table of contents
PCI(4) | Device Drivers Manual | PCI(4) |
NAME¶
pci
— generic PCI
bus driver
SYNOPSIS¶
To compile the PCI bus driver into the kernel, place the following line in your kernel configuration file:
device pci
To compile in support for Single Root I/O Virtualization (SR-IOV):
options PCI_IOV
To compile in support for native PCI-express HotPlug:
options PCI_HP
DESCRIPTION¶
The pci
driver provides support for PCI
devices in the kernel and limited access to PCI devices for userland.
The pci
driver provides a
/dev/pci character device that can be used by
userland programs to read and write PCI configuration registers. Programs
can also use this device to get a list of all PCI devices, or all PCI
devices that match various patterns.
Since the pci
driver provides a write
interface for PCI configuration registers, system administrators should
exercise caution when granting access to the pci
device. If used improperly, this driver can allow userland applications to
crash a machine or cause data loss.
The pci
driver implements the PCI bus in
the kernel. It enumerates any devices on the PCI bus and gives PCI client
drivers the chance to attach to them. It assigns resources to children, when
the BIOS does not. It takes care of routing interrupts when necessary. It
reprobes the unattached PCI children when PCI client drivers are dynamically
loaded at runtime. The pci
driver also includes
support for PCI-PCI bridges, various platform-specific Host-PCI bridges, and
basic support for PCI VGA adapters.
IOCTLS¶
The following ioctl(2) calls are supported by
the pci
driver. They are defined in the header file
<sys/pciio.h>
.
- PCIOCGETCONF
- This ioctl(2) takes a pci_conf_io
structure. It allows the user to retrieve information on all PCI devices
in the system, or on PCI devices matching patterns supplied by the user.
The call may set errno to any value specified in
either copyin(9) or copyout(9). The
pci_conf_io structure consists of a number of
fields:
- pat_buf_len
- The length, in bytes, of the buffer filled with user-supplied patterns.
- num_patterns
- The number of user-supplied patterns.
- patterns
- Pointer to a buffer filled with user-supplied patterns.
patterns is a pointer to
num_patterns
pci_match_conf structures. The
pci_match_conf structure consists of the
following elements:
- pc_sel
- PCI domain, bus, slot and function.
- pd_name
- PCI device driver name.
- pd_unit
- PCI device driver unit number.
- pc_vendor
- PCI vendor ID.
- pc_device
- PCI device ID.
- pc_class
- PCI device class.
- flags
- The flags describe which of the fields the kernel should match against. A device must match all specified fields in order to be returned. The match flags are enumerated in the pci_getconf_flags structure. Hopefully the flag values are obvious enough that they do not need to described in detail.
- match_buf_len
- Length of the matches buffer allocated by the
user to hold the results of the
PCIOCGETCONF
query. - num_matches
- Number of matches returned by the kernel.
- matches
- Buffer containing matching devices returned by the kernel. The items
in this buffer are of type pci_conf, which
consists of the following items:
- pc_sel
- PCI domain, bus, slot and function.
- pc_hdr
- PCI header type.
- pc_subvendor
- PCI subvendor ID.
- pc_subdevice
- PCI subdevice ID.
- pc_vendor
- PCI vendor ID.
- pc_device
- PCI device ID.
- pc_class
- PCI device class.
- pc_subclass
- PCI device subclass.
- pc_progif
- PCI device programming interface.
- pc_revid
- PCI revision ID.
- pd_name
- Driver name.
- pd_unit
- Driver unit number.
