1IBNETDISCOVER(8)              Open IB Diagnostics             IBNETDISCOVER(8)
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NAME

6       IBNETDISCOVER - discover InfiniBand topology
7

SYNOPSIS

9       ibnetdiscover [options] [<topology-file>]
10

DESCRIPTION

12       ibnetdiscover performs IB subnet discovery and outputs a human readable
13       topology file. GUIDs, node types, and port  numbers  are  displayed  as
14       well as port LIDs and NodeDescriptions.  All nodes (and links) are dis‐
15       played (full topology).  Optionally, this utility can be used  to  list
16       the  current  connected  nodes  by  nodetype.  The output is printed to
17       standard output unless a topology file is specified.
18

OPTIONS

20       -l, --list List of connected nodes
21
22       -g, --grouping Show grouping.  Grouping correlates IB nodes by  differ‐
23       ent  vendor  specific  schemes.   It  may also show the switch external
24       ports correspondence.
25
26       -H, --Hca_list List of connected CAs
27
28       -S, --Switch_list List of connected switches
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30       -R, --Router_list List of connected routers
31
32       -s, --show Show progress information during discovery.
33
34       -f, --full Show full information (ports' speed and width, vlcap)
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36       -p, --ports Obtain a ports report which is a list  of  connected  ports
37       with  relevant  information (like LID, portnum, GUID, width, speed, and
38       NodeDescription).
39
40       -m, --max_hops Report max hops discovered.
41
42       --outstanding_smps, -o <val>
43              Specify the number of outstanding SMP's which should  be  issued
44              during the scan
45
46              Default: 2
47
48   Cache File flags
49       --cache  <filename>  Cache the ibnetdiscover network data in the speci‐
50       fied filename.  This cache may be used by other tools for later  analy‐
51       sis.
52
53       --load-cache  <filename>  Load  and  use  the cached ibnetdiscover data
54       stored in the specified filename.  May be  useful  for  outputting  and
55       learning about other fabrics or a previous state of a fabric.
56
57       --diff <filename> Load cached ibnetdiscover data and do a diff compari‐
58       son to the current network or another cache.  A special diff output for
59       ibnetdiscover  output will be displayed showing differences between the
60       old and current fabric.  By default, the  following  are  compared  for
61       differences: switches, channel adapters, routers, and port connections.
62
63       --diffcheck  <key(s)>  Specify  what  diff checks should be done in the
64       --diff option above.  Comma separate multiple diff check  key(s).   The
65       available diff checks are: sw = switches, ca = channel adapters, router
66       = routers, port =  port  connections,  lid  =  lids,  nodedesc  =  node
67       descriptions.   Note  that port, lid, and nodedesc are checked only for
68       the node types that are specified (e.g. sw, ca, router).   If  port  is
69       specified alongside lid or nodedesc, remote port lids and node descrip‐
70       tions will also be compared.
71
72   Port Selection flags
73       -C, --Ca <ca_name>    use the specified ca_name.
74
75       -P, --Port <ca_port>    use the specified ca_port.
76
77   Local port Selection
78       Multiple port/Multiple CA support: when no IB device or port is  speci‐
79       fied  (see  the  "local  umad parameters" below), the libibumad library
80       selects the port to use by the following criteria:
81
82          1. the first port that is ACTIVE.
83
84          2. if not found, the first port that is UP (physical link up).
85
86          If a port  and/or  CA  name  is  specified,  the  libibumad  library
87          attempts  to  fulfill  the  user request, and will fail if it is not
88          possible.
89
90          For example:
91
92              ibaddr                 # use the first port (criteria #1 above)
93              ibaddr -C mthca1       # pick the best port from "mthca1" only.
94              ibaddr -P 2            # use the second (active/up) port from the first available IB device.
95              ibaddr -C mthca0 -P 2  # use the specified port only.
96
97   Configuration flags
98       --config, -z  <config_file> Specify alternate config file.
99          Default: /etc/infiniband-diags/ibdiag.conf
100
101       --outstanding_smps, -o <val>
102              Specify the number of outstanding SMP's which should  be  issued
103              during the scan
104
105              Default: 2
106
107       --node-name-map <node-name-map> Specify a node name map.
108          This  file  maps  GUIDs to more user friendly names.  See FILES sec‐
109          tion.
110
111       -t,  --timeout  <timeout_ms>  override  the  default  timeout  for  the
112       solicited mads.
113
114       -y, --m_key <key>
115              use the specified M_key for requests. If non-numeric value (like
116              'x') is specified then a value will be prompted for.
117
118   Debugging flags
119       -d     raise the IB debugging level.  May be used several  times  (-ddd
120              or -d -d -d).
121
122       -e     show send and receive errors (timeouts and others)
123
124       -h, --help      show the usage message
125
126       -v, --verbose
127              increase  the  application verbosity level.  May be used several
128              times (-vv or -v -v -v)
129
130       -V, --version     show the version info.
131

