/usr/lib/x86_64-linux-gnu/ibdiagui1.5.7/ibdebug.tcl is in libibdm1v5 1.5.7-3ubuntu3.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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5822 5823 5824 5825 5826 5827 5828 5829 5830 5831 5832 5833 5834 5835 5836 | #--
# Copyright (c) 2004-2010 Mellanox Technologies LTD. All rights reserved.
#
# This software is available to you under a choice of one of two
# licenses. You may choose to be licensed under the terms of the GNU
# General Public License (GPL) Version 2, available from the file
# COPYING in the main directory of this source tree, or the
# OpenIB.org BSD license below:
#
# Redistribution and use in source and binary forms, with or
# without modification, are permitted provided that the following
# conditions are met:
#
# - Redistributions of source code must retain the above
# copyright notice, this list of conditions and the following
# disclaimer.
#
# - Redistributions in binary form must reproduce the above
# copyright notice, this list of conditions and the following
# disclaimer in the documentation and/or other materials
# provided with the distribution.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
# NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
# BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
# ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
# CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
# SOFTWARE.
#--
##############################
### Initialize Databases
##############################
# InitializeIBDIAG
# InitializeINFO_LST
# InitializeOutputFile
# ParseOptionsList
##############################
### Initial and final actions
##############################
# InitializeIBIS
# SetPortNDevice
# SetTopologyNSysName
# DeleteOldFiles
# StartIBDIAG
# FinishIBDIAG
##############################
### MADs handling
##############################
# SmMadGetByDr
# SmMadGetByLid
# GetPmList
##############################
### Farbic Discovery
##############################
# DiscoverFabric
# DiscoverPath
# DiscoverHiddenFabric
# SetNeighbor
# Bool_DuplicateGuids
##############################
### Farbic Qualities Reports
##############################
# DumpBadLidsGuids
# DumpBadLinksLogic
# RereadLongPaths
# PMCounterQuery
# RunPkgProcs
# GeneralInfoQuery
##### UP TO HERE
##############################
### GENERAL PURPOSE PROCs
##############################
# BoolWordInList
# RemoveElementFromList
# GetWordAfterFlag
# Bar
# AddZeroes
# RemoveZeroes
# Hex2Bin
# GetLengthMaxWord
# AddSpaces
# ProcName
# groupNumRanges
# groupingEngine
# compressNames
##############################
### Handling Duplicated Guids
##############################
# AdvncedMaskGuid
# GetCurrentMaskGuid
# BoolIsMaked
# GetRealPort
##############################
### Handling bad links
##############################
# PathIsBad
# DetectBadLinks
# ComparePMCounters
# DumpBadLinks
# RemoveDirectPath
##############################
### SM handling
##############################
# CheckSM
# DumpSMReport
##############################
### handling topology file
##############################
# MatchTopology
# DumpTopologyMatching
# ArrangeDR
# DrPath2Name
# linkNamesGet
# GetArgvPortNames
# Name2Lid
# DumpFabQualities
##############################
### format fabric info
##############################
# GetDeviceFullType
# GetEntryPort
# GetParamValue
# FormatInfo
##############################
### ouput fabric info
##############################
# linkAtPathEnd
# lstInfo
# writeDBFile
# writeLstFile
# writeNeighborFile
# writeMasksFile
# writeSMFile
# writePMFile
# writeFdbsFile
# writeMcfdbsFile
# writeTopologyFileAndIBNLs
######################################################################
### Initialize Databases
######################################################################
# NAME InitializeIBDIAG
# FUNCTION set the inital enviorment values
# OUTPUT NULL
proc InitializeIBDIAG {} {
global G argv argv0 InfoArgv INFO_LST MASK
### InitializeIBDIAG - Set general vars
set G(var:version.num) 1.5.7
set G(var:tool.name) [file rootname [file tail $argv0]]
set G(var:start.clock.seconds) [clock seconds]
set G(var:desc.local.dev) "The Local Device"
### InitializeIBDIAG - Configuration of constants
## Configuration of constants - Step1.0: Config lists of vars
set G(var:list.files.extention) "lst fdbs mcfdbs log neighbor masks sm pm mcgs pkey db dev_info_csv pm_csv links_csv inv_csv err_csv psl slvl"
set G(var:list.pm.counter) "symbol_error_counter link_error_recovery_counter\
link_down_counter port_rcv_errors port_xmit_discard vl15_dropped\
port_rcv_constraint_errors local_link_integrity_errors\
port_xmit_constraint_errors excesive_buffer_errors port_xmit_data\
port_rcv_data port_xmit_pkts port_rcv_pkts port_rcv_remote_physical_errors\
port_rcv_switch_relay_errors all"
set G(var:list.skip.steps) "dup_guids zero_guids dev_info pm logical_state load_ibdm ipoib part all"
## Configuration of constants - Step2.0: Config badpath vars
set G(var:badpath.maxnErrors) 3
set G(var:badpath.retriesStart) 100
set G(var:badpath.retriesEnd) 10000
set G(var:badpath.retriesGrowth) 10
## Configuration of constants - Step3.0: Set maximum warnings/error reports for
# topology matching, before notifing the user that his cluster is messed up
set G(var:warn.long.matching.results) 20
## Configuration of constants - Step4.0: Config argv/ParseArgv related vars
# The max/min values for integer-valued parameters
set G(var:maximal.integer) 1000000
set G(var:minimal.integer) -1000000
### InitializeIBDIAG - Reset array entries
## Reset array entries - Step1.0: Reset "data" entries, entries which change during
# data gathering
set G(data:list.direct.path) { "" }
set G(data:list.node.guids) [list ]
set G(data:list.port.guids) [list ]
set G(data:list.links.not.active.logical.state) ""
set G(data:list.bad.paths) ""
set G(data:counter.SW) 0
set G(data:counter.CA) 0
## Reset array entries - Step2.0: Reseting boolean vars
set G(bool:bad.links.detected) 0
set G(bool:topology.matched) 0
set G(bool:hidden.fabric.discovered) 0
set G(bool:sys.name.guessed) 0
### InitializeIBDIAG - Other
set MASK(CurrentMaskGuid) 1
source [file join [file dirname [info script]] ibdebug_if.tcl]
uplevel \#0 source [file join [file dirname [info script]] git_version.tcl]
fconfigure stdout -buffering none
SetInfoArgv
UpdateInfoArgv_Win
return 0
}
#################################
#################################
# NAME InitializeINFO_LST
# FUNCTION Initialize the INFO_LST array, which defined the specific way
# to read and interpreted the result from MADS
# INPUTS NULL
# OUTPUT NULL
# RESULT the array INFO_LST is defined.
proc InitializeINFO_LST {} {
global INFO_LST
array set INFO_LST {
Type { -source NodeInfo -flag node_type -width 8 -substitution "1=CA 2=SW 3=Rt" -string 1 }
Ports { -source NodeInfo -flag num_ports -width 8 }
SystemGUID { -source NodeInfo -flag sys_guid -width 64 }
NodeGUID { -source NodeInfo -flag node_guid -width 64 }
PortGUID { -source NodeInfo -flag port_guid -width 64 }
DevID { -source NodeInfo -flag device_id -width 16 }
Rev { -source NodeInfo -flag revision -width 32 }
PN { -width 8 }
PortNum { -source NodeInfo -flag port_num_vendor_id -width 8 -offset 0:32}
VenID { -source NodeInfo -flag port_num_vendor_id -width 24 -offset 8:32}
NodeDesc { -source NodeDesc -flag description -width words -string 1 }
LID { -source PortInfo -flag base_lid -width 16 -fromport0 1 }
PHY { -source PortInfo -flag link_width_active -width 8 -substitution "1=1x 2=4x 4=8x 8=12x" -string 1 }
LOG { -source PortInfo -flag state_info1 -width 4 -offset 4:8 -substitution "1=DWN 2=INI 3=ARM 4=ACT" -string 1 }
SPD { -source PortInfo -flag link_speed -width 4 -offset 0:8 -substitution "1=2.5 2=5 4=10" -string 1 }
OpVL { -source PortInfo -flag vl_enforce -width 4 -offset 0:8 -substitution "1=0 2=1 3=3 4=7 5=14" -string 1 }
PKey { -source PortInfo -flag p_key_violations -width 16 -offset }
}
return 0
}
#################################
#################################
# NAME InitializeOutputFile
# SYNOPSIS InitializeOutputFile $_fileName
# FUNCTION open an output file for writing
# INPUTS file name
# OUTPUT file definition
proc InitializeOutputFile {_fileName} {
global G
## Initialize file - Test1.0: Check if the extension is legit
set ext [file extension $_fileName]
if {![info exists G(outfiles,$ext)]} {
inform "-E-outfile:not.valid" -file0 $_fileName
}
## Initialize file - Test2.0: Check if the file is writable
set outfile $G(outfiles,[file extension $_fileName])
if { [file exists $outfile] && ! [file writable $outfile] } {
inform "-W-outfile:not.writable" -file0 $outfile -file1 $outfile.[pid]
append G(outfiles,$ext) ".[pid]"
}
inform "-V-outfiles:$ext"
return [open $G(outfiles,$ext) w]
}
#################################
#################################
# NAME ParseOptionsList
# SYNOPSIS ParseOptionsList list
# FUNCTION defines the database (in uplevel) bearing the values of the
# options in a list
# INPUTS list of options (strings starting with "-") and their
# values
# OUTPUT NULL
# RESULT the array $cfg() is defined in the level calling the procedure
# $cfg(option) is the value of the option
## DZ: TODO review this procedure
proc ParseOptionsList { _options } {
catch { uplevel unset cfg }
set cfgArrayList ""
while { [llength $_options] > 0 } {
set flag [lindex $_options 0]
set value [list [lindex $_options 1]]
set _options [lreplace $_options 0 1]
if {[regexp {^\-([^ ]+)$} $flag . flag ]} {
lappend cfgArrayList "$flag" "$value"
} else {
return -code 1 -errorcode $flag
}
}
uplevel array set cfg \"$cfgArrayList\"
return 0
}
#################################
######################################################################
### Initial and final actions
######################################################################
# NAME InitializeIBIS
# SYNOPSIS InitializeIBIS
# FUNCTION Initialize ibis
# INPUTS NULL
# OUTPUT the result of the command "ibis_get_local_ports_info"
# RESULT ibis.log fn and path are defined, ibis transaction_timeout is defined
proc InitializeIBIS {} {
global tcl_platform env G
set outDir $G(argv:out.dir)
set toolName $G(var:tool.name)
### InitializeIBIS - Handle ibis basic params
## Initialize ibis - Step1.0: set transaction_timeout
catch { ibis_set_transaction_timeout 100 }
## Initialize ibis - Step1.1: set verbosity
#ibis_set_verbosity 0xffff
### InitializeIBIS - Handle ibis log file
## Initialize ibis - Step2.0: Set ibis log directory
set ibisOutDir $outDir
## Initialize ibis - Test1.0: Create the directory or check if its writable
if {![file isdirectory $ibisOutDir]} {
if {[catch {file mkdir $ibisOutDir} errMsg]} {
inform "-E-ibis:could.not.create.directory" -value $ibisOutDir -errMsg $errMsg
}
} elseif {![file writable $ibisOutDir]} {
inform "-E-ibis:directory.not.writable" -value $ibisOutDir
}
## Initialize ibis - Step2.1: Create ibis log file
set ibisLogFile ${toolName}_ibis.log
if {[file exists $ibisOutDir/$ibisLogFile] && (![file writable $ibisOutDir/$ibisLogFile])} {
set ibisLogFile $ibisLogFile.[pid]
}
if {[file exists $ibisOutDir/$ibisLogFile]} {
if {![file writable $ibisOutDir/$ibisLogFile]} {
if {![file writable $ibisOutDir/$ibisLogFile]} {
catch {set ibisLogFd [open $ibisOutDir/$ibisLogFile w]} errMsg
inform "-E-ibis:file.not.writable" -value $ibisOutDir/$ibisLogFile -errMsg $errMsg
}
}
}
inform "-V-ibis.ibis.log.file" -value $ibisOutDir/$ibisLogFile
## Initialize ibis - Step2.2: Set ibis log file (created in Steps2.0-2.1)
ibis_opts configure -log_file $ibisOutDir/$ibisLogFile
### InitializeIBIS - Handle simulator
if {[info exists env(IBMGTSIM_DIR)]} {
ibis_opts configure -log_file [file join $env(IBMGTSIM_DIR) ibis.log]
}
### InitializeIBIS - Initialize ibis: ibis_init,ibis_get_local_ports_info
## Initialize ibis - Step 3.0: ibis_init
if {[catch { ibis_init } ErrMsg]} {
inform "-E-ibis:ibis_init.failed" -errMsg "$ErrMsg"
}
## Initialize ibis - Step3.1: ibis_get_local_ports_info
if {[catch { ibis_get_local_ports_info } ibisInfo ]} {
if { $ibisInfo != "" } {
inform "-E-ibis:ibis_get_local_ports_info.failed" -errMsg "$ibisInfo"
}
} else {
inform "-V-ibis:ibis_get_local_ports_info" -value "$ibisInfo"
}
## Initialize ibis - Test2.0: In case no HCA present or the driver is not working properly
if { $ibisInfo == "" } {
inform "-E-ibis:no.hca"
}
return $ibisInfo
}
#################################
#################################
# NAME SetPortNDevice
# SYNOPSIS SetPortNDevice $_ibisInfo
# FUNCTION Sets the locat exit port and the local exit device
# by parsing ibisInfo (the output of ibis_get_local_ports_info)
# INPUTS The result from : ibis_get_local_ports_info"
# OUTPUT NULL
# RESULT set G(argv:port.num), G(data:root.port.guid) and G(data:root.port.lid).
proc SetPortNDevice {_ibisInfo} {
global G PORT_HCA
### SetPortNDevice - Pre Settings
## Pre Settings - Step1.0: Local vars
set count_device 1
set ibisInfo $_ibisInfo
set toolName $G(var:tool.name)
## Pre Settings - Step1.1: Set vars by G(argv:*)
set bool_smp $G(argv:symmetric.multi.processing)
set bool_portNumSet [info exists G(argv:port.num)]
set bool_devNumSet [info exists G(argv:dev.idx)]
if {$bool_portNumSet} {
set argv_portNum $G(argv:port.num)
}
if {$bool_devNumSet} {
set argv_devIdx $G(argv:dev.idx)
}
## IBIS and OSM - Step1.2: Handle Gen2 (or higher): ignore the default port
if {[llength $ibisInfo] > 1} {
if {[lsearch -start 1 $ibisInfo [lindex $ibisInfo 0]]!= -1} {
set ibisInfo [lrange $ibisInfo 1 end]
}
}
### SetPortNDevice - Set PORT_HCA according to $ibisInfo
set prev_portNum 0
for {set portNumIndx 0} {$portNumIndx < [llength $ibisInfo]} {incr portNumIndx} {
set listEntry [lindex $ibisInfo $portNumIndx]
scan $listEntry {%s %s %s %s} portGuid portLid portState portNum
if {$prev_portNum >= $portNum} {
incr count_device
}
set prev_portNum $portNum
set PORT_HCA($count_device.$portNum:portGuid) $portGuid
set PORT_HCA($count_device.$portNum:portLid) $portLid
set PORT_HCA($count_device.$portNum:portState) $portState
}
### SetPortNDevice - Port and Dev set according to specified/unspecified device index and port number
## Port and Dev - Case1.0: port and device specified
if {$bool_portNumSet && $bool_devNumSet} {
## Port and Dev - Test1.0: Check if the device index exists
if {$argv_devIdx > $count_device} {
inform "-E-localPort:dev.not.found" -value "$argv_devIdx" -maxDevices $count_device
}
## Port and Dev - Test1.1: Check if port number exists on the specified device
if {![info exists PORT_HCA($argv_devIdx.$argv_portNum:portGuid)]} {
inform "-E-localPort:port.not.found.in.device" -flag "-p" -port $argv_portNum -device $argv_devIdx
}
## Port and Dev - Test1.2: Check the port state
set portState $PORT_HCA($argv_devIdx.$argv_portNum:portState)
if { $portState == "DOWN" && ( $toolName != "ibcfg" )} {
inform "-E-localPort:local.port.of.device.down" -port $argv_portNum -device $argv_devIdx
}
## Port and Dev - Test1.3: Special case for ibdiagpath, ignore
if { ( $portState != "ACTIVE" ) && ( $toolName == "ibdiagpath" ) } {
# -smp flag allow ibdiagpath to work with INIT state
if {!($bool_smp || ($portState == "ACTIVE")) } {
inform "-E-localPort:local.port.of.device.not.active" \
-port $argv_portNum -state $portState -device $argv_devIdx
}
}
}
## Port and Dev - Case2.0: Only device index was specified
if {!($bool_portNumSet) && $bool_devNumSet} {
## Port and Dev - Test2.0: Check if the device index exists
if {$argv_devIdx > $count_device} {
inform "-E-localPort:dev.not.found" -value "$argv_devIdx" -maxDevices $count_device
}
set bool_allPortsDown 1
set count_upPorts 0
foreach arrayEntry [lsort [array names PORT_HCA $argv_devIdx.*:portState]] {
set portState $PORT_HCA($arrayEntry)
if { $portState == "DOWN" } {continue;}
if { ( $portState != "ACTIVE" ) && ( $toolName == "ibdiagpath" ) } {
if {!($bool_smp || ($portState == "ACTIVE")) } {
continue;
}
}
incr count_upPorts
if {$bool_allPortsDown} {
set saveEntry $arrayEntry
set bool_allPortsDown 0
}
}
## Port and Dev - Test2.1: Check the ports state on the specified device
if {$bool_allPortsDown} {
switch $toolName {
"ibcfg" {
set argv_portNum 1
}
default {
inform "-E-localPort:all.ports.of.device.down" -device $argv_devIdx
}
}
} else {
set argv_portNum [lindex [split $saveEntry ". :"] 1]
}
## Port and Dev - Test2.2: Inform the total of available ports
if {$count_upPorts > 1} {
inform "-W-localPort:few.ports.up" -flag "-p" -port $argv_portNum -device $argv_devIdx
} else {
inform "-I-localPort:one.port.up" -port $argv_portNum
}
}
## Port and Dev - Case3.0: Only port number was specified
if {$bool_portNumSet && !($bool_devNumSet)} {
## Port and Dev - Test3.1: Check if the port index exists (on any of the host HCAs)
if {[llength [array names PORT_HCA *.$argv_portNum:portState]] == 0} {
inform "-E-localPort:port.not.found" -value $argv_portNum
}
set bool_allPortsDown 1
set saveState "DOWN"
set count_UpDevices 0
foreach arrayEntry [lsort [array names PORT_HCA *.$argv_portNum:portState]] {
set portState $PORT_HCA($arrayEntry)
if { $portState == "DOWN" } {continue;}
set saveState $portState
if { ( $portState != "ACTIVE" ) && ( $toolName == "ibdiagpath" ) } {
if {!$bool_smp || ($portState != "INIT") } {
continue;
}
}
if {$bool_allPortsDown} {
set saveState $portState
set argv_devIdx [lindex [split $arrayEntry ". :"] 0]
}
incr count_UpDevices
set bool_allPortsDown 0
}
## Port and Dev - Test3.2: Check the ports state on the specified device
if {$bool_allPortsDown} {
switch $toolName {
"ibdiagpath" {
inform "-E-localPort:local.port.not.active" \
-port $argv_portNum -state $saveState
}
"ibcfg" {
set argv_devIdx 1
}
default {
inform "-E-localPort:local.port.down" -port $argv_portNum
}
}
}
## Port and Dev - Test3.3: Inform the total of available devices
if {$count_UpDevices > 1} {
inform "-W-localPort:few.devices.up" -flag "-p" -port $argv_portNum -device $argv_devIdx
} elseif {$count_device > 1} {
inform "-I-localPort:using.dev.index" -device $argv_devIdx
}
}
## Port and Dev - Case4.0: Neither port num or device index were requested
if {!($bool_portNumSet) && !($bool_devNumSet)} {
set bool_allPortsDown 1
set saveState "DOWN"
set count_upPorts 0
foreach arrayEntry [lsort [array names PORT_HCA *.*:portState]] {
set portState $PORT_HCA($arrayEntry)
if { $portState == "DOWN" } {continue;}
set saveState $portState
if { ( $portState != "ACTIVE" ) && ( $toolName == "ibdiagpath" ) } {
if {!$bool_smp || ($portState != "INIT") } {
continue;
}
}
if {$bool_allPortsDown} {
set argv_devIdx [lindex [split $arrayEntry ". :"] 0]
set argv_portNum [lindex [split $arrayEntry ". :"] 1]
}
incr count_upPorts
set bool_allPortsDown 0
}
if {$bool_allPortsDown} {
if {$count_device > 1} {
set informMsg "-E-localPort:all.ports.down.mulitple.devices"
} else {
set informMsg "-E-localPort:all.ports.down"
}
switch $toolName {
"ibdiagpath" {
inform $informMsg
}
"ibcfg" {
set argv_devIdx 1
set argv_portNum 1
}
default {
inform $informMsg
}
}
}
if {$count_upPorts > 1} {
inform "-W-localPort:few.ports.up" -flag "-p" -port $argv_portNum -device $argv_devIdx
} else {
inform "-I-localPort:one.port.up" -port $argv_portNum
}
}
### SetPortNDevice - Setting G with port/dev info
## Setting G with port/dev info - Step1.0: Set port/dev index
set G(argv:port.num) $argv_portNum
set G(argv:dev.idx) $argv_devIdx
if {$G(argv:port.num) == 0} {
set G(argv:skip.checks) "$G(argv:skip.checks) dup_guids"
inform "-W-skipping:dup_guids.when.running.from.SW"
}
## Setting G with port/dev info - Step1.1: Set port GUID & LID
set G(data:root.port.guid) $PORT_HCA($argv_devIdx.$argv_portNum:portGuid)
set G(data:root.port.lid) $PORT_HCA($argv_devIdx.$argv_portNum:portLid)
## Setting G with port/dev info - Test1.0: Zero guid is disallowed
if {$G(data:root.port.guid) == "0x0000000000000000"} {
inform "-E-localPort:port.guid.zero"
}
## Setting G with port/dev info - Test2.0: try to run 'ibis_set_port'
if {[catch {ibis_set_port $G(data:root.port.guid)} e]} {
inform "-E-localPort:enable.ibis.set.port"
}
## Setting G with port/dev info - Step2.0: Inform for -dr port derived settings
if {[info exists G(-p.set.by.-d)]} {
inform "-I-localPort:is.dr.path.out.port" -port $argv_portNum
}
return 0
}
##############################
##############################
# NAME SetTopologyNSysName
# SYNOPSIS SetTopologyNSysName
# FUNCTION Sets and checks the topology file and local system name
# INPUTS NULL
# OUTPUT NULL
# RESULT set G(argv:sys.name)
proc SetTopologyNSysName {} {
global G
global IB_SW_NODE
### SetTopologyNSysName - Pre Settings
## Pre Settings - Step1.0: Local vars
set HCAnames ""
## Pre Settings - Step1.0: Set vars by G(argv:*)
set bool_topoFileSet [info exists G(argv:topo.file)]
set bool_sysNameSet [info exists G(argv:sys.name)]
### SetTopologyNSysName - Pre Testing
## Pre Testing - Test1.0: Run this procedure only if a topology is specified
if {!$bool_topoFileSet} {
return 1
}
## Pre Testing - Test2.0: Run this procedure only if no skip ibdm request made
if {[CheckSkipStatus load_ibdm]} {
return 1
}
### SetTopologyNSysName - Sys name retrive
## Sys name - Step1.0: Set list_names
if {!$bool_sysNameSet} {
## Sys name - Case1.0: Set list_names by 'hostname' and NodeDescMad
set list_names [lindex [split [info hostname] .] 0]
catch { append list_names " " [SmMadGetByDr NodeDesc -description {}] }
} else {
## Sys name - Case2.0: Set list_names by provided info (-s)
set list_names $G(argv:sys.name)
}
## Sys name - Step2.0: Retrive Nodes and System names from the provided topology
array set TOPO_NODES [join [IBFabric_NodeByName_get $G(IBfabric:.topo)]]
array set TOPO_SYS [join [IBFabric_SystemByName_get $G(IBfabric:.topo)]]
## Sys name - Step3.0: Mark the fact that the sys name is guessed
if {!$bool_sysNameSet} {
set G(bool:sys.name.guessed) 1
}
## Sys name - Step4.0: Find a name from list_names in the provided topology
foreach name $list_names {
if {[info exists TOPO_NODES($name)]} {
set G(argv:sys.name) $name
if { ! $bool_sysNameSet } {
inform "-W-localPort:node.intelligently.guessed"
}
return 0
} elseif {[info exists TOPO_SYS($name)]} {
set nodesNames [lsort -dictionary [IBSystem_NodeByName_get $TOPO_SYS($name)]]
# HACK: Always exit from the first interface on the local machine.
# Will not work for more than 1 HCA
set G(argv:sys.name) [lindex [lindex $nodesNames 0] 0]
if { !$bool_sysNameSet } {
inform "-W-localPort:node.intelligently.guessed"
}
return 0
}
}
## Sys name - Step5.0: Handle the case that the local system name could not be
# identified and advertise, only, the HCA-Sys names
set list_sysNames [array names TOPO_SYS]
foreach sysName $list_sysNames {
set sysPointer $TOPO_SYS($sysName)
foreach nodeName [IBSystem_NodeByName_get $sysPointer] {
if { [IBNode_type_get [lindex $nodeName 1]] != $IB_SW_NODE } {
lappend HCAnames $sysName
break;
}
}
}
## Sys name - Step5.1: Inform if the provided sysName was illegal
# or if none could be guessed
if {$bool_sysNameSet} {
inform "-E-argv:bad.sys.name" -flag "-s" -value $G(argv:sys.name) -names [lsort $HCAnames]
} else {
inform "-E-argv:unknown.sys.name" -names [lsort $HCAnames]
}
return 0
}
##############################
##############################
# NAME DeleteOldFiles
# FUNCTION Delete the old ibdiag files
# INPUTS NULL
# OUTPUT NULL
# RESULT ammm... the old ibdiag files are deleted
proc DeleteOldFiles {} {
global G
set list_filesNames [array names G "outfiles,*"]
foreach fileName $list_filesNames {
scan [split $fileName .] {%s %s} . ext
if {($ext == "log") || ($ext == "db")} {
continue
}
set tmp_fn $G($fileName)
