Provided by: infiniband-diags_44.0-2_amd64 bug

NAME

       infiniband-diags - Diagnostics for InfiniBand Fabrics

DESCRIPTION

       infiniband-diags  is  a  set  of utilities designed to help configure, debug, and maintain
       infiniband  fabrics.   Many  tools  and  utilities  are  provided.   Some   with   similar
       functionality.

       The  base  utilities  use  directed  route  MAD's  to  perform their operations.  They may
       therefore work even in unconfigured subnets.  Other, higher level utilities,  require  LID
       routed MAD's and to some extent SA/SM access.

THE USE OF SMPS (QP0)

       Many of the tools in this package rely on the use of SMPs via QP0 to acquire data directly
       from the SMA.  While this mode of operation is not  technically  in  compliance  with  the
       InfiniBand specification, practical experience has found that this level of diagnostics is
       valuable when working with a fabric which is broken or  only  partially  configured.   For
       this  reason  many of these tools may require the use of an MKey or operation from Virtual
       Machines may be restricted for security reasons.

COMMON OPTIONS

       Most OpenIB diagnostics take some of  the  following  common  flags.  The  exact  list  of
       supported flags per utility can be found in the documentation for those commands.

   Addressing Flags
       The -D and -G option have two forms:

       -D, --Direct     The address specified is a directed route

          Examples:
             [options] -D [options] "0"          # self port
             [options] -D [options] "0,1,2,1,4"  # out via port 1, then 2, ...

             (Note the second number in the path specified must match the port being
             used.  This can be specified using the port selection flag '-P' or the
             port found through the automatic selection process.)

       -D, --Direct <dr_path>     The address specified is a directed route

          Examples:
             -D "0"          # self port
             -D "0,1,2,1,4"  # out via port 1, then 2, ...

             (Note the second number in the path specified must match the port being
             used.  This can be specified using the port selection flag '-P' or the
             port found through the automatic selection process.)

       -G, --Guid     The address specified is a Port GUID

       --port-guid, -G <port_guid>  Specify a port_guid

       -L, --Lid   The address specified is a LID

       -s, --sm_port <smlid>     use 'smlid' as the target lid for SA queries.

   Port Selection flags
       -C, --Ca <ca_name>    use the specified ca_name.

       -P, --Port <ca_port>    use the specified ca_port.

   Local port Selection
       Multiple  port/Multiple CA support: when no IB device or port is specified (see the "local
       umad parameters" below), the libibumad library selects the port to use  by  the  following
       criteria:

          1. the first port that is ACTIVE.

          2. if not found, the first port that is UP (physical link up).

          If  a  port  and/or CA name is specified, the libibumad library attempts to fulfill the
          user request, and will fail if it is not possible.

          For example:

              ibaddr                 # use the first port (criteria #1 above)
              ibaddr -C mthca1       # pick the best port from "mthca1" only.
              ibaddr -P 2            # use the second (active/up) port from the first available IB device.
              ibaddr -C mthca0 -P 2  # use the specified port only.

   Debugging flags
       -d     raise the IB debugging level.  May be used several times (-ddd or -d -d -d).

       -e     show send and receive errors (timeouts and others)

       -h, --help      show the usage message

       -v, --verbose
              increase the application verbosity level.  May be used several times (-vv or -v  -v
              -v)

       -V, --version     show the version info.

   Configuration flags
       -t, --timeout <timeout_ms> override the default timeout for the solicited mads.

       --outstanding_smps, -o <val>
              Specify the number of outstanding SMP's which should be issued during the scan

              Default: 2

       --node-name-map <node-name-map> Specify a node name map.
          This file maps GUIDs to more user friendly names.  See FILES section.

       --config, -z  <config_file> Specify alternate config file.
          Default: /etc/infiniband-diags/ibdiag.conf

COMMON FILES

       The following config files are common amongst many of the utilities.

   CONFIG FILE
       /etc/infiniband-diags/ibdiag.conf

       A  global  config  file  is provided to set some of the common options for all tools.  See
       supplied config file for details.

   NODE NAME MAP FILE FORMAT
       The node name map is used to specify user friendly names for nodes in the  output.   GUIDs
       are used to perform the lookup.

       This  functionality  is  provided  by the opensm-libs package.  See opensm(8) for the file
       location for your installation.