FILES

133   CONFIG FILE
134       /etc/infiniband-diags/ibdiag.conf
135
136       A global config file is provided to set some of the common options  for
137       all tools.  See supplied config file for details.
138
139   NODE NAME MAP FILE FORMAT
140       The  node  name map is used to specify user friendly names for nodes in
141       the output.  GUIDs are used to perform the lookup.
142
143       This  functionality  is  provided  by  the  opensm-libs  package.   See
144       opensm(8) for the file location for your installation.
145
146       Generically:
147
148          # comment
149          <guid> "<name>"
150
151       Example:
152
153          # IB1
154          # Line cards
155          0x0008f104003f125c "IB1 (Rack 11 slot 1   ) ISR9288/ISR9096 Voltaire sLB-24D"
156          0x0008f104003f125d "IB1 (Rack 11 slot 1   ) ISR9288/ISR9096 Voltaire sLB-24D"
157          0x0008f104003f10d2 "IB1 (Rack 11 slot 2   ) ISR9288/ISR9096 Voltaire sLB-24D"
158          0x0008f104003f10d3 "IB1 (Rack 11 slot 2   ) ISR9288/ISR9096 Voltaire sLB-24D"
159          0x0008f104003f10bf "IB1 (Rack 11 slot 12  ) ISR9288/ISR9096 Voltaire sLB-24D"
160
161          # Spines
162          0x0008f10400400e2d "IB1 (Rack 11 spine 1   ) ISR9288 Voltaire sFB-12D"
163          0x0008f10400400e2e "IB1 (Rack 11 spine 1   ) ISR9288 Voltaire sFB-12D"
164          0x0008f10400400e2f "IB1 (Rack 11 spine 1   ) ISR9288 Voltaire sFB-12D"
165          0x0008f10400400e31 "IB1 (Rack 11 spine 2   ) ISR9288 Voltaire sFB-12D"
166          0x0008f10400400e32 "IB1 (Rack 11 spine 2   ) ISR9288 Voltaire sFB-12D"
167
168          # GUID   Node Name
169          0x0008f10400411a08 "SW1  (Rack  3) ISR9024 Voltaire 9024D"
170          0x0008f10400411a28 "SW2  (Rack  3) ISR9024 Voltaire 9024D"
171          0x0008f10400411a34 "SW3  (Rack  3) ISR9024 Voltaire 9024D"
172          0x0008f104004119d0 "SW4  (Rack  3) ISR9024 Voltaire 9024D"
173
174   TOPOLOGY FILE FORMAT
175       The topology file format is human readable and largely intuitive.  Most
176       identifiers are given textual names like vendor ID (vendid), device  ID
177       (device  ID),  GUIDs  of various types (sysimgguid, caguid, switchguid,
178       etc.).  PortGUIDs are shown in parentheses ().  For switches,  this  is
179       shown  on the switchguid line.  For CA and router ports, it is shown on
180       the connectivity lines.  The IB node is identified followed by the num‐
181       ber  of ports and a quoted the node GUID.  On the right of this line is
182       a comment (#) followed by the NodeDescription in quotes.  If  the  node
183       is  a  switch, this line also contains whether switch port 0 is base or
184       enhanced, and the LID and LMC of port 0.  Subsequent  lines  pertaining
185       to this node show the connectivity.   On the left is the port number of
186       the current node.  On the right is the peer node (node at other end  of
187       link).  It is identified in quotes with nodetype followed by - followed
188       by NodeGUID with the port number in square brackets.   Further  on  the
189       right  is  a comment (#).  What follows the comment is dependent on the
190       node type.  If it it a switch node, it is followed by the  NodeDescrip‐
191       tion  in  quotes and the LID of the peer node.  If it is a CA or router
192       node, it is followed by the local LID and LMC and then followed by  the
193       NodeDescription  in  quotes  and  the LID of the peer node.  The active
194       link width and speed are then appended to the end of this output line.
195
196       An example of this is:
197