file delete -force $tmp_fn
}
return 0
}
##############################
# SYNOPSIS StartIBDIAG
# FUNCTION
# executes the following initial actions when starting to run any tool:
# - parsing the command line (running "ParseArgv")
# - initianlize ibis:
# ibis_opts configure -log_file (if necessary)
# ibis_init,
# ibis_get_local_ports_info
# - parsing the result of ibis_get_local_ports_info:
# - If local hca-index was specified, check that such device exists
# - If local port-num was specified, check that this port is not DOWN
# (ACTIVE, in case of ibdiagpath)
# - If local port-num was not specified, set it to be the first not
# DOWN (ACTIVE) port of the local device.
# - if the above is OK, run ibis_set_port
# - if a topology file is specified, check that the local system name is a
# valid system name, or - if the latter was not specified - try to
# guess it (if the host name or a word in the local node description
# are valid system names).
# INPUTS NULL
# OUTPUT NULL
# DATAMODEL
# the procedure uses $env(IBMGTSIM_DIR) - if it exists, we are in simulation mode
# the procedure uses the following global variables:
# $G(argv:dev.idx) - the local-device-index
# $G(argv:port.num) - the local-port-num (this var may also be set here)
# $G(IBfabric:.topo) - the ibdm pointer to the fabric described in the topology file
# $G(-p.set.by.-d) - if set, then the port-num was not explicitly
# specified and it was set to be the output port of the direct route
# the procedure also sets the global vars G(data:root.port.guid) and G(data:root.port.lid)
# - the node-guid and LID of the local port.
proc StartIBDIAG {} {
global G env tcl_patchLevel
### StartIBDIAG - Set the Tools Flags Array
SetToolsFlags
### StartIBDIAG - Require the available packages
catch {RequirePackage}
### StartIBDIAG - parsing command line arguments
ParseArgv
### StartIBDIAG - Try to require IBDM
RequireIBDM
### StartIBDIAG - Delete previous files
DeleteOldFiles
### StartIBDIAG - Initialize ibis
set ibisInfo [InitializeIBIS]
### StartIBDIAG - Setting the local port and device index
SetPortNDevice $ibisInfo
### StartIBDIAG - Setting the local system name
SetTopologyNSysName
return 0
}
##############################
# SYNOPSIS FinishIBDIAG
# FUNCTION executes final actions for a tool:
# - displays the "-I-done" info ("Done" + run time)
# - exits the program
# INPUTS NULL
# OUTPUT NULL
# DATAMODEL I use $G(var:start.clock.seconds) to tell the total run time
proc FinishIBDIAG {} {
global G
### FinishIBDIAG - Inform Fatel Error
if { [info exists G(Fatal.err.found)] } {
inform "-F-Fatal.header"
}
### FinishIBDIAG - Inform running time
inform "-I-done" $G(var:start.clock.seconds)
### FinishIBDIAG - Close ibdiag log file
catch { close $G(logFileID) }
exit 0
}
######################################################################
### Sending queries (MADs and pmGetPortCounters) over the fabric
######################################################################
##############################
# SYNOPSIS SmMadGetByDr mad cget args
# FUNCTION
# returns the info of the Direct Route Mad: sm${cmd}Mad getByDr $args.
# It's recommanded to use this method to get MAS info- since it MAD
# sending handles failures
# INPUTS
# $mad - the type of MAD to be sent - e.g., NodeInfo, PortInfo, etc.
# $cget - the requested field of the mad ("dump" returns the all mad info)
# $args - the direct route (and, optionally, the port) for sending the MAD
# OUTPUT
# the relevant field (or - all fields) of the MAD info
# DATAMODEL
# the procedure uses $G(argv:failed.retry) - for stopping failed retries
# and $G(bool:bad.links.detected) to decide whether to run DetectBadLinks
proc SmMadGetByDr { mad cget args } {
global G errorInfo
### SmMadGetByDr - Set the send and cget commands
set getCmd [concat "sm${mad}Mad getByDr $args"]
if {[regexp {^-} $cget]} {
set cgetCmd "sm${mad}Mad cget $cget"
} else {
set cgetCmd "sm${mad}Mad $cget"
}
### SmMadGetByDr - Send the mads (with up to $G(argv:failed.retry) retries)
inform "-V-mad:sent" -command "$getCmd"
set status -1
for { set retry 0 } { $retry < $G(argv:failed.retry) } { incr retry } {
if { [set status [eval $getCmd]] == 0 } {
incr retry
break;
}
}
inform "-V-mad:received" -status $status -attempts $retry
### HACK: fix cases where the NodeDesc has an internal newline
if { $mad == "NodeDesc" } {
set desc [string map {"\n" ""} [smNodeDescMad cget -description]]
smNodeDescMad configure -description $desc
}
### SmMadGetByDr - Handle the results
if { $G(bool:bad.links.detected) && ( $status != 0 ) } {
set res [DetectBadLinks $status "$cgetCmd" $mad $args]
if {$res == -1} {
return -code 1 -errorcode $status
} else {
return $res
}
} elseif { $status != 0 } {
return -code 1 -errorcode $status
} else {
return [eval $cgetCmd]
}
}
##############################
##############################
# SYNOPSIS SmMadGetByLid mad cget args
# FUNCTION
# returns the info of the lid based Mad: sm${cmd}Mad getByLid $args.
# INPUTS
# $mad - the type of MAD to be sent - e.g., NodeInfo, PortInfo, etc.
# $cget - the requested field of the mad ("dump" returns the all mad info)
# $args - the lid (and, optionally, the port) for sending the MAD
# OUTPUT
# the relevant field (or - all fields) of the MAD info
# DATAMODEL
# the procedure uses $G(argv:failed.retry) - for stopping failed retries
# and $G(bool:bad.links.detected) to decide whether to run DetectBadLinks
proc SmMadGetByLid { mad cget args } {
global G errorInfo
### SmMadGetByLid - Set the send and cget commands
set getCmd [concat "sm${mad}Mad getByLid $args"]
if {[regexp {^-} $cget]} {
set cgetCmd "sm${mad}Mad cget $cget"
} else {
set cgetCmd "sm${mad}Mad $cget"
}
### Send the mads (with up to $G(argv:failed.retry) retries)
inform "-V-mad:sent" -command "$getCmd"
set status -1
for { set retry 0 } { $retry < $G(argv:failed.retry) } { incr retry } {
if { [set status [eval $getCmd]] == 0 } { incr retry ; break; }
}
inform "-V-mad:received" -status $status -attempts $retry
### HACK: fix cases where the NodeDesc has an internal newline
if { $mad == "NodeDesc" } {
set desc [string map {"\n" ""} [smNodeDescMad cget -description]]
smNodeDescMad configure -description $desc
}
### Handle the results
if { $status != 0 } {
return -code 1 -errorcode $status
} else {
return [eval $cgetCmd]
}
}
##############################
##############################
# SYNOPSIS GetGeneralInfoList Lid
# FUNCTION
# returns the info of general info request : vsGetGeneralInfo lid
# INPUTS
# $Lid - the lid for the info request
# OUTPUT
# the relevant general info for the $lid
# DATAMODEL
# the procedure uses $G(argv:failed.retry) - for stopping failed retries
proc GetGeneralInfoList { _lid } {
global G
set list_general_info -1
regexp {^(.*)$} $_lid . lid
if { $lid == 0 } {
return
}
## General Info list get - Step1.0: Set command
set cmd [concat "vsGetGeneralInfo $lid"]
## General Info list get - Step2.0: Send the general info request
inform "-V-mad:sent" -command $cmd
for { set retry 0 } { $retry < $G(argv:failed.retry) } { incr retry } {
if { [regexp "ERROR" [set list_general_info [join [eval $cmd]]]] == 0 } {
break;
}
}
inform "-V-mad:received" -attempts $retry
## General Info list get - Step3.0: Handling the results
if {[regexp "ERROR" list_general_info]} {
return -code 1 -errorcode 1 -errorinfo "$list_general_info"
} else {
return $list_general_info
}
}
##############################
##############################
# SYNOPSIS GetPmList Lid:Port
# FUNCTION
# returns the info of PM info request : pmGetPortCounters $Lid $Port
# INPUTS
# $LidPort - the lid and port number for the pm info request
# format: lid:port (the semicolon - historic)
# OUTPUT
# the relevant PM (Performance Monitors) info for the $port at $lid
# DATAMODEL
# the procedure uses $G(argv:failed.retry) - for stopping failed retries
proc GetPmList { _lidPort } {
global G
set list_pm -1
## PM list get - Step1.0: Set lid, port and the pm command
regexp {^(.*):(.*)$} $_lidPort . lid port
if { $lid == 0 } {
return
}
## PM list get - Step1.1: Set pm command
set cmd [concat "pmGetPortCounters $lid $port"]
## PM list get - Step2.0: Send the pm info request
inform "-V-mad:sent" -command $cmd
for { set retry 0 } { $retry < $G(argv:failed.retry) } { incr retry } {
if { [regexp "ERROR" [set list_pm [join [eval $cmd]]]]==0 } {
break;
}
}
inform "-V-mad:received" -attempts $retry
## PM list get - Step3.0: Handling the results
if {[regexp "ERROR" $list_pm]} {
return -code 1 -errorcode 1 -errorinfo "$list_pm"
} else {
return $list_pm
}
}
######################################################################
### Farbic Discovery
######################################################################
# SYNOPSIS DiscoverFabric
# FUNCTION & DATAMODEL
# Using a BFS algorithm (staring at the local node), discovers the entire
# fabric and sets up a few databases:
# G(data:list.direct.path):
# G(data:list.node.guids):
# G(data:list.port.guids):
# G(data:guid.by.dr.path.<DirectPath>) : <PortGuid>
# G(data:dr.path.to.guid.<PortGuid>) : <DirectPath>
# G(data:dr.path.to.node.<NodeGuid>) : <DirectPath>
# G(data:PortInfo.<NodeGuid>:<PN>) : <SmPortInfoMad>
# G(data:NodeGuid.<PortGuid>) : <NodeGuid>
# G(data:NodeInfo.<NodeGuid>): : <smNodeInfoMad>
# G(data:NodeDesc.<NodeGuid>) :
# G(data:PortGuid.<NodeGuid>:<PN>) : <PortGuid>
#
# Neighbor(<NodeGuid>:<PN>) : <NodeGuid>:<PN>
#
# MASK(CurrentMaskGuid) : <MaskGuid>
# MASK(PortMask,<PortGuid>) : <PortMask>
# MASK(NodeMask,<NodeGuid>) : <NodeMask>
# MASK(PortGuid,<PortMask>) : <PortGuid>
# MASK(NodeGuid,<NodeMask>) : <NodeGuid>
#
# DUPandZERO(<PortGuid>,PortGUID) : <DirectPath>
# DUPandZERO(<NodeGuid>,NodeGUID) : <DirectPath>
# DUPandZERO(<value>,<ID>) : <DirectPath>
#
# SM(<SMstate> : <DirectPath>,SMpriority
#
# G(data:list.bad.paths) - list of second paths
#
# INPUTS
# PathLimit - defined in which bad paths type the discovery should
# take place
# startIndex - defined from which entry in G(data:list.direct.path) the
# discovery should take place
# OUTPUT NULL
proc DiscoverFabric { _pathLimit {startIndex 0}} {
global G DUPandZERO MASK Neighbor SM
if {[info exists G(argv:ibdiag.db)]} {
inform "-W-loading:external.ibdiag.db" -fn $G(argv:ibdiag.db)
if {[catch {source $G(argv:ibdiag.db)} e]} {
inform "-E-loading:old.ibdiag.db" -fn $G(argv:ibdiag.db) -errMsg $e
}
inform "-I-discover:discovery.status" -log
return 0
}
inform "-V-discover:start.discovery.header"
### DiscoverFabric - Pre Settings
## Pre Settings - Step1.0: Local vars
set index_dr $startIndex
set bool_badPathFound 0
while { $index_dr < [llength $G(data:list.direct.path)] } {
### DiscoverFabric - Bad path
if {$bool_badPathFound} {
## Bad path - Step1.0: Add the path to data list
lappend G(data:list.bad.paths) $DirectPath
## Bad path - Step1.1: Remove the dr path from all known DB
RemoveDirectPath $DirectPath
## Bad path - Step1.2: Go back a step
incr index_dr -1
set bool_badPathFound 0
continue;
}
set DirectPath [lindex $G(data:list.direct.path) $index_dr]
incr index_dr
inform "-V-discover:discovery.status" -index $index_dr -path "$DirectPath"
inform "-I-discover:discovery.status"
### DiscoverFabric - Pre Query
## Pre Query - Step1.0: If the path is worst then allowed, continue to next dr!
if {[PathIsBad $DirectPath] > $_pathLimit} {
set bool_badPathFound 1
continue;
}
## Pre Query - Step2.0: If unable to get NodeInfo across $DirectPath, continue to next dr!
if {[catch {set nodeInfo [SmMadGetByDr NodeInfo dump "$DirectPath"]}]} {
set bool_badPathFound 1
continue;
}
# Set nodeGuid,portGuid,EntryPort
set nodeGuid [GetWordAfterFlag $nodeInfo "-node_guid"]
set portGuid [GetWordAfterFlag $nodeInfo "-port_guid"]
set entryPort [GetEntryPort $DirectPath -byNodeInfo $nodeInfo]
### DiscoverFabric - Known Guids
# Note: if changing a guid during discovery, could cause unreliable results
# DZ TODO: set aside all the maybe HCA with 2 ports (Case2.0), and deal with them
# at the end
## Known Guids pre Query - Step1.0: Determine if the GUIDs are allready exists in DB
set bool_nodeGuidknown [expr ([lsearch $G(data:list.node.guids) $nodeGuid]!= -1)]
set bool_portGuidknown [expr ([lsearch $G(data:list.port.guids) $portGuid]!= -1)]
set bool_skipGuids [CheckSkipStatus dup_guids]
if {!$bool_skipGuids} {
set bool_duplicatePortGuid 0
set bool_duplicateNodeGuid 0
## Known Guids - Case1.0: Known port GUID && Unknown node GUID
# No legal cases exists
if {$bool_portGuidknown && !$bool_nodeGuidknown} {
set prev_drPath $G(data:dr.path.to.guid.$portGuid)
## Known Guids - Case1.1: Duplicate port GUID Found!
# No way to get the same port GUID from two diffrent nodes
set bool_duplicatePortGuid 1
}
## Known Guids - Case2.0: Unknown port GUID && Known node GUID
# Only one legal case: an HCA is connected with two ports
if {!$bool_portGuidknown && $bool_nodeGuidknown} {
# Get the old port GUID, in order to get the old drPath
set tmp_portGuid [lindex [array get G data:PortGuid.$nodeGuid:*] 1]
set prev_drPath $G(data:dr.path.to.node.$nodeGuid)
if {[catch {set tmp_type_1 [GetParamValue Type $prev_drPath]}]} {
set bool_badPathFound 1
continue;
}
if {[catch {set tmp_type_2 [GetParamValue Type $DirectPath]}]} {
set bool_badPathFound 1
continue;
}
## Known Guids - Case2.1: Duplicate node GUID Found!
# previous and current port has diffrent types
if {$tmp_type_1 != $tmp_type_2} {
set bool_duplicateNodeGuid 1
}
if {$tmp_type_2 == "CA"} {
if {[info exists Neighbor($nodeGuid:$entryPort)]} {
## Known Guids - Case2.2: Duplicate node GUID Found!
# There is allreay an HCA carring this node GUID and has this
# entry port with a diffrent port GUID
set bool_duplicateNodeGuid 1
}
} elseif {[Bool_DuplicateGuids $nodeGuid $DirectPath $prev_drPath 1]} {
## Known Guids - Case2.3: Duplicate node GUID Found!
# DZ: Q:I'm not sure way the above elseif is required, it seems
# that I immediately should set: "bool_duplicateNodeGuid <= 1"
# DZ: A: To support Sw that has more then one PG
set bool_duplicateNodeGuid 1
}
}
## Known Guids - Case3.0: Known port GUID && Known node GUID
if {$bool_portGuidknown && $bool_nodeGuidknown } {
# HCA - Only "legit case" return to an HCA, through it's second
# port, which is duplicated. Since we can't detemine if we visited
# in an HCA before then PG and NG are dup
# SW - Only if this is a SW which we visited before
# Dr for the first encounter with the current PG
set prev_drPath $G(data:dr.path.to.guid.$portGuid)
# NG of current PG
set prev_nodeGuid $G(data:NodeGuid.$portGuid)
# PG of current NG (use only one because HCa has max of 2 ports)
# and for switch its the same
set tmp_portGuid [lindex [array get G data:PortGuid.$nodeGuid:*] 1]
# Dr for the first encounter with the NG of the current PG
set prev_drPath2 $G(data:dr.path.to.node.$nodeGuid)
#set prev_drPath2 $G(data:dr.path.to.guid.$tmp_portGuid)
if {[catch {set tmp_type_1 [GetParamValue Type $prev_drPath]}]} {
set bool_badPathFound 1
continue;
}
if {[catch {set tmp_type_2 [GetParamValue Type $DirectPath]}]} {
set bool_badPathFound 1
continue;
}
if {[catch {set tmp_type_3 [GetParamValue Type $prev_drPath2]}]} {
set bool_badPathFound 1
continue;
}
if {$tmp_type_2 == "CA"} {
if {$nodeGuid == $prev_nodeGuid } {
## Known Guids - Case3.1: The current node GUID and previous node GUID
# of the current port GUID are equal == The current PG and NG were once
# belonged to the same Node
if {$tmp_type_1 == "CA"} {
if {[info exists Neighbor($nodeGuid:$entryPort)]} {
## Known Guids - Case3.1.1: Duplicate node and port Found!
# Now in HCA previously in HCA which has this entry registered
set bool_duplicatePortGuid 1
set bool_duplicateNodeGuid 1
} else {
## Known Guids - Case3.1.2: Duplicate node and port Found!
# Possibly we reached an allready visited HCA with its PG duplicated
# Or It's the same HCA but both it's port are with the same PG
# the only way to be sure is to cahnge something in the current
# HCA and check if the second one changed also. Since that is not
# allowed Case3.1.2.1 will be the same as Case Case3.1.2.2
# Case3.1.2.1
set bool_duplicatePortGuid 1
set bool_duplicateNodeGuid 1
# Case3.1.2.2
# set bool_duplicatePortGuid 1
# set bool_duplicateNodeGuid 0
}
} else {
## Known Guids - Case3.1.3: Duplicate node and port Found!
#Case 1.2 - Now in HCA previously in SWITCH
set bool_duplicatePortGuid 1
set bool_duplicateNodeGuid 1
}
} else {
## Known Guids - Case3.2: MAYBE The current PG and NG were not belonged
# to the same Node
if {$tmp_type_3 == "CA"} {
# Case3.2.1 The node GUID was once belonging to an HCA
# ? Is it the same HCA ?
# We can only assume that it's the same HCA there for we treat it like
# it's not (DZ logic)
}
## Known Guids - Case3.2.1: Duplicate node and port Found!
# Explained above
set bool_duplicatePortGuid 1
set bool_duplicateNodeGuid 1
}
} else {
## Known Guids - Case3.3: The current device is a switch
# if it's not the same node as before assume both are duplicate
# possible that only one is dup (ask DZ-"there was a very very unlikly scenrio" )
if {[Bool_DuplicateGuids $nodeGuid $DirectPath $prev_drPath2]} {
set bool_duplicatePortGuid 1
set bool_duplicateNodeGuid 1
}
}
}
### DiscoverFabric - Handle duplicate GUIDs
if {$bool_duplicatePortGuid || $bool_duplicateNodeGuid} {
set nodeAllreadyMasked 0
set portAllreadyMasked 0
## Handle duplicate GUIDs - Case1.0: Duplicate port GUID which was masked before
if {$bool_duplicatePortGuid} {
if {[info exists MASK(PortMask,$portGuid)]} {
foreach portMask $MASK(PortMask,$portGuid) {
set prev_drPath $G(data:dr.path.to.guid.$portMask)
if {[Bool_SameDevice $DirectPath $prev_drPath] == 1} {
set portAllreadyMasked 1
set portGuid $portMask
set bool_duplicatePortGuid 0
break
}
}
}
}
## Handle duplicate GUIDs - Case2.0: Duplicate node GUID which was masked before
if {$bool_duplicateNodeGuid} {
if {[info exists MASK(NodeMask,$nodeGuid)]} {
foreach nodeMask $MASK(NodeMask,$nodeGuid) {
set prev_drPath $G(data:dr.path.to.node.$nodeMask)
if {[Bool_SameDevice $DirectPath $prev_drPath] == 1} {
set nodeAllreadyMasked 1
set nodeGuid $nodeMask
set bool_duplicateNodeGuid 0
break
}
}
}
}
## Handle duplicate GUIDs - Case3.0: Get node GUID from a masked port GUID
if {$portAllreadyMasked} {
set nodeGuid $G(data:NodeGuid.$portGuid)
set nodeAllreadyMasked 1
}
## Handle duplicate GUIDs - Case4.0: Get port GUID from a masked node GUID
if {$nodeAllreadyMasked} {
set portGuid [lindex [array get G data:PortGuid.$nodeGuid:*] 1]
set portAllreadyMasked 1
}
## Handle duplicate GUIDs - Case5.0: Duplicate port GUID which was never masked
if {!$portAllreadyMasked && $bool_duplicatePortGuid} {
set prev_drPath $G(data:dr.path.to.guid.$portGuid)
if {![info exists DUPandZERO($portGuid,PortGUID)]} {
lappend DUPandZERO($portGuid,PortGUID) $prev_drPath
}
lappend DUPandZERO($portGuid,PortGUID) $DirectPath
set currentMaskGuid [GetCurrentMaskGuid]
set MASK(PortGuid,$currentMaskGuid) $portGuid
lappend MASK(PortMask,$portGuid) $currentMaskGuid
set portGuid $currentMaskGuid
set bool_portGuidknown 0
AdvncedMaskGuid
}
## Handle duplicate GUIDs - Case6.0: Duplicate node GUID which was never masked
if {!$nodeAllreadyMasked && $bool_duplicateNodeGuid} {
#set tmp_portGuid [lindex [array get G data:PortGuid.$nodeGuid:*] 1]
#set prev_drPath $G(data:dr.path.to.guid.$tmp_portGuid)
set prev_drPath $G(data:dr.path.to.node.$nodeGuid)
if {![info exists DUPandZERO($nodeGuid,NodeGUID)]} {
lappend DUPandZERO($nodeGuid,NodeGUID) $prev_drPath
}
lappend DUPandZERO($nodeGuid,NodeGUID) $DirectPath
set currentMaskGuid [GetCurrentMaskGuid]
set MASK(NodeGuid,$currentMaskGuid) $nodeGuid
lappend MASK(NodeMask,$nodeGuid) $currentMaskGuid
set nodeGuid $currentMaskGuid
set bool_nodeGuidknown 0
AdvncedMaskGuid
}
}
} else {
# Note: if bool_skipGuids then assume that known GUIDs are legit
if {$bool_nodeGuidknown || $bool_portGuidknown} {
#DZ: No need for that :continue
}
}
set G(data:guid.by.dr.path.$DirectPath) $portGuid
### DiscoverFabric - Checks list
## Checks list - Test1.0: Check if the new link is allready marked -
# if so removed $DirectPath.
# Happens in switch systems and when a switch connects to himself
if {![SetNeighbor $DirectPath $nodeGuid $entryPort]} {
set bool_badPathFound 1
continue;
}
## Checks list - Test2.0: Get nodeType
if {[catch {set nodeType [GetParamValue Type $DirectPath]}]} {
set bool_badPathFound 1
continue;
}
## Checks list - Test3.0: Determine if you have reached an allready visited Switch
if {($bool_nodeGuidknown) && ($nodeType == "SW")} {
continue;
}
## Checks list - Step1.0: The next line makes sure we only count the unknown Nodes
if {!(($bool_nodeGuidknown) && ($nodeType == "CA"))} {
incr G(data:counter.$nodeType)
