xref: /illumos-gate/usr/src/uts/sun4/io/px/px_ioapi.h (revision 63360950109af2ce85a962ca61f40b8782f11100)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef	_SYS_PX_IOAPI_H
27 #define	_SYS_PX_IOAPI_H
28 
29 #pragma ident	"%Z%%M%	%I%	%E% SMI"
30 
31 #ifdef	__cplusplus
32 extern "C" {
33 #endif
34 
35 #ifndef _ASM
36 
37 /*
38  * SUN4V IO Data Definitions
39  *
40  * cpuid - A unique opaque value which represents a target cpu.
41  *
42  * devhandle -	Device handle. The device handle uniquely
43  *		identifies a SUN4V device. It consists of the
44  *		the lower 28-bits of the hi-cell of the first
45  *		entry of the SUN4V device's "reg" property as defined
46  *		by the SUN4V Bus Binding to Open Firmware.
47  *
48  * devino -	Device Interrupt Number. An unsigned integer representing
49  *		an interrupt within a specific device.
50  *
51  * sysino -	System Interrupt Number. A 64-bit unsigned integer
52  *		representing a unique interrupt within a "system".
53  *
54  * intr_state - A flag representing the interrupt state for a
55  *		a given sysino. The state values are defined as:
56  *
57  *		INTR_IDLE		0
58  *		INTR_RECEIVED		1
59  *		INTR_DELIVERED		2
60  *
61  * intr_valid_state - A flag representing the 'valid' state for
62  *		a given sysino. The state values are defined as:
63  *
64  *		INTR_NOTVALID		0  sysino not enabled
65  *		INTR_VALID		1  sysino enabled
66  */
67 
68 typedef uint64_t devhandle_t;
69 
70 typedef uint32_t cpuid_t;
71 typedef uint32_t devino_t;
72 typedef	uint64_t sysino_t;
73 
74 typedef enum intr_state {
75 	INTR_IDLE_STATE 	= (uint32_t)0,
76 	INTR_RECEIVED_STATE	= (uint32_t)1,
77 	INTR_DELIVERED_STATE	= (uint32_t)2
78 } intr_state_t;
79 
80 typedef enum intr_valid_state {
81 	INTR_NOTVALID		= (uint32_t)0,
82 	INTR_VALID		= (uint32_t)1
83 } intr_valid_state_t;
84 
85 /*
86  * PCI IO Data Definitions
87  *
88  * tsbnum -	TSB Number. Identifies which io-tsb is used.
89  *		For this version of the spec, tsbnum must be zero.
90  *
91  * tsbindex -	TSB Index. Identifies which entry in the tsb is
92  *		is used. The first entry is zero.
93  *
94  * tsbid -	A 64-bit aligned data structure which contains
95  *		a tsbnum and a tsbindex.
96  *		bits 63:32 contain the tsbnum.
97  *		bits 31:00 contain the tsbindex.
98  *
99  * io_attributes - IO Attributes for iommu mappings.
100  *		Attributes for iommu mappings. One or more of the
101  *		following attribute bits stored in a 64-bit unsigned int.
102  *
103  *	6				    3				      0
104  *	3				    1				      0
105  *	00000000 00000000 00000000 00000000 BBBBBBBB DDDDDFFF 00000000 00PP0LWR
106  *
107  *		R: DMA data is transferred from main memory to device.
108  *		W: DMA data is transferred from device to main memory.
109  *		L: Requested DMA transaction can be relaxed ordered within RC.
110  *		P: Value of PCI Express and PCI-X phantom function
111  *		   configuration. Its encoding is identical to the
112  *		   "Phantom Function Supported" field of the
113  *		   "Device Capabilities Register (offset 0x4)"
114  *		   in the "PCI Express Capability Structure".
115  *		   The structure is part of a device's config space.
116  *	      BDF: Bus, device and function number of the device
117  *		   that is going to issue DMA transactions.
118  *		   The BDF values are used to guarantee the mapping
119  *		   only be accessed by the specified device.
120  *		   If the BDF is set to all 0, RID based protection
121  *		   will be turned off.
122  *
123  *		Relaxed Ordering (L) is advisory. Not all hardware implements a
124  *		relaxed ordering attribute. If L attribute is not implemented in
125  *		hardware, the implementation is permitted to ignore the L bit.
126  *
127  *		Bits 3, 15:6 and 63:32 are unused and must be set to zero for
128  *		this version of the specification.
129  *
130  *		Note: For compatibility with future versions of this
131  *		specification, the caller must set bits 3, 15:6 and 63:32 to
132  *		zero. The implementation shall ignore these bits.