198          #
199          # Topology file: generated on Tue Jun  5 14:15:10 2007
200          #
201          # Max of 3 hops discovered
202          # Initiated from node 0008f10403960558 port 0008f10403960559
203
204          Non-Chassis Nodes
205
206          vendid=0x8f1
207          devid=0x5a06
208          sysimgguid=0x5442ba00003000
209          switchguid=0x5442ba00003080(5442ba00003080)
210          Switch  24 "S-005442ba00003080"         # "ISR9024 Voltaire" base port 0 lid 6 lmc 0
211          [22]    "H-0008f10403961354"[1](8f10403961355)         # "MT23108 InfiniHost Mellanox Technologies" lid 4 4xSDR
212          [10]    "S-0008f10400410015"[1]         # "SW-6IB4 Voltaire" lid 3 4xSDR
213          [8]     "H-0008f10403960558"[2](8f1040396055a)         # "MT23108 InfiniHost Mellanox Technologies" lid 14 4xSDR
214          [6]     "S-0008f10400410015"[3]         # "SW-6IB4 Voltaire" lid 3 4xSDR
215          [12]    "H-0008f10403960558"[1](8f10403960559)         # "MT23108 InfiniHost Mellanox Technologies" lid 10 4xSDR
216
217          vendid=0x8f1
218          devid=0x5a05
219          switchguid=0x8f10400410015(8f10400410015)
220          Switch  8 "S-0008f10400410015"          # "SW-6IB4 Voltaire" base port 0 lid 3 lmc 0
221          [6]     "H-0008f10403960984"[1](8f10403960985)         # "MT23108 InfiniHost Mellanox Technologies" lid 16 4xSDR
222          [4]     "H-005442b100004900"[1](5442b100004901)        # "MT23108 InfiniHost Mellanox Technologies" lid 12 4xSDR
223          [1]     "S-005442ba00003080"[10]                # "ISR9024 Voltaire" lid 6 1xSDR
224          [3]     "S-005442ba00003080"[6]         # "ISR9024 Voltaire" lid 6 4xSDR
225
226          vendid=0x2c9
227          devid=0x5a44
228          caguid=0x8f10403960984
229          Ca      2 "H-0008f10403960984"          # "MT23108 InfiniHost Mellanox Technologies"
230          [1](8f10403960985)     "S-0008f10400410015"[6]         # lid 16 lmc 1 "SW-6IB4 Voltaire" lid 3 4xSDR
231
232          vendid=0x2c9
233          devid=0x5a44
234          caguid=0x5442b100004900
235          Ca      2 "H-005442b100004900"          # "MT23108 InfiniHost Mellanox Technologies"
236          [1](5442b100004901)     "S-0008f10400410015"[4]         # lid 12 lmc 1 "SW-6IB4 Voltaire" lid 3 4xSDR
237
238          vendid=0x2c9
239          devid=0x5a44
240          caguid=0x8f10403961354
241          Ca      2 "H-0008f10403961354"          # "MT23108 InfiniHost Mellanox Technologies"
242          [1](8f10403961355)     "S-005442ba00003080"[22]                # lid 4 lmc 1 "ISR9024 Voltaire" lid 6 4xSDR
243
244          vendid=0x2c9
245          devid=0x5a44
246          caguid=0x8f10403960558
247          Ca      2 "H-0008f10403960558"          # "MT23108 InfiniHost Mellanox Technologies"
248          [2](8f1040396055a)     "S-005442ba00003080"[8]         # lid 14 lmc 1 "ISR9024 Voltaire" lid 6 4xSDR
249          [1](8f10403960559)     "S-005442ba00003080"[12]                # lid 10 lmc 1 "ISR9024 Voltaire" lid 6 1xSDR
250
251       When grouping is used, IB nodes are organized into  chassis  which  are
252       numbered.  Nodes which cannot be determined to be in a chassis are dis‐
253       played as "Non-Chassis Nodes".  External ports are also  shown  on  the
254       connectivity lines.
255

AUTHORS

257       Hal Rosenstock
258              < halr@voltaire.com >
259
260       Ira Weiny
261              < ira.weiny@intel.com >
262
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266                                  2013-06-22                  IBNETDISCOVER(8)
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