xref: /freebsd/share/man/man9/pci.9 (revision 6829dae12bb055451fa467da4589c43bd03b1e64)
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26.\" $FreeBSD$
27.\"
28.Dd January 15, 2017
29.Dt PCI 9
30.Os
31.Sh NAME
32.Nm pci ,
33.Nm pci_alloc_msi ,
34.Nm pci_alloc_msix ,
35.Nm pci_disable_busmaster ,
36.Nm pci_disable_io ,
37.Nm pci_enable_busmaster ,
38.Nm pci_enable_io ,
39.Nm pci_find_bsf ,
40.Nm pci_find_cap ,
41.Nm pci_find_dbsf ,
42.Nm pci_find_device ,
43.Nm pci_find_extcap ,
44.Nm pci_find_htcap ,
45.Nm pci_find_next_cap ,
46.Nm pci_find_next_extcap ,
47.Nm pci_find_next_htcap ,
48.Nm pci_find_pcie_root_port ,
49.Nm pci_get_id ,
50.Nm pci_get_max_payload ,
51.Nm pci_get_max_read_req ,
52.Nm pci_get_powerstate ,
53.Nm pci_get_vpd_ident ,
54.Nm pci_get_vpd_readonly ,
55.Nm pci_iov_attach ,
56.Nm pci_iov_attach_name ,
57.Nm pci_iov_detach ,
58.Nm pci_msi_count ,
59.Nm pci_msix_count ,
60.Nm pci_msix_pba_bar ,
61.Nm pci_msix_table_bar ,
62.Nm pci_pending_msix ,
63.Nm pci_read_config ,
64.Nm pci_release_msi ,
65.Nm pci_remap_msix ,
66.Nm pci_restore_state ,
67.Nm pci_save_state ,
68.Nm pci_set_max_read_req ,
69.Nm pci_set_powerstate ,
70.Nm pci_write_config ,
71.Nm pcie_adjust_config ,
72.Nm pcie_flr ,
73.Nm pcie_get_max_completion_timeout ,
74.Nm pcie_read_config ,
75.Nm pcie_wait_for_pending_transactions ,
76.Nm pcie_write_config
77.Nd PCI bus interface
78.Sh SYNOPSIS
79.In sys/bus.h
80.In dev/pci/pcireg.h
81.In dev/pci/pcivar.h
82.Ft int
83.Fn pci_alloc_msi "device_t dev" "int *count"
84.Ft int
85.Fn pci_alloc_msix "device_t dev" "int *count"
86.Ft int
87.Fn pci_disable_busmaster "device_t dev"
88.Ft int
89.Fn pci_disable_io "device_t dev" "int space"
90.Ft int
91.Fn pci_enable_busmaster "device_t dev"
92.Ft int
93.Fn pci_enable_io "device_t dev" "int space"
94.Ft device_t
95.Fn pci_find_bsf "uint8_t bus" "uint8_t slot" "uint8_t func"
96.Ft int
97.Fn pci_find_cap "device_t dev" "int capability" "int *capreg"
98.Ft device_t
99.Fn pci_find_dbsf "uint32_t domain" "uint8_t bus" "uint8_t slot" "uint8_t func"
100.Ft device_t
101.Fn pci_find_device "uint16_t vendor" "uint16_t device"
102.Ft int
103.Fn pci_find_extcap "device_t dev" "int capability" "int *capreg"
104.Ft int
105.Fn pci_find_htcap "device_t dev" "int capability" "int *capreg"
106.Ft int
107.Fn pci_find_next_cap "device_t dev" "int capability" "int start" "int *capreg"
108.Ft int
109.Fn pci_find_next_extcap "device_t dev" "int capability" "int start" "int *capreg"
110.Ft int
111.Fn pci_find_next_htcap "device_t dev" "int capability" "int start" "int *capreg"
112.Ft device_t
113.Fn pci_find_pcie_root_port "device_t dev"
114.Ft int
115.Fn pci_get_id "device_t dev" "enum pci_id_type type" "uintptr_t *id"
116.Ft int
117.Fn pci_get_max_payload "device_t dev"
118.Ft int
119.Fn pci_get_max_read_req "device_t dev"
120.Ft int
121.Fn pci_get_powerstate "device_t dev"
122.Ft int
123.Fn pci_get_vpd_ident "device_t dev" "const char **identptr"
124.Ft int
125.Fn pci_get_vpd_readonly "device_t dev" "const char *kw" "const char **vptr"
126.Ft int
127.Fn pci_msi_count "device_t dev"
128.Ft int
129.Fn pci_msix_count "device_t dev"
130.Ft int
131.Fn pci_msix_pba_bar "device_t dev"
132.Ft int
133.Fn pci_msix_table_bar "device_t dev"
134.Ft int
135.Fn pci_pending_msix "device_t dev" "u_int index"
136.Ft uint32_t