133  *
134  * r_addr -	64-bit Real Address.
135  *
136  * io_addr -	64-bit IO Address.
137  *
138  * pci_device - PCI device address. A PCI device address
139  *		identifies a specific device on a specific PCI
140  *		bus segment. A PCI device address is a 32-bit unsigned
141  *		integer with the following format:
142  *
143  *			00000000.bbbbbbbb.dddddfff.00000000
144  *
145  *		Where:
146  *
147  *			bbbbbbbb is the 8-bit pci bus number
148  *			ddddd is the 5-bit pci device number
149  *			fff is the 3-bit pci function number
150  *
151  *			00000000 is the 8-bit literal zero.
152  *
153  * pci_config_offset -	PCI Configuration Space offset.
154  *
155  *		For conventional PCI, an unsigned integer in the range
156  *		0 .. 255 representing the offset of the field in pci config
157  *		space.
158  *
159  *		For PCI implementations with extended configuration space,
160  *		an unsigned integer in the range 0 .. 4095, representing
161  *		the offset of the field in configuration space. Conventional
162  *		PCI config space is offset 0 .. 255. Extended config space
163  *		is offset 256 .. 4095
164  *
165  *		Note: For pci config space accesses, the offset must be 'size'
166  *		aligned.
167  *
168  * error_flag -	Error flag
169  *
170  *		A return value specifies if the action succeeded
171  *		or failed, where:
172  *
173  *			0 - No error occurred while performing the service.
174  *			non-zero - Error occurred while performing the service.
175  *
176  * io_sync_direction - "direction" definition for pci_dma_sync
177  *
178  *		A value specifying the direction for a memory/io sync
179  *		operation, The direction value is a flag, one or both
180  *		directions may be specified by the caller.
181  *
182  *			0x01 - For device (device read from memory)
183  *			0x02 - For cpu (device write to memory)
184  *
185  * io_page_list - A list of io_page_addresses. An io_page_address
186  *		is an r_addr.
187  *
188  * io_page_list_p - A pointer to an io_page_list.
189  */
190 typedef uint32_t tsbnum_t;
191 typedef uint32_t tsbindex_t;
192 typedef uint64_t tsbid_t;
193 typedef uint64_t r_addr_t;
194 typedef uint64_t io_addr_t;
195 typedef uint64_t io_page_list_t;
196 typedef uint32_t pages_t;
197 typedef uint32_t error_flag_t;
198 
199 typedef uint32_t pci_config_offset_t;
200 typedef uint64_t pci_device_t;
201 
202 #define	PCI_TSB_INDEX		0
203 #define	PCI_TSB_INDEX_MASK	0xFFFFFFFF
204 #define	PCI_TSB_NUM		32
205 #define	PCI_TSB_NUM_MASK	0xFFFFFFFF
206 
207 #define	PCI_TSBID(tsbnum, tsbindex) \
208 	((((tsbid_t)tsbnum & PCI_TSB_NUM_MASK) << PCI_TSB_NUM) | \
209 	(((tsbid_t)tsbindex & PCI_TSB_INDEX_MASK) << PCI_TSB_INDEX))
210 
211 #define	PCI_TSBID_TO_TSBNUM(tsbid) \
212 	((tsbid >> PCI_TSB_NUM) & PCI_TSB_NUM_MASK)
213 
214 #define	PCI_TSBID_TO_TSBINDEX(tsbid) \
215 	((tsbid >> PCI_TSB_INDEX) & PCI_TSB_INDEX_MASK)
216 
217 typedef enum io_attributes {
218 	PCI_MAP_ATTR_READ 	= 0x1ull,
219 	PCI_MAP_ATTR_WRITE 	= 0x2ull,
220 	PCI_MAP_ATTR_RO		= 0x4ull
221 } io_attributes_t;
222 
223 #define	PCI_MAP_ATTR_PHFUN	4
224 #define	PCI_MAP_ATTR_BDF	16
225 
226 #define	PX_ADD_ATTR_EXTNS(attr, bdf) \
227 	(attr | (bdf << PCI_MAP_ATTR_BDF))
228 
229 typedef enum io_sync_direction {
230 	IO_SYNC_DEVICE		= (uint32_t)0x01,
231 	IO_SYNC_CPU		= (uint32_t)0x02
232 } io_sync_direction_t;
233 
234 typedef enum pci_config_size {
235 	PCI_CFG_SIZE_BYTE = 0,
236 	PCI_CFG_SIZE_WORD,
237 	PCI_CFG_SIZE_DWORD
238 } pci_config_size_t;
239 
240 typedef union pci_cfg_data {
241 	uint8_t b;
242 	uint16_t w;
243 	uint32_t dw;
244 	uint64_t qw;
245 } pci_cfg_data_t;
246 
247 /*
248  *	MSI Definitions
249  *
250  *	MSI - Message Signaled Interrupt
251  *
252  *	  Message Signaled Interrupt as defined in the PCI Local Bus
253  *	  Specification and the PCI Express Base Specification.
