($update, $write, $stanza);
foreach (@$args) {
if (/-w/) {
$write = 1;
} elsif (/-u/) {
$update = 1;
} elsif (/-z/) {
$stanza = 1;
} else {
$callback->({ error => [$usage_string] });
return;
}
}
my $output = xCAT::Utils->runxcmd({ command => ['xdsh'],
node => $nodes,
arg => [ 'micinfo', '-listDevices' ] }, $subreq, 0, 1);
# parse the output from 'xdsh micinfo -listDevices'
my %host2mic;
my $maxhostname = 0;
foreach (@$output) {
foreach (split /\n/, $_) {
if (/([^:]*):\s+(\d+)\s*\|/) {
my $host = $1;
my $deviceid = $2;
push @{ $host2mic{$host} }, $deviceid;
if (length($host) > $maxhostname) {
$maxhostname = length($host);
}
}
}
}
# generate the display message
my @displaymsg;
my $format = sprintf "%%-%ds", ($maxhostname + 10);
$rscan_header[1][1] = $format;
$format = sprintf "%%-%ds", ($maxhostname + 2);
$rscan_header[3][1] = $format;
if ($stanza) {
# generate the stanza for each mic
foreach (keys %host2mic) {
my $host = $_;
foreach (@{ $host2mic{$host} }) {
my $micid = $_;
push @displaymsg, "$host-mic$micid:";
push @displaymsg, "\tobjtype=node";
push @displaymsg, "\tmichost=$host";
push @displaymsg, "\tmicid=$micid";
push @displaymsg, "\thwtype=mic";
push @displaymsg, "\tmgt=mic";
}
}
} else {
# generate the headers for scan message
my $header;
foreach (@rscan_header) {
$header .= sprintf @$_[1], @$_[0];
}
push @displaymsg, $header;
# generate every entries
foreach (keys %host2mic) {
my $host = $_;
foreach (@{ $host2mic{$host} }) {
my $micid = $_;
my @data = ("mic", "$host-mic$micid", "$micid", "$host");
my $i = 0;
my $entry;
foreach (@rscan_header) {
$entry .= sprintf @$_[1], $data[ $i++ ];
}
push @displaymsg, $entry;
}
}
}
$callback->({ data => \@displaymsg });
unless ($update || $write) {
return;
}
# for -u / -w, write or update the mic node in the xCAT DB
my $nltab = xCAT::Table->new('nodelist');
my $mictab = xCAT::Table->new('mic');
my $nhmtab = xCAT::Table->new('nodehm');
if (!$nltab || !$mictab || !$nhmtab) {
$callback->({ error => ["Open database table failed."], errorcode => 1 });
return;
}
# update the node to the database
foreach (keys %host2mic) {
my $host = $_;
foreach (@{ $host2mic{$host} }) {
my $micid = $_;
my $micname = "$host-mic$micid";
# update the nodelist table
$nltab->setAttribs({ node => $micname }, { groups => "all,mic" });
# update the mic table
$mictab->setAttribs({ node => $micname }, { host => $host, id => $micid, nodetype => 'mic' });
# update the nodehm table
$nhmtab->setAttribs({ node => $micname }, { mgt => 'mic', cons => 'mic' });