       Generically:

          # comment
          <guid> "<name>"

       Example:

          # IB1
          # Line cards
          0x0008f104003f125c "IB1 (Rack 11 slot 1   ) ISR9288/ISR9096 Voltaire sLB-24D"
          0x0008f104003f125d "IB1 (Rack 11 slot 1   ) ISR9288/ISR9096 Voltaire sLB-24D"
          0x0008f104003f10d2 "IB1 (Rack 11 slot 2   ) ISR9288/ISR9096 Voltaire sLB-24D"
          0x0008f104003f10d3 "IB1 (Rack 11 slot 2   ) ISR9288/ISR9096 Voltaire sLB-24D"
          0x0008f104003f10bf "IB1 (Rack 11 slot 12  ) ISR9288/ISR9096 Voltaire sLB-24D"

          # Spines
          0x0008f10400400e2d "IB1 (Rack 11 spine 1   ) ISR9288 Voltaire sFB-12D"
          0x0008f10400400e2e "IB1 (Rack 11 spine 1   ) ISR9288 Voltaire sFB-12D"
          0x0008f10400400e2f "IB1 (Rack 11 spine 1   ) ISR9288 Voltaire sFB-12D"
          0x0008f10400400e31 "IB1 (Rack 11 spine 2   ) ISR9288 Voltaire sFB-12D"
          0x0008f10400400e32 "IB1 (Rack 11 spine 2   ) ISR9288 Voltaire sFB-12D"

          # GUID   Node Name
          0x0008f10400411a08 "SW1  (Rack  3) ISR9024 Voltaire 9024D"
          0x0008f10400411a28 "SW2  (Rack  3) ISR9024 Voltaire 9024D"
          0x0008f10400411a34 "SW3  (Rack  3) ISR9024 Voltaire 9024D"
          0x0008f104004119d0 "SW4  (Rack  3) ISR9024 Voltaire 9024D"

   TOPOLOGY FILE FORMAT
       The topology file format is human readable and largely intuitive.   Most  identifiers  are
       given textual names like vendor ID (vendid), device ID (device ID), GUIDs of various types
       (sysimgguid, caguid, switchguid, etc.).  PortGUIDs  are  shown  in  parentheses  ().   For
       switches,  this  is shown on the switchguid line.  For CA and router ports, it is shown on
       the connectivity lines.  The IB node is identified followed by the number of ports  and  a
       quoted  the  node  GUID.   On  the  right  of  this  line is a comment (#) followed by the
       NodeDescription in quotes.  If the node is a  switch,  this  line  also  contains  whether
       switch  port  0  is  base  or  enhanced,  and the LID and LMC of port 0.  Subsequent lines
       pertaining to this node show the connectivity.   On the left is the  port  number  of  the
       current node.  On the right is the peer node (node at other end of link). It is identified
       in quotes with nodetype followed by - followed by NodeGUID with the port number in  square
       brackets.   Further  on the right is a comment (#).  What follows the comment is dependent
       on the node type.  If it it a switch node, it is followed by the NodeDescription in quotes
       and  the  LID of the peer node.  If it is a CA or router node, it is followed by the local
       LID and LMC and then followed by the NodeDescription in quotes and the  LID  of  the  peer
       node.  The active link width and speed are then appended to the end of this output line.

       An example of this is:

          #
          # Topology file: generated on Tue Jun  5 14:15:10 2007
          #
          # Max of 3 hops discovered
          # Initiated from node 0008f10403960558 port 0008f10403960559

          Non-Chassis Nodes

          vendid=0x8f1
          devid=0x5a06
          sysimgguid=0x5442ba00003000
          switchguid=0x5442ba00003080(5442ba00003080)
          Switch  24 "S-005442ba00003080"         # "ISR9024 Voltaire" base port 0 lid 6 lmc 0
          [22]    "H-0008f10403961354"[1](8f10403961355)         # "MT23108 InfiniHost Mellanox Technologies" lid 4 4xSDR
          [10]    "S-0008f10400410015"[1]         # "SW-6IB4 Voltaire" lid 3 4xSDR
          [8]     "H-0008f10403960558"[2](8f1040396055a)         # "MT23108 InfiniHost Mellanox Technologies" lid 14 4xSDR
          [6]     "S-0008f10400410015"[3]         # "SW-6IB4 Voltaire" lid 3 4xSDR
          [12]    "H-0008f10403960558"[1](8f10403960559)         # "MT23108 InfiniHost Mellanox Technologies" lid 10 4xSDR