}
if {![info exists G(data:dr.path.to.guid.$portGuid)]} {
set G(data:dr.path.to.guid.$portGuid) $DirectPath
}
if {![info exists G(data:dr.path.to.node.$nodeGuid)]} {
set G(data:dr.path.to.node.$nodeGuid) $DirectPath
}
if {!$bool_nodeGuidknown} {
lappend G(data:list.node.guids) $nodeGuid
}
if {!$bool_portGuidknown} {
lappend G(data:list.port.guids) $portGuid
}
set G(data:NodeGuid.$portGuid) $nodeGuid
set G(data:NodeInfo.$nodeGuid) $nodeInfo
set G(data:PortGuid.$nodeGuid:$entryPort) $portGuid
# Update Neighbor entry in the Neighbor Array.
# it's possible it was allready updated in the "return to switch check"
if {[llength $DirectPath] > 0} {
SetNeighbor $DirectPath $nodeGuid $entryPort
}
if {[catch {set tmp_nodeDesc [SmMadGetByDr NodeDesc -description "$DirectPath"]}]} {
set G(data:NodeDesc.$nodeGuid) "UNKNOWN"
} else {
set G(data:NodeDesc.$nodeGuid) $tmp_nodeDesc
}
### DiscoverFabric - Build Ports List
if { $nodeType == "CA" } {
## Build Ports List - Case1.0: a HCA
set PortsList $entryPort
} else {
## Build Ports List - Case1.0: a SWITCH
if {[catch {set Ports [GetParamValue Ports $DirectPath]}]} {
set bool_badPathFound 1
continue;
}
set PortsList ""
for { set port 0 } { $port <= $Ports } { incr port } {
lappend PortsList $port
}
}
# Gather SystemGUID,LID information into DUPandZERO Array
set endLoop 0
foreach ID "SystemGUID LID" {
if {[catch {set value [GetParamValue $ID $DirectPath -port 0]}]} {
set bool_badPathFound 1
set endLoop 1
break;
} else {
lappend DUPandZERO($value,$ID) "$DirectPath"
}
}
if {$endLoop} {continue;}
### DiscoverFabric - SM handling
# Check if the device is an SM and update portInfo
set endLoop 0
foreach port $PortsList {
if {[catch {set tmp_PortInfo [SmMadGetByDr PortInfo dump "$DirectPath" $port]}]} {
set endLoop 1
set bool_badPathFound 1
continue;
}
if { ($nodeType == "CA") || (($nodeType == "SW") && ($port == 0) )} {
set tmp_capabilityMask [GetWordAfterFlag $tmp_PortInfo -capability_mask]
if {[expr 2 & $tmp_capabilityMask]} {
if {[catch {set tmp_LID [GetParamValue LID $DirectPath -port $port]}]} {
set bool_badPathFound 1
set endLoop 1
continue;
}
if {![catch {set tmp_SMInfo [SmMadGetByLid SMInfo dump $tmp_LID ]}]} {
set tmp_priState 0x[format %x [GetWordAfterFlag $tmp_SMInfo -pri_state]]
lappend SM([expr $tmp_priState % 0x10]) "{$DirectPath} [expr $tmp_priState / 0x10]"
}
}
}
set G(data:PortInfo.$nodeGuid:$port) $tmp_PortInfo
# The loop for non-switch devices ends here.
# This is also an optimization for switches ..
if { ( ($index_dr != 1) && ($port == $entryPort) ) || ($port == 0) } {
continue;
}
# Check again that the local port is not down / ignore all other
# down ports
if {[catch {set tmp_log [GetParamValue LOG $DirectPath -port $port];
set ezNType [GetParamValue Type $DirectPath -port $port]}]} {
set bool_badPathFound 1
set endLoop 1
break;
}
switch -- $tmp_log {
"DWN" {
if { ($index_dr == 1) && ($ezNType != "SW") } {
inform "-E-localPort:local.port.down" -port $port
}
continue;
}
"INI" {
lappend G(data:list.links.not.active.logical.state) [join "$DirectPath $port"]
}
}
if {[llength $DirectPath] > 1} {
set tmp_revDrPath $G(data:rev.dr.path.[lrange $DirectPath 0 end-1])
set G(data:rev.dr.path.$DirectPath) "$entryPort $tmp_revDrPath"
} else {
set G(data:rev.dr.path.$DirectPath) $entryPort
}
### DiscoverFabric - Add new dr path
# "$DirectPath $port" is added to the DirectPath list only if the
# device is a switch (or the root HCA), the link at $port is not
# DOWN, $port is not 0 and not the entry port
lappend G(data:list.direct.path) [join "$DirectPath $port"]
}
if {$endLoop} {continue;}
}
### DiscoverFabric - Handle bad paths
if {$bool_badPathFound} {
lappend G(data:list.bad.paths) $DirectPath
RemoveDirectPath $DirectPath
}
### DiscoverFabric - Handle hidden fabric discovery
if {$G(bool:hidden.fabric.discovered) == 0} {
catch {set tmp_HiddenFabric [DiscoverHiddenFabric]}
inform "-I-discover:discovery.status" -log
inform "-I-exit:\\r"
inform "-V-discover:end.discovery.header"
}
if {[info exists tmp_HiddenFabric] } {
if {$tmp_HiddenFabric != 0} {
inform "-I-discover:discovery.status" -log
inform "-I-exit:\\r"
inform "-V-discover:end.discovery.header"
}
}
return 0
}
##############################
### DZ: UP TO HERE DOCUMENTED
##############################
# SYNOPSIS
# DiscoverPath Path2Start node
# FUNCTION
# Traverses a path between two fabric nodes, reading info regarding the
# nodes passed, and writing this data into various databases.
# This procedure is used whenever a tool should traverse some path:
# ibdiagpath, ibcfg, ibping,ibmad.
# The path is defined by its two end points: the source node and the
# destination node. The path between the endpoints will be a direct route
# - in case of by-direct-path-addressing - or lid-route in case of by-name
# or by-lid addressing.
# INPUTS
# $Path2Start is a direct route to the source node. In case of lid routing
# it will be a part of the lid route to the destination node.
# $node points to the destination is specified - either by a Direct route
# (by-direct-path-addressing), or by LID (by-lid or by-name addressing).
# OUTPUT
# A direct route starting at the start (local or source) node
# ending at the end node (destination or source )
# DATAMODEL
# Similarly to DiscoverFabric, the prod uses and updates these arrays
# G(data:NodeInfo.<NodeGuid>)
# G(data:list.direct.path)
# Additionally, the following database is maintained:
# G(DrPath2LID,<DirectPath>):
# the LID of the entry port at the end of <DirectPath>
# Also used: G(argv:* ) (= the parsed command line arguments) is used to
# specify the addressing mode; and the pointer to the merged fabric
# G(IBfabric:merged) (= the ibdm merging of topo file and .lst file)
proc DiscoverPath { _path2Start node } {
global G errorCode errorInfo PATH_DUMP
set bool_ignoreInit 0
set bool_badPathFound 0
set tmp_drPath ""
if {$G(argv:symmetric.multi.processing) || ($G(var:tool.name) == "ibcfg") } {
set bool_ignoreInit 1
}
if {$G(bool:topology.matched)} {
set nameLast ""
} else {
set nameLast "-nameLast"
}
if {[set byDrPath [info exists G(argv:direct.route)]]} {
set Path2End [join $node]
} else {
set destinationLid $node
set blockNum [expr $destinationLid / 64]
set LidMod64 [expr $destinationLid % 64]
}
# If the source node is a remote HCA, if I don't do the following
# then my MADs will get stuck upon "entering-and-exiting" this node
if {[catch {set sourceNodeType [GetParamValue Type $_path2Start]}]} {
DumpBadLinks
catch { close $G(logFileID) }
inform "-E-ibdiagpath:route.failed" -DirectPath $tmp_drPath -port [GetEntryPort $_path2Start]
}
if { ($_path2Start != "") && $sourceNodeType != "SW" } {
set Path2Start [lreplace $_path2Start end end]
} else {
set Path2Start $_path2Start
}
set DirectPath $Path2Start
while { 1 } {
if {[catch {set NodeInfo [SmMadGetByDr NodeInfo dump "$DirectPath"]}]} {
break;
}
if {([PathIsBad $DirectPath] > 1) || $bool_badPathFound} {
break;
}
set nodeGuid [GetWordAfterFlag $NodeInfo "-node_guid"]
set portGuid [GetWordAfterFlag $NodeInfo "-port_guid"]
set entryPort [GetEntryPort $DirectPath -byNodeInfo $NodeInfo]
set G(data:guid.by.dr.path.$DirectPath) $portGuid
set G(data:dr.path.to.guid.$portGuid) $DirectPath
set G(data:NodeGuid.$portGuid) $nodeGuid
set G(data:NodeInfo.$nodeGuid) $NodeInfo
set DirectPath [join $DirectPath]
if {$DirectPath != ""} {
if {![catch {set tmp_log [GetParamValue LOG [lrange $DirectPath 0 end-1] -port [lindex $DirectPath end] -byDr]}]} {
if {$tmp_log == "INI"} {
lappend G(data:list.links.not.active.logical.state) [join "$DirectPath"]
if { !$bool_ignoreInit} {
PrintPath $_path2Start
inform "-E-ibdiagpath:link.not.active" -DirectPath0 [lrange $DirectPath 0 end-1] -port [lindex $DirectPath end]
}
}
}
if {![catch {set tmp_log [GetParamValue LOG $DirectPath -port $entryPort -byDr]}]} {
if {$tmp_log == "INI"} {
lappend G(data:list.links.not.active.logical.state) [join "$DirectPath"]
if { !$bool_ignoreInit} {
PrintPath $_path2Start
inform "-E-ibdiagpath:link.not.active" -DirectPath0 $DirectPath -port $entryPort
}
}
}
}
if {[llength $DirectPath] > 0} {
SetNeighbor $DirectPath $nodeGuid $entryPort
}
if {[catch {set tmp_nodeDesc [SmMadGetByDr NodeDesc -description "$DirectPath"]}]} {
set G(data:NodeDesc.$nodeGuid) "UNKNOWN"
} else {
set G(data:NodeDesc.$nodeGuid) $tmp_nodeDesc
}
if { ![BoolWordInList $DirectPath $G(data:list.direct.path)] } {
lappend G(data:list.direct.path) $DirectPath
}
if {[catch {set nodeType [GetParamValue Type $DirectPath]}]} {
set bool_badPathFound 1
break;
}
if {[catch {set nodePorts [GetParamValue Ports $DirectPath]}]} {
set bool_badPathFound 1
break;
}
if {[catch {set nodeLid [GetParamValue LID $DirectPath -port $entryPort]}]} {
set bool_badPathFound 1
break;
}
if { $nodeLid == "0x" } { break; }
if { $nodeType == "SW" } {
set G(DrPath2LID,$DirectPath:0) $nodeLid
} else {
set G(DrPath2LID,$DirectPath:$entryPort) $nodeLid
}
if { $DirectPath != $Path2Start } {
set remoteLidGuidDev [DrPath2Name $DirectPath $nameLast -fullName -port $entryPort]
set PATH_DUMP($DirectPath,To) "$remoteLidGuidDev"
lappend PATH_DUMP(list,DirectPath) "$DirectPath,To"
#inform "-I-ibdiagpath:read.lft.to" "$localLidGuidDev"
}
############################################################
### If we "discover" by means of direct route
if {$byDrPath} {
# This is the stopping condition for direct routing
if { $DirectPath == $Path2End } { break; }
set exitPort [lindex $Path2End [llength $DirectPath]]
# if the user gives a direct path passing through a HCA
if { ( $nodeType != "SW" ) && ( $DirectPath != $Path2Start ) } {
PrintPath $_path2Start
inform "-E-ibdiagpath:direct.route.deadend" \
-DirectPath "$DirectPath"
}
# if port number is wrong (it exceeds the node's number of ports)
if { $exitPort > $nodePorts } {
PrintPath $_path2Start
inform "-E-ibdiagpath:direct.path.no.such.port" \
-DirectPath "$DirectPath" -port $exitPort
}
############################################################
} else {
############################################################
# If we discover by means of lid-route
# This is the good stopping condition for lid routing
if { $nodeLid == $destinationLid } { break; }
# If we reached LID 0
if { $nodeLid == 0 } {
PrintPath $_path2Start
inform "-E-ibdiagpath:reached.lid.0" -DirectPath "$DirectPath"
}
# If we reached a HCA
if { ( $nodeType != "SW" ) && ( $DirectPath != $Path2Start ) } {
PrintPath $_path2Start
inform "-E-ibdiagpath:lid.route.deadend.reached.hca" \
-DirectPath [lrange $DirectPath 0 end-1] -lid $destinationLid -port [lindex $DirectPath 0]
}
# If we returned to an already-visited node: we are in a lid-loop -> exit
if { [info exists Guid2DrPath($nodeGuid)] } {
PrintPath $_path2Start
inform "-E-ibdiagpath:lid.route.loop" \
-DirectPath "$Guid2DrPath($nodeGuid)" -lid $destinationLid
} else {
set Guid2DrPath($nodeGuid) $DirectPath
}
if { $nodeType != "SW" } {
set exitPort $entryPort
} else {
if {[catch {set FDBsBlock [SmMadGetByDr LftBlock dump "$DirectPath" $blockNum]}]} {
if { $errorCode == 0x801c } {
PrintPath $_path2Start
inform "-E-ibdiagpath:fdb.block.unreachable" \
-errorcode $errorCode -command "$cmd"
}
break;
}
if {[PathIsBad $DirectPath] > 1} { break; }
set exitPort [expr [lindex $FDBsBlock $LidMod64]]
if { ($exitPort == "0x00") } {
PrintPath $_path2Start
inform "-E-ibdiagpath:lid.route.deadend" \
-DirectPath [lrange $DirectPath 0 end] -lid $destinationLid -port [lindex $DirectPath 0]
}
if { ($exitPort == "0xff")} {
PrintPath $_path2Start
inform "-E-ibdiagpath:fdb.bad.value" \
-lid $destinationLid \
-command "smLftBlockMad getByDr \{$DirectPath\} $blockNum" \
-entry "\#$LidMod64" -value $exitPort
}
}
}
if {[catch {set tmp_log [GetParamValue LOG $DirectPath -port $exitPort]}]} {
set bool_badPathFound 1
break;
}
if { $tmp_log == "DWN" } {
PrintPath $_path2Start
inform "-E-ibdiagpath:link.down" \
-DirectPath "$DirectPath" -port $exitPort
}
set DirectPath [join "$DirectPath $exitPort"]
# Note that lidGuidDev are corresponding to the "old" DirectPath
# replace here the port number of the current device
set tmp_drPath [lrange $DirectPath 0 end-1]
set tmp_port $exitPort
set localLidGuidDev [DrPath2Name $tmp_drPath $nameLast -fullName -port $tmp_port]
set PATH_DUMP($DirectPath,From) "$localLidGuidDev"
lappend PATH_DUMP(list,DirectPath) "$DirectPath,From"
# inform "-I-ibdiagpath:read.lft.from" "$localLidGuidDev"
############################################################
}
PrintPath $_path2Start
if {([PathIsBad $DirectPath] > 1) || $bool_badPathFound} {
DumpBadLinks
catch { close $G(logFileID) }
inform "-E-ibdiagpath:route.failed" -DirectPath $tmp_drPath -port $tmp_port
}
return [list $DirectPath]
}
proc PrintPath {_Path2Start args} {
global PATH_DUMP G
set bool_ignoreFirst [BoolWordInList bool_ignoreFirst $args]
if {$G(var:tool.name) == "ibcfg"} {
return -1
}
if {![info exists PATH_DUMP]} {
return -1
}
if { ($_Path2Start != "") && [GetParamValue Type $_Path2Start] != "SW" } {
set lidGuidDev $PATH_DUMP($_Path2Start,To)
inform "-I-ibdiagpath:read.lft.from" "$lidGuidDev"
set lidGuidDev $PATH_DUMP($_Path2Start,From)
inform "-I-ibdiagpath:read.lft.to" "$lidGuidDev"
}
foreach drPath $PATH_DUMP(list,DirectPath) {
set DirectPath [join [lrange [split $drPath ,] 0 end-1]]
lappend listOfNames \"[lindex $PATH_DUMP($drPath) 0]\"
}
set max_nameLength [GetLengthMaxWord $listOfNames]
if {$G(bool:topology.matched)} {
foreach drPath $PATH_DUMP(list,DirectPath) {
set lidGuidDev $PATH_DUMP($drPath)
set lidGuidDev [join [lreplace $lidGuidDev 0 0 [AddSpaces \"[lindex $lidGuidDev 0]\" $max_nameLength]]]
set PATH_DUMP($drPath) $lidGuidDev
}
}
foreach drPath $PATH_DUMP(list,DirectPath) {
set tmp_drPath [join [lrange [split $drPath ,] 0 end-1]]
if {[llength $tmp_drPath] <= [llength $_Path2Start]} {
continue
}
set lidGuidDev $PATH_DUMP($drPath)
if {[lindex [split $drPath ,] end] == "From"} {
if {$bool_ignoreFirst} {
set bool_ignoreFirst 0
} else {
inform "-I-ibdiagpath:read.lft.from" "$lidGuidDev"
}
} else {
inform "-I-ibdiagpath:read.lft.to" "$lidGuidDev"
}
}
return 0
}
##############################
##############################
# SYNOPSIS DiscoverHiddenFabric
# FUNCTION Call the second run of discovery, this time for all the bad links
# INPUTS NULL
# OUTPUT 0 if the DiscoverFabric method wasn't called, 1 if it did
proc DiscoverHiddenFabric {} {
global G
if {![info exists G(data:list.bad.paths)]} {
return 1
}
set startIndex [llength $G(data:list.direct.path)]
foreach badPath $G(data:list.bad.paths) {
lappend G(data:list.direct.path) $badPath
}
set G(bool:hidden.fabric.discovered) 1
DiscoverFabric 1 $startIndex
return 0
}
##############################
##############################
# SYNOPSIS SetNeighbor
# FUNCTION
# setting the Neighbor info on the two end node
# INPUTS
# _directPath _nodeGuid _entryPort
# OUTPUT
# return 0/1 if Neighbor exists/not exists (resp.)
# DATAMODEL
# Neighbor(<NodeGuid>:<PN>)
proc SetNeighbor {_directPath _nodeGuid _entryPort} {
global G Neighbor
set prev_drPath [lrange $_directPath 0 end-1]
if {![llength $_directPath] } {
return 1
}
if {![info exists G(data:guid.by.dr.path.$prev_drPath)]} {
return 1
}
set tmp_remoteSidePortGuid $G(data:guid.by.dr.path.$prev_drPath)
if {![info exists G(data:NodeGuid.$tmp_remoteSidePortGuid)]} {
return 1
}
set tmp_RemoteSideNodeGuid $G(data:NodeGuid.$tmp_remoteSidePortGuid)
if {[info exists Neighbor($_nodeGuid:$_entryPort)]} {
return 0
}
if {[info exists Neighbor($tmp_RemoteSideNodeGuid:[lindex $_directPath end])]} {
return 0
}
set Neighbor($_nodeGuid:$_entryPort) "$tmp_RemoteSideNodeGuid:[lindex $_directPath end]"
set Neighbor($tmp_RemoteSideNodeGuid:[lindex $_directPath end]) "$_nodeGuid:$_entryPort"
return 1
}
##############################
##############################
# SYNOPSIS Bool_SameDevice
# FUNCTION
# INPUTS
# OUTPUT
proc Bool_SameDevice {_dr1 _dr2} {
global G
if {![info exists G(data:rev.dr.path.$_dr2)]} {
return 0
}
set tmp_revDr $G(data:rev.dr.path.$_dr2)
set tmp_badLinksDetectionValue $G(bool:bad.links.detected)
set G(bool:bad.links.detected) 0
for {set i 0} {$i < [llength $tmp_revDr]} {incr i} {
set tmp_drPath_1 "$_dr1 [lrange $tmp_revDr 0 $i]"
set tmp_drPath_2 "$_dr2 [lrange $tmp_revDr 0 $i]"