}
}
}
#----------------------------------------------------------------#
# HPM file format:
# Upgrade image header:
# 0:8 --> Upgrade Image signature
# 8:1 --> Format Version
# 9:1 --> Device ID
# 10:3 --> Manufacture ID
# 13:2 --> Product ID
# 15:4 --> Img created Time
# 19:1 --> Img capabilites
# 20:1 --> Components.
# 21:1 --> Self-test timeout.
# 22:1 --> Rollback timeout
# 23:1 --> Inaccessibility timeout
# 24:2 --> Earliest Compatible Revision. 0-6 Major, 8-15 Minor
# 26:6 --> Firmware revision
# 32:2 --> OEM data descriptor length.
# 34:n --> OEM data descriptor
# 0:1 --> Descriptor Type ID.
# 1:1 --> End of List or Version
# 2:2 --> Length (8+m)
# 4:3 --> Manufacutre ID
# 7:1 --> Descriptor checksum
# 8:m --> Data.
# 34+n:1 --> Header checksum
# Upgrade action 1
# 0:1 --> Upgrade action type. 0: Backup component, 0x01: Prepare components, 0x02: Upload firmware image.
# 1:1 --> Components. The selected component
# 2:1 --> header checksum
# The following bytes 3:(34+m) are only present if action type is 0x02.
# 3:6 --> Firmware version.
# 9:21 --> Firmware description string.
# 30:4 --> Firmware length.
# 34:m --> Firmware Image data.
# Upgrade action N
# Image checksum 0:16
#
#----------------------------------------------------------------#
sub hpm_data_parse {
sub _read_hpm_file {
my ($hpm_filefd, $size, $pos_ptr, $hpm_context_string_ptr) = @_;
my $tmp = undef;
my $rt = 0;
while ($rt = read($hpm_filefd, $tmp, $size)) {
$size -= $rt;
$$pos_ptr += $rt;
$$hpm_context_string_ptr .= $tmp;
if ($size == 0) {
last;
}
}
if ($size != 0) {
$callback->({ error => "Parse hpm file error.",
errorcode => 1 });
return -1;
}
return 0;
}
my $hpm_file_name = shift;
my $hpm_context_string = "";
my $hpm_filefd;
#relative path
if ($hpm_file_name !~ /^\//) {
$hpm_file_name = xCAT::Utils->full_path($hpm_file_name, $::cwd);
}
unless (-f $hpm_file_name) {
$callback->({ error => "File $hpm_file_name can not be found.",
errorcode => 1 });
return -1;
}
unless (open($hpm_filefd, "<", $hpm_file_name)) {
$callback->({ error => "Open file $hpm_file_name failed.",
errorcode => 1 });
return -1;
}
binmode($hpm_filefd);
my $size = 34;
my $pos = 0;
my $ret = 0;
seek($hpm_filefd, 0, 2);
my $filesize = tell($hpm_filefd);
seek($hpm_filefd, 0, 0);
$ret = _read_hpm_file($hpm_filefd, $size, \$pos, \$hpm_context_string);
return $ret if $ret < 0;
# Parse hpm image header
my @hpm_context = unpack("C34", $hpm_context_string);
$hpm_data_hash{deviceID} = $hpm_context[9];
$hpm_data_hash{manufactureID} = $hpm_context[10] + $hpm_context[11] * 0x100 +
$hpm_context[12] * 0x10000;
$hpm_data_hash{productID} = $hpm_context[13] + $hpm_context[14] * 0x100;
$hpm_data_hash{componentes} = $hpm_context[20];
$hpm_data_hash{compatible_rev_min} = $hpm_context[24];
$hpm_data_hash{compatible_rev_maj} = $hpm_context[25];
$hpm_data_hash{oem_des_len} = $hpm_context[32] + $hpm_context[33] * 0x100;
seek($hpm_filefd, 34 + $hpm_data_hash{oem_des_len} + 1, 0);
# parse hpm action structure
$pos = 34 + $hpm_data_hash{oem_des_len} + 1;
while ($pos < $filesize - 16) {
$size = 3;
$hpm_context_string = "";
$ret = _read_hpm_file($hpm_filefd, $size, \$pos, \$hpm_context_string);
return $ret if $ret < 0;
@hpm_context = unpack("C3", $hpm_context_string);
my $action_type = $hpm_context[0];
my $component_id = $hpm_context[1];
$hpm_data_hash{$component_id}{component_id} = $component_id;
$hpm_data_hash{$component_id}{action_type} = $action_type;
if ($action_type eq '2') {
$hpm_context_string = "";
$size = 31;
$ret = _read_hpm_file($hpm_filefd, $size, \$pos, \$hpm_context_string);
return $ret if $ret < 0;
@hpm_context = unpack("C31", $hpm_context_string);
@{ $hpm_data_hash{$component_id}{action_version} } = splice(@hpm_context, 0, 6);