- offset
- The offset is passed in by the user to tell the kernel where it should
start traversing the device list. The value passed out by the kernel
points to the record immediately after the last one returned. The user
may pass the value returned by the kernel in subsequent calls to the
PCIOCGETCONF
ioctl. If the user does not intend to use the offset, it must be set to zero. - generation
- PCI configuration generation. This value only needs to be set if the
offset is set. The kernel will compare the current generation number
of its internal device list to the generation passed in by the user to
determine whether its device list has changed since the user last
called the
PCIOCGETCONF
ioctl. If the device list has changed, a status of PCI_GETCONF_LIST_CHANGED will be passed back. - status
- The status tells the user the disposition of his request for a device
list. The possible status values are:
- PCI_GETCONF_LAST_DEVICE
- This means that there are no more devices in the PCI device list matching the specified criteria after the ones returned in the matches buffer.
- PCI_GETCONF_LIST_CHANGED
- This status tells the user that the PCI device list has changed
since his last call to the
PCIOCGETCONF
ioctl and he must reset the offset and generation to zero to start over at the beginning of the list. - PCI_GETCONF_MORE_DEVS
- This tells the user that his buffer was not large enough to hold all of the remaining devices in the device list that match his criteria.
- PCI_GETCONF_ERROR
- This indicates a general error while servicing the user's request.
If the pat_buf_len is not equal to
num_patterns times
sizeof
(struct pci_match_conf), errno will be set toEINVAL
.
- PCIOCREAD
- This ioctl(2) reads the PCI configuration registers
specified by the passed-in pci_io structure. The
pci_io structure consists of the following fields:
- pi_sel
- A pcisel structure which specifies the domain, bus, slot and function the user would like to query. If the specific bus is not found, errno will be set to ENODEV and -1 returned from the ioctl.
- pi_reg
- The PCI configuration registers the user would like to access.
- pi_width
- The width, in bytes, of the data the user would like to read. This value may be either 1, 2, or 4. 3-byte reads and reads larger than 4 bytes are not supported. If an invalid width is passed, errno will be set to EINVAL.
- pi_data
- The data returned by the kernel.
- PCIOCWRITE
- This ioctl(2) allows users to write to the PCI configuration registers specified in the passed-in pci_io structure. The pci_io structure is described above. The limitations on data width described for reading registers, above, also apply to writing PCI configuration registers.
- PCIOCATTACHED
- This ioctl(2) allows users to query if a driver is attached to the PCI device specified in the passed-in pci_io structure. The pci_io structure is described above, however, the pi_reg and pi_width fields are not used. The status of the device is stored in the pi_data field. A value of 0 indicates no driver is attached, while a value larger than 0 indicates that a driver is attached.
- PCIOCBARMMAP
- This ioctl(2) command allows userspace processes to
mmap(2) the memory-mapped PCI BAR into its address
space. The input parameters and results are passed in the
pci_bar_mmap structure, which has the following
fields:
- uint64_t pbm_map_base
- Reports the established mapping base to the caller. If PCIIO_BAR_MMAP_FIXED flag was specified, then this field must be filled before the call with the desired address for the mapping.
- uint64_t pbm_map_length
- Reports the mapped length of the BAR, in bytes. Its .Vt uint64_t value is always multiple of machine pages.
- int64_t pbm_bar_length
- Reports length of the bar as exposed by the device.
- int pbm_bar_off
- Reports offset from the mapped base to the start of the first register in the bar.
- struct pcisel pbm_sel
- Should be filled before the call. Describes the device to operate on.
- int pbm_reg
- The BAR index to mmap.
- int pbm_flags
- Flags which augments the operation. See below.
- int pbm_memattr
- The caching attribute for the mapping. Typical values are
VM_MEMATTR_UNCACHEABLE
for control registers BARs, andVM_MEMATTR_WRITE_COMBINING
for frame buffers. Regular memory-like BAR should be mapped withVM_MEMATTR_DEFAULT
attribute.
Currently defined flags are:
- PCIIO_BAR_MMAP_FIXED
- The resulted mappings should be established at the address specified by the pbm_map_base member, otherwise fail.
- PCIIO_BAR_MMAP_EXCL
- Must be used together with If the specified base contains already established mappings, the operation fails instead of implicitly unmapping them.