if {[catch {set tmp_nodeInfo_1 [SmMadGetByDr NodeInfo dump "$tmp_drPath_1"]}]} {
set G(bool:bad.links.detected) $tmp_badLinksDetectionValue
return -1
} else {
if {[catch {set tmp_nodeInfo_2 [SmMadGetByDr NodeInfo dump "$tmp_drPath_2"]}]} {
set G(bool:bad.links.detected) $tmp_badLinksDetectionValue
return -1
}
if {$tmp_nodeInfo_1 != $tmp_nodeInfo_2} {
set G(bool:bad.links.detected) $tmp_badLinksDetectionValue
return 0
}
}
}
set G(bool:bad.links.detected) $tmp_badLinksDetectionValue
return 1
}
##############################
# SYNOPSIS Bool_DuplicateGuids
# FUNCTION Check if a given Node carries a Dupilcate GUID.
# Using the Neighbor DB to compare the old neighbors to
# the given Node neighbors
# INPUTS the node nodeGUID, and the directPath to the node from the
# local system node
# up to $_checks neighbors are being matched
# OUTPUT 1 for duplicate 0 for not
proc Bool_DuplicateGuids { _NodeGuid _DirectPath _prev_drPath {_checks 1}} {
global Neighbor G
set i 0
set noResponseToMad 0
# we can not DR out of HCA so we can return 1 anyway
## If Checking a HCA, one cannot enter and exit the HCA,
### So instead we will run the smNodeInfoMad on the partiel Dr.
switch -- [Bool_SameDevice $_DirectPath $_prev_drPath ] {
"-1" -
0 {return 1}
1 {return 0}
}
foreach name [array names Neighbor $_NodeGuid:*] {
if {$i >= $_checks} { break; }
incr i
if {[regexp {0x[0-9a-fA-F]+:([0-9]+)} $name all PN]} {
lappend portList $PN
#Found A port that once wasn't down and now it is DWN
#if { [GetParamValue LOG $_DirectPath -port $PN] == "DWN"} { return 1 }
#All known exits return error = it's not the same node
# we use SmMadGetByDrNo without detection for bad links, because we assume the direct path
# exists (in order to compare its endNode with the known node endNode)
# and the link is ACTIVE, its not have to be so no need fr setting that dr
# as Bad link also.
set tmp_badLinksDetectionValue $G(bool:bad.links.detected)
set G(bool:bad.links.detected) 0
if {[catch {set NodeInfo [SmMadGetByDr NodeInfo dump "$_DirectPath $PN"]}]} {
set G(bool:bad.links.detected) $tmp_badLinksDetectionValue
incr noResponseToMad
continue;
}
set G(bool:bad.links.detected) $tmp_badLinksDetectionValue
set NodeGuid [GetWordAfterFlag $NodeInfo "-node_guid"]
set EntryPort [GetEntryPort "$_DirectPath $PN" -byNodeInfo $NodeInfo]
scan [split $Neighbor($name) :] {%s %s} nodeGuid entryPort
set nodeGuid [GetRealPort $nodeGuid]
if {"$nodeGuid:$entryPort" != "$NodeGuid:$EntryPort"} {
return 1
}
}
}
# if all the checks ended up with no response - we assume it's
# not the same node
if {$i == $noResponseToMad} {
return 1
}
return 0
}
##############################
# SYNOPSIS DumpBadLidsGuids
# FUNCTION Dump the retrived info during discovery, regarding
# Duplicate Guids and lids, and zero values
proc DumpBadLidsGuids { args } {
global G DUPandZERO errorInfo CSV_ERRORS
set bool_informBadGuidsReport 1
set bool_skipZeroGuids [CheckSkipStatus zero_guids]
set bool_skipDupGuids [CheckSkipStatus dup_guids]
### Checking for zero and duplicate IDs
foreach entry [lsort [array names DUPandZERO]] {
regexp {^([^:]*),([^:]*)$} $entry all value ID
if {($value == 0) && ($ID != "LID")} {
if {$bool_skipZeroGuids} {
continue;
}
} else {
if {$bool_skipDupGuids} {
continue;
}
}
if { ( ( [llength $DUPandZERO($entry)]==1 ) || ( $ID=="SystemGUID" ) ) && ( $value != 0 ) } {
unset DUPandZERO($entry)
continue;
}
if {($ID == "NodeGUID") || ($ID == "PortGUID")} {
set G(Fatal.err.found) 1
}
foreach DirectPath $DUPandZERO($entry) {
if {[catch {set devType [GetParamValue Type $DirectPath]} e]} {
continue;
}
if {$devType == "SW"} {
lappend listOfNames \"[DrPath2Name $DirectPath]\"
} else {
if {$DirectPath == ""} {
lappend listOfNames "$G(var:desc.local.dev) \"[DrPath2Name $DirectPath]\""
} else {
lappend listOfNames \"[DrPath2Name $DirectPath]\"
}
}
}
}
inform "-I-ibdiagnet:bad.guids.header"
if {![info exists listOfNames]} {
if {$bool_skipZeroGuids || $bool_skipDupGuids} {
inform "-I-reporting:skip.set.no.report"
} else {
inform "-I-ibdiagnet:no.bad.guids"
}
return 1
}
proc compareEntries {a b} {
scan [split $a ,] {%s %s} value_0 type_0
scan [split $b ,] {%s %s} value_1 type_1
if {$type_0 == $type_1} {
return [expr ($value_0 > $value_1 )]
}
if {$type_0 == "SystemGUID"} { return 1}
if {$type_1 == "SystemGUID"} { return 0}
if {$type_0 == "LID"} { return 1}
if {$type_1 == "LID"} { return 0}
if {$type_0 == "NodeGUID" } {return 1}
if {$type_1 == "NodeGUID" } {return 0}
return 0
}
#### Alliming the report
foreach entry [lsort -command compareEntries [array names DUPandZERO]] {
regexp {^([^:]*),([^:]*)$} $entry all value ID
# llength will be diffrent then 1 when duplicate guids acored
if { ( ( [llength $DUPandZERO($entry)]==1 ) || ( $ID=="SystemGUID" ) ) \
&& ( $value != 0 ) } {
continue;
}
set bool_informBadGuidsReport 0
set idx 0
set paramList ""
foreach DirectPath $DUPandZERO($entry) {
append paramList " -DirectPath${idx} \{$DirectPath\}"
incr idx
}
set maxName_Port [GetLengthMaxWord $listOfNames]
if {$maxName_Port < 3} {
set maxName_Port 0
} else {
incr maxName_Port 4
}
# use eval on the next line because $paramList is a list
if {[catch {eval inform "-E-discover:zero/duplicate.IDs.found" -ID $ID -value $value $paramList -maxName_Port $maxName_Port} e]} {
continue;;
}
}
if {$bool_informBadGuidsReport} {
inform "-I-ibdiagnet:no.bad.guids"
}
return 0
}
##############################
# SYNOPSIS DumpBadLinksLogic
# FUNCTION Dump to information retrived during discovery regarding all the
# the links which are in INI state
proc DumpBadLinksLogic {} {
global G
inform "-I-ibdiagnet:bad.link.logic.header"
if {[CheckSkipStatus logical_state]} {
inform "-I-reporting:skip.set.no.report"
return 1
}
set bool_informBadLogicLinksReport 1
if {[info exists G(data:list.links.not.active.logical.state)]} {
foreach link $G(data:list.links.not.active.logical.state) {
if {[PathIsBad $link] > 1} {continue;}
set paramlist "-DirectPath0 \{[lrange $link 0 end-1]\} -DirectPath1 \{$link\}"
eval inform "-W-ibdiagnet:report.links.init.state" $paramlist
set bool_informBadLogicLinksReport 0
}
}
if {$bool_informBadLogicLinksReport} {
inform "-I-ibdiagnet:no.bad.link.logic"
}
return 0
}
##############################
# SYNOPSIS RereadLongPaths
# FUNCTION Send $G(argv:count) MADs that don't wait for replies
# and then read all performance counters
proc RereadLongPaths {} {
# send $G(argv:count) MADs that don't wait for replies
# and then read all performance counters
## Retrying discovery multiple times (according to the -c flag)
global G
# The initial value of count is set to 4, since every link is traversed at least 3 times:
# 1 NodeInfo, 1 PortInfo (once for every port), 1 NodeDesc
set init_madsPerLink 4
if { $init_madsPerLink > $G(argv:count) } {
return 1
}
inform "-V-discover:long.paths"
foreach DirectPath [lrange $G(data:list.direct.path) 1 end] {
# start from the second path in $G(data:list.direct.path), because the first is ""
# For the retries we use only the longest paths
if { [lsearch -regexp $G(data:list.direct.path) "^$DirectPath \[0-9\]"] == -1 } {
for { set count $init_madsPerLink } { $count <= $G(argv:count) } { incr count } {
if {[PathIsBad $DirectPath]} { break; }
if {[catch { SmMadGetByDr NodeDesc dump "$DirectPath"}]} { break; }
}
}
}
return 0
}
##############################
##############################
# SYNOPSIS GeneralInfoQuery
# FUNCTION Query all known nodes, then Send $G(argv:count) MADs that don't wait for replies
# and then read general info list for nodes that supports it
proc GeneralInfoQuery {} {
global G GENERAL_INFO
inform "-I-ibdiagnet:general.info.report.header"
if {[CheckSkipStatus dev_info]} {
inform "-I-reporting:skip.set.no.report"
return 1
}
# Inform that the local link is in init state
if {[info exists G(data:list.links.not.active.logical.state)]} {
if {[llength [lindex $G(data:list.links.not.active.logical.state) 0]] == 1} {
inform "-W-ibdiagnet:local.link.in.init.state"
return 2
}
} else {
set G(data:list.links.not.active.logical.state) ""
}
foreach directPath [lrange $G(data:list.direct.path) 0 end] {
if {![llength $directPath]} {
# When running from a switch - may get 0 length direct routes
# HACK: Skip these paths - do not query SMA port on switch
continue
}
# start from the second path in $G(data:list.direct.path), because the first is ""
# Ignore those links which has state INIT
set bool_drPathIsInit 0
if {[PathIsBad $directPath] > 1} { continue; }
for {set i 0} {$i < [llength $directPath]} {incr i} {
if {[lsearch $G(data:list.links.not.active.logical.state) [lrange $directPath 0 $i]] != -1} {
set bool_drPathIsInit 1
break;
}
}
if {$bool_drPathIsInit} {continue;}
if {[info exists tmp_lid]} {
unset tmp_lid
}
if {[catch {set tmp_node_guid [GetParamValue NodeGUID $directPath]}]} {
inform "-E-ibdiagpath:generalInfoGet.db.error" [concat [concat {NodeGUID}] $directPath]
}
if {![catch {set tmp_ven_id [GetParamValue VenID $directPath]}]} {
if {$tmp_ven_id != "0x0002c9"} { #not mellanox
continue
}
} else {
inform "-E-ibdiagpath:generalInfoGet.db.error" [concat [concat {VenID}] $directPath]
}
#here we know we are mellanox vendor
if {![catch {set tmp_node_type [GetParamValue Type $directPath]}]} {
if {$tmp_node_type != "SW"} { #not switch
continue
}
} else {
inform "-E-ibdiagpath:generalInfoGet.db.error" [concat [concat {Type}] $directPath]
}
#here we know we are mellanox vendor + SW
if {![catch {set tmp_dev_id [GetParamValue DevID $directPath]}]} {
if {$tmp_dev_id == "0xa87c"} { #InfiniScale generation 1
continue
}
} else {
inform "-E-ibdiagpath:generalInfoGet.db.error" [concat [concat {DevID}] $directPath]
}
#here we know we are mellanox vendor + SW + not InfiniScale generation 1
#no exception should be recieved in the next line by trying to getting LID without give entry port as args
#because if we aren't SW we did already continue and in case we are SW, we will get lid of port0 by default
if {![catch {set tmp_lid [GetParamValue LID $directPath]}]} {
if {[info exists GENERAL_INFO($tmp_node_guid.desc_list)]} {
#we can reach same SW from multiple direct routes, not query by MADs twice
continue
}
#add node to array
lappend GENERAL_INFO(found_nodes) $tmp_node_guid
#create desc list for this node
set GENERAL_INFO($tmp_node_guid.desc_list) [lappend tmp_desc_list "node_name" [DrPath2Name $directPath -nameOnly] "node_guid" $tmp_node_guid "lid" $tmp_lid]
#collect general_info_list for this node
if {[catch { set GENERAL_INFO($tmp_node_guid.general_info_list) [join [GetGeneralInfoList $tmp_lid]] } e] } {
inform "-E-ibdiagpath:generalInfoGet.failed" [concat $tmp_lid]
continue
}
} else {
inform "-E-ibdiagpath:generalInfoGet.db.error" [concat [concat {LID}] $directPath]
}
}
writeCSVGeneralInfoFile
}
##############################
# SYNOPSIS PMCounterQuery
# FUNCTION Query all known ports, then Send $G(argv:count) MADs that don't wait for replies
# and then read all performance counters again
proc PMCounterQuery {} {
global G PM_DUMP
inform "-V-discover:long.paths"
inform "-I-ibdiagnet:pm.counter.report.header"
if {[CheckSkipStatus pm]} {
inform "-I-reporting:skip.set.no.report"
return 1
}
set bool_informPMcounterReport 1
# Inform that the local link is in init state
if {[info exists G(data:list.links.not.active.logical.state)]} {
if {[llength [lindex $G(data:list.links.not.active.logical.state) 0]] == 1 } {
inform "-W-ibdiagnet:local.link.in.init.state"
RereadLongPaths
return 2
}
} else {
set G(data:list.links.not.active.logical.state) ""
}
foreach directPath [lrange $G(data:list.direct.path) 0 end] {
if {![llength $directPath]} {
# When running from a switch - may get 0 length direct routes
# HACK: Skip these paths - do not query SMA port on switch
continue
}
# start from the second path in $G(data:list.direct.path), because the first is ""
# Ignore those links which has state INIT
set bool_drPathIsInit 0
set entryPort [GetEntryPort $directPath]
if {[PathIsBad $directPath] > 1} { continue; }
for {set i 0} {$i < [llength $directPath]} {incr i} {
if {[lsearch $G(data:list.links.not.active.logical.state) [lrange $directPath 0 $i]] != -1} {
set bool_drPathIsInit 1
break;
}
}
if {$bool_drPathIsInit} {continue;}
if {[info exists tmp_LidPort]} {
unset tmp_LidPort
}
# preparing database for reading PMs
if {![catch {set tmp_lid [GetParamValue LID $directPath -port $entryPort]}]} {
if { $tmp_lid != 0 } {
if {[info exists G(argv:reset.performance.monitors)]} {
catch {pmClrAllCounters $tmp_lid $entryPort}
}
set tmp_LidPort "$tmp_lid:$entryPort"
set LidPort($tmp_LidPort) $directPath
}
}
# Initial reading of Performance Counters
if {[info exists tmp_LidPort]} {
if {[catch { set OldValues($tmp_LidPort) [join [GetPmList $tmp_LidPort]] } e] } {
inform "-E-ibdiagpath:pmGet.failed" [split $tmp_LidPort :]
}
}
set tmp_LidPort "DannyZarko"
set entryPort [lindex $directPath end]
set tmp_drPath [join [lreplace $directPath end end]]
if {[llength $tmp_drPath] == 0} {
set tmp_drPath ""
}
unset tmp_LidPort
if {![catch {set tmp_lid [GetParamValue LID $tmp_drPath -port $entryPort]}]} {
if { $tmp_lid != 0 } {
if {[info exists G(argv:reset.performance.monitors)]} {
catch {pmClrAllCounters $tmp_lid $entryPort}
}
set tmp_LidPort "$tmp_lid:$entryPort"
set LidPort($tmp_LidPort) $tmp_drPath
}
}
# Initial reading of Performance Counters
if {[info exists tmp_LidPort]} {
if {[catch { set OldValues($tmp_LidPort) [join [GetPmList $tmp_LidPort]] } e] } {
inform "-E-ibdiagpath:pmGet.failed" [split $tmp_LidPort :]
}
}
}
RereadLongPaths
foreach lidPort [array names LidPort] {
if {![info exists OldValues($lidPort)]} {continue;}
set entryPort [lindex [split $lidPort :] 1]
set directPath $LidPort($lidPort)
set name [DrPath2Name $directPath -fullName -port $entryPort]
# Final reading of Performance Counters
if [catch { set NewValues($lidPort) [join [GetPmList $lidPort]] }] {
inform "-E-ibdiagpath:pmGet.failed" [split $lidPort :]
}
set pmList ""
if {![info exists NewValues($lidPort)]} {continue;}
for { set i 0 } { $i < [llength $NewValues($lidPort)] } { incr i 2 } {
set oldValue [lindex $OldValues($lidPort) [expr $i + 1]]
set newValue [lindex $NewValues($lidPort) [expr $i + 1]]
lappend pmList [expr $newValue - $oldValue]
}
inform "-V-ibdiagpath:pm.value" "$name $pmList"
set badValues ""
## -pm option
# set a list of all pm counters and reduced each one which is reported as an error
set pmCounterList [lrange $G(var:list.pm.counter) 0 end-1]
foreach entry [ComparePMCounters $OldValues($lidPort) $NewValues($lidPort)] {
scan $entry {%s %s %s} parameter err value
switch -exact -- $err {
"valueChange" {
regsub -- "->" $value "-" exp
unset oldValue
unset newValue
scan [split $exp -] {%s %s} oldValue newValue
if {![info exists newValue]} {
set newValue $oldValue
set oldValue 0
}
set diffValue [expr $newValue - $oldValue]
lappend badValues "$parameter=0x[format %x $newValue] \(Increase by $diffValue during $G(var:tool.name) scan.\)"
}
"overflow" {
lappend badValues "$parameter=$value \(overflow\)"
}
"exceeded" {
set value 0x[format %x $value]
lappend badValues "$parameter=$value"
}
}
}
if { $badValues != "" } {
set bool_informPMcounterReport 0
inform "-W-ibdiagnet:bad.pm.counter.report" -DirectPath0 $directPath -listOfErrors $badValues -port0 $entryPort
}
if {[info exists G(argv:performance.monitors)]} {
set dr_port $directPath:$entryPort
lappend PM_DUMP(list_dr_port) $dr_port
set PM_DUMP($dr_port,pmCounterList) $pmCounterList
set PM_DUMP($dr_port,pmCounterValue) $NewValues($lidPort)
}
}
if {$bool_informPMcounterReport} {
inform "-I-ibdiagnet:no.pm.counter.report"
}
if {[info exists G(argv:performance.monitors)]} {
writePMFile
}
return 0
}
proc RunPkgProcs {} {
global PKG_FLAGS G
### RunPkgProcs- Execute external pkg procs
## - Step1: Create DB and check validation
## Execute external pkg procs - Step1.0: If array / list of flags doesn't exists return 1
if {![info exists PKG_FLAGS] || ![info exists PKG_FLAGS(data:list.flags)]} {
return 1
}
## Execute external pkg procs - Step1.1: Create list of execution procs
set tmp_listOfProcs ""
set listOfProcs [array names PKG_FLAGS -regexp "\[^.\]+.run"]
## Execute external pkg procs - Step1.2: Create list of exteranl flags
set tmp_listOfFlags ""
set listOfFlags $PKG_FLAGS(data:list.flags)
## Execute external pkg procs - Step1.3: If one list is empty, retun 1
if {![llength $listOfProcs] || ![llength $listOfFlags]} {
return 1
}
## Execute external pkg procs - Step1.4: Create list of external flags provided (By user/default)
foreach tmp_flag $listOfFlags {
if {[info exists G(argv:[string trimleft $tmp_flag -])]} {
lappend tmp_listOfFlags $tmp_flag
}
}
set listOfFlags $tmp_listOfFlags
set tmp_listOfFlags ""
## Execute external pkg procs - Step1.4: Create list of external procs to run
foreach tmp_flag $listOfFlags {
if {[lsearch $listOfProcs data:${tmp_flag}.run] != -1} {
lappend tmp_listOfProcs $PKG_FLAGS(data:${tmp_flag}.run)
lappend tmp_listOfFlags $tmp_flag
}
}
set listOfProcs $tmp_listOfProcs
set listOfFlags $tmp_listOfFlags
### Now the list will match places flagName<->procName
## Execute external pkg procs - Step1.5: Sort procs by order of apperance
# TODO
## Execute external pkg procs - Step2: Start execution for each remaining
for {set i 0} {$i < [llength $listOfFlags]} {incr i} {
set tmp_flag [lindex $listOfFlags $i]
set tmp_val $G(argv:[string trimleft $tmp_flag -])
regexp {^::[^:]+::([^ ]*)} $PKG_FLAGS(data:$tmp_flag.parse) . tmp_procParse
if {$tmp_procParse != ""} {
if {[$PKG_FLAGS(data:$tmp_flag.parse) $tmp_val] != 0} {
continue
}
}
set bool_firstReport 0
inform "-I-ibdiagnet:external.flag.execute.header" -flag $tmp_flag
set tmp_proc [lindex $listOfProcs $i]
set bool_localPort 1
foreach directPath $G(data:list.direct.path) {
if {[llength $directPath] == 0 } {
set list_drPath_entryPort "$directPath:[GetEntryPort $directPath]"
} else {
set list_drPath_entryPort [list [lrange $directPath 0 end-1]:[lindex $directPath end]]
lappend list_drPath_entryPort $directPath:[GetEntryPort $directPath]
}
foreach drPath_entryPort $list_drPath_entryPort {
regexp {^([^:]*):(.+)$} $drPath_entryPort . directPath entryPort
if {($directPath == "") && !$bool_localPort} {
continue;
} else {
set bool_localPort 0
}
## Execute external pkg procs - Step2.0: Create info to send to tmp_proc
if {[PathIsBad $directPath] > 1 } {continue; }
set tmp_portInfo [lstInfo port $directPath $entryPort]
set res "-Type [lindex $tmp_portInfo 0]"
foreach tmp_listEntry [lrange $tmp_portInfo 1 end] {
catch {unset $field}
catch {unset $value}
scan [split $tmp_listEntry :] {%s %s} field value
if {(![info exists field]) || (![info exists value]) || !(([llength [split $tmp_listEntry :]] == 2) && ([llength $tmp_listEntry] == 1)) } {
continue
}
lappend res -$field
lappend res $value
}
lappend res -name
lappend res [DrPath2Name $directPath -nameLast -fullName -port $entryPort]
lappend res -dr
lappend res "$directPath"
## Execute external pkg procs Step2.1: If current flag has check procedure run it.
regexp {^::[^:]+::([^ ]*)} $PKG_FLAGS(data:$tmp_flag.check) . tmp_procCheck
if {$tmp_procCheck != ""} {
if {[$PKG_FLAGS(data:$tmp_flag.check) $tmp_val $res] != 0} {
continue
}
}
## Execute external pkg procs Step2.2: Execute flag run procedure
$tmp_proc $tmp_val $res
}
}
## Execute external pkg procs Step2.3: If current flag has dump procedure run it.
regexp {^::[^:]+::([^ ]*)} $PKG_FLAGS(data:$tmp_flag.dump) . tmp_procDump
if {$tmp_procDump != ""} {
$PKG_FLAGS(data:$tmp_flag.dump) $tmp_val
set bool_firstReport 1
}
if {!$bool_firstReport} {
inform "-I-ibdiagnet:external.flag.execute.no.report"
}
}
return 0
}
### DZ: UP TO HERE VERIFIED
#####################################################################
### GENERAL PURPOSE PROCs
######################################################################
##############################
# SYNOPSIS BoolWordInList word list
# FUNCTION Indicates whether $word is a word in $list
# INPUTS a string $word and a list $list#
# OUTPUT 1 or 0 - if $word is or isn't a word in $list (resp.)
proc BoolWordInList { word list } {
return [expr [lsearch -exact $list $word] >= 0 ]
}
##############################
##############################
# SYNOPSIS RemoveElementFromList
# FUNCTION remove an entry from a list
# INPUTS original list _word and the unrequierd entry _element
# OUTPUT the orignal list if if $_element isn't in $_list.
proc RemoveElementFromList {_list _element } {
set tmpIndex [lsearch -exact $_list $_element]
if {$tmpIndex == -1} { return $_list}
return [lreplace $_list $tmpIndex $tmpIndex]
}
##############################
##############################
# SYNOPSIS GetWordAfterFlag list flag
# FUNCTION Returns the entry in $list that is right after $flag (if exists)
# INPUTS a list $list and a string $flag
# OUTPUT a srting, which is the word in $list which is right after $flag
# - if exists - if not, the empty string is returned.
proc GetWordAfterFlag { list flag } {
if {[set index [expr [lsearch -exac $list $flag] +1]]} {
return [lindex $list $index]
}
return ""
}
##############################
##############################
# SYNOPSIS Bar char length
# FUNCTION Return a string made of $length times $char
# INPUTS a string $char and an integer $length
# OUTPUT a srting, which is made of $length times duplicates of $char
proc Bar { char length } {
return [string repeat $char $length]
}
##############################
##############################
# SYNOPSIS AddZeroes num length
# FUNCTION adds zeroes to the LHS of $number for it to be of string length
# $length
# INPUTS a number $num and an integer $length
# OUTPUT a srting, of length $length made of padding $num with zeroes on
# the LHS.If the length of $num is greater than $length,
# the procedure will return $num.
proc AddZeroes { num length } {
return "[Bar 0 [expr $length - [string length $num]]]$num"
}
##############################
##############################
# SYNOPSIS RemoveZeroes num
# FUNCTION erase all zeroes at the LHS of $num. The number "0" returns "0"
# (and not "")
# INPUTS an integer $length
# OUTPUT a number, that is made of erasing all zeroes at the LHS of $num.
# If $num == 0, the procedure returns 0
proc RemoveZeroes { num } {
regsub {^0*(.+)$} $num {\1} num
return $num
}
##############################
##############################
# SYNOPSIS Hex2Bin hex_list
# FUNCTION turns a list of hexa munbers into a list of binary numbers
# INPUTS a list $list of hexadecimal numbers
# OUTPUT a list, which is made of the numbers of $list, represented in
# Binary base.
proc Hex2Bin { hex_list } {
set bin_list ""
array set hexbit2bin {
0 0000 1 0001 2 0010 3 0011
4 0100 5 0101 6 0110 7 0111
8 1000 9 1001 a 1010 b 1011
c 1100 d 1101 e 1110 f 1111
}
foreach hex $hex_list {
regsub {^0x} [string tolower $hex] {} hex
set bin ""
foreach hbit [split $hex ""] {
append bin $hexbit2bin($hbit)
}
lappend bin_list $bin
}
return $bin_list
}
##############################
##############################
# SYNOPSIS GetLengthMaxWord _list
# FUNCTION return the char length of the maximum word from the list
# INPUTS a list of words
# OUTPUT the length of te longest word
proc GetLengthMaxWord {_list} {
set maxLength 0
foreach field $_list {
if {[string length $field] > $maxLength } {
set maxLength [string length $field]
}
}
return $maxLength
}
##############################
##############################
# SYNOPSIS AddSpaces _word _desiredLength
# FUNCTION addind requierd amount of spaces
# INPUTS the original word, and the amount of spaces to append to it
# OUTPUT word + spaces
proc AddSpaces {_word _desiredLength} {
set wordLength [string length $_word]
if {$wordLength >= $_desiredLength } {
return $_word
} else {
return "$_word[string repeat " " [expr $_desiredLength - $wordLength]]"
}
}
##############################
##############################
# SYNOPSIS ProcName args (<- args may be a positive integer)
# FUNCTION Return the name of the calling procedure
# INPUTS optinally - a positive integer
# OUTPUT the name of the calling procedure
# (if $args != "" -> the name of the calling procedure $args levels up)
proc ProcName { args } {
set upLevels 0
if { $args != "" } { set upLevels $args }
return [lindex [info level [expr [info level] -1 -$upLevels]] 0]
}
##############################
# get a list of numbers and generate a nice consolidated sub list
proc groupNumRanges {nums} {
if {[llength $nums] <= 1} {
return [lindex $nums 0]
}
set start -1
set res ""
if {[catch {set snums [lsort -dictionary $nums]}]} {
set snums [lsort $nums]
}
set last [lrange $snums end end]
set start [lindex $snums 0]
set end $start
foreach n $snums {
if {([RemoveZeroes $n] > [RemoveZeroes $end] + 1)} {
if {$start == $end} {
append res "$end,"
} else {
append res "$start..$end,"
}
set start $n
set end $n
} else {
set end $n
}
}
if {$start == $end} {
append res "$end,"
} else {
append res "$start..$end,"
}
return "\[[string range $res 0 end-1]\]"
}
# process every group by splitting it to pre num and post
# then look for matches and build next groups
proc groupingEngine {groups} {
set res {}
foreach group $groups {
set idx [lindex $group 0]
set word [lindex $group 1]
# try to find a number on the right of the idx:
set prefix [string range $word 0 [expr $idx -1]]
set suffix [string range $word $idx end]
if {![regexp {([^0-9]*)([0-9]+)(.*)} $suffix d1 w1 num w3]} {
# no number - just keep this group
lappend res $group
continue;
}
append prefix $w1
set suffix $w3
set key "$prefix $suffix"
lappend NEW_GROUPS($key) $num
}
# go over all new groups and see if we can collapse them:
foreach pNs [lsort [array names NEW_GROUPS]] {
set ranges [groupNumRanges $NEW_GROUPS($pNs)]
foreach range $ranges {
set prefix [lindex $pNs 0]
set suffix [lindex $pNs 1]
set gIndx [expr [string length $prefix] + [string length $range]]
lappend res "$gIndx $prefix$range$suffix"
}
}
return $res
}
# Algorithm:
# split the given words on the first number
# then group on the leading string and sort for continoues
proc compressNames {words} {
# we need to prepare the first stage which is a list of words and
# simply the index 0 for were to start the search for integers
foreach word $words {
lappend groups [list 0 $word]
}
# now call the grouping engine
set prevGroups 0
while {$prevGroups != [llength $groups]} {
set prevGroups [llength $groups]
set groups [groupingEngine $groups]
}
set res ""
foreach group $groups {
lappend res [lindex $group 1]
}
return [join $res]
}
##############################
######################################################################
### Handling Duplicated Guids
######################################################################
##############################
# SYNOPSIS AdvncedMaskGuid
# FUNCTION advenced current mask guid by _increment(default set to 1)
# INPUTS _increment(default set to 1)
# OUTPUT 0 when _increment is not an integer, otherwise return 1
proc AdvncedMaskGuid { {_increment 1}} {
#ASSUME MASK GUID FORMAT IS HARD CODED
global MASK
if {![string is integer $_increment]} {
return 1
}
incr MASK(CurrentMaskGuid) $_increment
return 0
}
##############################
##############################
# SYNOPSIS GetCurrentMaskGuid
# FUNCTION return the current mask guid
# INPUTS NULL
# OUTPUT mask guid
proc GetCurrentMaskGuid {} {
global MASK
set tmp $MASK(CurrentMaskGuid)
set tmp [format %08x $tmp]
set tmp "0xffffffff${tmp}"
return $tmp
}
##############################
##############################
# SYNOPSIS BoolIsMaked { _currentMaskGuid}
# FUNCTION checks if a guid is masked
# INPUTS GUID
# OUTPUT 0 or 1
proc BoolIsMaked { _currentMaskGuid} {
return [string equal 0xffffffff [string range $_currentMaskGuid 0 9]]
}
##############################
##############################
# SYNOPSIS GetRealPort { _currentMaskGuid}
# FUNCTION return the masked guid
# INPUTS mask guid
# OUTPUT real guid
proc GetRealPort { _currentMaskGuid} {
global MASK
set tmpGuid $_currentMaskGuid
while {[BoolIsMaked $tmpGuid]} {
if {[info exists MASK(PortGuid,$tmpGuid)]} {
set tmpGuid $MASK(PortGuid,$tmpGuid)
}
if {[info exists MASK(NodeGuid,$tmpGuid)]} {
set tmpGuid $MASK(NodeGuid,$tmpGuid)