137.Fn pci_read_config "device_t dev" "int reg" "int width"
138.Ft int
139.Fn pci_release_msi "device_t dev"
140.Ft int
141.Fn pci_remap_msix "device_t dev" "int count" "const u_int *vectors"
142.Ft void
143.Fn pci_restore_state "device_t dev"
144.Ft void
145.Fn pci_save_state "device_t dev"
146.Ft int
147.Fn pci_set_max_read_req "device_t dev" "int size"
148.Ft int
149.Fn pci_set_powerstate "device_t dev" "int state"
150.Ft void
151.Fn pci_write_config "device_t dev" "int reg" "uint32_t val" "int width"
152.Ft uint32_t
153.Fo pcie_adjust_config
154.Fa "device_t dev"
155.Fa "int reg"
156.Fa "uint32_t mask"
157.Fa "uint32_t val"
158.Fa "int width"
159.Fc
160.Ft bool
161.Fn pcie_flr "device_t dev" "u_int max_delay" "bool force"
162.Ft int
163.Fn pcie_get_max_completion_timeout "device_t dev"
164.Ft uint32_t
165.Fn pcie_read_config "device_t dev" "int reg" "int width"
166.Ft bool
167.Fn pcie_wait_for_pending_transactions "device_t dev" "u_int max_delay"
168.Ft void
169.Fn pcie_write_config "device_t dev" "int reg" "uint32_t val" "int width"
170.Ft void
171.Fn pci_event_fn "void *arg" "device_t dev"
172.Fn EVENTHANDLER_REGISTER "pci_add_device" "pci_event_fn"
173.Fn EVENTHANDLER_DEREGISTER "pci_delete_resource" "pci_event_fn"
174.In dev/pci/pci_iov.h
175.Ft int
176.Fn pci_iov_attach "device_t dev" "nvlist_t *pf_schema" "nvlist_t *vf_schema"
177.Ft int
178.Fo pci_iov_attach_name
179.Fa "device_t dev"
180.Fa "nvlist_t *pf_schema"
181.Fa "nvlist_t *vf_schema"
182.Fa "const char *fmt"
183.Fa "..."
184.Fc
185.Ft int
186.Fn pci_iov_detach "device_t dev"
187.Sh DESCRIPTION
188The
189.Nm
190set of functions are used for managing PCI devices.
191The functions are split into several groups:
192raw configuration access,
193locating devices,
194device information,
195device configuration,
196and
197message signaled interrupts.
198.Ss Raw Configuration Access
199The
200.Fn pci_read_config
201function is used to read data from the PCI configuration
202space of the device
203.Fa dev ,
204at offset
205.Fa reg ,
206with
207.Fa width
208specifying the size of the access.
209.Pp
210The
211.Fn pci_write_config
212function is used to write the value
213.Fa val
214to the PCI configuration
215space of the device
216.Fa dev ,
217at offset
218.Fa reg ,
219with
220.Fa width
221specifying the size of the access.
222.Pp
223The
224.Fn pcie_adjust_config
225function is used to modify the value of a register in the PCI-express
226capability register set of device
227.Fa dev .
228The offset
229.Fa reg
230specifies a relative offset in the register set with
231.Fa width
232specifying the size of the access.
233The new value of the register is computed by modifying bits set in
234.Fa mask
235to the value in
236.Fa val .
237Any bits not specified in
238.Fa mask
239are preserved.
240The previous value of the register is returned.
241.Pp
242The
243.Fn pcie_read_config
244function is used to read the value of a register in the PCI-express
245capability register set of device
246.Fa dev .
247The offset
248.Fa reg
249specifies a relative offset in the register set with
250.Fa width
251specifying the size of the access.
252.Pp
253The
254.Fn pcie_write_config
255function is used to write the value
256.Fa val
257to a register in the PCI-express capability register set of device
258.Fa dev .