254  *	  A device signals an interrupt via MSI using a posted
255  *	  write cycle to an address specified by system software
256  *	  using a data value specified by system software.
257  *	  The MSI capability data structure contains fields for
258  *	  the PCI address and data values the device uses when
259  *	  sending an MSI message on the bus. MSI-X is an extended
260  *	  form of MSI, but uses the same mechanism for signaling
261  *	  the interrupt as MSI. For the purposes of this document,
262  *	  the term "MSI" refers to MSI or MSI-X.
263  *
264  *	  Root complexes that support MSI define an address range
265  *	  and set of data values that can be used to signal MSIs.
266  *
267  *	  SUN4V/pci requirements for MSI:
268  *
269  *		The root complex defines two address ranges. One in
270  *		the 32-bit pci memory space and one in the 64-bit
271  *		pci memory address space used as the target of a posted
272  *		write to signal an MSI.
273  *
274  *		The root complex treats any write to these address
275  *		ranges as signaling an MSI, however, only the data
276  *		value used in the posted write signals the MSI.
277  *
278  *
279  *	MSI EQ - MSI Event Queue
280  *
281  *	  The MSI Event Queue is a page-aligned main memory data
282  *	  structure used to store MSI data records.
283  *
284  *	  Each root port supports several MSI EQs, and each EQ has a
285  *	  system interrupt associated with it, and can be targeted
286  *	  (individually) to any cpu. The number of MSI EQs supported
287  *	  by a root complex is described by a property defined in [3].
288  *	  Each MSI EQ must be large enough to contain all possible MSI
289  *	  data records generated by any one PCI root port. The number
290  *	  of entries in each MSI EQ is described by a property defined
291  *	  in [3].
292  *
293  *	  Each MSI EQ is compliant with the definition of interrupt
294  *	  queues described in [5], however, instead of accessing the
295  *	  queue head/tail registers via ASI-based registers, an API
296  *	  is provided to access the head/tail registers.
297  *
298  *	  The SUN4V/pci compliant root complex has the ability to
299  *	  generate a system interrupt when the MSI EQ is non-empty.
300  *
301  *	MSI/Message/INTx Data Record format
302  *
303  *	  Each data record consists of 64 bytes of data, aligned
304  *	  on a 64-byte boundary.
305  *
306  *	  The data record is defined as follows:
307  *
308  *
309  *	6666555555555544444444443333333333222222222211111111110000000000
310  *	3210987654321098765432109876543210987654321098765432109876543210
311  *
312  *	0x00:	VVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVxxxxxxxxxxxxxxxxxxxxxxxxTTTTTTTT
313  *	0x08:	IIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIIII
314  *	0x10:	xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
315  *	0x18:	SSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSSS
316  *	0x20:	xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxRRRRRRRRRRRRRRRR
317  *	0x28:	AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA
318  *	0x30:	DDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDDD
319  *	0x38:	xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
320  *
321  *	Where,
322  *
323  *	  xx..xx are unused bits and must be ignored by sw.
324  *
325  *	  VV..VV is the version number of this data record
326  *
327  *		For this release of the spec, the version number
328  *		field must be zero.
329  *
330  *	  TTTTTTTT is the data record type:
331  *
332  *		Upper 4 bits are reserved, and must be zero
333  *
334  *		0000 - Not an MSI data record - reserved for sw use.
335  *		0001 - MSG
336  *		0010 - MSI32
337  *		0011 - MSI64
338  *		0010 - Reserved
339  *		...
340  *		0111 - Reserved
341  *		1000 - INTx
342  *		1001 - Reserved
343  *		...
344  *		1110 - Reserved
345  *		1111 - Not an MSI data record - reserved for sw use.
346  *
347  *		All other encodings are reserved.
348  *
349  *	  II..II is the sysino for INTx (sw defined value),
350  *		otherwise zero.
351  *
352  *	  SS..SS is the message timestamp if available.
353  *		If supported by the implementation, a non-zero
354  *		value in this field is a copy of the %stick register
355  *		at the time the message is created.