@{ $hpm_data_hash{$component_id}{action_des_str} } = splice(@hpm_context, 0, 21);
$hpm_data_hash{$component_id}{action_length} = $hpm_context[0] + $hpm_context[1] * 0x100 +
$hpm_context[2] * 0x10000 +
$hpm_context[3] * 0x1000000;
seek($hpm_filefd, $hpm_data_hash{$component_id}{action_length}, 1);
$pos += $hpm_data_hash{$component_id}{action_length};
}
}
close($hpm_filefd);
# We suppose component 2 and component 4 must exists in the HPM file
if (!exists($hpm_data_hash{2}) || !exists($hpm_data_hash{4})) {
$callback->({ error => "Parse hpm file error, component 2 and component 4 do not exist",
errorcode => 1 });
return -1;
}
if (!exists($hpm_data_hash{deviceID}) || !exists($hpm_data_hash{manufactureID})
|| !exists($hpm_data_hash{productID})) {
$callback->({ error => "Parse hpm file error",
errorcode => 1 });
return -1;
}
# The last 16 bytes are image checksum
@hpm_context = ();
return 0;
}
sub hpm_action_version {
if (!exists($hpm_data_hash{2}) || !exists($hpm_data_hash{4})) {
return -1;
}
my $version = $hpm_data_hash{1}{action_version};
my $ver = sprintf("%3d.%02x %02X%02X%02X%02X", $version->[0], $version->[1],
$version->[2], $version->[3], $version->[4], $version->[5]);
$callback->({ data => "HPM firmware version for BOOT component:$ver" });
$version = $hpm_data_hash{2}{action_version};
$ver = sprintf("%3d.%02x %02X%02X%02X%02X", $version->[0], $version->[1],
$version->[2], $version->[3], $version->[4], $version->[5]);
$callback->({ data => "HPM firmware version for APP component:$ver" });
$version = $hpm_data_hash{4}{action_version};
$ver = sprintf("%3d.%02x %02X%02X%02X%02X", $version->[0], $version->[1],
$version->[2], $version->[3], $version->[4], $version->[5]);
$callback->({ data => "HPM firmware version for BIOS component:$ver" });
}
sub process_request {
my $request = shift;
$callback = shift;
my $subreq = shift;
my $noderange = $request->{node}; #Should be arrayref
my $command = $request->{command}->[0];
my $extrargs = $request->{arg};
my @exargs = ($request->{arg});
$::cwd = $request->{cwd}->[0];
my $env_xcat_pupdate_bmc = 0;
my $env_xcat_pupdate_pnor = 0;
my $env = $request->{environment};
if (ref($env) eq 'ARRAY') {
if (ref($env->[0]->{XCAT_PUPDATE_BMC}) eq 'ARRAY') {
$env_xcat_pupdate_bmc = 1;
}
if (ref($env->[0]->{XCAT_PUPDATE_PNOR}) eq 'ARRAY') {
$env_xcat_pupdate_pnor = 1;
}
}
# update PNOR only, when XCAT_PUPDATE_PNOR specified and XCAT_PUPDATE_BMC not specified
if ($env_xcat_pupdate_pnor and !$env_xcat_pupdate_bmc) {
$PUPDATE_UPDATE_BMC = 0;
}
# update BMC only, when XCAT_PUPDATE_BMC specified and XCAT_PUPDATE_PNOR not specified
if ($env_xcat_pupdate_bmc and !$env_xcat_pupdate_pnor) {
$PUPDATE_UPDATE_PNOR = 0;
}
# for both XCAT_PUPDATE_BMC and XCAT_PUPDATE_PNOR are specified or not specified, shall update both
if (ref($extrargs)) {
@exargs = @$extrargs;
}
my $ipmiuser = 'USERID';
my $ipmipass = 'PASSW0RD';
my $ipmitrys = 3;
my $ipmitimeout = 2;
my $ipmitab = xCAT::Table->new('ipmi');
my $tmp;
if ($::XCATSITEVALS{ipmitimeout}) { $ipmitimeout = $::XCATSITEVALS{ipmitimeout} }
if ($::XCATSITEVALS{ipmiretries}) { $ipmitrys = $::XCATSITEVALS{ipmitretries} }
if ($::XCATSITEVALS{ipmisdrcache}) { $enable_cache = $::XCATSITEVALS{ipmisdrcache} }
if ($::XCATSITEVALS{xcatdebugmode}) { $xcatdebugmode = $::XCATSITEVALS{xcatdebugmode} }
#my @threads;
my @donargs = ();
if ($request->{command}->[0] =~ /fru/) {
my $vpdtab = xCAT::Table->new('vpd');
$vpdhash = $vpdtab->getNodesAttribs($noderange, [qw(serial mtm asset)]);
}
my $ipmihash = $ipmitab->getNodesAttribs($noderange, [ 'bmc', 'username', 'password' ]);
my $authdata = xCAT::PasswordUtils::getIPMIAuth(noderange => $noderange, ipmihash => $ipmihash);
foreach (@$noderange) {
my $node = $_;
my $nodeuser = $authdata->{$node}->{username};
