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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] .TH cfgadm_usb 1M "1 Mar 2007" "SunOS 5.11" "System Administration Commands" .SH NAME cfgadm_usb \- USB hardware-specific commands for cfgadm .SH SYNOPSIS .LP .nf \fB/usr/sbin/cfgadm\fR [\fB-f\fR] [\fB-y\fR | \fB-n\fR] [\fB-v\fR] \fB-c\fR \fIfunction\fR \fIap_id\fR... .fi .LP .nf \fB/usr/sbin/cfgadm\fR \fB-f\fR [\fB-y\fR | \fB-n\fR] [\fB-v\fR] [\fB-o\fR \fIhardware_options\fR] \fB-x\fR \fIhardware_function\fR \fIap_id\fR... .fi .LP .nf \fB/usr/sbin/cfgadm\fR \fB-v\fR [\fB-a\fR] [\fB-s\fR \fIlisting_option\fR] [\fB-l\fR [\fIap_id\fR | \fIap_type\fR...]] .fi .LP .nf \fB/usr/sbin/cfgadm\fR \fB-v\fR \fB-h\fR [\fIap_id\fR]... .fi .SH DESCRIPTION .sp .LP The Universal Serial Bus (\fBUSB\fR) hardware-specific library \fB/usr/lib/cfgadm/usb.so.1\fR provides the functionality for administering \fBUSB\fR devices via the \fBcfgadm\fR(1M) command. \fBcfgadm\fR operates on attachment points. For details regarding attachment points, refer to \fBcfgadm\fR(1M). .sp .LP For \fBUSB\fR administration, the only attachment points supported are the ports of hubs attached to the \fBUSB\fR bus. .sp .LP Attachment points are named through attachment point IDs (\fIap_ids\fR). The \fBUSB\fR bus is hierarchical, so the \fIap_ids\fR are as well. \fBUSB\fR hubs have ports, numbered from \fB1\fR to \fIn\fR. All \fBUSB\fR \fIap_ids\fR consist of a string of the following form: .sp .in +2 .nf usb\fIN\fR/\fIA\fR[.\fIB\fR[.\fIC\fR[...]]] .fi .in -2 .sp .sp .LP where .br .in +2 \fIN\fR is the \fIN\fRth \fBUSB\fR host controller on the system, .in -2 .br .in +2 \fIA\fR is port #\fIA\fR on the root (top) hub. .in -2 .br .in +2 \fIB\fR is port #\fIB\fR of the hub plugged into port #\fIA\fR of the hub above it. .in -2 .br .in +2 \fIC\fR is port #\fIC\fR of the hub plugged into port #\fIB \fRof the hub above it, and so forth. .in -2 .sp .LP For example, the first port on the root hub of USB controller \fB0\fR (the only controller), has a logical \fIap_id\fR: .sp .in +2 .nf usb0/1 .fi .in -2 .sp .sp .LP Similarly, the second port on the first external hub plugged into the first port on the root hub of the first \fBUSB\fR controller has a logical \fIap_id\fR: .sp .in +2 .nf usb0/1.2 .fi .in -2 .sp .sp .LP For example, if the \fIap_id\fR is \fBusb0/1.4.3.4\fR, it represents port \fB4\fR of the hub plugged into port \fB3\fR of the hub plugged into port \fB4\fR of the hub plugged into port \fB1\fR of the root hub of the first \fBUSB\fR host controller on the system. .sp .in +2 .nf example# \fBcfgadm -l\fR Ap_Id Type Receptacle Occupant Condition usb0/1 USB-hub connected configured ok usb0/2 unknown empty unconfigured ok usb0/1.1 USB-storage connected configured ok usb0/1.2 unknown empty unconfigured ok usb0/1.3 unknown empty unconfigured ok usb0/1.4 USB-device connected configured ok .fi .in -2 .sp .sp .LP \fBUSB2.0\fR chips have one \fBEHCI\fR host \fBUSB2.0\fR host controller and a number of companion \fBUSB 1.\fR\fIx\fR host controllers (either \fBOHCI\fR or \fBUHCI\fR host controllers). .sp .LP When a \fBUSB2.0\fR device has been plugged in, it shows up on the \fBEHCI\fR logical ports which might not have a \fB1\fR to \fB1\fR mapping to external physical port numbers on the system. When a \fBUSB1.