}
}
return $tmpGuid
}
######################################################################
### Detecting bad links on a path on which a packet was lost
######################################################################
##############################
# SYNOPSIS
# PathIsBad path
# FUNCTION
# returns 1 if the direct path $path contains a link that was found to be
# "bad"; it returns 0 otherwise.
# INPUTS
# $path - a direct path: a list of integers separated by spaces - denoting
# a direct route in the fabric (= a list of exit ports, starting at the
# fabric's source node).
# OUTPUT
# 0/1 - according to whether $path has a bad link or not
# DATAMODEL
# the procedure uses the database G(bad,paths,<DirectPath>), which is set in
# "DetectBadLinks", and that denotes the reasons (errors) why the link
# at the end of DirectPath was found to be bad.
proc PathIsBad { path } {
global G
set boolOnlyBadPMs 1
set boolPathIsBad 0
for { set i 0 } { $i < [llength $path] } { incr i } {
if { [info exists G(bad,paths,[lrange $path 0 $i])] } {
set boolPathIsBad 1
# ignore PMcounter types error
foreach arrayEntry $G(bad,paths,[lrange $path 0 $i]) {
if {[lindex $arrayEntry 1] != "badPMs"} {
set boolOnlyBadPMs 0
}
}
}
}
if {$boolPathIsBad} {
if {$boolOnlyBadPMs} {
return 1
} else {
return 2
}
}
return 0
}
##############################
##############################
# SYNOPSIS
# DetectBadLinks starting cgetCmd cmd args
# FUNCTION
# Explores the direct route on which $cmd failed, and detects bad link(s)
# along this path.
# The exploration algorithm:... TODO: fill this in ...
# The bad are then written to the database $G(bad,links,*).
# This procedure is called by "SmMadGetByDr", when the global variable
# $G(bool:bad.links.detected) is set.
# INPUTS
# $status - the last exit status of $cmd
# $cgetCmd - the command that returns the result of $cmd
# $cmd - the name of the command that failed
# $args - the arguments of $cmd
# OUTPUT
# the result data of running $cmd $args - if available;
# if the data in not available, returns with error code 1.
# DATAMODEL
# $G(var:badpath.*) - a database used, which defines various
# parameters for the bad paths exploration: limits and growth rate for
# the retries of trying to run $cmd $args and error threshold to stop it.
# $G(bad,paths,<DirectPath>) - a database used, that denotes the reasons
# (errors) why the link at the end of DirectPath was found to be bad.
# $InfoPm(<PM>) - the width-in-bits of each PM and its error threshold
proc DetectBadLinks { status cgetCmd cmd args } {
global G env
set args [join $args]
set DirectPath [join [lindex $args 0]]
set data -1
if {$status == 0} { set data [eval $cgetCmd] }
inform "-V-ibdiagnet:bad.links.detected" -path "$DirectPath"
# setting retriesStart, retriesEnd, maxnErrors, retriesGrowth
foreach entry [array names G var:badpath.*] {
set name [lindex [split $entry .] end]
set $name $G($entry)
}
inform "-V-ibdiagnet:incremental.bad.links" -path "$DirectPath"
set errors 0
for { set maxnRetries $retriesStart } {( $maxnRetries <= $retriesEnd ) && ( $errors < $maxnErrors ) } { set maxnRetries [expr $maxnRetries * $retriesGrowth] } {
for { set I 0 ; set errors 0 } { ($I < [llength $DirectPath]) && ($errors == 0) } { incr I } {
set ShortPath [lrange $DirectPath 0 $I]
set getCmd [concat "smNodeInfoMad getByDr [list $ShortPath]"]
if {[PathIsBad $ShortPath] > 1 } { break; }
for { set retry 0 } { ($retry < $maxnRetries) && ($errors < $maxnErrors) } { incr retry } {
incr errors [expr [eval $getCmd] != 0]
}
if { ($ShortPath==$DirectPath) && ($retry>$errors)} {
set data [eval $cgetCmd]
}
}
}
# If errors count did not reach $maxnErrors, the path is considered to be OK
if { $errors < $maxnErrors } { return $data }
# If it did - the link at the end of ShortPath is "bad"
if { [llength $ShortPath] <= 1 } {
if { ( $retry == $errors ) } {
inform "-E-localPort:local.port.crashed" -command "$getCmd" -DirectPath0 ""
} else {
inform "-E-localPort:local.port.failed" \
-fails "$errors" -attempts $retry -command "$getCmd"
}
}
if { ( $retry == $errors ) } {
lappend G(bad,paths,$ShortPath) "-error noInfo -command \{$getCmd\}"
inform "-V-badPathRegister" -error noInfo -command "$getCmd"
return -code 1 -errorinfo "Direct Path \"$ShortPath\" is bad = noInfo"
} else {
lappend G(bad,paths,$ShortPath) "-error madsLost -ratio $errors:$retry -command \{$getCmd\}"
}
return $data
}
######################################################################
##############################
proc ComparePMCounters { oldValues newValues args } {
global G
array set InfoPm {
port_select { -width 8 -thresh 0 }
counter_select { -width 16 -thresh 0 }
symbol_error_counter { -width 16 -thresh 1 }
link_error_recovery_counter { -width 8 -thresh 1 }
link_down_counter { -width 8 -thresh 1 }
port_rcv_errors { -width 16 -thresh 1 }
port_rcv_remote_physical_errors { -width 16 -thresh 0 }
port_rcv_switch_relay_errors { -width 16 -thresh 0 }
port_xmit_discard { -width 16 -thresh 10 }
port_xmit_constraint_errors { -width 8 -thresh 10 }
port_rcv_constraint_errors { -width 8 -thresh 10 }
local_link_integrity_errors { -width 4 -thresh 10 }
excesive_buffer_errors { -width 4 -thresh 10 }
vl15_dropped { -width 16 -thresh 10 }
port_xmit_data { -width 32 -thresh 0 }
port_rcv_data { -width 32 -thresh 0 }
port_xmit_pkts { -width 32 -thresh 0 }
port_rcv_pkts { -width 32 -thresh 0 }
}
set errList ""
set pmRequestList ""
if {[info exists G(argv:query.performance.monitors)]} {
set pmRequestList [split $G(argv:query.performance.monitors) {, =}]
}
foreach parameter [array names InfoPm] {
ParseOptionsList $InfoPm($parameter)
if { ! [info exists cfg(thresh)] } { continue; }
if { $cfg(thresh) == 0 } { continue; }
set oldValue [GetWordAfterFlag $oldValues $parameter]
set newValue [GetWordAfterFlag $newValues $parameter]
set delta [expr $newValue - $oldValue]
set overflow 0x[Bar f [expr $cfg(width) / 4]]
if { ( $delta >= $cfg(thresh) ) || ( $oldValue > $newValue ) } {
lappend errList "$parameter valueChange $oldValue->$newValue"
} elseif { ( $oldValue == $overflow ) || ( $newValue == $overflow ) } {
lappend errList "$parameter overflow $overflow"
} elseif {[info exists G(argv:query.performance.monitors)]} {
if {[lsearch $pmRequestList $parameter] != -1} {
set pmTrash [GetWordAfterFlag $pmRequestList $parameter]
if {$newValue >= $pmTrash} {
lappend errList "$parameter exceeded 0x[format %lx $newValue]"
}
} elseif {[lsearch $pmRequestList "all"] != -1} {
set pmTrash [GetWordAfterFlag $pmRequestList "all"]
if {$newValue >= $pmTrash} {
lappend errList "$parameter exceeded 0x[format %lx $newValue]"
}
}
}
}
return $errList
}
##############################
##############################
# SYNOPSIS
# DumpBadLinks
# FUNCTION
# Pretty-printing of the bad links information
# INPUTS
# NULL
# OUTPUT
# Prints to the standard output the list of bad links, with proper
# indentation, and - optionally - with infromation why this link was
# found to be bad.
# DATAMODEL
# G(bad,paths,<DirectPath>) - a database used, that denotes the reasons
# (errors) why the link at the end of DirectPath was found to be bad.
proc DumpBadLinks {} {
global G
if { ! [llength [array names G "bad,paths,*"]] } {
inform "-I-ibdiagnet:no.bad.paths.header"
return
}
inform "-I-ibdiagnet:bad.links.header"
foreach entry [array names G "bad,paths,*"] {
set DirectPath [lindex [split $entry ,] end]
set linkNames "Link at the end of direct route \"[ArrangeDR $DirectPath]\""
#set linkNames "Link at the end of direct route \{$DirectPath\}"
if {[DrPath2Name $DirectPath] != ""} {
append linkNames " \"[DrPath2Name $DirectPath]\""
}
array set BadPathsLinksArray "\{$linkNames\} \{$G($entry)\}"
}
### pretty-printing of a list of links
set LinksList [array names BadPathsLinksArray]
foreach item $LinksList {
set link [lindex $item end]
lappend llen [string length [lindex $link 0]] [string length [lindex $link 1]]
}
set maxLen1 [lindex [lsort -integer $llen] end]
set space(0) " "
set space(1) [Bar " " [string length $space(0)]]
array set prefix {
"names:external" "Cable:"
"names:internal" "Internal link:"
}
foreach kind [array names prefix] {
lappend prefix_llen [string length $prefix($kind)]
}
foreach kind [array names prefix] {
set maxLen0 [lindex [lsort -integer $prefix_llen] end]
set rubberLen0 [expr $maxLen0 - [string length $prefix($kind)]]
set space($kind) "$space(0) $prefix($kind)[Bar " " $rubberLen0]"
}
array set sym {
names:external,conn "="
names:external,cable "-"
names:internal,conn "."
names:internal,cable "."
}
foreach item $LinksList {
set kind [lindex $item 0]
set link [lsort -dictionary [lindex $item end]]
if { [llength $link] == 1 } { lappend link "? (unknown port)" }
if { ! [regexp {[^ ]} [lindex $link 0]] } {
set link [list [lindex $link 1] "? (unknown port)"]
}
if { ! [info exists prefix($kind)] } {
lappend portsList "Z.$item"
set stdoutList(Z.$item) "$space(0) $item"
set stdoutErrs(Z.$item) $BadPathsLinksArray($item)
} else {
regsub {^[^\(]*\((.*)\)$} [lindex $link 0] {\1} p0
lappend portsList $p0
set rubberLen1 [expr $maxLen1 - [string length [lindex $link 0]] + 3]
set cable "$sym($kind,conn)[Bar $sym($kind,cable) $rubberLen1]$sym($kind,conn)"
set stdoutList($p0) "$space($kind) [lindex $link 0] $cable [lindex $link 1]"
set stdoutErrs($p0) $BadPathsLinksArray($item)
}
}
set line ""
foreach item [lsort -dictionary $portsList] {
if { $line != [set line $stdoutList($item)] } {
inform "-I-ibdiagnet:bad.link" -link "$line"
inform "-I-ibdiagnet:bad.link.errors" \
-errors " $space(1) Errors:\n $space(1) [join $stdoutErrs($item) "\n $space(1) "]"
}
}
inform "-I-ibdiagnet:bad.links.err.types"
return 0
}
##############################
# SYNOPSIS RemoveDirectPath
# FUNCTION Removes a direct path from $G(data:list.direct.path)
# - when we in a loop
# - when we enter an allready known switch
# - when we returned on an old link from the other end
proc RemoveDirectPath {_drPath } {
global G
set tmpList $G(data:list.direct.path)
set tmpList [RemoveElementFromList $G(data:list.direct.path) $_drPath ]
set G(data:list.direct.path) $tmpList
if {[info exists G(data:guid.by.dr.path.$_drPath)]} {
unset G(data:guid.by.dr.path.$_drPath)
}
return 0
}
##############################
######################################################################
### SM handling
######################################################################
proc CheckSM {} {
global SM G
set master 3
if {![info exists SM($master)]} {
inform "-I-ibdiagnet:bad.sm.header"
inform "-E-ibdiagnet:SM.none"
} else {
if {[llength $SM($master)] != 1} {
inform "-I-ibdiagnet:bad.sm.header"
inform "-E-ibdiagnet:SM.multiple.master"
foreach element $SM($master) {
set tmpDirectPath [lindex $element 0]
set nodeName [DrPath2Name $tmpDirectPath -port [GetEntryPort $tmpDirectPath]]
if { $tmpDirectPath == "" } {
set nodeName "$G(var:desc.local.dev) : $nodeName"
}
inform "-I-ibdiagnet:SM.report.body" $nodeName [lindex $element 1]
}
}
}
return 0
}
proc DumpSMReport { {_fileName stdout} } {
global SM G
set tmpStateList "not-active dicovering standby master"
for {set i 3} {$i > -1} {incr i -1} {
if {[info exists SM($i)]} {
set SMList [lsort -index 1 -decreasing $SM($i)]
set msg "\n SM - [lindex $tmpStateList $i]"
if {$_fileName == "stdout"} {
inform "-I-ibdiagnet:SM.report.head" [lindex $tmpStateList $i]
} else {
puts $_fileName $msg
}
foreach element $SMList {
set tmpDirectPath [lindex $element 0]
set nodeName [DrPath2Name $tmpDirectPath -port [GetEntryPort $tmpDirectPath] -fullName]
if { $tmpDirectPath == "" } {
set nodeName "$G(var:desc.local.dev) : $nodeName"
}
set msg " $nodeName priority:[lindex $element 1]"
if {$_fileName == "stdout"} {
inform "-I-ibdiagnet:SM.report.body" $nodeName [lindex $element 1]
} else {
puts $_fileName $msg
}
}
}
}
return 0
}
##############################
######################################################################
### Partitions Checking and Reporting
######################################################################
# return the list of all pkeys from the given port
proc GetPortPkeys {drPath portNum numPKeys} {
set numBlocks [expr ($numPKeys + 31) / 32]
set pkeys {}
# get the pkey table of the port
for {set block 0} {$block < $numBlocks} {incr block} {
if {[catch {
set pkeyTable [SmMadGetByDr PkeyTable dump "$drPath" $portNum $block]
} e]} {
inform "-E-ibdiagnet:PKeys.getPkey" $drPath $portNum $block
continue
}
foreach pkey $pkeyTable {
if {[regexp {^0x[0-9a-fA-F]+$} $pkey]} {
lappend pkeys $pkey
}
}
}
return $pkeys
}
# check the rules of partition enforcement on the fabric and report
# Define the G(data:CAPortPKeys:<nodeGuid>:<PN>)
# and G(data:PKeyNodePorts:<pkey-base>) {{<nodeGuid> <PN>} ....}
proc CheckPartitions {} {
global G Neighbor
inform "-I-ibdiagnet:PKeys.report.header"
if {[CheckSkipStatus part]} {
inform "-I-reporting:skip.set.no.report"
return 1
}
# go over all HCA ports and get their PKey tables
foreach nodeGuidPortNum [array names G data:PortGuid.*:*] {
regexp {PortGuid.([^:]+):([^:]+)} $nodeGuidPortNum d1 nodeGuid portNum
set portGuid $G($nodeGuidPortNum)
# we need to examine the NodeInfo to see CA and how many PKey blocks
if {[catch {set nodeInfo $G(data:NodeInfo.$nodeGuid)}]} {
inform "-W-ibdiagnet:PKeys.noNodeInfo" $nodeGuid
continue
}
# ignore switches
set nodeType [GetWordAfterFlag $nodeInfo -node_type]
if {$nodeType == 2} {continue}
set drPath $G(data:dr.path.to.guid.$portGuid)
set numPKeys [GetWordAfterFlag $nodeInfo -partition_cap]
set pkeys [GetPortPkeys $drPath $portNum $numPKeys]
set G(data:CAPortPKeys:$nodeGuid:$portNum) $pkeys
# we might have direct enforcement by the neighbor switch
set neighNodeNPort $Neighbor($nodeGuid:$portNum)
set remPKeys {}
foreach {remNodeGuid remPortNum} [split $neighNodeNPort :] {break}
if {[catch {set remNodeInfo $G(data:NodeInfo.$remNodeGuid)}]} {
inform "-W-ibdiagnet:PKeys.noNodeInfo" $remNodeGuid
} else {
if {[GetWordAfterFlag $remNodeInfo -node_type] == 2} {
# is the remote PortInfo enforcing pkeys:
set portInfo $G(data:PortInfo.$remNodeGuid:$remPortNum)
set opvl_enforce [GetWordAfterFlag $portInfo -vl_enforce]
set outEnforce [expr $opvl_enforce & 0x4]
set inEnforce [expr $opvl_enforce & 0x8]
set remDrPath $G(data:dr.path.to.node.$remNodeGuid)
if {$outEnforce || $inEnforce} {
if {! ($outEnforce && $inEnforce)} {
set swNodeName [DrPath2Name $remDrPath -port [GetEntryPort $remDrPath] -fullName]
inform "-W-ibdiagnet:PKeys.in.out.not.same" $swNodeName $inEnforce $outEnforce
}
# the switch info to see how many pkeys:
if {[catch {set partcap [SmMadGetByDr SwitchInfo -enforce_cap "$remDrPath"]}]} {
inform "-W-ibdiagnet:PKeys.noSwitchInfo" $remNodeGuid $remDrPath
set remPKeys {}
} else {
set remPKeys [GetPortPkeys $remDrPath $remPortNum $partcap]
if {[llength $remPKeys] == 0} {
set remPKeys 0x0
}
}
}
}
}
# filter pkeys by remote port if exist
if {[info exists REM_PKEY]} {unset REM_PKEY}
if {[llength $remPKeys]} {
foreach pkey $remPKeys {
set base [expr $pkey & 0x7fff]
set REM_PKEY($base) [expr $pkey & 0x8000]
}
}
foreach pkey $pkeys {
set base [expr $pkey & 0x7fff]
if {$pkey != 0} {
if {$base != $pkey} {
set isPartial 0
} else {
set isPartial 1
}
# see that remote pkeys do not filter
if {[llength $remPKeys]} {
if {![info exists REM_PKEY($base)]} {
set nodeName [DrPath2Name $drPath -port [GetEntryPort $drPath] -fullName]
inform "-W-ibdiagnet:PKeys.switch.missing.pkey" $nodeName $pkey
continue
} else {
if {!$REM_PKEY($base) && !$isPartial} {
set nodeName [DrPath2Name $drPath -port [GetEntryPort $drPath] -fullName]
inform "-W-ibdiagnet:PKeys.switch.part.pkey" $nodeName $pkey
set isPartial 1
}
}
}
if {![info exists PKEY_HOSTS($base)]} {
set PKEY_HOSTS($base) "{$portGuid $isPartial}"
} else {
lappend PKEY_HOSTS($base) "$portGuid $isPartial"
}
if {![info exists G(data:PKeyNodePorts:$base)]} {
set G(data:PKeyNodePorts:$base) [list [list $nodeGuid $portNum]]
} else {
lappend G(data:PKeyNodePorts:$base) [list $nodeGuid $portNum]
}
}
}
# If remote port is SW and PKey enforcement is ON on that port get it
}
# report partitions:
set FileID [InitializeOutputFile $G(var:tool.name).pkey]
foreach pkey [lsort -integer [array names PKEY_HOSTS]] {
set full 0
set part 0
set num [llength $PKEY_HOSTS($pkey)]
puts $FileID "GROUP PKey:[format 0x%04x $pkey] Hosts:$num"
# report each host port of the group
foreach portGuidNPartial $PKEY_HOSTS($pkey) {
set portGuid [lindex $portGuidNPartial 0]
set isPartial [lindex $portGuidNPartial 1]
set drPath $G(data:dr.path.to.guid.$portGuid)
set nodeName [DrPath2Name $drPath -port [GetEntryPort $drPath] -fullName]
if {$isPartial} {
incr part
puts $FileID " Part $nodeName"
} else {
incr full
puts $FileID " Full $nodeName"
}
}
inform "-I-ibdiagnet:PKeys.Group" $pkey $num $full $part
puts $FileID [Bar - 80]
}
close $FileID
return 0
}
# return the list of all pkeys from the given port
# return "Not-Enforced" if no enforcement on switch port
proc GetPortPkeysByDRPortNumAndDirection {drPath portNum dir} {
# we need to examine the NodeInfo to see CA and how many PKey blocks
if {[catch {set nodeInfo [SmMadGetByDr NodeInfo dump "$drPath"]}]} {
puts "-E- failed to get src port guid for path:$drPath"
return ""
}
set nodeType [GetWordAfterFlag $nodeInfo -node_type]
if {$nodeType == 2} {
# check it has partition enforcement on this port
set nodeGuid [GetWordAfterFlag $nodeInfo -node_guid]
# is a switch - use switch info ...
if {[catch {set portInfo [SmMadGetByDr PortInfo dump "$drPath" $portNum]}]} {
inform "-W-ibdiagnet:PKeys.noPortInfo" $drPath $portNum
return ""
}
set opvl_enforce [GetWordAfterFlag $portInfo -vl_enforce]
set outEnforce [expr $opvl_enforce & 0x4]
set inEnforce [expr $opvl_enforce & 0x8]
if {$outEnforce || $inEnforce} {
if {! ($outEnforce && $inEnforce)} {
set nodeName [DrPath2Name $drPath -port [GetEntryPort $drPath] -fullName]
inform "-W-ibdiagnet:PKeys.in.out.not.same" $nodeName $inEnforce $outEnforce
}
if {($dir == "in" && !$inEnforce) || ($dir == "out" && !$outEnforce)} {
return "Not-Enforced"
}
} else {
return "Not-Enforced"
}
# the switch info to see how many pkeys:
if {[catch {set numPKeys [SmMadGetByDr SwitchInfo -enforce_cap "$drPath"]}]} {
inform "-W-ibdiagnet:PKeys.noSwitchInfo" $nodeGuid $drPath
return ""
}
} else {
set numPKeys [GetWordAfterFlag $nodeInfo -partition_cap]
}
return [GetPortPkeys $drPath $portNum $numPKeys]
}
# Perform partition analysis of the path
# store the final path partitions in G(data:path.partitions)
proc AnalyzePathPartitions {paths} {
global G Neighbor
inform "-I-ibdiagpath:PKeys.report.header"
# find the source port
if {[llength $paths] > 1} {
set srcPath [lindex $paths 0]
} else {
set srcPath ""
}
set dstPath [lindex $paths end]
if {[catch {set NodeInfo [SmMadGetByDr NodeInfo dump "$srcPath"]}]} {
"-E-ibdiagpath:PKeys.FailNodeInfo" $srcPath
return 1
}
set srcNodeGuid [GetWordAfterFlag $NodeInfo "-node_guid"]
set srcPortGuid [GetWordAfterFlag $NodeInfo "-port_guid"]
set srcPortNum [GetEntryPort $srcPath -byNodeInfo $NodeInfo]
set pkeys [GetPortPkeysByDRPortNumAndDirection $srcPath $srcPortNum "out"]
foreach pkey $pkeys {
if {$pkey == "Not-Enforced"} {continue}
set base [expr $pkey & 0x7fff]
set SRC_PKEYS($base) $pkey
}
set nodeName [DrPath2Name $srcPath -port [GetEntryPort $srcPath] -fullName]
inform "-I-ibdiagpath:PKeys.src.pkeys" $nodeName $srcPortNum $pkeys
# get the remote port of the SRC
set neighNodeNPort $Neighbor($srcNodeGuid:$srcPortNum)
foreach {remNodeGuid remPortNum} [split $neighNodeNPort :] {break}
# Now go over the rest of the path:
if {[llength $srcPath]} {
set startIdx [expr [llength $srcPath] - 2]
} else {
set startIdx 0
}
for {set idx $startIdx} {$idx < [llength $dstPath]} {incr idx} {
set drPath [lrange $dstPath 0 $idx]
if {$idx + 1 < [llength $dstPath]} {
} else {
set nextPortNum 0
}
set stagePaths "in $remPortNum "
if {$idx + 1 < [llength $dstPath]} {
set nextPortNum [lindex $dstPath [expr $idx + 1]]
append stagePaths "out $nextPortNum"
}
# loop on in/out
foreach {dir portNum} $stagePaths {
if {$portNum == 0} {continue}
if {[catch {set NodeInfo [SmMadGetByDr NodeInfo dump "$drPath"]}]} {
inform "-E-ibdiagpath:PKeys.FailNodeInfo" $drPath
return 1
}
set nodeGuid [GetWordAfterFlag $NodeInfo "-node_guid"]
set portGuid [GetWordAfterFlag $NodeInfo "-port_guid"]
set pkeys [GetPortPkeysByDRPortNumAndDirection $drPath $portNum $dir]
set nodeName [DrPath2Name $drPath -fullName]
inform "-V-ibdiagpath:PKeys.portPkeys" $nodeName $portNum $dir $pkeys
# must get some pkeys and make sure not to filter if not enforced
if {[llength $pkeys] && ([lindex $pkeys 0] != "Not-Enforced")} {
if {[info exist PKEYS]} {unset PKEYS}
foreach pkey $pkeys {
set base [expr $pkey & 0x7fff]
set PKEYS($base) $pkey
}
foreach base [array names SRC_PKEYS] {
if {![info exists PKEYS($base)]} {
inform "-W-ibdiagpath:PKeys.blockOnPath" $nodeName $dir $SRC_PKEYS($base)
unset SRC_PKEYS($base)
}
}
}
}
if {$dir == "out"} {
# get the remote node info by DR and extract input port
lappend drPath $portNum
if {[catch {set remPortNum [SmMadGetByDr PortInfo -local_port_num "$drPath" 1]}]} {
inform "-E-ibdiagpath:PKeys.FailPortInfo" $drPath
return 1
}
}
}
inform "-I-ibdiagpath:PKeys.dst.pkeys" $nodeName $pkeys
# make sure we have some shared PKeys left:
set shared {}
foreach base [array names SRC_PKEYS] {
if {[info exists PKEYS($base)]} {