- PCIIO_BAR_MMAP_RW
- The requested mapping allows both reading and writing. Without the flag, read-only mapping is established. Note that it is common for the device registers to have side-effects even on reads.
- PCIIO_BAR_MMAP_ACTIVATE
- (Unimplemented) If the BAR is not activated, activate it in the course of mapping. Currently attempt to mmap an inactive BAR results in error.
LOADER TUNABLES¶
Tunables can be set at the loader(8) prompt before booting the kernel, or stored in loader.conf(5). The current value of these tunables can be examined at runtime via sysctl(8) nodes of the same name. Unless otherwise specified, each of these tunables is a boolean that can be enabled by setting the tunable to a non-zero value.
- hw.pci.clear_bars (Defaults to 0)
- Ignore any firmware-assigned memory and I/O port resources. This forces the PCI bus driver to allocate resource ranges for memory and I/O port resources from scratch.
- hw.pci.clear_buses (Defaults to 0)
- Ignore any firmware-assigned bus number registers in PCI-PCI bridges. This forces the PCI bus driver and PCI-PCI bridge driver to allocate bus numbers for secondary buses behind PCI-PCI bridges.
- hw.pci.clear_pcib (Defaults to 0)
- Ignore any firmware-assigned memory and I/O port resource windows in
PCI-PCI bridges. This forces the PCI-PCI bridge driver to allocate memory
and I/O port resources for resource windows from scratch.
By default the PCI-PCI bridge driver will allocate windows that contain the firmware-assigned resources devices behind the bridge. In addition, the PCI-PCI bridge driver will suballocate from existing window regions when possible to satisfy a resource request. As a result, both hw.pci.clear_bars and hw.pci.clear_pcib must be enabled to fully ignore firmware-supplied resource assignments.
- hw.pci.default_vgapci_unit (Defaults to -1)
- By default, the first PCI VGA adapter encountered by the system is assumed to be the boot display device. This tunable can be set to choose a specific VGA adapter by specifying the unit number of the associated vgapciX device.
- hw.pci.do_power_nodriver (Defaults to 0)
- Place devices into a low power state (D3) when a suitable device driver is
not found. Can be set to one of the following values:
- 3
- Powers down all PCI devices without a device driver.
- 2
- Powers down most devices without a device driver. PCI devices with the display, memory, and base peripheral device classes are not powered down.
- 1
- Similar to a setting of 2 except that storage controllers are also not powered down.
- 0
- All devices are left fully powered.
A PCI device must support power management to be powered down. Placing a device into a low power state may not reduce power consumption.
- hw.pci.do_power_resume (Defaults to 1)
- Place PCI devices into the fully powered state when resuming either the system or an individual device. Setting this to zero is discouraged as the system will not attempt to power up non-powered PCI devices after a suspend.
- hw.pci.do_power_suspend (Defaults to 1)
- Place PCI devices into a low power state when suspending either the system or individual devices. Normally the D3 state is used as the low power state, but firmware may override the desired power state during a system suspend.
- hw.pci.enable_ari (Defaults to 1)
- Enable support for PCI-express Alternative RID Interpretation. This is often used in conjunction with SR-IOV.
- hw.pci.enable_io_modes (Defaults to 1)
- Enable memory or I/O port decoding in a PCI device's command register if it has firmware-assigned memory or I/O port resources. The firmware (BIOS) in some systems does not enable memory or I/O port decoding for some devices even when it has assigned resources to the device. This enables decoding for such resources during bus probe.
- hw.pci.enable_msi (Defaults to 1)
- Enable support for Message Signalled Interrupts (MSI). MSI interrupts can be disabled by setting this tunable to 0.
- hw.pci.enable_msix (Defaults to 1)
- Enable support for extended Message Signalled Interrupts (MSI-X). MSI-X interrupts can be disabled by setting this tunable to 0.
- hw.pci.enable_pcie_hp (Defaults to 1)
- Enable support for native PCI-express HotPlug.