\fR\fIx\fR device is plugged in, the \fBEHCI\fR host controller reroutes the device to a companion host controller and the device shows up on the companion's logical port number. .sp .LP The mapping of logical port numbers to physical port numbers can get quite complicated. For example: .sp .in +2 .nf % cfgadm Ap_Id Type Receptacle Occupant Condition c0 scsi-bus connected configured unknown usb0/1 usb-mouse connected configured ok usb0/2 usb-kbd connected configured ok usb0/3 unknown empty unconfigured ok usb0/4 usb-hub connected configured ok usb0/4.1 unknown empty unconfigured ok usb0/4.2 unknown empty unconfigured ok usb0/4.3 unknown empty unconfigured ok usb0/4.4 usb-storage connected configured ok usb1/1 unknown empty unconfigured ok usb1/2 unknown empty unconfigured ok usb1/3 unknown empty unconfigured ok usb2/1 unknown empty unconfigured ok usb2/2 usb-device connected configured ok usb3/1 unknown empty unconfigured ok usb3/2 unknown empty unconfigured ok usb3/3 unknown empty unconfigured ok usb3/4 unknown empty unconfigured ok usb3/5 unknown empty unconfigured ok .fi .in -2 .sp .sp .LP In this example \fBusb0\fR is the onboard USB 1.\fIx\fR host controller. \fBusb1\fR and \fBusb2\fR are companion \fBOHCI USB1.\fR\fIx\fR host controllers and \fBusb3\fR is an \fBEHCI USB2.0\fR host controller. .sp .LP The following table shows the somewhat confusing routing for this USB2.0 chip: .sp .in +2 .nf logical port number physical port number ------------------- -------------------- usb1/1 internal port 1 usb1/2 external port 1 usb1/3 external port 3 usb2/1 internal port 2 usb2/2 external port 2 usb3/1 internal port 1 usb3/2 internal port 2 usb3/3 external port 1 usb3/4 external port 2 usb3/5 external port 3 .fi .in -2 .sp .sp .LP Unfortunately, the exact routing can often only be determined by experimentation. .sp .LP The receptacle states for attachment points at the \fBUSB\fR port have the following meanings: .sp .ne 2 .mk .na \fB\fBconnected\fR\fR .ad .sp .6 .RS 4n \fBUSB\fR port is powered on and enabled. A USB device is plugged in to the port. The device is logically connected to the USB bus. .RE .sp .ne 2 .mk .na \fB\fBdisconnected\fR\fR .ad .sp .6 .RS 4n \fBUSB\fR port is powered on and enabled. A \fBUSB\fR device is plugged into the port. The device has been logically disconnected from the \fBUSB\fR bus (using the \fBcfgadm\fR \fB-c\fR \fBdisconnect\fR command). .RE .sp .ne 2 .mk .na \fB\fBempty\fR\fR .ad .sp .6 .RS 4n \fBUSB\fR port is powered on, but no device is plugged in to it. .RE .sp .LP The occupant states for devices at \fBUSB\fR port attachment points at the \fBUSB\fR port have the following meanings: .sp .ne 2 .mk .na \fB\fBconfigured\fR\fR .ad .sp .6 .RS 4n The \fBUSB\fR device at the \fBUSB\fR port is configured and usable by Solaris. .RE .sp .ne 2 .mk .na \fB\fBunconfigured\fR\fR .ad .sp .6 .RS 4n The \fBUSB\fR device at the \fBUSB\fR port was explicitly off-lined using \fBcfgadm\fR \fB-c\fR \fBunconfigure\fR, or was not successfully configured for use with Solaris, for example, having no driver or a device problem. .RE .sp .LP The attachment point conditions are: .sp .ne 2 .mk .na \fB\fBok\fR\fB\fR\fR .ad .sp .6 .RS 4n Normal state - ready for use. .RE .sp .ne 2 .mk .na \fB\fBfailing\fR\fR .ad .sp .6 .RS 4n Not used. .RE .sp .ne 2 .mk .na \fB\fBfailed\fR\fR .ad .sp .6 .RS 4n Not used. .RE .sp .ne 2 .mk .na \fB\fBunusable\fR\fR .ad .sp .6 .RS 4n The user has physically removed a device while an application had the device open (there might be outstanding \fBI/O\fR). Users need to reinsert the same physical device and close the application properly before removing the device again. The port cannot configure other inserted devices until this is done. .sp If the original device cannot be reinserted into the port, see the \fI\fR for instructions for clearing this attachment point condition. .RE .sp .ne 2 .mk .na \fB\fBunknown\fR\fR .ad .sp .6 .RS 4n Not used. .RE .sp .LP A \fBUSB\fR device can be hotplugged or hotunplugged at any time, and the system detects the event and takes the appropriate action. .sp .LP It is not necessary to transition a receptacle to the \fBdisconnected\fR state before removing