          vendid=0x8f1
          devid=0x5a05
          switchguid=0x8f10400410015(8f10400410015)
          Switch  8 "S-0008f10400410015"          # "SW-6IB4 Voltaire" base port 0 lid 3 lmc 0
          [6]     "H-0008f10403960984"[1](8f10403960985)         # "MT23108 InfiniHost Mellanox Technologies" lid 16 4xSDR
          [4]     "H-005442b100004900"[1](5442b100004901)        # "MT23108 InfiniHost Mellanox Technologies" lid 12 4xSDR
          [1]     "S-005442ba00003080"[10]                # "ISR9024 Voltaire" lid 6 1xSDR
          [3]     "S-005442ba00003080"[6]         # "ISR9024 Voltaire" lid 6 4xSDR

          vendid=0x2c9
          devid=0x5a44
          caguid=0x8f10403960984
          Ca      2 "H-0008f10403960984"          # "MT23108 InfiniHost Mellanox Technologies"
          [1](8f10403960985)     "S-0008f10400410015"[6]         # lid 16 lmc 1 "SW-6IB4 Voltaire" lid 3 4xSDR

          vendid=0x2c9
          devid=0x5a44
          caguid=0x5442b100004900
          Ca      2 "H-005442b100004900"          # "MT23108 InfiniHost Mellanox Technologies"
          [1](5442b100004901)     "S-0008f10400410015"[4]         # lid 12 lmc 1 "SW-6IB4 Voltaire" lid 3 4xSDR

          vendid=0x2c9
          devid=0x5a44
          caguid=0x8f10403961354
          Ca      2 "H-0008f10403961354"          # "MT23108 InfiniHost Mellanox Technologies"
          [1](8f10403961355)     "S-005442ba00003080"[22]                # lid 4 lmc 1 "ISR9024 Voltaire" lid 6 4xSDR

          vendid=0x2c9
          devid=0x5a44
          caguid=0x8f10403960558
          Ca      2 "H-0008f10403960558"          # "MT23108 InfiniHost Mellanox Technologies"
          [2](8f1040396055a)     "S-005442ba00003080"[8]         # lid 14 lmc 1 "ISR9024 Voltaire" lid 6 4xSDR
          [1](8f10403960559)     "S-005442ba00003080"[12]                # lid 10 lmc 1 "ISR9024 Voltaire" lid 6 1xSDR

       When grouping is used, IB nodes are organized into chassis which are numbered. Nodes which
       cannot be determined to be in a chassis are displayed as  "Non-Chassis  Nodes".   External
       ports are also shown on the connectivity lines.

UTILITIES LIST

   Basic fabric connectivity
          See: ibnetdiscover, iblinkinfo

   Node information
          See: ibnodes, ibswitches, ibhosts, ibrouters

   Port information
          See: ibportstate, ibaddr

   Switch Forwarding Table info
          See: ibtracert, ibroute, dump_lfts, dump_mfts, check_lft_balance, ibfindnodesusing

   Performance counters
          See: ibqueryerrors, perfquery

   Local HCA info
          See: ibstat, ibstatus

   Connectivity check
          See: ibping, ibsysstat

   Low level query tools
          See: smpquery, smpdump, saquery, sminfo

   Fabric verification tools
          See: ibidsverify

BACKWARDS COMPATIBILITY SCRIPTS

       The  following  scripts  have  been  identified  as  redundant  and/or lower performing as
       compared  to  the  above  scripts.    They   are   provided   as   legacy   scripts   when
       --enable-compat-utils is specified at build time.

       ibcheckerrors,  ibclearcounters,  ibclearerrors,  ibdatacounters  ibchecknet, ibchecknode,
       ibcheckport,    ibcheckportstate,    ibcheckportwidth,     ibcheckstate,     ibcheckwidth,
       ibswportwatch, ibprintca, ibprintrt, ibprintswitch, set_nodedesc.sh

AUTHORS

       Ira Weiny
              < ira.weiny@intel.com >

                                            2017-08-21                        INFINIBAND-DIAGS(8)