259The offset
260.Fa reg
261specifies a relative offset in the register set with
262.Fa width
263specifying the size of the access.
264.Pp
265.Em NOTE :
266Device drivers should only use these functions for functionality that
267is not available via another
268.Fn pci
269function.
270.Ss Locating Devices
271The
272.Fn pci_find_bsf
273function looks up the
274.Vt device_t
275of a PCI device, given its
276.Fa bus ,
277.Fa slot ,
278and
279.Fa func .
280The
281.Fa slot
282number actually refers to the number of the device on the bus,
283which does not necessarily indicate its geographic location
284in terms of a physical slot.
285Note that in case the system has multiple PCI domains,
286the
287.Fn pci_find_bsf
288function only searches the first one.
289Actually, it is equivalent to:
290.Bd -literal -offset indent
291pci_find_dbsf(0, bus, slot, func);
292.Ed
293.Pp
294The
295.Fn pci_find_dbsf
296function looks up the
297.Vt device_t
298of a PCI device, given its
299.Fa domain ,
300.Fa bus ,
301.Fa slot ,
302and
303.Fa func .
304The
305.Fa slot
306number actually refers to the number of the device on the bus,
307which does not necessarily indicate its geographic location
308in terms of a physical slot.
309.Pp
310The
311.Fn pci_find_device
312function looks up the
313.Vt device_t
314of a PCI device, given its
315.Fa vendor
316and
317.Fa device
318IDs.
319Note that there can be multiple matches for this search; this function
320only returns the first matching device.
321.Ss Device Information
322The
323.Fn pci_find_cap
324function is used to locate the first instance of a PCI capability
325register set for the device
326.Fa dev .
327The capability to locate is specified by ID via
328.Fa capability .
329Constant macros of the form
330.Dv PCIY_xxx
331for standard capability IDs are defined in
332.In dev/pci/pcireg.h .
333If the capability is found, then
334.Fa *capreg
335is set to the offset in configuration space of the capability register set,
336and
337.Fn pci_find_cap
338returns zero.
339If the capability is not found or the device does not support capabilities,
340.Fn pci_find_cap
341returns an error.
342The
343.Fn pci_find_next_cap
344function is used to locate the next instance of a PCI capability
345register set for the device
346.Fa dev .
347The
348.Fa start
349should be the
350.Fa *capreg
351returned by a prior
352.Fn pci_find_cap
353or
354.Fn pci_find_next_cap .
355When no more instances are located
356.Fn pci_find_next_cap
357returns an error.
358.Pp
359The
360.Fn pci_find_extcap
361function is used to locate the first instance of a PCI-express
362extended capability register set for the device
363.Fa dev .
364The extended capability to locate is specified by ID via
365.Fa capability .
366Constant macros of the form
367.Dv PCIZ_xxx
368for standard extended capability IDs are defined in
369.In dev/pci/pcireg.h .
370If the extended capability is found, then
371.Fa *capreg
372is set to the offset in configuration space of the extended capability
373register set, and
374.Fn pci_find_extcap
375returns zero.
376If the extended capability is not found or the device is not a
377PCI-express device,
378.Fn pci_find_extcap
379returns an error.
380The
381.Fn pci_find_next_extcap
382function is used to locate the next instance of a PCI-express
383extended capability register set for the device
384.Fa dev .
385The
386.Fa start
387should be the
388.Fa *capreg
389returned by a prior
390.Fn pci_find_extcap
391or
392.Fn pci_find_next_extcap .
393When no more instances are located
394.Fn pci_find_next_extcap
395returns an error.
396.Pp
397The
398.Fn pci_find_htcap
399function is used to locate the first instance of a HyperTransport capability
400register set for the device
401.Fa dev .
402The capability to locate is specified by type via
403.Fa capability .
404Constant macros of the form
405.Dv PCIM_HTCAP_xxx
406for standard HyperTransport capability types are defined in
407.In dev/pci/pcireg.h .
408If the capability is found, then
409.Fa *capreg
410is set to the offset in configuration space of the capability register set,
411and
412.Fn pci_find_htcap
413returns zero.
414If the capability is not found or the device is not a HyperTransport device,
415.Fn pci_find_htcap
416returns an error.
