xref: /titanic_44/usr/src/man/man1m/cfgadm_ib.1m (revision c3f7431d06a31d5689b27f508120a3bd357f251e)
te
Copyright (c) 2004, Sun Microsystems, Inc. All Rights Reserved.
The contents of this file are subject to the terms of the Common Development and Distribution License (the "License"). You may not use this file except in compliance with the License.
You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE or http://www.opensolaris.org/os/licensing. See the License for the specific language governing permissions and limitations under the License.
When distributing Covered Code, include this CDDL HEADER in each file and include the License file at usr/src/OPENSOLARIS.LICENSE. If applicable, add the following below this CDDL HEADER, with the fields enclosed by brackets "[]" replaced with your own identifying information: Portions Copyright [yyyy] [name of copyright owner]
CFGADM_IB 1M "Jul 2, 2008"
NAME
cfgadm_ib - InfiniBand hardware specific commands for cfgadm
SYNOPSIS

/usr/sbin/cfgadm -f [-y | -n] [-v] -c function ap_id...

/usr/sbin/cfgadm [-f] [-y | -n] [-v] [-o hardware_options]
 -x hardware_function ap_id...

/usr/sbin/cfgadm -v [-a] [-s listing_option] [-] [ap_id | ap_type...]

/usr/sbin/cfgadm -v -h [ap_id]...
DESCRIPTION

The InfiniBand hardware specific library /usr/lib/cfgadm/ib.so.1 provides the functionality for administering its fabric through the cfgadm(1M) utility. cfgadm operates on attachment points. See cfgadm(1M).

An InfiniBand (IB) device is enumerated by the IB nexus driver, ib(7D), based on the services from the IB Device Manager (IBDM).

The IB nexus driver creates and initializes five types of child device nodes:

IB Port devices

IB HCA service (HCA_SVC) devices

IB Virtual Physical Point of Attachment (VPPA) devices

I/O Controller (IOC)

IB Pseudo devices

See ib(7D) for details on enumeration of IB Port, IB VPPA, and IB HCA_SVC devices. For additional information on IBDM, see ibdm(7D). See ib(4) for details on IB Pseudo devices.

For IB administration, two types of static attachment point are created for the fabric administration as seen by the given host. There is one static attachment point ib and all IB devices (either an IOC, Port, VPPA, HCA_SVC, or a Pseudo device) in the fabric are represented as dynamic attachment points based off of it. There is another static attachment point for each Host Channel Adapter (HCA) in the host based on its node Globally Unique Identifier (GUID) value.

Attachment points are named through ap_ids. There are two types of ap_ids: logical and physical. The physical ap_id is based on the physical path name. For the IB fabric it is /devices/ib:fabric. The logical ap_id is a shorter, and has a more user friendly name.

The static ap_id for the IB fabric is ib. The IB devices are dynamic attachment points and have no physical ap_id. The logical ap_id of an IOC contains its GUID, ib::IOC-GUID. An example of an IOC ap_id is ib::80020123456789a. The logical ap_id of a Pseudo device, see ib(4) for details, is of the format ib::driver_name,unit-address. An example of a pseudo ap_id would be ib::sdp,0 where "sdp" is the driver name and "0" is its unit-address property. The logical ap_id of Port, VPPA and HCA_SVC device contains its Partition Key (P_Key), Port GUID / Node GUID and a communication service-name. The format of ap_id is as below: Port device

ib::PORT_GUID,0,service-name

VPPA device

ib::PORT_GUID,P_Key,service-name

HCA_SVC device

ib::HCA_GUID,0,servicename

The Partition Key (P_Key) is 0 for Port and HCA_SVC devices. The P_Key helps determine the partition to which this port belongs for a VPPA device node. A port might have more than one P_Key. An example of a VPPA device logical ap_id point is ib::80245678,ffff,ipib. The port-GUID is 80245678, the P_Key is 0xffff, and the service name is ipib. The service-name information is obtained from the file /kernel/drv/ib.conf which contains service-name strings. The HCA's logical ap_id contains its node GUID value, hca:HCA-GUID. An example is hca:21346543210a987.

