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DESCRIPTION

With the -l option, pciconf lists PCI devices in the following format:

foo0@pci0:0:4:0: class=0x010000 card=0x00000000 chip=0x000f1000 rev=0x01 hdr=0x00
bar0@pci0:0:5:0: class=0x000100 card=0x00000000 chip=0x88c15333 rev=0x00 hdr=0x00
none0@pci0:0:6:0: class=0x020000 card=0x00000000 chip=0x802910ec rev=0x00 hdr=0x00

The first column gives the driver name, unit number, and selector . If there is no driver attached to the PCI device in question, the driver name will be “none”. Unit numbers for detached devices start at zero and are incremented for each detached device that is encountered. The selector is in a form which may directly be used for the other forms of the command. The second column is the class code, with the class byte printed as two hex digits, followed by the sub-class and the interface bytes. The third column gives the contents of the subvendorid register, introduced in revision 2.1 of the PCI standard. Note that it will be 0 for older cards. The field consists of the card ID in the upper half and the card vendor ID in the lower half of the value.

The fourth column contains the chip device ID, which identifies the chip this card is based on. It consists of two fields, identifying the chip and its vendor, as above. The fifth column prints the chip's revision. The sixth column describes the header type. Currently assigned header types include 0 for most devices, 1 for PCI to PCI bridges, and 2 for PCI to CardBus bridges. If the most significant bit of the header type register is set for function 0 of a PCI device, it is a multi-function device, which contains several (similar or independent) functions on one chip.

If the -B option is supplied, pciconf will list additional information for PCI to PCI and PCI to CardBus bridges, specifically the resource ranges decoded by the bridge for use by devices behind the bridge. Each bridge lists a range of bus numbers handled by the bridge and its downstream devices. Memory and I/O port decoding windows are enumerated via a line in the following format:

    window[1c] = type I/O Port, range 16, addr 0x5000-0x8fff, enabled

The first value after the “window” prefix in the square brackets is the offset of the decoding window in config space in hexadecimal. The type of a window is one of “Memory”, “Prefetchable Memory”, or “I/O Port”. The range indicates the binary log of the maximum address the window decodes. The address field indicates the start and end addresses of the decoded range. Finally, the last flag indicates if the window is enabled or disabled.

If the -b option is supplied, pciconf will list any base address registers (BARs) that are assigned resources for each device. Each BAR will be enumerated via a line in the following format:

    bar   [10] = type Memory, range 32, base 0xda060000, size 131072, enabled

The first value after the “bar” prefix in the square brackets is the offset of the BAR in config space in hexadecimal. The type of a BAR is one of “Memory”, “Prefetchable Memory”, or “I/O Port”. The range indicates the binary log of the maximum address the BAR decodes. The base and size indicate the start and length of the BAR's address window, respectively. Finally, the last flag indicates if the BAR is enabled or disabled.

If the -c option is supplied, pciconf will list any capabilities supported by each device. Each capability is enumerated via a line in the following format:

    cap 10[40] = PCI-Express 1 root port

The first value after the “cap” prefix is the capability ID in hexadecimal. The second value in the square brackets is the offset of the capability in config space in hexadecimal. The format of the text after the equals sign is capability-specific.

Each extended capability is enumerated via a line in a similar format:

ecap 0002[100] = VC 1 max VC0

The first value after the “ecap” prefix is the extended capability ID in hexadecimal. The second value in the square brackets is the offset of the extended capability in config space in hexadecimal. The format of the text after the equals sign is capability-specific.

If the -e option is supplied, pciconf will list any errors reported for this device in standard PCI error registers. Errors are checked for in the PCI status register, the PCI-express device status register, and the Advanced Error Reporting status registers.

If the -v option is supplied, pciconf will attempt to load the vendor/device information database, and print vendor, device, class and subclass identification strings for each device.

If the -V option is supplied, pciconf will list any vital product data (VPD) provided by each device. Each VPD keyword is enumerated via a line in the following format:

    VPD ro PN  = '110114640C0     '

The first string after the “VPD” prefix indicates if the keyword is read-only “ro” or read-write “rw”. The second string provides the keyword name. The text after the equals sign lists the value of the keyword which is usually an ASCII string.

If the optional device argument is given with the -l flag, pciconf will only list details about a single device instead of all devices.

All invocations of pciconf except for -l require a device. The device can be identified either by a device name if the device is attached to a driver or by a selector. Selectors identify a PCI device by its address in PCI config space and can take one of the following forms:

• pcidomain:bus:device:function
• pcibus:device:function
• pcibus:device

In the case of an abridged form, omitted selector components are assumed to be 0. An optional leading device name followed by @ and an optional final colon will be ignored; this is so that the first column in the output of pciconf -l can be used without modification. All numbers are base 10.

With the -a flag, pciconf determines whether any driver has been assigned to the device identified by selector. An exit status of zero indicates that the device has a driver; non-zero indicates that it does not.

The -r option reads a configuration space register at byte offset addr of device selector and prints out its value in hexadecimal. The optional second address addr2 specifies a range to read. The -w option writes the value into a configuration space register at byte offset addr of device selector.

The -D option request a dump of the specified BAR. Dump is performed to the standard output, raw register values are written. Use hexdump(1) to convert them to human-readable dump, or redirect into a file to save the snapshot of the device state. Optionally, the start and count of the registers dumped can be specified, in multiple of the operation width, see next paragraph.

For read, write, and dump operations, the flags -b, -h, and -x select the width of the operation; -b indicates a byte operation, and -h indicates a halfword (two-byte) operation. -x indicates a quadword (four-byte) operation. The default is to read or write a longword (four bytes). The quadword mode is only valid for BAR dump.