- hw.pci.honor_msi_blacklist (Defaults to 1)
- MSI and MSI-X interrupts are disabled for certain chipsets known to have broken MSI and MSI-X implementations when this tunable is set. It can be set to zero to permit use of MSI and MSI-X interrupts if the chipset match is a false positive.
- hw.pci.iov_max_config (Defaults to 1MB)
- The maximum amount of memory permitted for the configuration parameters used when creating Virtual Functions via SR-IOV. This tunable can also be changed at runtime via sysctl(8).
- hw.pci.realloc_bars (Defaults to 0)
- Attempt to allocate a new resource range during the initial device scan for any memory or I/O port resources with firmware-assigned ranges that conflict with another active resource.
- hw.pci.usb_early_takeover (Defaults to 1 on amd64 and i386)
- Disable legacy device emulation of USB devices during the initial device scan. Set this tunable to zero to use USB devices via legacy emulation when using a custom kernel without USB controller drivers.
- hw.pci<D>.<B>.<S>.INT<P>.irq
- These tunables can be used to override the interrupt routing for legacy
PCI INTx interrupts. Unlike other tunables in this list, these do not have
corresponding sysctl nodes. The tunable name includes the address of the
PCI device as well as the pin of the desired INTx IRQ to override:
- <D>
- The domain (or segment) of the PCI device in decimal.
- <B>
- The bus address of the PCI device in decimal.
- <S>
- The slot of the PCI device in decimal.
- <P>
- The interrupt pin of the PCI slot to override. One of
‘
A
’, ‘B
’, ‘C
’, or ‘D
’.
The value of the tunable is the raw IRQ value to use for the INTx interrupt pin identified by the tunable name. Mapping of IRQ values to platform interrupt sources is machine dependent.
DEVICE WIRING¶
You can wire the device unit at a given location with device.hints. Entries of the form hints.<name>.<unit>.at="pci<B>:<S>:<F>" or hints.<name>.<unit>.at="pci<D>:<B>:<S>:<F>" will force the driver name to probe and attach at unit unit for any PCI device found to match the specification, where:
- <D>
- The domain (or segment) of the PCI device in decimal. Defaults to 0 if unspecified
- <B>
- The bus address of the PCI device in decimal.
- <S>
- The slot of the PCI device in decimal.
- <F>
- The function of the PCI device in decimal.
The code to do the matching requires an exact string match. Do not specify the angle brackets (< >) in the hints file. Wiring multiple devices to the same name and unit produces undefined results.
Examples¶
Given the following lines in
/boot/device.hints:
hint.nvme.3.at="pci6:0:0"
hint.igb.8.at="pci14:0:0"
If there is a
device that supports igb(4) at PCI bus 14 slot 0 function
0, then it will be assigned igb8 for probe and attach. Likewise, if there is
an nvme(4) card at PCI bus 6 slot 0 function 0, then it
will be assigned nvme3 for probe and attach. If another type of card is in
either of these locations, the name and unit of that card will be the
default names and will be unaffected by these hints. If other igb or nvme
cards are located elsewhere, they will be assigned their unit numbers
sequentially, skipping the unit numbers that have 'at' hints.
FILES¶
- /dev/pci
- Character device for the
pci
driver.
SEE ALSO¶
HISTORY¶
The pci
driver (not the kernel's PCI
support code) first appeared in FreeBSD 2.2, and was
written by Stefan Esser and Garrett Wollman. Support for device listing and
matching was re-implemented by Kenneth Merry, and first appeared in
FreeBSD 3.0.
AUTHORS¶
Kenneth Merry <ken@FreeBSD.org>
BUGS¶
It is not possible for users to specify an accurate offset into
the device list without calling the PCIOCGETCONF
at
least once, since they have no way of knowing the current generation number
otherwise. This probably is not a serious problem, though, since users can
easily narrow their search by specifying a pattern or patterns for the
kernel to match against.
June 17, 2019 | Debian |