A listing of the IB attachment points includes information on all IB devices (IOC, VPPA, HCA_SVC, Pseudo, and Port devices seen by the IBDM and the IB nexus driver) in the fabric even if they are not seen by the host and configured for use.

The following shows a listing of five IB devices (two IOC, one VPPA, one Port, one HCA_SVC) and one HCA:

example# cfgadm -al
Ap_Id Type Receptacle Occupant Condition
hca:21346543210a987 IB-HCA connected configured ok
ib IB-FABRIC connected configured ok
ib::80020123456789a IB-IOC connected configured ok
ib::802abc9876543 IB-IOC connected unconfigured unknown
ib::80245678,ffff,ipib IB-VPPA connected configured ok
ib::12245678,0,nfs IB-PORT connected configured ok
ib::21346543,0,hnfs IB-HCA_SVC connected configured ok
ib::sdp,0 IB-PSEUDO connected configured ok

The ap_id ib::802abc9876543 shows an IOC device that is not yet configured by the host for use or had been previously offlined by an explicit

cfgadm -c unconfigure

operation. The distinction was made by the information displayed under the Condition column. The IB device with a zero P_Key and HCA GUID is a HCA_SVC device. Refer to cfgadm(1M) for more information regarding listing attachment points.

The receptacle state for attachment points have the following meanings: connected

For an IOC/VPPA/Port/Pseudo/HCA_SVC device, connected implies that it has been seen by the host. The device might not have been configured for use by Solaris. For a HCA attachment point, connected implies that it has been configured and is in use. All IB ap_ids are always shown as connected.

The occupant state for attachment points have the following meanings: configured

The IB device, and the HCA ap_id, are configured and usable by Solaris.

unconfigured

The IB device at the ap_id was explicitly offlined using cfgadm -c unconfigure, was not successfully configured. This could be because it wasn not successfully configuref for use with Solaris (no driver, or a device problem), or because it was never configured for use by the IB nexus driver. The unconfigured operation is not supported for the HCA attachment point. The IB static apid, ib, is shown unconfigured if the system has no IB hardware.

The attachment point conditions are: failed

Not used.

failing

Not used.

ok

Normal state. Ready for use.

unknown

This state is only valid for IB device that have been probed by IBDM but not yet configured for use by Solaris. It is also shown for devices that have been explicitly offlined by a cfgadm -c unconfigure operation. This condition does not apply to a HCA attachment point.

unusable

Not used.

OPTIONS

The following options are supported: -c function

The IB hardware specific library supports two generic commands (functions). These commands are not supported on the static attachment points (that is, the HCA ap_ids and the IB static ib ap_id). The following generic commands are supported: configure

Configure the IB device to be used by Solaris.

unconfigure

Unconfigure the IB device. If successful, cfgadm reports the condition of this ap_id as unknown.

-f

Not supported.

-h ap_id

Obtain IB specific help for an IB attachment point.

-l

List the state and condition of IB attachment points. The -l option works as described in cfgadm(1M). When paired with the -a option, displays the dynamic attachment points as well (IOC, VPPA, Port, Pseudo, and HCA_SVC devices). When paired with -v option, displays verbose data about the ap_ids. For an IOC, the Info field in the

cfgadm -avl
output displays the following information: VendorID, IOCDeviceID, DeviceVersion, SubsystemVendorID, SubsystemID, Class, Subclass, Protocol, ProtocolVersion and IDString from the IOCControllerProfile. If the ID string isn't provided then nothing is displayed in its place. These fields are defined in the InfiniBand Specification Volume 1 (http://www.infinibandta.org). For a VPPA, Port, or HCA_SVC device the Info field in the cfgadm -lav display shows the service name information to which this device is bound. If no such information exists, nothing is displayed. For a Pseudo device cfgadm -alv displays the driver name and its unit-address information. For a HCA the verbose listing displays the VendorID, ProductID of the HCA, number of ports it has, and the PortGUID value of its ports. See EXAMPLES.
-o hardware_option

This option is not currently defined.

-s listing_option

Attachment points of class ib can be listed by using the select sub-option. Refer to the cfgadm(1M) man page for more information.