417The
418.Fn pci_find_next_htcap
419function is used to locate the next instance of a HyperTransport capability
420register set for the device
421.Fa dev .
422The
423.Fa start
424should be the
425.Fa *capreg
426returned by a prior
427.Fn pci_find_htcap
428or
429.Fn pci_find_next_htcap .
430When no more instances are located
431.Fn pci_find_next_htcap
432returns an error.
433.Pp
434The
435.Fn pci_find_pcie_root_port
436function walks up the PCI device hierarchy to locate the PCI-express root
437port upstream of
438.Fa dev .
439If a root port is not found,
440.Fn pci_find_pcie_root_port
441returns
442.Dv NULL .
443.Pp
444The
445.Fn pci_get_id
446function is used to read an identifier from a device.
447The
448.Fa type
449flag is used to specify which identifier to read.
450The following flags are supported:
451.Bl -hang -width ".Dv PCI_ID_RID"
452.It Dv PCI_ID_RID
453Read the routing identifier for the device.
454.It Dv PCI_ID_MSI
455Read the MSI routing ID.
456This is needed by some interrupt controllers to route MSI and MSI-X interrupts.
457.El
458.Pp
459The
460.Fn pci_get_vpd_ident
461function is used to fetch a device's Vital Product Data
462.Pq VPD
463identifier string.
464If the device
465.Fa dev
466supports VPD and provides an identifier string,
467then
468.Fa *identptr
469is set to point at a read-only, null-terminated copy of the identifier
470string,
471and
472.Fn pci_get_vpd_ident
473returns zero.
474If the device does not support VPD or does not provide an identifier
475string,
476then
477.Fn pci_get_vpd_ident
478returns an error.
479.Pp
480The
481.Fn pci_get_vpd_readonly
482function is used to fetch the value of a single VPD read-only keyword
483for the device
484.Fa dev .
485The keyword to fetch is identified by the two character string
486.Fa kw .
487If the device supports VPD and provides a read-only value for the
488requested keyword,
489then
490.Fa *vptr
491is set to point at a read-only, null-terminated copy of the value,
492and
493.Fn pci_get_vpd_readonly
494returns zero.
495If the device does not support VPD or does not provide the requested
496keyword,
497then
498.Fn pci_get_vpd_readonly
499returns an error.
500.Pp
501The
502.Fn pcie_get_max_completion_timeout
503function returns the maximum completion timeout configured for the device
504.Fa dev
505in microseconds.
506If the
507.Fa dev
508device is not a PCI-express device,
509.Fn pcie_get_max_completion_timeout
510returns zero.
511When completion timeouts are disabled for
512.Fa dev ,
513this function returns the maxmimum timeout that would be used if timeouts
514were enabled.
515.Pp
516The
517.Fn pcie_wait_for_pending_transactions
518function waits for any pending transactions initiated by the
519.Fa dev
520device to complete.
521The function checks for pending transactions by polling the transactions
522pending flag in the PCI-express device status register.
523It returns
524.Dv true
525once the transaction pending flag is clear.
526If transactions are still pending after
527.Fa max_delay
528milliseconds,
529.Fn pcie_wait_for_pending_transactions
530returns
531.Dv false .
532If
533.Fa max_delay
534is set to zero,
535.Fn pcie_wait_for_pending_transactions
536performs a single check;
537otherwise,
538this function may sleep while polling the transactions pending flag.
539.Nm pcie_wait_for_pending_transactions
540returns
541.Dv true
542if
543.Fa dev
544is not a PCI-express device.
545.Ss Device Configuration
546The
547.Fn pci_enable_busmaster
548function enables PCI bus mastering for the device
549.Fa dev ,
550by setting the
551.Dv PCIM_CMD_BUSMASTEREN
552bit in the
553.Dv PCIR_COMMAND
554register.
555The
556.Fn pci_disable_busmaster
557function clears this bit.
558.Pp
559The
560.Fn pci_enable_io
561function enables memory or I/O port address decoding for the device
562.Fa dev ,
563by setting the
564.Dv PCIM_CMD_MEMEN
565or
566.Dv PCIM_CMD_PORTEN
567bit in the
568.Dv PCIR_COMMAND
569register appropriately.
570The
571.Fn pci_disable_io
572function clears the appropriate bit.