set isSrcFull [expr 0x8000 & $SRC_PKEYS($base)]
set isPathFull [expr 0x8000 & $PKEYS($base)]
if { $isSrcFull || $isPathFull} {
lappend shared $SRC_PKEYS($base)
}
}
}
set G(data:path.partitions) $shared
if {[llength $shared]} {
inform "-I-ibdiagpath:PKeys.path.shared" $shared
} else {
inform "-E-ibdiagpath:PKeys.path.noShared"
}
return 0
}
##############################
######################################################################
### IPoIB Checking and Reporting
######################################################################
# obtain the rate (code and Gbps) of the given portInfo
proc GetPortInfoRateCodeAndGbps {portInfo} {
set width [GetWordAfterFlag $portInfo -link_width_active]
set speed [expr ([GetWordAfterFlag $portInfo -link_speed] & 0xf0) >> 4]
if {[lsearch -exact {1 2 4 8} $width] < 0} {
puts "Error: unrecognized link width code:$width"
return ""
}
# coding
# speed 1=2.5G 2=5G 4=10G
# width 1=1X 2=4X 4=8X 8=12X
switch $speed {
1 {
switch $width {
1 {set rate 2; set gbps 2.5}
2 {set rate 3; set gbps 10 }
4 {set rate 6; set gbps 20 }
8 {set rate 4; set gbps 30 }
}
}
2 {
switch $width {
1 {set rate 5; set gbps 5}
2 {set rate 6; set gbps 20 }
4 {set rate 7; set gbps 40 }
8 {set rate 8; set gbps 60 }
}
}
4 {
switch $width {
1 {set rate 3; set gbps 10 }
2 {set rate 7; set gbps 40 }
4 {set rate 9; set gbps 80 }
8 {set rate 10; set gbps 120 }
}
}
default {
puts "Error: unrecognized link speed code:$speed"
return ""
}
}
return [list $rate $gbps]
}
proc GetRateGbps {rate} {
switch $rate {
2 {set gbps 2.5}
3 {set gbps 10}
4 {set gbps 30}
5 {set gbps 5}
6 {set gbps 20}
7 {set gbps 40}
8 {set gbps 60}
9 {set gbps 80}
10 {set gbps 120}
default {set gbps 0}
}
return $gbps
}
proc GetGbpsRate {gbps} {
switch $gbps {
2.5 {set rate 2}
5 {set rate 5}
10 {set rate 3}
20 {set rate 6}
30 {set rate 4}
40 {set rate 7}
60 {set rate 8}
80 {set rate 9}
120 {set rate 10}
default {set rate 0}
}
return $rate
}
# perform a subnet global check of IPoIB subnets
proc CheckIPoIB {} {
global G
inform "-I-ibdiagnet:ipoib.header"
if {[CheckSkipStatus ipoib]} {
inform "-I-reporting:skip.set.no.report"
return 1
}
# obtain the list of IPoIB MCGs from the SA
set pKeyRex {[0-9a-fA-F]:4}
foreach mcg [sacMCMQuery getTable 0] {
set mgid [sacMCMRec_mgid_get $mcg]
# check to see if IPoIB mcg
if {[regexp {0xff12401b([0-9a-fA-F]{4})0000:0x00000000ffffffff} $mgid d1 p]} {
set pkey [expr 0x$p & 0x7fff]
set IPoIB_MCGS($mcg) "$pkey 4"
set IPV4_MCGS($pkey) $mcg
} elseif {[regexp {0xff12601b([0-9a-fA-F]{4})0000:0x00000000ffffffff} $mgid d1 p]} {
set pkey [expr 0x$p & 0x7fff]
set IPoIB_MCGS($mcg) "$pkey 6"
set IPV6_MCGS($pkey) $mcg
}
}
# no go over all subnets and check their rules:
foreach mcg [array names IPoIB_MCGS] {
set gMtu [expr [sacMCMRec_mtu_get $mcg]& 0x3f]
set gRate [expr [sacMCMRec_rate_get $mcg]& 0x3f]
set gSL [expr ([sacMCMRec_sl_flow_hop_get $mcg] & 0xf000) >> 24]
set gPKey [sacMCMRec_pkey_get $mcg]
set gQKey [sacMCMRec_qkey_get $mcg]
foreach {pkey IPVersion} $IPoIB_MCGS($mcg) {break}
inform "-I-ibdiagnet:ipoib.subnet" $IPVersion $pkey $gMtu $gRate $gSL $gPKey $gQKey
if {[expr 0x7fff & $gPKey] != $pkey} {
inform "-W-ibdiagnet:ipoib.bad.pkey" $gPKey $pkey
}
# go over all the members of the partition and see if they can join
# collecting their minimal rate
if {[catch {set pkeyMembers $G(data:PKeyNodePorts:$pkey)}]} {
inform "-W-ibdiagnet:ipoib.noMemers"
continue
}
# obtain the rate of the port and track min rate
set gGbps [GetRateGbps $gRate]
set minGbps 120
foreach nodeNPort $pkeyMembers {
foreach {nodeGuid portNum} $nodeNPort {break}
set portInfo $G(data:PortInfo.$nodeGuid:$portNum)
set rateNGbps [GetPortInfoRateCodeAndGbps $portInfo]
if {[llength $rateNGbps] != 2} {
set drPath $G(data:dr.path.to.node.$nodeGuid)
set name [DrPath2Name $drPath -port [GetEntryPort $drPath] -fullName]
inform "-E-ibdiagnet:ipoib.ilegalRate" $name
}
foreach {rate gbps} $rateNGbps {break}
if {$gbps < $gGbps} {
set drPath $G(data:dr.path.to.node.$nodeGuid)
set name [DrPath2Name $drPath -port [GetEntryPort $drPath] -fullName]
inform "-W-ibdiagnet:ipoib.cantJoin" $name $rate $gRate
} else {
if {$minGbps > $gbps} {
set minGbps $gbps
}
}
}
if {$minGbps > $gGbps} {
set minRate [GetGbpsRate $minGbps]
inform "-W-ibdiagnet:ipoib.rateToLow" $minRate $gRate
}
}
}
# perform a path based check of IPoIB subnets
proc CheckPathIPoIB {paths} {
global G
inform "-I-ibdiagpath:ipoib.header"
# find the source port
if {[llength $paths] > 1} {
set srcPath [lindex $paths 0]
} else {
set srcPath ""
}
if {[catch {set srcNodeInfo [SmMadGetByDr NodeInfo dump "$srcPath"]}]} {
"-E-ibdiagpath:PKeys.FailNodeInfo" $srcPath
return 1
}
set srcNodeGuid [GetWordAfterFlag $srcNodeInfo "-node_guid"]
set srcPortGuid [GetWordAfterFlag $srcNodeInfo "-port_guid"]
set srcPortNum [GetEntryPort $srcPath -byNodeInfo $srcNodeInfo]
set dstPath [lindex $paths end]
if {[catch {set dstNodeInfo [SmMadGetByDr NodeInfo dump "$dstPath"]}]} {
"-E-ibdiagpath:PKeys.FailNodeInfo" $dstPath
return 1
}
set dstNodeGuid [GetWordAfterFlag $dstNodeInfo "-node_guid"]
set dstPortGuid [GetWordAfterFlag $dstNodeInfo "-port_guid"]
set dstPortNum [GetEntryPort $dstPath -byNodeInfo $dstNodeInfo]
set pkeyMembers [list \
[list $srcNodeGuid $srcPath $srcPortNum] \
[list $dstNodeGuid $dstPath $dstPortNum]]
# provied by AnalyzePathPartitions
set pathBasePkeys {}
foreach pkey $G(data:path.partitions) {
lappend pathBasePkeys [expr $pkey & 0x7fff]
}
# obtain the list of IPoIB MCGs from the SA
set pKeyRex {[0-9a-fA-F]:4}
foreach mcg [sacMCMQuery getTable 0] {
set mgid [sacMCMRec_mgid_get $mcg]
# check to see if IPoIB mcg
if {[regexp {0xff12401b([0-9a-fA-F]{4})0000:0x00000000ffffffff} $mgid d1 p]} {
set pkey [expr 0x$p & 0x7fff]
set IPoIB_MCGS($mcg) "$pkey 4"
set IPV4_MCGS($pkey) $mcg
} elseif {[regexp {0xff12601b([0-9a-fA-F]{4})0000:0x00000000ffffffff} $mgid d1 p]} {
set pkey [expr 0x$p & 0x7fff]
set IPoIB_MCGS($mcg) "$pkey 6"
set IPV6_MCGS($pkey) $mcg
}
}
# no go over all subnets and check their rules:
set anyGroup 0
foreach mcg [array names IPoIB_MCGS] {
foreach {pkey IPVersion} $IPoIB_MCGS($mcg) {break}
if {[lsearch -exact $pathBasePkeys $pkey] < 0} {continue}
set gMtu [expr [sacMCMRec_mtu_get $mcg]& 0x3f]
set gRate [expr [sacMCMRec_rate_get $mcg]& 0x3f]
set gSL [expr ([sacMCMRec_sl_flow_hop_get $mcg] & 0xf000) >> 24]
set gPKey [sacMCMRec_pkey_get $mcg]
set gQKey [sacMCMRec_qkey_get $mcg]
inform "-I-ibdiagnet:ipoib.subnet" $IPVersion $pkey $gMtu $gRate $gSL $gPKey $gQKey
if {[expr 0x7fff & $gPKey] != $pkey} {
inform "-W-ibdiagnet:ipoib.bad.pkey" $gPKey $pkey
}
# go over all the members of the partition and see if they can join
# obtain the rate of the port and track min rate
set gGbps [GetRateGbps $gRate]
set anyFail 0
foreach nodeGuidPortGuidNPort $pkeyMembers {
foreach {nodeGuid drPath portNum} $nodeGuidPortGuidNPort {break}
if {[catch {set portInfo [SmMadGetByDr PortInfo dump "$drPath" 1]}]} {
inform "-E-ibdiagpath:PKeys.FailPortInfo" $drPath
return 1
}
set rateNGbps [GetPortInfoRateCodeAndGbps $portInfo]
if {[llength $rateNGbps] != 2} {
set name [DrPath2Name $drPath -port [GetEntryPort $drPath] -fullName]
inform "-E-ibdiagnet:ipoib.ilegalRate" $name
}
foreach {rate gbps} $rateNGbps {break}
if {$gbps < $gGbps} {
set name [DrPath2Name $drPath -port [GetEntryPort $drPath] -fullName]
inform "-W-ibdiagnet:ipoib.cantJoin" $name $rate $gRate
incr anyFail
}
}
if {$anyFail == 0} {
incr anyGroup
}
}
if {$anyGroup == 0} {
inform "-E-ibdiagpath:ipoib.noGroups"
}
return 0
}
######################################################################
######################################################################
### QoS Checking and Reporting
######################################################################
# perform the QoS check over a path
proc CheckPathQoS {paths} {
global G Neighbor
inform "-I-ibdiagpath:qos.report.header"
# we track SLs that are OK in this array:
for {set sl 0} {$sl < 16} {incr sl} {
set BLOCKED_SL($sl) 0
}
# find the source port
if {[llength $paths] > 1} {
set srcPath [lindex $paths 0]
} else {
set srcPath ""
}
set dstPath [lindex $paths end]
if {[catch {set NodeInfo [SmMadGetByDr NodeInfo dump "$srcPath"]}]} {
"-E-ibdiagpath:Qos.FailNodeInfo" $srcPath
return 1
}
set nodeGuid [GetWordAfterFlag $NodeInfo "-node_guid"]
set portGuid [GetWordAfterFlag $NodeInfo "-port_guid"]
set outPortNum [GetEntryPort $srcPath -byNodeInfo $NodeInfo]
# don't care for CA and assume path from a switch starts at port 0
set inPortNum 0
set drPath $srcPath
# Now go over the rest of the path:
if {[llength $srcPath]} {
set idx [expr [llength $srcPath] - 2]
} else {
set idx 0
}
set done 0
while {!$done} {
# report stage
set name [DrPath2Name $drPath -fullName]
inform "-V-ibdiagpath:qos.atNode" $name $inPortNum $outPortNum
# obtain OPVLs and VLA Cap from PortInfo for the outPort
if {[catch {set portInfo [SmMadGetByDr PortInfo dump "$drPath" $outPortNum]}]} {
inform "-E-ibdiagpath:qos.FailPortInfoOpVLs" $drPath
return 1
}
set vlEnforce [GetWordAfterFlag $portInfo "-vl_enforce"]
set opVLs [expr ($vlEnforce & 0xf0) >> 4 - 1]
set vlaHighCap [GetWordAfterFlag $portInfo "-vl_arb_high_cap"]
set vlaLowCap [GetWordAfterFlag $portInfo "-vl_arb_high_cap"]
# get the SL2VL (inPort,outPort)
if {[catch {set SL2VL [SmMadGetByDr SlVlTable dump "$drPath" $inPortNum $outPortNum]}]} {
inform "-E-ibdiagpath:qos.FailSL2VL" $drPath
return 1
}
# get VLA(outPort) both High and Low
set VLArbLow {}
for {set i 0} {$i < ($vlaLowCap + 31)/32} {incr i} {
if {[catch {set vlaBlock [SmMadGetByDr VlArbTable dump "$drPath" $outPortNum [expr $i + 1]]} e]} {
inform "-E-ibdiagpath:qos.FailVLArb" $drPath
return 1
}
foreach entry $vlaBlock {
lappend VLArbLow $entry
}
}
set VLArbHigh {}
for {set i 0} {$i < ($vlaLowCap + 31)/32} {incr i} {
if {[catch {set vlaBlock [SmMadGetByDr VlArbTable dump "$drPath" $outPortNum [expr $i + 3]]}]} {
inform "-E-ibdiagpath:qos.FailVLArb" $drPath
return 1
}
foreach entry $vlaBlock {
lappend VLArbHigh $entry
}
}
# report VLA VLs > OPVLs
# report and track blocked VLs in VLA
set lowHighCtrl [list Low $vlaLowCap $VLArbLow High $vlaHighCap $VLArbHigh]
if {[info exist VL_WEIGHT]} {unset VL_WEIGHT}
foreach {tbl numEntries values} $lowHighCtrl {
set overRangeVLs {}
for {set i 0} {$i < $numEntries} {incr i} {
set entry [lindex $values $i]
set vl [expr [lindex $entry 0]]
set weight [lindex $entry 1]
if {$vl >= $opVLs} {
lappend overRangeVLs $i
} else {
if {$weight > 0} {
set VL_WEIGHT($vl) $weight
}
}
}
if {[llength $overRangeVLs]} {
inform "-W-ibdiagpath:qos.vlaOverOpVLs" $name $outPortNum $overRangeVLs $opVLs $tbl
}
}
set blockedVLs {}
for {set vl 0} {$vl < $opVLs} {incr vl} {
if {![info exists VL_WEIGHT($vl)]} {
lappend blockedVLs $vl
}
}
if {[llength $blockedVLs]} {
inform "-W-ibdiagpath:qos.blockedVLs" $name $outPortNum $blockedVLs
}
# report SLs that map to VL > OPVL
# report and track SLs that blocked by blocked VLs
set outOfRangeVLsSLs {}
set blockedSLs {}
for {set i 0} {$i < 8} {incr i} {
set sl0 [expr 2*$i]
set sl1 [expr 2*$i + 1]
set vl0 [expr ([lindex $SL2VL $i] & 0xf0) >> 4]
set vl1 [expr [lindex $SL2VL $i] & 0xf]
if {($vl0 >= $opVLs) || ($vl0 == 15)} {
set BLOCKED_SL($sl0) 1
lappend outOfRangeVLsSLs $sl0
}
if {($vl1 >= $opVLs) || ($vl1 == 15)} {
set BLOCKED_SL($sl1) 1
lappend outOfRangeVLsSLs $sl1
}
if {[lsearch -exact $blockedVLs $vl0] >= 0} {
set BLOCKED_SL($sl0) 1
lappend blockedSLs $sl0
}
if {[lsearch -exact $blockedVLs $vl1] >= 0} {
set BLOCKED_SL($sl1) 1
lappend blockedSLs $sl1
}
}
if {[llength $outOfRangeVLsSLs]} {
inform "-W-ibdiagpath:qos.sl2vlOORange" $name $inPortNum $outPortNum $opVLs \
[lsort -integer $outOfRangeVLsSLs]
}
if {[llength $blockedSLs]} {
inform "-W-ibdiagpath:qos.blockedSL" $name $inPortNum $outPortNum \
[lsort -integer $blockedSLs]
}
# obtain next path
set drPath [lrange $dstPath 0 $idx]
if {$idx + 1 == [llength $dstPath]} {
set done 1
continue
}
# get the next nodeGuid
if {[catch {set NodeInfo [SmMadGetByDr NodeInfo dump "$drPath"]}]} {
"-E-ibdiagpath:Qos.FailNodeInfo" $drPath
return 1
}
set nodeGuid [GetWordAfterFlag $NodeInfo "-node_guid"]
set portGuid [GetWordAfterFlag $NodeInfo "-port_guid"]
set inPortNum [GetEntryPort $drPath -byNodeInfo $NodeInfo]
set outPortNum [lindex $dstPath [expr $idx + 1]]
incr idx
}
set pathSLs {}
foreach sl [lsort -integer [array names BLOCKED_SL]] {
if {$BLOCKED_SL($sl) == 0} {
lappend pathSLs $sl
}
}
if {[llength $pathSLs]} {
inform "-I-ibdiagpath:qos.pathSLs" $pathSLs
} else {
inform "-E-ibdiagpath:qos.noPathSLs"
}
return 0
}
######################################################################
######################################################################
### Obtain QoS and SL related data for enhanced CreditLoop Check
######################################################################
# write down psl file
# format is: srcnodeguid dlid sl
proc GetAllLidToLidDefaultSLs {} {
global G Neighbor
global IB_PR_COMPMASK_SGID IB_PR_COMPMASK_DLID
set mask [format 0x%x [expr $IB_PR_COMPMASK_SGID | $IB_PR_COMPMASK_DLID]]
# first we build a list of all addressible ports
# we track the PortGuid, Base LID and LMC
# we store END_PORT{$portGuid} [list $lid $lmc]
# LID and LMC are a PortInfo attribute
# we have DB of PortGuid via NodeGuid and PortNum...
foreach nodeGuidPortNum [array names G data:PortGuid.*:*] {
regexp {PortGuid.([^:]+):([^:]+)} $nodeGuidPortNum d1 nodeGuid portNum
set portGuid $G($nodeGuidPortNum)
# for switches we only care about port 0
set nodeInfo $G(data:NodeInfo.$nodeGuid)
set nodeType [GetWordAfterFlag $nodeInfo -node_type]
if {$nodeType == 2} {
if {[info exists END_PORT($portGuid)]} {
continue
}
# obtain the info by performing the queries
set drPath $G(data:dr.path.to.guid.$portGuid)
if {[catch {set portInfo [SmMadGetByDr PortInfo dump "$drPath" 0]}]} {
inform "-E-ibdiagnet:pathsl.FailPortInfo" $drPath
continue
}
} else {
set portInfo $G(data:PortInfo.$nodeGuid:$portNum)
}
# get the base lid and LMC from the PortInfo
set base_lid [GetWordAfterFlag $portInfo -base_lid]
if {$base_lid == 0} {
puts "EZ: $portGuid base lid is zero $portInfo"
continue
}
set mkey_lmc [GetWordAfterFlag $portInfo -mkey_lmc]
set lmc [expr $mkey_lmc & 0x7]
set numLids [expr 1 << $lmc]
set END_PORT($portGuid) [list $nodeGuid $base_lid $numLids]
}
set numPathRec [expr [array size END_PORT]*[array size END_PORT]]
inform "-I-ibdiagnet:pathsl.num.paths" $numPathRec
set FileID [InitializeOutputFile $G(var:tool.name).psl]
# we can query all paths
foreach srcGuid [array names END_PORT] {
set nodeGuid [lindex $END_PORT($srcGuid) 0]
foreach dstGuid [array names END_PORT] {
foreach {dummy base_lid numLids} $END_PORT($dstGuid) {break}
for {set i 0} {$i < $numLids} {incr i} {
set dlid [expr $base_lid + $i]
sacPathQuery configure -dlid $dlid
sacPathQuery configure -sgid "0xfe80000000000000:$srcGuid"
set paths [sacPathQuery getTable $mask]
if {[llength $paths] < 1} {
inform "-E-ibdiagnet:pathsl.no.path" $portGuid $dlid
} else {
set class_sl [sacPathRec_qos_class_sl_get [lindex $paths 0]]
set sl [expr 0xf & $class_sl]
puts $FileID "$nodeGuid $dlid $sl"
foreach path $paths {
sacPathRec_delete $path
}
}
}
}
}
close $FileID
}
# Dump all SL2VL tables into a file
proc GetAllSL2VLTables {} {
global G
set totAtts 0
# find node info of all switches
# we have DB of PortGuid via NodeGuid and PortNum...
foreach nodeGuidPortNum [array names G data:PortGuid.*:*] {
regexp {PortGuid.([^:]+):([^:]+)} $nodeGuidPortNum d1 nodeGuid portNum
set portGuid $G($nodeGuidPortNum)
set nodeInfo $G(data:NodeInfo.$nodeGuid)
set nodeType [GetWordAfterFlag $nodeInfo -node_type]
set numPorts [GetWordAfterFlag $nodeInfo -num_ports]
if {$nodeType == 2} {
set SW_PORTS($portGuid) [list $nodeGuid $numPorts]
incr totAtts [expr ($numPorts + 1) * ($numPorts + 1)]
}
}
inform "-I-ibdiagnet:sl2vl.num.switches.atts" [array size SW_PORTS] $totAtts
set FileID [InitializeOutputFile $G(var:tool.name).slvl]
# query SL2VL from all while dumping to a file
foreach portGuid [array names SW_PORTS] {
foreach {nodeGuid numPorts} $SW_PORTS($portGuid) {break}
set drPath $G(data:dr.path.to.guid.$portGuid)
for {set inPort 0} {$inPort <= $numPorts} {incr inPort} {
for {set outPort 0} {$outPort <= $numPorts} {incr outPort} {
if {[catch {
set tbl [SmMadGetByDr SlVlTable dump "$drPath" $inPort $outPort]}]} {
inform "-E-ibdiagnet:sl2vl.FailSlVl" $drPath $inPort $outPort
continue
}
puts $FileID "$nodeGuid $inPort $outPort $tbl"
}
}
}
close $FileID
}
# a function for SL based routing dump
proc DumpSlVlAndPathSLFiles {} {
global G
if {![info exists G(argv:vl.based.routing)]} {
return 1
}
inform "-I-ibdiagnet:pathsl.header"
GetAllSL2VLTables
GetAllLidToLidDefaultSLs
return 0
}
######################################################################
######################################################################
### If a topology file is given
######################################################################
proc MatchTopology { lstFile args } {
global G
if {[info exists G(lst.failed)]} {
inform "-F-crash:failed.build.lst"
return 1
}
if {[CheckSkipStatus load_ibdm]} {
return 1
}
if { [info exists G(argv:report)] || [info exists G(argv:topo.file)] } {
set G(IBfabric:.lst) [new_IBFabric]
if {[IBFabric_parseSubnetLinks $G(IBfabric:.lst) $lstFile]} {
inform "-F-crash:failed.parse.lst"
}
}
if { ! [info exists G(argv:topo.file)] } {
return 1
}
#set MatchingResult ""
if { [info exists G(argv:edge.topomatch.algorithm)] } {
inform "-I-topology:algorithm.with.from.edge"
if { ! $G(bool:sys.name.guessed) } { #-s was provided
inform "-W-argv:-e.with.-s"
}
set MatchingResult \
[ibdmMatchFabricsFromEdge $G(IBfabric:.topo) $G(IBfabric:.lst)]
} else {
# Matching defined and discovered fabric
if { [info exists G(LocalDeviceDuplicated)] } {
if {[info exists G(argv:topo.file)] && $G(bool:sys.name.guessed)} {
inform "-E-topology:localDevice.Duplicated"
return 1
}
}
set MatchingResult \
[ibdmMatchFabrics $G(IBfabric:.topo) $G(IBfabric:.lst) \
$G(argv:sys.name) $G(argv:port.num) $G(data:root.port.guid) ]
}
switch -- [lrange $MatchingResult 0 4] {
"Fail to find anchor port" -
"Even starting ports do not" {
inform "-W-topology:Critical.mismatch" -massage [join $MatchingResult]
return 1
}
}
set G(MatchingResult) ""
set old_line ""
set G(missing.links) ""
foreach line [split $MatchingResult \n] {
if { [regexp {[^ ]} $line] || [regexp {[^ ]} $old_line] } {
lappend G(MatchingResult) " $line"
}
# $G(missing.links) is the list of links found to be missing by topology
# matching;
# a pair of entries (0 & 1 , 2 & 3 etc.) are ports at the link's end
set missingSysExp \
{^ *Missing System:([^ \(]+).*from port: *([^ ]+) to: *([^ ]+) *$}
set missingLinkExp \
{^ *Missing internal Link connecting: *([^ ]+) to: *([^ ]+) *$}
if { [regsub $missingSysExp "$old_line $line" {\1/\2 \3} link] || \
[regsub $missingLinkExp "$line" {\1 \2} link] } {
set G(missing.links) [concat $G(missing.links) $link]
}
set old_line $line
}
set G(IBfabric:merged) [new_IBFabric]
if [catch {ibdmBuildMergedFabric \
$G(IBfabric:.topo) $G(IBfabric:.lst) $G(IBfabric:merged)} ] {
return 1
}
# need to copy the min lid
IBFabric_minLid_set $G(IBfabric:merged) [IBFabric_minLid_get $G(IBfabric:.lst)]
return 0
}
##############################
##############################
proc DumpTopologyMatching { args } {
global G
if {$G(bool:topology.matched) == 0} { return }
set noheader [BoolWordInList "-noheader" $args]
if { ! $noheader } { inform "-I-topology:matching.header" }
set MatchingResultLen [llength $G(MatchingResult)]
if { $MatchingResultLen == 0 } {
inform "-I-topology:matching.perfect"
} else {
if { ! $noheader } { inform "-I-topology:matching.note" }
if { $MatchingResultLen > $G(var:warn.long.matching.results) } {
inform "-W-topology:matching.bad"
}
}
if {[string is space [lindex $G(MatchingResult) end]]} {
set G(MatchingResult) [lrange $G(MatchingResult) 0 end-1]
}
PutsIn80Chars [join $G(MatchingResult) \n]
return 0
}
##############################
proc ArrangeDR {_dr} {
set res ""
foreach drEntry $_dr {
append res $drEntry,
}
return [string range $res 0 end-1]
}
##############################
# support LID , PortGUID , NodeGUID , EntryPort , Type , DevID ,Name
proc DrPath2Name { DirectPath args } {
global G
set fullName [BoolWordInList "-fullName" $args]
set nameOnly [BoolWordInList "-nameOnly" $args]
set nameLast [BoolWordInList "-nameLast" $args]
if {[BoolWordInList "-byDr" $args]} {
set byDr "-byDr"
} else {
set byDr ""
}
if {[set addPort [BoolWordInList "-port" $args]]} {
set port [GetWordAfterFlag $args "-port"]
set EntryPort $port
if {$EntryPort == ""} {
set EntryPort 0
}
} elseif {[catch {set EntryPort [GetEntryPort $DirectPath]}]} {
set EntryPort 0
} else {
if {$EntryPort == ""} {
set EntryPort 0
}
}
if { $fullName && [PathIsBad $DirectPath] < 2} {
set PortGUID [GetParamValue PortGUID $DirectPath]
set NodeDevID [expr [GetParamValue DevID $DirectPath]]
set NodePorts [GetParamValue Ports $DirectPath]
set NodeLid [GetParamValue LID $DirectPath -port $EntryPort]
set lidGuidDev "lid=$NodeLid guid=$PortGUID dev=$NodeDevID"
} else {
set lidGuidDev ""
}
if { ($G(bool:topology.matched)==0) } {
if {![catch {set deviceType [GetParamValue Type $DirectPath $byDr]}]} {
if {$deviceType == "CA"} {
if {![catch {set nodeDesc [GetParamValue NodeDesc $DirectPath $byDr]}]} {