its device from the \fBUSB\fR. However, it is not recommended to hot-remove devices currently in use (such as removable disks currently opened by a volume manager or some other application). .SH OPTIONS .sp .LP \fBcfgadm\fR defines several types of operations. These operations include invoking configuration state changes (\fB-c\fR), invoking hardware-specific functions (\fB-x\fR), and obtaining configuration administration help messages (\fB-h\fR). .sp .LP If any of these operations fail, the device and attachment point might not be in the expected state. Use the \fBcfgadm\fR \fB-l\fR command to display the device's current status. .sp .LP All other options have the same meaning as defined in \fBcfgadm\fR(1M). .sp .LP The following options are supported: .sp .ne 2 .mk .na \fB\fB-c\fR \fIfunction\fR\fR .ad .sp .6 .RS 4n The following generic commands are defined for the \fBUSB\fR hardware specific library. The following configuration state change operations are supported: .sp .ne 2 .mk .na \fB\fBconfigure\fR\fR .ad .sp .6 .RS 4n If there is a \fBUSB\fR device plugged into the port, this command attempts to configure it and set everything up so that it is usable by Solaris. This command does an implied \fBconnect\fR (reverse of \fBdisconnect\fR) if necessary. This command accomplishes nothing, and returns an error message, if the device at that port is already configured. After successful execution of this command, the device is ready for use under Solaris. .RE .sp .ne 2 .mk .na \fB\fBdisconnect\fR\fR .ad .sp .6 .RS 4n Performs an \fBunconfigure\fR on the \fIap_id\fR (if it is not already \fBunconfigured\fR), and then transitions the receptacle to the \fBdisconnected\fR state, even though a device is still be plugged into the port. Issuing a \fBcfgadm\fR \fB-c\fR \fBconfigure\fR, or physically hotplugging the device, brings the device back to the \fBconnected\fR receptacle state, and to the \fBconfigured\fR occupant state, assuming a driver can be found and there are no problems enumerating and configuring the device. .RE .sp .ne 2 .mk .na \fB\fBunconfigure\fR\fR .ad .sp .6 .RS 4n Makes the device plugged into the port unusable by Solaris (offline it). If successful, \fBcfgadm\fR reports this \fIap_id\fR's occupant state as \fBunconfigured\fR. Issuing a \fBconfigure\fR to the \fIap_id\fR (if successful) brings its occupant back to the \fBconfigured\fR (online) condition, as it physically hotplugging the device on the port. .RE .RE .sp .ne 2 .mk .na \fB\fB-f\fR\fR .ad .sp .6 .RS 4n Not supported. .RE .sp .ne 2 .mk .na \fB\fB-h\fR \fIap_id\fR\fR .ad .sp .6 .RS 4n \fBUSB\fR specific help can be obtained by using the help option with any \fBUSB\fR attachment point. .RE .sp .ne 2 .mk .na \fB\fB-l\fR[\fBv\fR]\fR .ad .sp .6 .RS 4n The \fB-l\fR option works as described in \fBcfgadm\fR(1M). When paired with the \fB-v\fR option, the \fBInformation\fR field contains the following \fBUSB\fR-specific information: .RS +4 .TP .ie t \(bu .el o \fBMfg\fR: manufacturer string (\fBiManufacturer\fR) .RE .RS +4 .TP .ie t \(bu .el o \fBProduct\fR: product string (\fBiProduct\fR) .RE .RS +4 .TP .ie t \(bu .el o \fBNConfigs\fR: total number of configurations the device supports (\fBbNumConfigurations\fR). .RE .RS +4 .TP .ie t \(bu .el o \fBConfig\fR: current configuration setting in decimal (configuration index, not configuration value). .RE .RS +4 .TP .ie t \(bu .el o The configuration string descriptor for the current configuration (\fBiConfiguration\fR) .RE See the Universal Serial Bus specification for a description of these fields. .RE .sp .ne 2 .mk .na \fB\fB-o\fR \fIhardware_options\fR\fR .ad .sp .6 .RS 4n Hardware options are only supported for the hardware-specific command, \fB-x\fR \fBusb_config\fR. See