-x hardware_function

Perform a hardware specific function. Note that the name can not be more than 4 characters long. The following hardware specific functions are supported: add_service -ocomm=[port|vppa|hca_svc],service=name

This hardware specific function is supported on the static IB attachment point. It can be used to add a new service to /kernel/drv/ib.conf file and to update the ib(7D) driver. You must use the service=name option to indicate the new service to be added. You must use the option comm=[port|vppa|hca_svc] option to add the name service to either port-svc-list or to the hca-svc-list in the /kernel/drv/ib.conf file. See EXAMPLES.

delete_service -ocomm=[port|vppa|hca_svc],service=name

This hardware specific function is supported on the static IB attachment point only. It can be used to delete an existing service from the /kernel/drv/ib.conf file and also from the ib(7D) driver's data base. You must use the service=name option to indicate which service to delete. You must use the comm=[port|vppa|hca_svc] option to delete this service from the port-svc-list, vppa-svc-list, or vppa-svc-list of the /kernel/drv/ib.conf file. See EXAMPLES.

list_clients

Supported on HCA attachment points. Displays all the kernel IB clients using this HCA. It also displays the respective ap_ids of these kernel IB clients and if they have opened an alternate HCA device. See EXAMPLES. . If a given kernel IB client does not have a valid ap_id then a - is displayed in that column.

list_services

This hardware specific function is supported on the static IB attachment point only. It lists all the Port and VPPA services as read from the /kernel/drv/ib.conf file. See EXAMPLES.

unconfig_clients

This hardware specific function is supported on the static HCA attachment point only. It can be used to unconfigure all IB kernel clients of this given HCA. Only IB kernel clients that do not have an alternate HCA are unconfigured. See EXAMPLES.

update_ioc_config

This hardware specific function is supported on static ib attachment point and the IOC attachment points. For the ib APID, this function updates properties of all the IOC device nodes. For the IOC APID, this function updates the properties of specified IOC device node. This command updates the port-list, port-entries, service-id, and service-name IOC node properties . See ib(7D).

update_pkey_tbls

Supported on the static ib attachment point. Updates the PKEY information inside IBTL. IBTL re-reads the P_Key tables for all the ports on each HCA present on the host. See ibtl(7D).

EXAMPLES

Example 1 Listing the State and Condition of IB Devices

The following command lists the state and condition of IB devices on the system. It only shows the static attachment points.

example# cfgadm
hca:21346543210a987 IB-HCA connected configured ok
ib IB-FABRIC connected configured ok

The -a option lists all attachment points. The following example uses the -a option and lists all attachment points:

example# cfgadm -a
hca:21346543210a987 IB-HCA connected configured ok
ib IB-FABRIC connected configured ok
ib::80020123456789a IB-IOC connected unconfigured ok
ib::80245678,ffff,ipib IB-VPPA connected configured ok
ib::21346543,0,hnfs IB-HCA_SVC connected configured ok
ib::12245678,0,nfs IB-PORT connected configured ok
ib::sdp,0 IB-PSEUDO connected configured ok

Example 2 Listing the Verbose Status of a IB VPPA Device

The following command lists the verbose status of a IB VPPA device:

example# cfgadm -alv ib::80245678,ffff,ipib
Ap_Id Receptacle Occupant Condition Information
When Type Busy Phys_Id
ib::80245678,ffff,ipib connected configured ok ipib
unavailable IB-VPPA n /devices/ib:fabric::80245678,ffff,ipib

A verbose listing of an IOC shows additional information. The following command shows a verbose listing:

example# cfgadm -alv ib::80020123456789a
Ap_Id Receptacle Occupant Condition Information
When Type Busy Phys_Id
ib::80020123456789a connected configured ok VID: 0xeaea
DEVID: 0xeaea VER: 0x5 SUBSYS_VID: 0x0 SUBSYS_ID: 0x0 CLASS: 0xffff
SUBCLASS: 0xff PROTO: 0xff PROTOVER: 0x1 ID_STRING: Sample Host Adapter
unavailable IB-IOC n /devices/ib:fabric::80020123456789a