356  *
357  *		If unsupported, this field will contain zero.
358  *
359  *	  RR..RR is the requester ID of the device that initiated the MSI/MSG
360  *	  and has the following format:
361  *
362  *		bbbbbbbb.dddddfff
363  *
364  *		Where bb..bb is the bus number,
365  *		dd..dd is the device number
366  *		and fff is the function number.
367  *
368  *		Note that for PCI devices or any message where
369  *		the requester is unknown, this may be zero,
370  *		or the device-id of an intermediate bridge.
371  *
372  *		For intx messages, this field should be ignored.
373  *
374  *	  AA..AA is the MSI address. For MSI32, the upper 32-bits must be zero.
375  *	  (for data record type MSG or INTx, this field is ignored)
376  *
377  *	  DD..DD is the MSI/MSG data or INTx number
378  *
379  *		For MSI-X, bits 31..0 contain the data from the MSI packet
380  *		which is the msi-number. bits 63..32 shall be zero.
381  *
382  *		For MSI, bits 15..0 contain the data from the MSI message
383  *		which is the msi-number. bits 63..16 shall be zero
384  *
385  *		For MSG data, the message code and message routing code
386  *		are encoded as follows:
387  *
388  *		63:32 - 0000.0000.0000.0000.0000.0000.GGGG.GGGG
389  *		32:00 - 0000.0000.0000.0CCC.0000.0000.MMMM.MMMM
390  *
391  *			Where,
392  *
393  *			GG..GG is the target-id of the message in the
394  *			following form:
395  *
396  *				bbbbbbbb.dddddfff
397  *
398  *				where bb..bb is the target bus number.
399  *				ddddd is the target deviceid
400  *				fff is the target function number.
401  *
402  *			CCC is the message routing code as defined by [4]
403  *
404  *			MM..MM is the message code as defined by [4]
405  *
406  *		For INTx data, bits 63:2 must be zero and
407  *		the low order 2 bits are defined as follows:
408  *
409  *			00 - INTA
410  *			01 - INTB
411  *			10 - INTC
412  *			11 - INTD
413  *
414  *	cpuid - A unique opaque value which represents a target cpu.
415  *
416  *	devhandle - Device handle. The device handle uniquely identifies a
417  *	  SUN4V device. It consists of the the lower 28-bits of the hi-cell
418  *	  of the first entry of the SUN4V device's "reg" property as defined
419  *	  by the SUN4V Bus Binding to Open Firmware.
420  *
421  *	msinum	- A value defining which MSI is being used.
422  *
423  *	msiqhead - The index value of the current head index for a given
424  *	  MSI-EQ.
425  *
426  *	msiqtail - The index value of the current tail index for a given
427  *	  MSI-EQ.
428  *
429  *	msitype - Type specifier for MSI32 or MSI64
430  *		0 - type is MSI32
431  *		1 - type is MSI64
432  *
433  *	msiqid	- A number from 0 .. 'number of MSI-EQs - 1', defining
434  *	  which MSI EQ within the device is being used.
435  *
436  *	msiqstate - An unsigned integer containing one of the
437  *	  following values:
438  *
439  *		PCI_MSIQSTATE_IDLE		0	# idle (non-error) state
440  *		PCI_MSIQSTATE_ERROR		1	# error state
441  *
442  *	msiqvalid - An unsigned integer containing one of the
443  *		following values:
444  *
445  *		PCI_MSIQ_INVALID		0	# disabled/invalid
446  *		PCI_MSIQ_VALID			1	# enabled/valid
447  *
448  *	msistate - An unsigned integer containing one of the following
449  *	  values:
450  *
451  *		PCI_MSISTATE_IDLE		0	# idle/not enabled
452  *		PCI_MSISTATE_DELIVERED		1	# MSI Delivered
453  *
454  *	msivalid - An unsigned integer containing one of the