the description of that command below for an explanation of the options available. .RE .sp .ne 2 .mk .na \fB\fB-s\fR \fIlisting_options\fR\fR .ad .sp .6 .RS 4n Attachment points of class \fBUSB\fR can be listed by using the \fBselect\fR sub-option. See \fBcfgadm\fR(1M). .RE .sp .ne 2 .mk .na \fB\fB-x\fR \fIhardware_function\fR\fR .ad .sp .6 .RS 4n The following hardware-specific functions are defined: .sp .ne 2 .mk .na \fB\fBusb_config\fR \fB-o\fR \fBconfig=\fR\fIn\fR\fR .ad .sp .6 .RS 4n This command requires the mandatory \fBconfig\fR value to be specified using the \fB-o\fR option. .sp Sets the \fBUSB\fR configuration of a multi-configuration \fBUSB\fR device at \fIap_id\fR to configuration index \fIn\fR. The device is set to this configuration henceforth and this setting persists across reboots, hot-removes, and unconfigure/configure of the device. .sp Valid values of \fIn\fR range from \fB0\fR to (\fBNconfigs -1\fR). The device is reset by a \fBdisconnect\fR followed by a \fBconfigure\fR. The \fBconfigure\fR causes the device to be configured to the new configuration setting. .sp If any of these steps fail, the configuration file and the device are restored to their previous state and an error message is issued. .RE .sp .ne 2 .mk .na \fB\fBusb_reset\fR\fR .ad .sp .6 .RS 4n Performs a software reset (re-enumeration) of the device. This is the equivalent of removing the device and inserting it back again. The port on the hub is power cycled if the hub supports power cycling of individual ports. .sp If the connected device is a hub, this function has the effect of resetting that hub and any devices down the tree of which it is the root. .sp If any of these steps fail, the device is restored to its previous state and an error message is issued. .RE .RE .sp .LP State table: attachment points state versus commands: .sp .in +2 .nf Valid states: empty/unconfigured \(-> no device connected disconnected/unconfigured \(-> logically disconnected, unavailable, devinfo node removed, device physically connected connected/unconfigured \(-> logically connected, unavailable, devinfo node present connected/configured \(-> connected, available .fi .in -2 .sp .sp .LP The table below clarifies the state transitions resulting from actions or commands: .sp .in +2 .nf current state operation new state ------------- --------- --------- empty/ unconfigured: device plugged in: connected/configured or connected/unconfigured (if enumeration failed) device removed: n/a cfgadm -c unconfigure: empty/unconfigured cfgadm -c configure: empty/unconfigured cfgadm -c disconnect: empty/unconfigured (no-op and error) disconnected/ unconfigured: device plugged in: n/a device removed: empty/unconfigured cfgadm -c unconfigure: disconnected/unconfigured cfgadm -c configure: connected/configured, or connected/unconfigured (if reenumeration failed) cfgadm -c disconnect: disconnected/unconfigured connected/unconfigured: device plugged in: n/a device removed: empty/unconfigured cfgadm -c unconfigure: connected/unconfigured cfgadm -c configure: connected/configured, or connected/unconfigured (if reenumeration failed) cfgadm -c disconnect: disconnected/unconfigured connected/configured: device plugged in: n/a device removed: empty/unconfigured or connected/configured, but with ap condition 'unusable' if device was open when removed cfgadm -c unconfigure: connected/unconfigured cfgadm -c configure: connected/configured cfgadm -c disconnect: disconnected/unconfigured .fi .in -2 .sp .SH EXAMPLES .LP \fBExample 1 \fRListing the Status of All USB Devices .sp .LP The following command lists the status of all \fBUSB\fR devices on the system: .sp .in +2 .nf # cfgadm Ap_Id Type Receptacle Occupant Condition usb0/1 USB-hub connected configured ok