A verbose listing of a Pseudo device shows:

example# cfgadm -alv ib::sdp,0
Ap_Id Receptacle Occupant Condition Information
When Type Busy Phys_Id
ib::sdp,0 connected configured ok Driver = "sd
p" Unit-address = "0"
unavailable IB-PSEUDO n /devices/ib:fabric::sdp,0

A verbose listing of a HCA shows:

example# cfgadm -alv hca:21346543210a987
Ap_Id Receptacle Occupant Condition Information
When Type Busy Phys_Id
hca:21346543210a987 connected configured ok VID: 0x15b3,
PID: 0x5a44, #ports: 0x2, port1 GUID: 0x80245678, port2 GUID: 0x80245679
unavailable IB-HCA n /devices/ib:21346543210a987

You can obtain more user-friendly output if you specify these following cfgadm class and field selection options: -s "select=class(ib),cols=ap_id:info"

The following command displays only IB ap_ids. The output only includes the ap_id and Information fields.


# cfgadm -al -s "cols=ap_id:info" ib::80245678,ffff,ipib
Ap_Id Information
ib::80245678,ffff,ipib ipib

Example 3 Unconfiguring an Existing IB IOC

The following command unconfigures the IB IOC attached to ib::80020123456789a, then displays the status of the ap_id:

# cfgadm -c unconfigure ib::80020123456789a
Unconfigure the device: /devices/ib:fabric::80020123456789a
This operation will suspend activity on the IB device
Continue (yes/no)?

Enter: y

IB device unconfigured successfully.
# cfgadm -al ib::80020123456789a
Ap_Id Type Receptacle Occupant Condition
ib::80020123456789 IB-IOC connected unconfigured unknown
#

The condition unknown implies that the device node doesn't exist anymore and this IB device's existence is known only to the IB Device Manager.

Example 4 Configuring an IB IOC

The following series of commands configures an IB device attached to ib::80020123456789a:

# cfgadm -yc configure ib::80020123456789a
# cfgadm -al ib::80020123456789a
Ap_Id Type Receptacle Occupant Condition
ib::80020123456789a IB-IOC connected configured ok

Example 5 Listing All Kernel IB Clients of a HCA

The following command lists all kernel IB clients of an HCA attached to hca:21346543210a987:

# cfgadm -x list_clients hca:21346543210a987
Attachment Point Clients Alternate HCA
ib::80020123456789a ioc1 Yes
ib::80245678,ffff,ipib ipib No
ib::21346543,0,hnfs hnfs No
- ibdm No
- ibmf No

Example 6 Adding a Port Service

The following command adds a new Port service called srp:

 # cfgadm -o comm=port,service=srp -x add_service ib

Example 7 Deleting a VPPA Service

The following command deletes the ibd VPPA service ibd:

# cfgadm -o comm=vppa,service=ipib -x delete_service ib

Example 8 Listing Port, VPPA, HCA_SVC Services

The following command lists all Port, VPPA, and HCA_SVC services:

# cfgadm -x list_services ib
Port communication services:
 srp

VPPA communication services:
 ipib
 nfs

HCA_SVC communication services:
 hnfs

Example 9 Reprobing IOC Devices

The following command reprobes all IOC device nodes.

# cfgadm -x update_ioc_config ib
This operation can update properties of IOC devices.
Continue (yes/no)?

Enter: y

#

Example 10 Unconfiguring All Kernel Clients of a HCA

The following command unconfigures all kernel clients of a HCA

# cfgadm -x unconfig_clients hca:21346543
 This operation will unconfigure clients of this HCA.
 Continue (yes/no)?

 Enter: y
FILES
/usr/lib/cfgadm/ib.so.1

Hardware-specific library for generic InfiniBand device administration

SEE ALSO

cfgadm(1M), config_admin(3CFGADM), libcfgadm(3LIB), ib(4), attributes(5), ib(7D), ibdm(7D), ibtl(7D)

InfiniBand Specification Volume 1 (http://www.infinibandta.org)

NOTES

Apart from the listing (cfgadm -l or cfgadm -x list_clients), only the superuser can execute any functions on an attachment point.