if {($nodeDesc == "") && ($addPort)} {
set res "Port=$port"
} else {
set res ""
set hca_idx ""
scan $nodeDesc {%s %s} res hca_idx
if {$hca_idx != ""} {
set hca_idx [string range $hca_idx 4 end]
if {([string is integer $hca_idx]) && ($hca_idx != 1)} {
append res "/U$hca_idx"
}
}
if {($addPort)} {
append res "/P$port"
}
}
if {([llength $lidGuidDev] != 0) && !$nameOnly} {
if {$nameLast} {
set res "$lidGuidDev $res"
} else {
set res "$res $lidGuidDev"
}
}
return $res
}
}
}
if {($addPort)} {
set res "Port=$port"
} else {
set res ""
}
if {([llength $lidGuidDev] != 0) && !$nameOnly} {
if {$nameLast} {
set res "$lidGuidDev $res"
} else {
set res "$res $lidGuidDev"
}
}
return $res
}
set path $DirectPath
set topoNodesList [join [IBFabric_NodeByName_get $G(IBfabric:.topo)]]
if { [set nodePointer [GetWordAfterFlag $topoNodesList $G(argv:sys.name)]] == "" } {
if {($addPort)} {
return "$lidGuidDev port=$port"
} else {
return "$lidGuidDev"
}
}
while { [llength $path] > 0 } {
set port [lindex $path 0]
set path [lrange $path 1 end]
set nodePorts [IBNode_Ports_get $nodePointer]
set portPointer [IBNode_getPort $nodePointer $port]
if {$portPointer != ""} {
if {[catch {set remPortPointer [IBPort_p_remotePort_get $portPointer]} msg]} {
return "$lidGuidDev port=$EntryPort"
} elseif { $remPortPointer == "" } {
return "$lidGuidDev port=$EntryPort"
} elseif {[catch {set nodePointer [IBPort_p_node_get $remPortPointer]}]} {
return "$lidGuidDev port=$EntryPort"
} elseif { $nodePointer == "" } {
return "$lidGuidDev port=$EntryPort"
}
}
}
if {$EntryPort != 0} { #not port 0 in SW
if {[catch {set portPointer [IBNode_getPort $nodePointer $EntryPort]}]} {
return "$lidGuidDev port=$EntryPort"
}
set EntryPortName [IBPort_getName $portPointer]
} else {
set EntryPortName $EntryPort
}
if {[catch {set nodeName [IBNode_name_get $nodePointer]}]} {
return "$lidGuidDev port=$EntryPortName"
} elseif { $nodeName == "" } {
return "$lidGuidDev port=$EntryPortName"
} else {
if {$addPort} {set nodeName "$EntryPortName"}
if { $fullName } {
return "\"$nodeName\" $lidGuidDev"
} else {
return "$nodeName"
}
}
}
##############################
##############################
proc linkNamesGet { DirectPath args } {
global G
if {$G(bool:topology.matched)==0} { return;}
set DirectPath [join $DirectPath]
if { [set Port0 [lindex $DirectPath end]] == "" } {
set Port0 $G(argv:port.num)
}
set PortGuid $G(data:guid.by.dr.path.[lreplace $DirectPath end end])
set NodeGuid $G(data:NodeGuid.$PortGuid)
if { [set Pointer(node0) \
[IBFabric_getNodeByGuid $G(IBfabric:.topo) $NodeGuid]] == "" } {
return ;
}
set node0Ports [IBNode_Ports_get $Pointer(node0)]
set Pointer(port0) [lindex $node0Ports [lsearch -regexp $node0Ports "/$Port0$"]]
catch { set Pointer(port1) [IBPort_p_remotePort_get $Pointer(port0)] }
set linkKind "external"
foreach I { 0 1 } {
if { $Pointer(port${I}) == "" } { continue; }
set Name(port${I}) [IBPort_getName $Pointer(port${I})]
set Pointer(sysport${I}) [IBPort_p_sysPort_get $Pointer(port${I})]
if {[BoolWordInList "-node" $args]} {
set Pointer(node${I}) [IBPort_p_node_get $Pointer(port${I})]
set Name(node${I}) [IBNode_name_get $Pointer(node${I})]
lappend link "$Name(node${I})"
} elseif { $Pointer(sysport${I}) == "" } {
lappend link $Name(port${I})
set linkKind "internal"
} else {
set Pointer(node${I}) [IBPort_p_node_get $Pointer(port${I})]
set Num(port${I}) [IBPort_num_get $Pointer(port${I})]
set Name(node${I}) [IBNode_name_get $Pointer(node${I})]
lappend link "$Name(port${I})($Name(node${I})/P$Num(port${I}))"
}
}
# processing the result
switch -exact [llength $link] {
0 {;# just to be on the safe side: if both link ends are UNKNOWN
return
}
1 {;# look for the info of the other side of the link in the
# "missing links" of topo matching
# lsearch ^ 1 = the index of the other-in-pair
# (note: if lsearch = -1 then index = -2)
# TODO: should I not report these links,
# as the topology matching already reported abo
set index [expr [lsearch -exact $G(missing.links) $link] ^ 1]
lappend link [lindex $G(missing.links) $index]
}
}
return "names:$linkKind [list $link]"
}
##############################
##############################
# extract the name(s) of the port(s) from the -n flag
proc GetArgvPortNames {} {
global G argv
global IB_SW_NODE
if { ![info exists G(argv:by-name.route)] || [CheckSkipStatus load_ibdm]} {
return
}
set flag "-n"
array set topoNodesArray [join [IBFabric_NodeByName_get $G(IBfabric:.topo)]]
array set topoSysArray [join [IBFabric_SystemByName_get $G(IBfabric:.topo)]]
foreach nodeName [array names topoNodesArray] {
foreach portPtr [join [IBNode_Ports_get $topoNodesArray($nodeName)]] {
set portName [IBPort_getName $portPtr]
set portNum [IBPort_num_get $portPtr]
array set topoPortsArray "$portName $portPtr"
array set topoPortsArray "$nodeName/P${portNum} $portPtr"
}
}
foreach name [split $G(argv:by-name.route) ,] {
catch { unset portPointer portPointers }
if {[catch { set portPointer $topoPortsArray($name) }]} {
if { ! [catch { set nodePointer $topoNodesArray($name) }] } {
if { [IBNode_type_get $nodePointer] == $IB_SW_NODE } {
set portPointer [lindex [IBNode_Ports_get $nodePointer] 0]
}
} elseif { ! [catch { set sysPointer $topoSysArray($name) }] } {
if { [llength [set sys2node [IBSystem_NodeByName_get $sysPointer]]] == 1 } {
set nodePointer [lindex [join $sys2node] end]
}
} else {
inform "-E-argv:bad.node.name" -flag $flag -value "$name" \
-names [lsort -dictionary [array names topoNodesArray]]
}
}
if {[info exists portPointer]} {
if { [IBPort_p_remotePort_get $portPointer] == "" } {
inform "-E-argv:specified.port.not.connected" \
-flag $flag -value "$name"
}
} else {
if {[info exists nodePointer]} {
set W0 "node [IBNode_name_get $nodePointer]"
foreach pointer [IBNode_Ports_get $nodePointer] {
if { [IBPort_p_remotePort_get $pointer] != "" } {
lappend portPointers $pointer
}
}
} else {
set W0 "system [IBSystem_name_get $sysPointer]"
foreach sysPortNPtr [IBSystem_PortByName_get $sysPointer] {
set sysPointer [lindex $sysPortNPtr 1]
set pointer [IBSysPort_p_nodePort_get $sysPointer]
if { [IBPort_p_remotePort_get $pointer] != "" } {
lappend portPointers $pointer
}
}
}
if { ! [info exists portPointers] } {
inform "-E-argv:hca.no.port.is.connected" -flag $flag -type [lindex $W0 0] -value $name
} elseif { [llength $portPointers] > 1 } {
inform "-W-argv:hca.many.ports.connected" -flag $flag -type [lindex $W0 0] -value $name \
-port [IBPort_num_get [lindex $portPointers 0]]
}
set portPointer [lindex $portPointers 0]
}
lappend portNames $portPointer
}
return $portNames
}
##############################
##############################
proc Name2Lid {localPortPtr destPortPtr exitPort} {
global G
global IB_SW_NODE
if {[CheckSkipStatus load_ibdm]} {
return -1
}
set Dr $exitPort
set listPorts $localPortPtr
set index 0
set Nodes($exitPort) $localPortPtr
set destNodePtr [IBPort_p_node_get $destPortPtr]
while { $index < [llength $Dr] } {
set DirectPath [lindex $Dr $index]
set localPortPtr $Nodes($DirectPath)
incr index
set localNodePtr [IBPort_p_node_get $localPortPtr]
set localNodetype [IBNode_type_get $localNodePtr]
set destNodePtr [IBPort_p_node_get $destPortPtr]
if {$destPortPtr == $localPortPtr} {
if {$localNodetype == $IB_SW_NODE} {
return "$DirectPath 0"
} else {
return $DirectPath
}
}
if {($localNodetype != $IB_SW_NODE) } {continue;}
if {(($localNodetype == $IB_SW_NODE) && ($localNodePtr == $destNodePtr))|| ($index == 1) } {
# in the current switch check if it's any of the switch ports
for {set i 1} {$i <= [IBNode_numPorts_get $localNodePtr]} {incr i} {
set tmpPort [IBNode_getPort $localNodePtr $i]
if {$tmpPort == $destPortPtr} {
return "$DirectPath 0"
}
}
}
# build a list of new ports
for {set i 1} {$i <= [IBNode_numPorts_get $localNodePtr]} {incr i} {
set tmpPort [IBNode_getPort $localNodePtr $i]
if {$tmpPort == ""} { continue; }
if { [catch {set tmpRemotePtr [IBPort_p_remotePort_get $tmpPort]} e] } {
continue;
}
if {($tmpRemotePtr != "")} {
if {[lsearch $listPorts $tmpRemotePtr] != -1} {continue;}
lappend listPorts $tmpRemotePtr
lappend Dr "$DirectPath $i"
set newDr "$DirectPath $i"
set Nodes($newDr) $tmpRemotePtr
}
}
}
return -1
}
##############################
##############################
proc PathRecSelCodeText {sel} {
switch $sel {
0 { return ">" }
1 { return "<" }
2 { return "=" }
}
return "?"
}
proc PathRecMTUCodeText {prMTU} {
set mtu [expr $prMTU & 0x3f]
set sel [expr ($prMTU & 0xC0)>>6]
switch $mtu {
1 { set mtuStr 256 }
2 { set mtuStr 512 }
3 { set mtuStr 1024}
4 { set mtuStr 2048}
5 { set mtuStr 4096}
default {
return "ERR"
}
}
return "[PathRecSelCodeText $sel]$mtuStr"
}
proc PathRecRateCodeText {prRate} {
set rate [expr $prRate & 0x3f]
set sel [expr ($prRate & 0xC0)>>6]
switch $rate {
2 { set rateStr 2.5 }
3 { set rateStr 10 }
4 { set rateStr 30 }
5 { set rateStr 5 }
6 { set rateStr 20 }
7 { set rateStr 40 }
8 { set rateStr 60 }
9 { set rateStr 80 }
10 { set rateStr 120 }
default {
return "ERR"
}
}
return "[PathRecSelCodeText $sel]$rateStr"
}
##############################
##############################
proc DumpFabQualities {} {
global G SM
if {[info exists G(lst.failed)] || ![info exists G(argv:report)] || [CheckSkipStatus load_ibdm]} {
return 1
}
set nodesNum [llength [array names G "data:NodeInfo.*"]]
set swNum [llength [array names G "data:PortInfo.*:0"]]
if { [set hcaNum [expr $nodesNum - $swNum]] == 1 } {
inform "-W-reporting:one.hca.in.fabric"
return 1
}
if {$G(bool:topology.matched)==1} {
set fabric $G(IBfabric:merged)
} else {
set fabric $G(IBfabric:.lst)
}
# SM report
set totalSM [llength [array names SM]]
if {$totalSM != 0} {
inform "-I-ibdiagnet:SM.header"
DumpSMReport
}
inform "-I-ibdiagnet:report.fab.qualities.header"
# general reports
if {[IBFabric_parseFdbFile $fabric $G(outfiles,.fdbs)]} {
inform "-F-crash:failed.parse.fdbs"
}
if {[IBFabric_parseMCFdbFile $fabric $G(outfiles,.mcfdbs)]} {
inform "-F-crash:failed.parse.mcfdbs"
}
if {![file exists $G(outfiles,.lst)]} {
inform "-E-ibdiagnet:no.lst.file" -fileName $G(outfiles,.lst)
return 1
}
# verifying CA to CA routes
ibdmUseInternalLog
ibdmVerifyCAtoCARoutes $fabric
ibdmCheckMulticastGroups $fabric
set report [ibdmGetAndClearInternalLog]
inform "-I-ibdiagnet:report.fab.qualities.report" $report
set nErrs [regexp -all -- {-E-} $report]
if {$nErrs} {
inform "-E-ibdiagnet:report.fab.qualities.errors" $nErrs
}
set nWarns [regexp -all -- {-W-} $report]
if {$nWarns} {
inform "-W-ibdiagnet:report.fab.qualities.warnings" $nWarns
}
inform "-I-ibdiagnet:check.credit.loops.header"
# report credit loops
set roots ""
if { [info exists G(argv:updown)] } {
ibdmCalcMinHopTables $fabric
set roots [ibdmFindRootNodesByMinHop $fabric]
# just flush out any logs
set report [ibdmGetAndClearInternalLog]
}
if {[llength $roots]} {
inform "-I-reporting:found.roots" $roots
ibdmReportNonUpDownCa2CaPaths $fabric $roots
} else {
if {[info exists G(argv:vl.based.routing)]} {
IBFabric_parseSLVLFile $fabric $G(outfiles,.slvl)
IBFabric_parsePSLFile $fabric $G(outfiles,.psl)
}
ibdmAnalyzeLoops $fabric
}
set report [ibdmGetAndClearInternalLog]
inform "-I-ibdiagnet:report.fab.credit.loop.report" $report
set nErrs [regexp -all -- {-E-} $report]
if {$nErrs} {
inform "-E-ibdiagnet:report.fab.credit.loop.errors" $nErrs
}
set nWarns [regexp -all -- {-W-} $report]
if {$nWarns} {
inform "-W-ibdiagnet:report.fab.credit.loop.warnings" $nWarns
}
# back to send ibdm messages to cout
ibdmUseCoutLog
# Multicast mlid-guid-hcas report
set mcPtrList [sacMCMQuery getTable 0]
if { [llength $mcPtrList] > 0 } {
inform "-I-ibdiagnet:mgid.mlid.hca.header"
set mcgFile [InitializeOutputFile $G(var:tool.name).mcgs]
set preGuid ""
puts "mgid [Bar " " 32] | mlid | PKey | QKey | MTU | rate | HCAs"
foreach mcPtr $mcPtrList {
if {[catch {sacMCMRec OBJECT -this $mcPtr} msg]} {
puts $msg
} else {
catch {OBJECT cget} attributes
foreach attr [lindex $attributes 0] {
set [string range $attr 1 end] [OBJECT cget $attr]
}
rename OBJECT ""
}
set mlidHex 0x[format %lx $mlid]
if {[info exists G(mclid2DrPath,$mlidHex)]} {
set mlidHcas $G(mclid2DrPath,$mlidHex)
} else {
set mlidHcas NONE
}
set mtuStr [PathRecMTUCodeText $mtu]
set rateStr "[PathRecRateCodeText $rate]Gbps"
set msg "$mgid | [format 0x%lx $mlid] | [format 0x%04x $pkey] | [format 0x%08x $qkey] | [format %-5s $mtuStr] | [format %-8s $rateStr] | [llength $mlidHcas]"
puts $msg
puts $mcgFile "GROUP: $msg"
foreach hca $mlidHcas {
puts $mcgFile " $hca"
}
}
close $mcgFile
}
return 0
}
######################################################################
######################################################################
### format fabric info
######################################################################
# The pocedure GetParamValue needs the database $G(data:list.direct.path)
# returns the value of a parameter of a port in .lst file format
##############################
proc GetDeviceFullType {_name} {
array set deviceNames { SW "Switch" CA "HCA" Rt "Router" }
if {[lsearch [array names deviceNames] $_name] == -1} {
return $_name
} else {
return $deviceNames($_name)
}
}
##############################
##############################
proc GetEntryPort { _directPath args} {
global G INFO_LST Neighbor
if {$_directPath == ""} {
if {[lsearch -exac $args "-byNodeInfo"]!=-1} {
set nodeInfo [GetWordAfterFlag $args "-byNodeInfo"]
} else {
set nodeInfo [SmMadGetByDr NodeInfo dump ""]
}
set _port_num_vendor_id [GetWordAfterFlag $nodeInfo "-port_num_vendor_id"]
return [format %d [FormatInfo $_port_num_vendor_id PortNum NONE]]
}
if {[info exists G(data:guid.by.dr.path.$_directPath)]} {
set tmpGuid $G(data:guid.by.dr.path.[lrange $_directPath 0 end-1])
set tmpGuid $G(data:NodeGuid.$tmpGuid)
if {[info exists Neighbor($tmpGuid:[lindex $_directPath end])]} {
set entryPort $Neighbor($tmpGuid:[lindex $_directPath end])
return [lindex [split $entryPort :] end ]
}
}
if {[lsearch -exac $args "-byNodeInfo"]!=-1} {
set nodeInfo [GetWordAfterFlag $args "-byNodeInfo"]
set _port_num_vendor_id [GetWordAfterFlag $nodeInfo "-port_num_vendor_id"]
return [format %d [FormatInfo $_port_num_vendor_id PortNum NONE]]
} elseif {$_directPath == ""} {
return -code 1 -errorinfo "Can't retrive entry port"
}
if {[catch {set tmpGuid [GetParamValue NodeGUID [lrange $_directPath 0 end-1] -byDr]}]} {
return ""
} else {
if {[info exists Neighbor($tmpGuid:[lindex $_directPath end])]} {
set entryPort $Neighbor($tmpGuid:[lindex $_directPath end])
return [lindex [split $entryPort :] end ]
} else {
return ""
}
}
}
##############################
##############################
proc GetParamValue { parameter DirectPath args } {
global G INFO_LST
set DirectPath "[join $DirectPath]"
# noread - if info doesn't exists don't try to get it by dr
set byDr 0
set noread 0
if {[lsearch -exac $args "-byDr"] != -1} { set byDr 1 }
if {[lsearch -exac $args "-noread"] != -1} { set noread 1}
if {[BoolWordInList $parameter "PortGuid"]} { set byDr 1 }
if { ! [BoolWordInList $DirectPath $G(data:list.direct.path)] && (![BoolWordInList $DirectPath $G(data:list.bad.paths)]) && (!$byDr)} {
return -code 1 -errorinfo "Direct Path \"$DirectPath\" not in $G(data:list.direct.path)\n and not in $G(data:list.bad.paths)"
}
## Setting the parameter flags
ParseOptionsList $INFO_LST($parameter)
## Setting the port number
if {[lsearch -exac $args "-port"] != -1} {
set port [GetWordAfterFlag $args "-port"]
}
if {[info exists cfg(fromport0)]} {
if {$byDr} {
if { [catch {set tmpType [GetParamValue Type $DirectPath -byDr] }]} {
return -code 1 -errorinfo "6.Direct Path \"$DirectPath\" is bad"
}
} else {
if { [catch {set tmpType [GetParamValue Type $DirectPath] }]} {
return -code 1 -errorinfo "6.Direct Path \"$DirectPath\" is bad"
}
}
if {$tmpType == "SW" } {
set port 0
}
}
# Check if the provided port is legal (bigger then zero, less or equal to Ports)
if {[info exists port]} {
if {$port < 0} {
return -code 1 -errorinfo "Node at end of Direct Path \"$DirectPath\" Does not have port $port"
}
if {$byDr} {
if { [catch {set maxPorts [GetParamValue Ports $DirectPath -byDr] }]} {
return -code 1 -errorinfo "6.Direct Path \"$DirectPath\" is bad"
}
} else {
if { [catch {set maxPorts [GetParamValue Ports $DirectPath] }]} {
return -code 1 -errorinfo "6.Direct Path \"$DirectPath\" is bad"
}
}
if {$port > $maxPorts} {
return -code 1 -errorinfo "Node at end of Direct Path \"$DirectPath\" Does not have port $port"
}
}
## setting port/node guids
if {[info exists G(data:guid.by.dr.path.$DirectPath)]} {
set PortGuid $G(data:guid.by.dr.path.$DirectPath)
if {[info exists G(data:NodeGuid.$PortGuid)]} {
set NodeGuid $G(data:NodeGuid.$PortGuid)
} else {
set byDr 1
}
} else {
set byDr 1
}
### Getting the parameter value
set value "DannyZarko"
switch -exact -- $parameter {
"PN" { return [FormatInfo $port PN $DirectPath] }
"PortGUID" {
set addPort2Cmd [regexp {(Port|Lft)} $cfg(source)]
if {[info exists PortGuid]} {
return [FormatInfo $PortGuid $parameter $DirectPath]
} else {
set Cmd [list SmMadGetByDr $cfg(source) -$cfg(flag) "$DirectPath"]
if {$addPort2Cmd} { append Cmd " $port" }
if {[catch { set value [eval $Cmd]}]} { return -code 1 }
}
}
default {
set addPort2Cmd [regexp {(Port|Lft)} $cfg(source)]
if {[info exists NodeGuid]} {
set InfoSource "data:$cfg(source).$NodeGuid"
if {$addPort2Cmd} { append InfoSource ":$port" }
} else {
set InfoSource "DannyZarko"
}
if {$byDr} {
if {$noread} { return -code 1 -errorinfo "1.Direct Path \"$DirectPath\" is bad"}
if { [PathIsBad $DirectPath] > 1 } {
return -code 1 -errorinfo "2.Direct Path \"$DirectPath\" is bad"
}
set Cmd [list SmMadGetByDr $cfg(source) -$cfg(flag) "$DirectPath"]
if {$addPort2Cmd} { append Cmd " $port" }
if {[catch { set value [eval $Cmd]}]} { return -code 1 -errorinfo "5.Direct Path \"$DirectPath\" is bad"}
} else {
if {[info exists G($InfoSource)]} {
if {$parameter == "NodeDesc"} {
return [FormatInfo $G(data:NodeDesc.$NodeGuid) NodeDesc $DirectPath]
}
return [FormatInfo [GetWordAfterFlag $G($InfoSource) -$cfg(flag)] $parameter $DirectPath]
} else {
if { [PathIsBad $DirectPath] > 1 } {
return -code 1 -errorinfo "3.Direct Path \"$DirectPath\" is bad"
}
if {$noread} { return -code 1 -errorinfo "4.DannyZarko Direct Path \"$DirectPath\" is bad"}
set Cmd [list SmMadGetByDr $cfg(source) -$cfg(flag) "$DirectPath"]
if {$addPort2Cmd} { append Cmd " $port" }
if {[catch { set value [eval $Cmd]}]} { return -code 1 }
}
}
}
}
return [FormatInfo $value $parameter $DirectPath]
}
##############################
##############################
proc FormatInfo {_value _parameter _directRoute} {
global G INFO_LST MASK
set value $_value
ParseOptionsList $INFO_LST($_parameter)
## Formatting $value
catch { set value [format %lx $value] }
regsub {^0x} $value {} value
# bits -> bytes
if {[catch { set width [expr $cfg(width) / 4] }]} { set width "" }
if {!(( $width == 0 ) || ( ! [regexp {^[0-9]+} $width] )) } {
if {[info exists cfg(offset)]} {
scan $cfg(offset) {%d%[:]%d} offset D bigwidth
set bigwidth [expr $bigwidth / 4]
set offset [expr $offset / 4]
set value [AddZeroes $value $bigwidth]
set value [string range $value $offset [expr $offset + $width -1]]
} else {
set value [AddZeroes $value $width]
}
}
if {[info exists cfg(substitution)]} {
regsub -all { *= *} [join $cfg(substitution)] {= } substitution
set value [RemoveZeroes $value]
set value [GetWordAfterFlag $substitution "$value="]
}
if { ! [info exists cfg(string)] } {
set value "0x$value"
}
return $value
}
##############################
######################################################################
### ouput fabric info
######################################################################
proc linkAtPathEnd { Path } {
if { [catch { set port1 [GetEntryPort $Path] } ] } {
return -code 1
}
uplevel 1 set path0 \"[lreplace $Path end end]\"
uplevel 1 set port0 [lindex $Path end]
uplevel 1 set path1 \"$Path\"
uplevel 1 set port1 $port1
}
##############################
##############################
# NAME lstInfo
# SYNOPSIS lstInfo type{port|link} DirectPath port
# FUNCTION returns either the info of one of a port in .lst format
# or the info regarding the links : SPD,PHY,LOG
# INPUTS NULL
# OUTPUT returns the info of one of a port in .lst format
proc lstInfo { type DirectPath port } {
global G MASK SM
set DirectPath [join $DirectPath]
set Info ""
set Vals ""
## The lists of parameters
switch -exact -- $type {
"csv_mode" {
set sep ,
append lstItems "PortGUID PN NodeGUID SystemGUID"
append lstItems " systemType systemName systemPortName boardName"
append lstItems " NodeDesc Type DevID VenID LID PHY SPD"
}
"port" {
set sep ":"
append lstItems "Type Ports SystemGUID NodeGUID PortGUID VenID"
append lstItems " DevID Rev NodeDesc LID PN"
}
"link" {
set sep "="
append lstItems "PHY LOG SPD"
}
}
foreach parameter $lstItems {
# The following may fail - then the procedure will return with error
# Known Issue - GetParamValue will return
if {$type == "csv_mode"} {
if {![BoolWordInList $parameter "systemType systemName systemPortName boardName"]} {
set value [GetParamValue $parameter $DirectPath -port $port]
}
} else {
regsub {^0x} [GetParamValue $parameter $DirectPath -port $port] {} value
# .lst formatting of parameters and their values
if {[BoolWordInList $parameter "VenID DevID Rev LID PN"]} {
set value [string toupper $value]
}
}
switch -exact -- $parameter {