my $nodepass = $authdata->{$node}->{password};
my $nodeip = $node;
my $ent;
if (defined($ipmitab)) {
$ent = $ipmihash->{$node}->[0];
if (ref($ent) and defined $ent->{bmc}) { $nodeip = $ent->{bmc}; }
}
if ($nodeip =~ /,/ and grep ({ $_ eq $request->{command}->[0] } qw/rinv reventlog rvitals rspconfig/)) { #multi-node x3950 X5, for example
my $bmcnum = 1;
foreach (split /,/, $nodeip) {
push @donargs, [ $node, $_, $nodeuser, $nodepass, $bmcnum ];
$bmcnum += 1;
}
} else {
$nodeip =~ s/,.*//; #stri
push @donargs, [ $node, $nodeip, $nodeuser, $nodepass, 1 ];
}
}
if ($request->{command}->[0] eq "getipmicons") {
foreach (@donargs) {
getipmicons($_, $callback);
}
while (xCAT::IPMI->waitforrsp()) { yield }
return;
}
if ($request->{command}->[0] eq "rspconfig") {
my $updatepasswd = 0;
my $index = 0;
foreach (@{ $request->{arg} }) {
if ($_ =~ /^USERID=\*$/) {
$updatepasswd = 1;
last;
}
$index++;
}
if ($updatepasswd) {
splice(@{ $request->{arg} }, $index, 1);
@exargs = @{ $request->{arg} };
foreach (@donargs) {
my $cliuser = $authdata->{ $_->[0] }->{cliusername};
my $clipass = $authdata->{ $_->[0] }->{clipassword};
xCAT::IMMUtils::setupIMM($_->[0], curraddr => $_->[1], skipbmcidcheck => 1, skipnetconfig => 1, cliusername => $cliuser, clipassword => $clipass, callback => $callback);
}
if ($#exargs == -1) {
return;
}
}
}
# handle the rscan to scan the mic on the target host
if ($request->{command}->[0] eq "rscan") {
scan($request, $subreq, $noderange, $extrargs);
return;
}
if ($request->{command}->[0] eq "rflash") {
my %args_hash;
if (!defined($extrargs)) {
$callback->({ error => "No option or hpm file is provided.",
errorcode => 1 });
return;
}
foreach my $opt (@$extrargs) {
if ($opt =~ /^(-c|--check)$/i) {
if (exists($args_hash{check})) {
$callback->({ error => "Error command: Multiple opption $opt is given.",
errorcode => 1 });
return;
}
$args_hash{check} = 1;
} elsif ($opt =~ /.*\.hpm$/i) {
if (exists($args_hash{hpm})) {
$callback->({ error => "Error command: Multiple hpm file is given.",
errorcode => 1 });
return;
}
$args_hash{hpm} = $opt;
}
}
if (exists($args_hash{hpm})) {
if (hpm_data_parse($args_hash{hpm}) < 0) {
return;
}
}
if (exists($args_hash{check})) {
hpm_action_version();
}
}
#get new node status
my %oldnodestatus = (); #saves the old node status
my $check = 0;
my $global_check = 1;
if (defined $::XCATSITEVALS{nodestatus} and $::XCATSITEVALS{nodestatus} =~ /0|n|N/) { $global_check = 0; }
if ($command eq 'rpower') {
%newnodestatus = ();
}
# NOTE (chenglch) rflash for one node need about 5-10 minutes. There is no need to rflash node
# one by one, fork a process for each node.
if ($command eq 'rflash') {
start_rflash_processes(\@donargs, $ipmitimeout, $ipmitrys, $command, -args => \@exargs);
}
else {
foreach (@donargs) {
donode($_->[0], $_->[1], $_->[2], $_->[3], $_->[4], $ipmitimeout, $ipmitrys, $command, -args => \@exargs);
}
while (xCAT::IPMI->waitforrsp()) { yield }
}
my $node;
foreach $node (keys %sessiondata) {
if ($sessiondata{$node}->{ipmisession}) {
$sessiondata{$node}->{ipmisession}->logout();
}
}
while (xCAT::IPMI->waitforrsp()) { yield }
if ($command eq 'rpower' and %newnodestatus) {
xCAT_monitoring::monitorctrl::setNodeStatusAttributes(\%newnodestatus, 1);
}
}
#sub updateNodeStatus {
# my $handlednodes=shift;
# my $allerrornodes=shift;
# foreach my $node (keys(%$handlednodes)) {
# if ($handlednodes->{$node} == -1) { push(@$allerrornodes, $node); }
# }
#}
#sub forward_data { #unserialize data from pipe, chunk at a time, use magic to determine end of data structure