usb0/2 unknown empty unconfigured ok usb0/1.1 USB-storage connected configured ok usb0/1.2 unknown empty unconfigured ok usb0/1.3 unknown empty unconfigured ok usb0/1.4 USB-device connected configured ok .fi .in -2 .sp .sp .LP Notice that \fBcfgadm\fR treats the \fBUSB-device\fR device at \fBap_id usb0/1.4\fR as a single unit, since it cannot currently control individual interfaces. .LP \fBExample 2 \fRListing the Status of a Port with No Device Plugged In .sp .LP The following command lists the status of a port with no device plugged in: .sp .in +2 .nf example# \fBcfgadm -l usb0/1.3\fR Ap_Id Type Receptacle Occupant Condition usb0/1.3 unknown empty unconfigured ok .fi .in -2 .sp .LP \fBExample 3 \fRListing the Status of the Same Port with a Device Plugged In .sp .LP The following command lists the status of the same port after physically plugging in a device that configures without problems: .sp .in +2 .nf example# \fBcfgadm -l usb0/1.3\fR Ap_Id Type Receptacle Occupant Condition usb0/1.3 USB-hub connected configured ok .fi .in -2 .sp .LP \fBExample 4 \fRUnconfiguring an Existing USB Device .sp .LP The following command unconfigures the \fBUSB\fR device attached to \fBusb0/1.3\fR, then displays the status of the \fBap_id\fR: .sp .in +2 .nf example# \fBcfgadm -c unconfigure usb0/1.3\fR Unconfigure the device: /devices/pci@0,0/pci8086,7112@7,2/hub@2:2.3 This operation suspends activity on the USB device Continue (yes/no)? Enter: \fBy\fR example# \fBcfgadm -l usb0/1.3\fR Ap_Id Type Receptacle Occupant Condition usb0/1.3 unknown connected unconfigured ok .fi .in -2 .sp .LP \fBExample 5 \fRUnconfiguring and Logically Disconnecting an Existing USB Device .sp .LP The following command unconfigures and logically disconnects a \fBUSB\fR device attached to \fBusb0/1.3\fR: .sp .in +2 .nf example# \fBcfgadm -c disconnect usb0/1.3\fR Disconnect the device: /devices/pci@0,0/pci8086,7112@7,2/hub@2:2.3 This operation suspends activity on the USB device Continue (yes/no)? Enter: \fBy\fR example# \fBcfgadm -l usb0/1.3\fR Ap_Id Type Receptacle Occupant Condition usb0/1.3 unknown disconnected unconfigured ok .fi .in -2 .sp .sp .LP A \fBdisconnect\fR implies that \fBcfgadm\fR does an \fBunconfigure\fR first. The receptacle status now shows \fBdisconnected\fR, even though the device is still physically connected. In this case, a physical hotplug or using the \fBcfgadm \fR\fB-c\fR \fBconfigure\fR on the \fBap_id\fR brings it back on-line. .LP \fBExample 6 \fRConfiguring a Previously Unconfigured USB Device .sp .LP The following command configures a \fBUSB\fR device that was previously attached to \fBusb0/1.3\fR: .sp .in +2 .nf example # \fBcfgadm -yc configure usb0/1.3\fR example# \fBcfgadm -l usb0/1.3\fR Ap_Id Type Receptacle Occupant Condition usb0/1.3 unknown connected configured ok .fi .in -2 .sp .LP \fBExample 7 \fRResetting a USB Device .sp .LP The following command resets a \fBUSB\fR device: .sp .in +2 .nf example# \fBcfgadm -x usb_reset usb0/1.3\fR Reset the device: /devices/pci@0,0/pci8086,7112@7,2/hub@2:2.3 This operation suspends activity on the USB device Continue (yes/no)? Enter: \fBy\fR .fi .in -2 .sp .LP \fBExample 8 \fRDisplaying Detailed Information About a USB Device .sp .LP The following command displays detailed information about a \fBUSB\fR device. This device shows the following \fBUSB\fR-specific information in the '\fBInformation\fR' field: .RS +4 .TP .ie t \(bu .el o Manufacturer string: Iomega .RE .RS +4 .TP .ie t \(bu .el o Product string: \fBUSB Zip 250\fR .RE .RS +4 .TP .ie t \(bu .el o Number of configurations supported: 1 .RE .RS +4 .TP .ie t \(bu .el o Configuration currently active: 0 .RE .RS +4 .TP .ie t \(bu .el o Configuration string descriptor for configuration 0: Default .RE .sp .in +2 .nf example# \fBcfgadm -lv usb0/1.5\fR Ap_Id Receptacle Occupant Condition Information When Type Busy Phys_Id usb0/1.5 connected configured ok Mfg:"Io mega" Product:"USB Zip 250" NConfigs:1 Config:0 : Default .fi .in -2 .sp .sp .in +2 .nf example# \fBcfgadm -l -s "cols=ap_id:info" usb0/1.5\fR Ap_Id Information usb0/1.5 Mfg:"Iomega" Product:"USB Zip 250" NConfigs:1 Config:0 : Default .fi .in -2 .sp .LP \fBExample 9 \fRDisplaying Detailed Information About All USB Devices .sp .LP The following command displays detailed information about all \fBUSB\fR devices on the system: .sp .in +2 .nf example# \fBcfgadm -l -s "select=class(usb),cols=ap_id:info"\fR Ap_Id Information usb0/1 Mfg: Product: NConfigs:1 Config:0 usb0/2 usb0/1.1 Mfg: Product: NConfigs:1 Config:0 usb0/1.2 usb0/1.3 usb0/1.4 Mfg:"Wizard" Product:"Modem/ISDN" NConfigs:3 Config:1 : V.90 Analog Modem usb0/1.5 Mfg:"Iomega" Product:"USB Zip 250" NConfigs:1 Config:0 : Default usb0/1.6 Mfg:"SOLID YEAR" Product:"SOLID YEAR USB"NConfigs:1 Config:0 usb0/1.7 .fi .in -2 .sp .sp .LP Lines containing only an \fBap_id\fR are empty ports. These can be filtered out. This example only lists \fBUSB\fR \fBap_id\fRs with connected devices, and information about those devices. .sp .in +2 .nf example# \fBcfgadm -l -s "select=class(usb),cols=ap_id:info" | grep Mfg\fR usb0/1 Mfg: Product: NConfigs:1 Config:0 usb0/1.1 Mfg: Product: NConfigs:1 Config:0 usb0/1.4 Mfg:"Wizard" Product:"Modem/ISDN" NConfigs:3 Config:1 : V.90 Analog Modem usb0/1.5 Mfg:"Iomega" Product:"USB Zip 250" NConfigs:1 Config:0 : Default usb0/1.6 Mfg:"SOLID YEAR" Product:"SOLID YEAR USB" Config:0 .fi .in -2 .sp .LP \fBExample 10 \fRListing Information About a Multi-configuration USB Device .sp .LP The following example lists information about a multi-configuration \fBUSB\fR device. .sp .LP Notice the \fBNConfigs\fR field: the configurations available for this device are \fB0\fR, \fB1\fR, and \fB2\fR (\fB0\fR to (\fIN\fR\fBConfigs-1\fR)). .sp .in +2 .nf example# \fBcfgadm -l -s "cols=ap_id:info" usb0/1.4\fR Ap_Id Information usb0/1.4 Mfg:"Wizard" Product:"Modem/ISDN" NConfigs:3 Config:1 V.90 Analog Modem" .fi .in -2 .sp .LP \fBExample 11 \fRSetting the Current Configuration of a Multi-configuration USB Device .sp .LP The following example sets the current configuration of a multi-configuration USB device: .sp .in +2 .nf example# \fBcfgadm -o config=2 -x usb_config usb0/1.4\fR Setting the device: /devices/pci@1f,2000/usb@1/device@3 to USB configuration 2 This operation suspends activity on the USB device Continue (yes/no)? Enter: \fBy\fR USB configuration changed successfully. .fi .in -2 .sp .sp .LP The device path should be checked to ensure that the right instance of a device is being referred to, in the case where multiple devices of the exact same type are on the same bus. This information is available in the '\fBInformation\fR' field. .SH FILES .sp .ne 2 .mk .na \fB\fB/usr/lib/cfgadm/usb.so.1\fR\fR .ad .sp .6 .RS 4n Hardware specific library for generic USB device administration .RE .SH SEE ALSO .sp .LP \fBcfgadm\fR(1M), \fBconfig_admin\fR(3CFGADM), \fBattributes\fR(5), \fBscsa2usb\fR(7D), \fBusba\fR(7D) .sp .LP Universal Serial Bus 1.1 Specification (\fBwww.usb.org\fR) .sp .LP \fI\fR .SH NOTES .sp .LP \fBcfgadm\fR(1M) can not unconfigure, disconnect, reset, or change the configuration of any \fBUSB\fR device currently opened by any application. These operations also fail on a hub if a device in its hierarchy is opened by an application. See \fBscsa2usb\fR(7D) for unconfiguring a \fBUSB\fR mass-storage device that is currently in use. .sp .LP Only super-users can execute any functions on an attachment point. However, one need not be a super-user to list the attachment points.