"Ports" { set tmpPorts $value }
"PN" { set tmpPN $value }
"NodeGUID" { set tmpNG $value }
}
switch -exact -- $type {
"csv_mode" {
switch -exact -- $parameter {
"PN" -
"DevID" {
set value [expr $value]
}
"systemType" -
"systemName" -
"systemPortName" -
"boardName" {
set value [returnCVS_params $tmpNG $tmpPN $parameter]
}
}
append Info "$value,"
continue;
}
default {
}
}
switch -exact -- $parameter {
"Type" {
# Replace CA with CA-SM
if {$value == "CA"} {
set master 3
if {[info exists SM($master)]} {
foreach element $SM($master) {
set tmpDirectPath [lindex $element 0]
if {$DirectPath == $tmpDirectPath} {
set value "CA-SM"
}
}
}
}
lappend Info "$value"
}
"SystemGUID" {
# use node guid instead for zero system image guid
if {$value == "0x0000000000000000"} {
regsub {^0x} [GetParamValue NodeGUID $DirectPath -port $port] {} value
}
lappend Info "${parameter}${sep}${value}"
}
"NodeDesc" {
if {$G(bool:topology.matched)} {
lappend Info "\{[DrPath2Name $DirectPath -port $port]\}"
} else {
lappend Info "\{$value\}"
}
}
"DevID" { lappend Info "${parameter}${sep}${value}" }
"VenID" { lappend Info "${parameter}${sep}00${value}" }
default { lappend Info "${parameter}${sep}${value}" }
}
}
if {$type == "port"} {
if {[info exists tmpPorts] && [info exists tmpPN]} {
if {$tmpPorts < $tmpPN} {
set G(lst.failed) 1
}
}
}
return [join $Info]
}
##############################
##############################
# NAME writeDBFile
# SYNOPSIS writeDBFile
# FUNCTION writes a dump of the G Array
# INPUTS NULL
# OUTPUT NULL
proc writeDBFile {} {
global G Neighbor
if {[info exists G(argv:ibdiag.db)]} {
return 1
}
set FileID [InitializeOutputFile $G(var:tool.name).db]
foreach {array_name data} {G data* Neighbor *} {
puts $FileID "array set $array_name {"
set tmp_list [array get $array_name $data]
foreach {key val} $tmp_list {
set line "{$key} {$val}"
puts $FileID $line
}
puts $FileID "}"
}
close $FileID
return 0
}
##############################
##############################
# NAME writeLstFile
# SYNOPSIS writeLstFile
# FUNCTION writes a dump of the fabric links
# INPUTS NULL
# OUTPUT NULL
proc writeLstFile {} {
global G
set FileID [InitializeOutputFile $G(var:tool.name).lst]
foreach DirectPath $G(data:list.direct.path) {
# seperate the next 3 logical expr to avoid extra work
if {![llength $DirectPath] } {continue; }
if {[PathIsBad $DirectPath] > 1 } {continue; }
if {[catch {linkAtPathEnd $DirectPath}] } {continue; }
set lstLine ""
append lstLine "\{ [lstInfo port $path0 $port0] \} "
append lstLine "\{ [lstInfo port $path1 $port1] \} "
append lstLine "[lstInfo link $path0 $port0]"
puts $FileID "$lstLine"
unset path0
unset path1
unset port0
unset port1
}
close $FileID
return 0
}
proc writeCSVInventoryFile {} {
global G
if {![info exists G(argv:csv.dump)]} {
return 0
}
set FileID [InitializeOutputFile $G(var:tool.name).inv_csv]
set header_line "PortGUID PN NodeGUID SystemGUID systemType systemName systemPortName boardName NodeDesc Type DevID VenID LID PHY SPD"
puts $FileID [join $header_line ,]
foreach DirectPath $G(data:list.direct.path) {
# seperate the next 3 logical expr to avoid extra work
if {![llength $DirectPath] } {continue; }
if {[PathIsBad $DirectPath] > 1 } {continue; }
if {[catch {linkAtPathEnd $DirectPath}] } {continue; }
set lstLine ""
puts $FileID [string range [lstInfo csv_mode $path0 $port0] 0 end-1]
puts $FileID [string range [lstInfo csv_mode $path1 $port1] 0 end-1]
unset path0
unset path1
unset port0
unset port1
}
close $FileID
return 0
}
##############################
# NAME writeLinksCSVFile
# SYNOPSIS writeLinksCSVFile
# FUNCTION
# INPUTS NULL
# OUTPUT NULL
proc writeCSVLinksFile {} {
global G
if {![info exists G(argv:csv.dump)]} {
return 0
}
set FileID [InitializeOutputFile $G(var:tool.name).links_csv]
set header_line "PortGUID1 PortNum1 PortGUID2 PortNum2"
puts $FileID [join $header_line ,]
foreach DirectPath $G(data:list.direct.path) {
if {$DirectPath == ""} {continue;}
set dr_0 [lreplace $DirectPath end end ]
set pn_0 [lindex $DirectPath end]
set dr_1 $DirectPath
set pn_1 [GetEntryPort $DirectPath]
set guid_0 [GetParamValue PortGUID $dr_0 -port $pn_0]
set guid_1 [GetParamValue PortGUID $dr_1 -port $pn_1]
puts $FileID $guid_0,$pn_0,$guid_1,$pn_1
}
close $FileID
return 0
}
proc writeCSVErrorsFile {} {
global CSV_ERRORS G
if {(![info exists G(argv:csv.dump)]) || ![info exists CSV_ERRORS]} {
return 0
}
set FileID [InitializeOutputFile $G(var:tool.name).err_csv]
set header_line "Scope NodeGUID PortGUID PortNumber EventName Summary Severity exid type"
puts $FileID [join $header_line ,]
foreach line $CSV_ERRORS {
puts $FileID $line
}
close $FileID
return 0
}
##############################
##############################
# NAME writeNeighborFile
# SYNOPSIS writeNeighborFile
# FUNCTION writes a dump of the ports pairs in the discovered fabric
# INPUTS NULL
# OUTPUT NULL
proc writeNeighborFile { args } {
global Neighbor G
set FileID [InitializeOutputFile $G(var:tool.name).neighbor]
set preGuid ""
foreach neighbor [lsort -dictionary [array names Neighbor]] {
if {($preGuid != [string range $neighbor 0 17]) && ($preGuid != "")} {
puts $FileID ""
}
puts $FileID "$neighbor\t$Neighbor($neighbor)"
set preGuid [string range $neighbor 0 17]
}
close $FileID
return 0
}
##############################
##############################
# NAME writeMasksFile
# SYNOPSIS writeMasksFile
# FUNCTION writes a map for duplicate GUIDs <-> New assgiened GUIDs
# INPUTS NULL
# OUTPUT NULL
proc writeMasksFile { args } {
global MASK G
if {[llength [array names MASK *Guid,*]] == 0 } {
return 0
}
set FileID [InitializeOutputFile $G(var:tool.name).masks]
foreach mask [lsort -dictionary [array names MASK *Guid,*]] {
puts $FileID "$mask\t$MASK($mask)"
}
close $FileID
return 0
}
##############################
##############################
# NAME writeSMFile
# SYNOPSIS writeSMFile
# FUNCTION writes a dump of SM query
# INPUTS NULL
# OUTPUT NULL
proc writeSMFile {} {
global SM G
set SMFound 0
for {set i 3} {$i > -1} {incr i -1} {
if {[info exists SM($i)]} {
set SMFound 1
}
}
if {!$SMFound} {return 0}
set FileID [InitializeOutputFile $G(var:tool.name).sm]
puts $FileID "ibdiagnet fabric SM report"
DumpSMReport $FileID
close $FileID
return 0
}
##############################
# NAME writeGeneralInfoFile
# SYNOPSIS writeGeneralInfoFile
# FUNCTION writes a dump of Geneal Info query
# INPUTS NULL
# OUTPUT NULL
proc writeCSVGeneralInfoFile {} {
global G GENERAL_INFO;
if {![info exists G(argv:csv.dump)]} {return 0}
if {![info exists GENERAL_INFO]} {return 0}
set FileID [InitializeOutputFile $G(var:tool.name).dev_info_csv]
foreach curr_node_guid $GENERAL_INFO(found_nodes) {
#create header line
if {![info exists header_line]} {
for {set i 0} {$i < [llength $GENERAL_INFO($curr_node_guid.desc_list)]} {set i [expr {$i + 2}]} {
lappend header_line [lindex $GENERAL_INFO($curr_node_guid.desc_list) $i]
}
for {set i 0} {$i < [llength $GENERAL_INFO($curr_node_guid.general_info_list)]} {set i [expr {$i + 2}]} {
set curr_hdr_key [lindex $GENERAL_INFO($curr_node_guid.general_info_list) $i]
if {$curr_hdr_key == "sw_sub_minor" ||
$curr_hdr_key == "sw_minor" ||
$curr_hdr_key == "sw_major" ||
$curr_hdr_key == "fw_ini_ver"} {
#depcrated keys
continue
}
lappend header_line $curr_hdr_key
}
puts $FileID [join $header_line ,]
}
#create lines - line per node
for {set i 1} {$i < [llength $GENERAL_INFO($curr_node_guid.desc_list)]} {set i [expr {$i + 2}]} {
lappend node_line [lindex $GENERAL_INFO($curr_node_guid.desc_list) $i]
}
for {set i 1} {$i < [llength $GENERAL_INFO($curr_node_guid.general_info_list)]} {set i [expr {$i + 2}]} {
set curr_hdr_key [lindex $GENERAL_INFO($curr_node_guid.general_info_list) [expr {$i - 1}]]
if {$curr_hdr_key == "sw_sub_minor" ||
$curr_hdr_key == "sw_minor" ||
$curr_hdr_key == "sw_major" ||
$curr_hdr_key == "fw_ini_ver"} {
#depcrated keys
continue
}
lappend node_line [lindex $GENERAL_INFO($curr_node_guid.general_info_list) $i]
}
puts $FileID [join $node_line ,]
}
#close the file
close $FileID
return 0
}
##############################
# NAME writePMFile
# SYNOPSIS writePMFile
# FUNCTION writes a dump of Port Counter query
# INPUTS NULL
# OUTPUT NULL
proc writePMFile {} {
global G PM_DUMP
if {![info exists PM_DUMP]} {return 0}
set FileID_0 [InitializeOutputFile $G(var:tool.name).pm]
set header 1
if {[info exists G(argv:csv.dump)]} {
set header 0
set FileID_1 [InitializeOutputFile $G(var:tool.name).pm_csv]
}
foreach pair $PM_DUMP(list_dr_port) {
regexp {^([^:]*):([^:]+)$} $pair . dr pn
set name [DrPath2Name "$dr" -fullName -port $pn]
set tmpPmCounterList $PM_DUMP($pair,pmCounterList)
set listOfPMValues $PM_DUMP($pair,pmCounterValue)
puts $FileID_0 [string repeat "-" 80]
puts $FileID_0 $name
puts $FileID_0 [string repeat "-" 80]
if {!$header} {
puts $FileID_1 NodeGUID,PortGUID,PortNumber,[join $tmpPmCounterList ,]
incr header
}
set portGuid $G(data:guid.by.dr.path.$dr)
set nodeGuid $G(data:NodeGuid.$portGuid)
set tmp_csv_line $nodeGuid,$portGuid,$pn
foreach pmCounter $tmpPmCounterList {
set pmCounterValue "0x[format %lx [GetWordAfterFlag $listOfPMValues $pmCounter]]"
puts $FileID_0 "$pmCounter = $pmCounterValue"
append tmp_csv_line ",[expr $pmCounterValue]"
}
if {[info exists G(argv:csv.dump)]} {
puts $FileID_1 $tmp_csv_line
}
}
close $FileID_0
if {[info exists G(argv:csv.dump)]} {
close $FileID_1
}
return 0
}
##############################
##############################
# NAME writeTopologyFileAndIBNLs
# SYNOPSIS writeTopologyFileAndIBNLs
# FUNCTION Write out teh topoly fiel if requested
# INPUTS NULL
# OUTPUT NULL
proc writeTopologyFileAndIBNLs {} {
global G
# we might be asked to dump out the topology
if {[info exists G(argv:write.topology)]} {
inform "-I-write.topology:writing"
set ibnlDir [file join $G(argv:out.dir) ibdiag_ibnl]
if {![file exists $ibnlDir]} {
file mkdir $ibnlDir
}
# we might be teh only reason to get a topology ...
if {![info exists G(IBfabric:merged)] } {
set f [new_IBFabric]
if {[IBFabric_parseSubnetLinks $f $G(outfiles,.lst)]} {
inform "-F-crash:failed.parse.lst"
}
} else {
set f $G(IBfabric:merged)
}
if {[IBFabric_dumpTopology $f $G(argv:write.topology) $ibnlDir]} {
inform "-E-write.topology:failed"
}
}
return 0
}
##############################
# SYNOPSIS write.fdbsFile
# FUNCTION
# writes the $G(var:tool.name).fdbs file, which lists the Linear Forwarding Tables
# of all the switches in the discovered faric.
# Writing this file is part of the flow of ibdiagnet.
# The data is obtained by sending LftBlock MADs to read all the entires
# of the Linear Forwarding Tables to all the switches.
# The file has the following format for each switch of the IB fabric:
# Switch <NodeGuid>
# LID : Out Port(s)
# 0xc000 0x002 0x00f
# ...
# INPUTS NULL
# OUTPUT the file $G(var:tool.name).mcfdbs
# DATAMODEL
# the procedure uses the global arrays
# $G(data:PortInfo.<NodeGuid>:0) - as a list of all the switches
# and $G(Guid2DrPath,<NodeGuid>) - to translate node-guids to direct paths
# it sets the global array $G(mclid2DrPath,<mcLid>) - a list of (direct
# paths to) HCAs belonging to a multicast-lid - to be used later by
# DumpFabQualities.
proc writeFdbsFile { args } {
global G
set FileID [InitializeOutputFile $G(var:tool.name).fdbs]
foreach entry [array names G "data:dr.path.to.guid.*"] {
set DirectPath $G($entry)
if {[PathIsBad $DirectPath] > 1} { continue; }
set NodeType [GetParamValue Type $G($entry)]
if {$NodeType != "SW"} { continue; }
set PortGuid [lindex [split $entry .] end]
set NodeGuid $G(data:NodeGuid.$PortGuid)
set thisSwLid [GetParamValue LID $DirectPath X -noread]
if {[PathIsBad $DirectPath] > 1} { continue; }
if [catch {set LinFDBTop \
[SmMadGetByDr SwitchInfo -lin_top "$DirectPath"]}] {
continue;
}
set FDBs ""
for { set I 0 } { [expr $I *64] <= $LinFDBTop } { incr I } {
# Note "<=" - because LinFDBTop indicates the INDEX of the last
# valid entry
if [catch {set NewFDBs \
[SmMadGetByDr LftBlock dump "$DirectPath" $I] }] {
set FDBs [concat $FDBs [Bar "0xff " 64]]
} else {
set NewFDBs [RemoveElementFromList $NewFDBs "-lft"]
set FDBs [concat $FDBs $NewFDBs]
}
}
puts -nonewline $FileID "osm_ucast_mgr_dump_ucast_routes: "
puts $FileID "Switch $NodeGuid"
puts $FileID "LID : Port : Hops : Optimal"
for { set lid 1 } { $lid <= $LinFDBTop } { incr lid 1 } {
scan [lindex $FDBs $lid] %x port
puts -nonewline $FileID "0x[string toupper [format %04x $lid]] : "
if { $port == "0xff" } {
puts $FileID "UNREACHABLE"
} elseif { ( $port == "0x00" ) && ( $lid != $thisSwLid ) } {
puts $FileID "UNREACHABLE"
} else {
puts $FileID "[AddZeroes $port 3] : 00 : yes"
}
}
puts $FileID ""
}
close $FileID
return 0
}
##############################
##############################
# SYNOPSIS write.mcfdbsFile
# FUNCTION
# writes the $G(var:tool.name).mcfdbs file, which lists the Multicast Forwarding
# Tables of all the switches in the discovered faric.
# Writing this file is part of the flow of ibdiagnet.
# The data is obtained by sending MftBlock MADs to read all the entires
# of the MC Forwarding Tables. Note the tables are read in blocks of
# 16 ports x 64 mcLids blocks, thus if a deviec has more than 16 ports
# then reading its mc table is a bit tricky...
# The file has the following format for each switch of the IB fabric:
# Switch <NodeGuid>
# LID : Out Port(s)
# 0xc000 0x002 0x00f
# ...
# INPUTS NULL
# OUTPUT the file $G(var:tool.name).mcfdbs
# DATAMODEL
# the procedure uses the global arrays
# $G(data:PortInfo.<NodeGuid>:0) - as a list of all the switches
# and $G(Guid2DrPath,<NodeGuid>) - to translate node-guids to direct paths
# it sets the global array $G(mclid2DrPath,<mcLid>) - a list of (direct
# paths to) HCAs belonging to a multicast-lid - to be used later by
# DumpFabQualities.
proc writeMcfdbsFile { } {
global G
set FileID [InitializeOutputFile $G(var:tool.name).mcfdbs]
foreach entry [array names G "data:dr.path.to.guid.*"] {
set DirectPath $G($entry)
if {[PathIsBad $DirectPath] > 1} {
continue;
}
set NodeType [GetParamValue Type $G($entry)]
if {$NodeType != "SW"} { continue; }
set PortGuid [lindex [split $entry .] end]
set NodeGuid $G(data:NodeGuid.$PortGuid)
if {[catch { set McFDBCap [SmMadGetByDr SwitchInfo -mcast_cap "$DirectPath"] }]} {
continue;
}
set NumPorts [GetParamValue Ports $DirectPath]
puts $FileID "\nSwitch $NodeGuid\nLID : Out Port(s) "
for {set LidGrp 0xc000} {$LidGrp < 0xc000 + $McFDBCap} {incr LidGrp 0x20} {
set McFDBs ""
set LidGroup "0x[format %lx $LidGrp]"
# read the entire McFDBs data for Lids $LidGroup .. $LidGroup + 0x1f
for {set PortGroup 0} {$PortGroup <= $NumPorts} {incr PortGroup 16} {
if {[catch { set newBlock [SmMadGetByDr MftBlock dump "$DirectPath" $LidGroup $PortGroup] }]} { break; }
if {[lindex $newBlock 0] == "-mft"} {
append McFDBs " " [Hex2Bin [lrange $newBlock 1 end]]
} else {
append McFDBs " " [Hex2Bin $newBlock]
}
}
# figure out - and print to file - the mc ports for each Lid
# in the lid group
for { set lidIndx 0 } { $lidIndx < 0x20 } { incr lidIndx } {
set mask ""
for { set PortGroup 0; set idx 0 } { $PortGroup <= $NumPorts } { incr PortGroup 16; incr idx 32 } {
set mask "[lindex $McFDBs [expr $lidIndx + $idx]]$mask"
}
if { ! [regexp "1" $mask] } { continue; }
set mcLid [format %04x [expr $lidIndx + $LidGroup]]
set outputLine "0x[string toupper $mcLid] :"
for { set Port 0; set maskIndx [expr [string length $mask]-1] } { $Port <= $NumPorts } { incr Port 1 ; incr maskIndx -1 } {
if { [string index $mask $maskIndx] == 1 } {
append outputLine " 0x[string toupper [format %03x $Port]] "
set LongPath [join "$DirectPath $Port"]
set tmp_badLinksDetectionValue $G(bool:bad.links.detected)
set G(bool:bad.links.detected) 0
if {[catch {SmMadGetByDr NodeInfo dump $LongPath} e]} {
set G(bool:bad.links.detected) $tmp_badLinksDetectionValue
continue;
}
set G(bool:bad.links.detected) $tmp_badLinksDetectionValue
catch { if { [GetParamValue Type $LongPath -byDr] != "SW" } {
set directPathName [DrPath2Name $LongPath -byDr]
if {$directPathName !=""} {
lappend G(mclid2DrPath,0x$mcLid) $directPathName
} else {
lappend G(mclid2DrPath,0x$mcLid) $LongPath
}
}
}
}
}
puts $FileID "$outputLine"
}
}
}
close $FileID
return 0
}
######################################################################
proc CheckAllinksSettings {} {
global G LINK_SPD LINK_PHY
set checkList ""
set spd ""
set phy ""
if {[info exists G(argv:link.width)]} {
lappend checkList "PHY"
set phy $G(argv:link.width)
}
if {[info exists G(argv:link.speed)]} {
lappend checkList "SPD"
set spd $G(argv:link.speed)
}
foreach DirectPath $G(data:list.direct.path) {
if {$DirectPath == ""} {
continue;
}
if {[lsearch $checkList "SPD"] != -1} {
set tmpLinkspeed [GetParamValue "SPD" $DirectPath -port [GetEntryPort $DirectPath]]
if {$tmpLinkspeed != $spd} {
lappend LINK_SPD($DirectPath) $tmpLinkspeed
}
}
if {[lsearch $checkList "PHY"] != -1} {
set tmpLinkWidth [GetParamValue "PHY" $DirectPath -port [GetEntryPort $DirectPath]]
if {$tmpLinkWidth != $phy} {
lappend LINK_PHY($DirectPath) $tmpLinkWidth
}
}
}
if {[lsearch $checkList "PHY"] != -1} {
inform "-I-ibdiagnet:bad.link.width.header"
if {[llength [array names LINK_PHY]]} {
foreach link [lsort [array names LINK_PHY]] {
if {[PathIsBad $link] > 1} {continue;}
set paramlist "-DirectPath0 \{[lrange $link 0 end-1]\} -DirectPath1 \{$link\}"
eval inform "-W-ibdiagnet:report.links.width.state" -phy $LINK_PHY($link) $paramlist
}
} else {
inform "-I-ibdiagnet:no.bad.link.width"
}
}
if {[lsearch $checkList "SPD"] != -1} {
inform "-I-ibdiagnet:bad.link.speed.header"
if {[llength [array names LINK_SPD]]} {
foreach link [lsort [array names LINK_SPD]] {
if {[PathIsBad $link] > 1} {continue;}
set paramlist "-DirectPath0 \{[lrange $link 0 end-1]\} -DirectPath1 \{$link\}"
eval inform "-W-ibdiagnet:report.links.speed.state" -spd $LINK_SPD($link) $paramlist
}
} else {
inform "-I-ibdiagnet:no.bad.link.speed"
}
}
return 0
}
proc SL_2_VL {_paths _targets} {
global G
for {set i 0} {$i < 16} {incr i} {
set SL_VL($i,VL) -1
}
set path [lindex $_paths end]
for {set i 0} {$i < [llength $path]} {incr i} {
set tmpPath [lrange $path 0 $i]
set smallPath [lreplace $tmpPath end end ]
set entryPort [GetParamValue PortNum $tmpPath -byDr]
set inPort [GetParamValue PortNum $smallPath -byDr]
set outPort [lindex $tmpPath end]
set slVlTable [SmMadGetByDr SlVlTable dump "$smallPath" $inPort $outPort]
set slVlString ""
foreach item $slVlTable {
append slVlString [string range $item 2 end]
}
set tmpOpVL [GetParamValue OpVL "$tmpPath" -port $entryPort -byDr]
set slVlString $slVlString
for {set j 0} {$j < 16} {incr j} {
if {$SL_VL($j,VL) != -1} { continue}
if {$tmpOpVL < [string index $slVlString $j]} {
set SL_VL($j,VL) [string index $slVlString $j]
set SL_VL($j,directPath) $tmpPath
set SL_VL($j,opVL) $tmpOpVL
}
}
}
for {set i 0} {$i < 16} {incr i} {
if {$SL_VL($i,VL) == -1} {
lappend suitableSl $i
}
}
set directPath ""
set opVL ""
set VL -1
if {[info exists G(argv:lid.route)]} {
set lidRoute ""
foreach lid [split $G(argv:lid.route) ,] {
lappend lidRoute "0x[format %x $lid]"
}
if {[llength $_targets] > 1} {
set route "path From lid: [lindex $lidRoute 0] To lid: [lindex $lidRoute 1]"
} else {
set route "path From lid: $G(data:root.port.lid) To lid: [lindex $lidRoute 0]"
}
}
if {[info exists G(argv:by-name.route)]} {
set nameRoute [split $G(argv:by-name.route) ,]
if {[llength $_targets] > 1} {
set route "path From: [lindex $nameRoute 0] To: [lindex $nameRoute 1]"
} else {
set route "path From: [DrPath2Name ""] To: [lindex $nameRoute 0]"
}
}
if {[info exists G(argv:direct.route)]} {
set route "direct route: $G(argv:direct.route)"
}
if {[info exists G(argv:service.level)]} {
if {$SL_VL($G(argv:service.level),VL) != -1 } {
set directPath "$SL_VL($G(argv:service.level),directPath)"
set opVL [Hex2Dec $SL_VL($G(argv:service.level),opVL)]
set VL [Hex2Dec $SL_VL($G(argv:service.level),VL)]
}
}
inform "-I-ibdiagpath:service.level.header"
inform "-I-ibdiagpath:service.level.report" -suitableSl $suitableSl -DirectPath0 $directPath -DirectPath1 [lreplace $directPath end end] -opVL $opVL -VL $VL -route $route
return 0
}
proc Hex2Dec {hexaNum} {
scan $hexaNum "%x" dec
return $dec
}
proc CheckSkipStatus {_step} {
global G
if {[BoolWordInList $_step $G(argv:skip.checks)]} {
return 1
}
if {$_step == "load_ibdm"} {
return 0
}
if {[BoolWordInList all $G(argv:skip.checks)]} {
return 1
}
return 0
}
proc returnCVS_params {_nodeGuid _pn _reg} {
global G TopoGUIDtoNode
if { ![info exists G(argv:topo.file)] || [CheckSkipStatus load_ibdm] || ![info exists G(IBfabric:merged)]} {
return 0
}
if {![info exists TopoGUIDtoNode]} {
array set TopoGUIDtoNode [join [IBFabric_NodeByGuid_get $G(IBfabric:merged)]]
}
if {![info exists TopoGUIDtoNode($_nodeGuid)]} {
return ""
}
set nodePtr $TopoGUIDtoNode($_nodeGuid)
set sysPtr [IBNode_p_system_get $nodePtr]
if {$sysPtr == ""} {
return ""
}
set systemName [IBSystem_name_get $sysPtr]
set systemType [IBSystem_type_get $sysPtr]
### query if not ""
set port [IBNode_getPort $nodePtr $_pn]
set systemPortName ""
if {$port != ""} {
set sysPort [IBPort_p_sysPort_get $port]
if {$sysPort != ""} {
set systemPortName [IBSysPort_name_get $sysPort]
}
}
set boardName ""
if {[info exists $_reg]} {
return [subst $$_reg]
} else {
return ""
}
return "$systemType,$systemName,$systemPortName,$BoardName"
}
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