# my $callback = shift;
# my $fds = shift;
# my $errornodes=shift;
# my @ready_fds = $fds->can_read(1);
# my $rfh;
# my $rc = @ready_fds;
# foreach $rfh (@ready_fds) {
# my $data;
# if ($data = <$rfh>) {
# while ($data !~ /ENDOFFREEZE6sK4ci/) {
# $data .= <$rfh>;
# }
# eval { print $rfh "ACK\n"; }; # Ignore ack loss to child that has given up and exited
# my $responses=thaw($data);
# foreach (@$responses) {
# #save the nodes that has errors and the ones that has no-op for use by the node status monitoring
# my $no_op=0;
# if (exists($_->{node}->[0]->{errorcode})) { $no_op=1; }
# else {
# my $text=$_->{node}->[0]->{data}->[0]->{contents}->[0];
# #print "data:$text\n";
# if (($text) && ($text =~ /$status_noop/)) {
# $no_op=1;
# #remove the symbols that meant for use by node status
# $_->{node}->[0]->{data}->[0]->{contents}->[0] =~ s/ $status_noop//;
# }
# }
# #print "data:". $_->{node}->[0]->{data}->[0]->{contents}->[0] . "\n";
# if ($no_op) {
# if ($errornodes) { $errornodes->{$_->{node}->[0]->{name}->[0]}=-1; }
# } else {
# if ($errornodes) { $errornodes->{$_->{node}->[0]->{name}->[0]}=1; }
# }
# $callback->($_);
# }
# } else {
# $fds->remove($rfh);
# close($rfh);
# }
# }
# yield; #Avoid useless loop iterations by giving children a chance to fill pipes
# return $rc;
#}
sub donode {
my $node = shift;
my $bmcip = shift;
my $user = shift;
my $pass = shift;
my $bmcnum = shift;
my $timeout = shift;
my $retries = shift;
my $command = shift;
my %namedargs = @_;
my $extra = $namedargs{-args};
my @exargs = @$extra;
$sessiondata{$node} = {
node => $node, #this seems redundant, but some code will not be privy to what the key was
bmcnum => $bmcnum,
#ipmisession => xCAT::IPMI->new(bmc => $bmcip, userid => $user, password => $pass),
command => $command,
extraargs => \@exargs,
subcommand => $exargs[0],
xcatdebugmode => $xcatdebugmode,
outfunc => $callback,
};
if ($command eq "rpower" and $exargs[0] eq "reseat") {
on_bmc_connect(0, $sessiondata{$node});
return 0;
}
$sessiondata{$node}->{ipmisession} = xCAT::IPMI->new(bmc => $bmcip, userid => $user, password => $pass, node => $node);
if ($sessiondata{$node}->{ipmisession}->{error}) {
xCAT::SvrUtils::sendmsg([ 1, $sessiondata{$node}->{ipmisession}->{error} ], $callback, $node, %allerrornodes);
} else {
my ($rc, @output) = ipmicmd($sessiondata{$node});
sendoutput($rc, @output);
yield;
return $rc;
}
#my $msgtoparent=freeze(\@outhashes);
# print $outfd $msgtoparent;
}
sub sendoutput {
my $rc = shift;
foreach (@_) {
my %output;
(my $desc, my $text) = split(/:/, $_, 2);
unless ($text) {
$text = $desc;
} else {
$desc =~ s/^\s+//;
$desc =~ s/\s+$//;
if ($desc) {
$output{node}->[0]->{data}->[0]->{desc}->[0] = $desc;
}
}
$text =~ s/^\s+//;
$text =~ s/\s+$//;
$output{node}->[0]->{name}->[0] = "BADCODE";
if ($rc) {
$output{node}->[0]->{errorcode} = [$rc];
$output{node}->[0]->{error}->[0] = $text;
} else {
$output{node}->[0]->{data}->[0]->{contents}->[0] = $text;
}
$callback->(\%output);
#push @outhashes,\%output; #Save everything for the end, don't know how to be slicker with Storable and a pipe
# print $outfd freeze([\%output]);
# print $outfd "\nENDOFFREEZE6sK4ci\n";
# yield;
# waitforack($outfd);
}
}
##########################################################################
# generate hardware tree, called from lstree.
##########################################################################
sub genhwtree
{
my $nodelist = shift; # array ref
my $callback = shift;
my %hwtree;
my $bmchash;
# read ipmi.bmc
my $ipmitab = xCAT::Table->new('ipmi');
if ($ipmitab)
{
$bmchash = $ipmitab->getNodesAttribs($nodelist, ['bmc']);
}
else
{
my $rsp = {};
$rsp->{data}->[0] = "Can not open ipmi table.\n";
xCAT::MsgUtils->message("E", $rsp, $callback, 1);
}
foreach my $node (@$nodelist)
{
if ($bmchash->{$node}->[0]->{'bmc'})
{
push @{ $hwtree{ $bmchash->{$node}->[0]->{'bmc'} } }, $node;
}
}
return \%hwtree;
}
1;
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