573The
574.Fa space
575argument specifies which resource is affected; this can be either
576.Dv SYS_RES_MEMORY
577or
578.Dv SYS_RES_IOPORT
579as appropriate.
580Device drivers should generally not use these routines directly.
581The PCI bus will enable decoding automatically when a
582.Dv SYS_RES_MEMORY
583or
584.Dv SYS_RES_IOPORT
585resource is activated via
586.Xr bus_alloc_resource 9
587or
588.Xr bus_activate_resource 9 .
589.Pp
590The
591.Fn pci_get_max_payload
592function returns the current maximum TLP payload size in bytes for a
593PCI-express device.
594If the
595.Fa dev
596device is not a PCI-express device,
597.Fn pci_get_max_payload
598returns zero.
599.Pp
600The
601.Fn pci_get_max_read_req
602function returns the current maximum read request size in bytes for a
603PCI-express device.
604If the
605.Fa dev
606device is not a PCI-express device,
607.Fn pci_get_max_read_req
608returns zero.
609.Pp
610The
611.Fn pci_set_max_read_req
612sets the PCI-express maximum read request size for
613.Fa dev .
614The requested
615.Fa size
616may be adjusted,
617and
618.Fn pci_set_max_read_req
619returns the actual size set in bytes.
620If the
621.Fa dev
622device is not a PCI-express device,
623.Fn pci_set_max_read_req
624returns zero.
625.Pp
626The
627.Fn pci_get_powerstate
628function returns the current power state of the device
629.Fa dev .
630If the device does not support power management capabilities, then the default
631state of
632.Dv PCI_POWERSTATE_D0
633is returned.
634The following power states are defined by PCI:
635.Bl -hang -width ".Dv PCI_POWERSTATE_UNKNOWN"
636.It Dv PCI_POWERSTATE_D0
637State in which device is on and running.
638It is receiving full power from the system and delivering
639full functionality to the user.
640.It Dv PCI_POWERSTATE_D1
641Class-specific low-power state in which device context may or
642may not be lost.
643Buses in this state cannot do anything to the bus, to
644force devices to lose context.
645.It Dv PCI_POWERSTATE_D2
646Class-specific low-power state in which device context may or
647may not be lost.
648Attains greater power savings than
649.Dv PCI_POWERSTATE_D1 .
650Buses in this state can cause devices to lose some context.
651Devices
652.Em must
653be prepared for the bus to be in this state or higher.
654.It Dv PCI_POWERSTATE_D3
655State in which the device is off and not running.
656Device context is lost, and power from the device can
657be removed.
658.It Dv PCI_POWERSTATE_UNKNOWN
659State of the device is unknown.
660.El
661.Pp
662The
663.Fn pci_set_powerstate
664function is used to transition the device
665.Fa dev
666to the PCI power state
667.Fa state .
668If the device does not support power management capabilities or
669it does not support the specific power state
670.Fa state ,
671then the function will fail with
672.Er EOPNOTSUPP .
673.Pp
674The
675.Fn pci_iov_attach
676function is used to advertise that the given device
677.Pq and associated device driver
678supports PCI Single-Root I/O Virtualization
679.Pq SR-IOV .
680A driver that supports SR-IOV must implement the
681.Xr PCI_IOV_INIT 9 ,
682.Xr PCI_IOV_ADD_VF 9
683and
684.Xr PCI_IOV_UNINIT 9
685methods.
686This function should be called during the
687.Xr DEVICE_ATTACH 9
688method.
689If this function returns an error, it is recommended that the device driver
690still successfully attaches, but runs with SR-IOV disabled.
691The
692.Fa pf_schema
693and
694.Fa vf_schema
695parameters are used to define what device-specific configuration parameters the
696device driver accepts when SR-IOV is enabled for the Physical Function
697.Pq PF
698and for individual Virtual Functions
699.Pq VFs
700respectively.
701See
702.Xr pci_iov_schema 9
703for details on how to construct the schema.
704If either the
705.Pa pf_schema
706or
707.Pa vf_schema
708is invalid or specifies parameter names that conflict with parameter names that
709are already in use,
710.Fn pci_iov_attach
711will return an error and SR-IOV will not be available on the PF device.
712If a driver does not accept configuration parameters for either the PF device
713or the VF devices, the driver must pass an empty schema for that device.
714The SR-IOV infrastructure takes ownership of the
715.Fa pf_schema
716and
717.Fa vf_schema
718and is responsible for freeing them.
719The driver must never free the schemas itself.
720.Pp
721The
722.Fn pci_iov_attach_name
723function is a variant of
724.Fn pci_iov_attach
725that allows the name of the associated character device in
726.Pa /dev/iov
727to be specified by
728.Fa fmt .
729The
730.Fn pci_iov_attach
731function uses the name of
732.Fa dev
733as the device name.
734.Pp
735The
736.Fn pci_iov_detach
737function is used to advise the SR-IOV infrastructure that the driver for the
738given device is attempting to detach and that all SR-IOV resources for the
739device must be released.
740This function must be called during the
741.Xr DEVICE_DETACH 9
742method if
743.Fn pci_iov_attach
744was successfully called on the device and
745.Fn pci_iov_detach
746has not subsequently been called on the device and returned no error.
747If this function returns an error, the
748.Xr DEVICE_DETACH 9
749method must fail and return an error, as detaching the PF driver while VF
750devices are active would cause system instability.
751This function is safe to call and will always succeed if
752.Fn pci_iov_attach
753previously failed with an error on the given device, or if
754.Fn pci_iov_attach
755was never called on the device.
756.Pp
757The
758.Fn pci_save_state
759and
760.Fn pci_restore_state
761functions can be used by a device driver to save and restore standard PCI
762config registers.
763The
764.Fn pci_save_state
765function must be invoked while the device has valid state before
766.Fn pci_restore_state
767can be used.
768If the device is not in the fully-powered state
769.Pq Dv PCI_POWERSTATE_D0
770when
771.Fn pci_restore_state
772is invoked,
773then the device will be transitioned to
774.Dv PCI_POWERSTATE_D0
775before any config registers are restored.
776.Pp
777The
778.Fn pcie_flr
779function requests a Function Level Reset
780.Pq FLR
781of
782.Fa dev .
783If
784.Fa dev
785is not a PCI-express device or does not support Function Level Resets via
786the PCI-express device control register,
787.Dv false
788is returned.
789Pending transactions are drained by disabling busmastering and calling
790.Fn pcie_wait_for_pending_transactions
791before resetting the device.
792The
793.Fa max_delay
794argument specifies the maximum timeout to wait for pending transactions as
795described for
796.Fn pcie_wait_for_pending_transactions .
797If
798.Fn pcie_wait_for_pending_transactions
799fails with a timeout and
800.Fa force
801is
802.Dv false ,
803busmastering is re-enabled and
804.Dv false
805is returned.
806If
807.Fn pcie_wait_for_pending_transactions
808fails with a timeout and
809.Fa force
810is
811.Dv true ,
812the device is reset despite the timeout.
813After the reset has been requested,
814.Nm pcie_flr
815sleeps for at least 100 milliseconds before returning
816.Dv true .
817Note that
818.Nm pcie_flr
819does not save and restore any state around the reset.
820The caller should save and restore state as needed.
821.Ss Message Signaled Interrupts
822Message Signaled Interrupts
823.Pq MSI
824and
825Enhanced Message Signaled Interrupts
826.Pq MSI-X
827are PCI capabilities that provide an alternate method for PCI
828devices to signal interrupts.
829The legacy INTx interrupt is available to PCI devices as a
830.Dv SYS_RES_IRQ
831resource with a resource ID of zero.
832MSI and MSI-X interrupts are available to PCI devices as one or more
833.Dv SYS_RES_IRQ
834resources with resource IDs greater than zero.
835A driver must ask the PCI bus to allocate MSI or MSI-X interrupts
836using
837.Fn pci_alloc_msi
838or
839.Fn pci_alloc_msix
840before it can use MSI or MSI-X
841.Dv SYS_RES_IRQ
842resources.
843A driver is not allowed to use the legacy INTx
844.Dv SYS_RES_IRQ
845resource if MSI or MSI-X interrupts have been allocated,
846and attempts to allocate MSI or MSI-X interrupts will fail if the
847driver is currently using the legacy INTx
848.Dv SYS_RES_IRQ
849resource.
850A driver is only allowed to use either MSI or MSI-X,
851but not both.
852.Pp
853The
854.Fn pci_msi_count
855function returns the maximum number of MSI messages supported by the
856device
857.Fa dev .
858If the device does not support MSI,
859then
860.Fn pci_msi_count
861returns zero.
862.Pp
863The
864.Fn pci_alloc_msi
865function attempts to allocate
866.Fa *count
867MSI messages for the device
868.Fa dev .
869The
870.Fn pci_alloc_msi
871function may allocate fewer messages than requested for various
872reasons including requests for more messages than the device
873.Fa dev
874supports,
875or if the system has a shortage of available MSI messages.
876On success,
877.Fa *count
878is set to the number of messages allocated and
879.Fn pci_alloc_msi
880returns zero.
881The
882.Dv SYS_RES_IRQ
883resources for the allocated messages will be available at consecutive
884resource IDs beginning with one.
885If
886.Fn pci_alloc_msi
887is not able to allocate any messages,
888it returns an error.
889Note that MSI only supports message counts that are powers of two;
890requests to allocate a non-power of two count of messages will fail.
891.Pp
892The
893.Fn pci_release_msi
894function is used to release any allocated MSI or MSI-X messages back
895to the system.
896If any MSI or MSI-X
897.Dv SYS_RES_IRQ
898resources are allocated by the driver or have a configured interrupt
899handler,
900this function will fail with
901.Er EBUSY .
902The
903.Fn pci_release_msi
904function returns zero on success and an error on failure.
905.Pp
906The
907.Fn pci_msix_count
908function returns the maximum number of MSI-X messages supported by the
909device
910.Fa dev .
911If the device does not support MSI-X,
912then
913.Fn pci_msix_count
914returns zero.
915.Pp
916The
917.Fn pci_msix_pba_bar
918function returns the offset in configuration space of the Base Address Register
919.Pq BAR
920containing the MSI-X Pending Bit Array (PBA) for device
921.Fa dev .
922The returned value can be used as the resource ID with
923.Xr bus_alloc_resource 9
924and
925.Xr bus_release_resource 9
926to allocate the BAR.
927If the device does not support MSI-X,
928then
929.Fn pci_msix_pba_bar
930returns -1.
931.Pp
932The
933.Fn pci_msix_table_bar
934function returns the offset in configuration space of the BAR
935containing the MSI-X vector table for device
936.Fa dev .
937The returned value can be used as the resource ID with
938.Xr bus_alloc_resource 9
939and
940.Xr bus_release_resource 9
941to allocate the BAR.
942If the device does not support MSI-X,
943then
944.Fn pci_msix_table_bar
945returns -1.
946.Pp
947The
948.Fn pci_alloc_msix
949function attempts to allocate
950.Fa *count
951MSI-X messages for the device
952.Fa dev .
953The
954.Fn pci_alloc_msix
955function may allocate fewer messages than requested for various
956reasons including requests for more messages than the device
957.Fa dev
958supports,
959or if the system has a shortage of available MSI-X messages.
960On success,
961.Fa *count
962is set to the number of messages allocated and
963.Fn pci_alloc_msix
964returns zero.
965For MSI-X messages,
966the resource ID for each
967.Dv SYS_RES_IRQ
968resource identifies the index in the MSI-X table of the
969corresponding message.
970A resource ID of one maps to the first index of the MSI-X table;
971a resource ID two identifies the second index in the table, etc.
972The
973.Fn pci_alloc_msix
974function assigns the
975.Fa *count
976messages allocated to the first
977.Fa *count
978table indices.
979If
980.Fn pci_alloc_msix
981is not able to allocate any messages,
982it returns an error.
983Unlike MSI,
984MSI-X does not require message counts that are powers of two.
985.Pp
986The BARs containing the MSI-X vector table and PBA must be
987allocated via
988.Xr bus_alloc_resource 9
989before calling
990.Fn pci_alloc_msix
991and must not be released until after calling
992.Fn pci_release_msi .
993Note that the vector table and PBA may be stored in the same BAR or in
994different BARs.
995.Pp
996The
997.Fn pci_pending_msix
998function examines the
999.Fa dev
1000device's PBA
1001to determine the pending status of the MSI-X message at table index
1002.Fa index .
1003If the indicated message is pending,
1004this function returns a non-zero value;
1005otherwise,
1006it returns zero.
1007Passing an invalid
1008.Fa index
1009to this function will result in undefined behavior.
1010.Pp
1011As mentioned in the description of
1012.Fn pci_alloc_msix ,
1013MSI-X messages are initially assigned to the first N table entries.
1014A driver may use a different distribution of available messages to
1015table entries via the
1016.Fn pci_remap_msix
1017function.
1018Note that this function must be called after a successful call to
1019.Fn pci_alloc_msix
1020but before any of the
1021.Dv SYS_RES_IRQ
1022resources are allocated.
1023The
1024.Fn pci_remap_msix
1025function returns zero on success,
1026or an error on failure.
1027.Pp
1028The
1029.Fa vectors
1030array should contain
1031.Fa count
1032message vectors.
1033The array maps directly to the MSI-X table in that the first entry in
1034the array specifies the message used for the first entry in the MSI-X
1035table,
1036the second entry in the array corresponds to the second entry in the
1037MSI-X table,
1038etc.
1039The vector value in each array index can either be zero to indicate
1040that no message should be assigned to the corresponding MSI-X table entry,
1041or it can be a number from one to N
1042.Po
1043where N is the count returned from the previous call to
1044.Fn pci_alloc_msix
1045.Pc
1046to indicate which of the allocated messages should be assigned to the
1047corresponding MSI-X table entry.
1048.Pp
1049If
1050.Fn pci_remap_msix
1051succeeds,
1052each MSI-X table entry with a non-zero vector will have an associated
1053.Dv SYS_RES_IRQ
1054resource whose resource ID corresponds to the table index as described
1055above for
1056.Fn pci_alloc_msix .
1057MSI-X table entries that with a vector of zero will not have an
1058associated
1059.Dv SYS_RES_IRQ
1060resource.
1061Additionally,
1062if any of the original messages allocated by
1063.Fn pci_alloc_msix
1064are not used in the new distribution of messages in the MSI-X table,
1065they will be released automatically.
1066Note that if a driver wishes to use fewer messages than were allocated by
1067.Fn pci_alloc_msix ,
1068the driver must use a single, contiguous range of messages beginning
1069with one in the new distribution.
1070The
1071.Fn pci_remap_msix
1072function will fail if this condition is not met.
1073.Ss Device Events
1074The
1075.Va pci_add_device
1076event handler is invoked every time a new PCI device is added to the system.
1077This includes the creation of Virtual Functions via SR-IOV.
1078.Pp
1079The
1080.Va pci_delete_device
1081event handler is invoked every time a PCI device is removed from the system.
1082.Pp
1083Both event handlers pass the
1084.Vt device_t
1085object of the relevant PCI device as
1086.Fa dev
1087to each callback function.
1088Both event handlers are invoked while
1089.Fa dev
1090is unattached but with valid instance variables.
1091.Sh SEE ALSO
1092.Xr pci 4 ,
1093.Xr pciconf 8 ,
1094.Xr bus_alloc_resource 9 ,
1095.Xr bus_dma 9 ,
1096.Xr bus_release_resource 9 ,
1097.Xr bus_setup_intr 9 ,
1098.Xr bus_teardown_intr 9 ,
1099.Xr devclass 9 ,
1100.Xr device 9 ,
1101.Xr driver 9 ,
1102.Xr eventhandler 9 ,
1103.Xr rman 9
1104.Rs
1105.%B FreeBSD Developers' Handbook
1106.%T NewBus
1107.%U https://www.FreeBSD.org/doc/en_US.ISO8859-1/books/developers-handbook/
1108.Re
1109.Rs
1110.%A Shanley
1111.%A Anderson
1112.%B PCI System Architecture
1113.%N 2nd Edition
1114.%I Addison-Wesley
1115.%O ISBN 0-201-30974-2
1116.Re
1117.Sh AUTHORS
1118.An -nosplit
1119This manual page was written by
1120.An Bruce M Simpson Aq Mt bms@FreeBSD.org
1121and
1122.An John Baldwin Aq Mt jhb@FreeBSD.org .
1123.Sh BUGS
1124The kernel PCI code has a number of references to
1125.Dq "slot numbers" .
1126These do not refer to the geographic location of PCI devices,
1127but to the device number assigned by the combination of the PCI IDSEL
1128mechanism and the platform firmware.
1129This should be taken note of when working with the kernel PCI code.
1130.Pp
1131The PCI bus driver should allocate the MSI-X vector table and PBA internally
1132as necessary rather than requiring the caller to do so.
1133