455  *		following values:
456  *
457  *		PCI_MSI_INVALID			0	# disabled/invalid
458  *		PCI_MSI_VALID			1	# enabled/valid
459  *
460  *	msgtype	- A value defining which MSG type is being used. An unsigned
461  *		integer containing one of the following values:
462  *		(as per PCIe spec 1.0a)
463  *
464  *		PCIE_PME_MSG			0x18	PME message
465  *		PCIE_PME_ACK_MSG		0x1b	PME ACK message
466  *		PCIE_CORR_MSG			0x30	Correctable message
467  *		PCIE_NONFATAL_MSG		0x31	Non fatal message
468  *		PCIE_FATAL_MSG			0x33	Fatal message
469  */
470 
471 typedef uint32_t msinum_t;
472 typedef uint32_t msiqid_t;
473 typedef uint32_t msgcode_t;
474 typedef	uint64_t msiqhead_t;
475 typedef	uint64_t msiqtail_t;
476 
477 /* MSIQ state */
478 typedef enum pci_msiq_state {
479 	PCI_MSIQ_STATE_IDLE 	= (uint32_t)0,	/* idle (non-error) state */
480 	PCI_MSIQ_STATE_ERROR 	= (uint32_t)1	/* error state */
481 } pci_msiq_state_t;
482 
483 /* MSIQ valid */
484 typedef enum pci_msiq_valid_state {
485 	PCI_MSIQ_INVALID	= (uint32_t)0,	/* disabled/invalid */
486 	PCI_MSIQ_VALID		= (uint32_t)1	/* enabled/valid */
487 } pci_msiq_valid_state_t;
488 
489 /* MSIQ Record data structure */
490 typedef struct msiq_rec {
491 	uint64_t	msiq_rec_version : 32,	/* DW 0 - 63:32 */
492 			msiq_rec_rsvd0 : 24,	/* DW 0 - 31:09 */
493 			msiq_rec_type : 8;	/* DW 0 - 07:00 */
494 	uint64_t	msiq_rec_intx;		/* DW 1 */
495 	uint64_t	msiq_rec_rsvd1;		/* DW 2 */
496 	uint64_t	msiq_rec_timestamp;	/* DW 3 */
497 	uint64_t	msiq_rec_rsvd2 : 48,	/* DW 4 - 63:16 */
498 			msiq_rec_rid : 16;	/* DW 4 - 15:00 */
499 	uint64_t	msiq_rec_msi_addr;	/* DW 5 - 63:00 */
500 	union {
501 		struct {
502 			uint64_t	msix_rsvd0 : 32, /* DW 6 - 63:32 */
503 					msix_data : 32;	/* DW 6 - 31:00 */
504 		} msix;
505 		struct {
506 			uint64_t	msi_rsvd0 : 48,	/* DW 6 - 63:16 */
507 					msi_data: 16;	/* DW 6 - 15:00 */
508 		} msi;
509 		struct {
510 			uint64_t	msg_rsvd0: 24,	/* DW 6 - 63:40 */
511 					msg_targ: 8,	/* DW 6 - 39:32 */
512 					msg_rsvd1: 13,	/* DW 6 - 31:19 */
513 					msg_route: 3,	/* DW 6 - 18:16 */
514 					msg_rsvd2: 8,	/* DW 6 - 15:08 */
515 					msg_code: 8;	/* DW 6 - 07:00 */
516 		} msg;
517 	} msiq_rec_data;
518 	uint64_t	msiq_rec_rsvd3;			/* DW 7 */
519 } msiq_rec_t;
520 
521 /* MSIQ Record type */
522 typedef enum msiq_rec_type {
523 	MSG_REC			= (uint32_t)1,	/* PCIe message record */
524 	MSI32_REC		= (uint32_t)2,	/* MSI32 record */
525 	MSI64_REC		= (uint32_t)3,	/* MSI64 record */
526 	INTX_REC		= (uint32_t)8	/* INTx record */
527 } msiq_rec_type_t;
528 
529 /* MSIQ Record type */
530 typedef enum msi_type {
531 	MSI32_TYPE		= (uint32_t)0,	/* MSI32 type */
532 	MSI64_TYPE		= (uint32_t)1	/* MSI64 type */
533 } msi_type_t;
534 
535 /* MSI state */
536 typedef enum pci_msi_state {
537 	PCI_MSI_STATE_IDLE	= (uint32_t)0,	/* idle/not enabled */
538 	PCI_MSI_STATE_DELIVERED	= (uint32_t)1	/* MSI delivered */
539 } pci_msi_state_t;
540 
541 /* MSI valid */
542 typedef enum pci_msi_valid_state {
543 	PCI_MSI_INVALID		= (uint32_t)0,  /* disabled/invalid */
544 	PCI_MSI_VALID		= (uint32_t)1   /* enabled/valid */
545 } pci_msi_valid_state_t;
546 
547 /* MSG valid */
548 typedef enum pcie_msg_valid_state {
549 	PCIE_MSG_INVALID	= (uint32_t)0,  /* disabled/invalid */
550 	PCIE_MSG_VALID		= (uint32_t)1   /* enabled/valid */
551 } pcie_msg_valid_state_t;
552 
553 /* PCIe MSG types */
554 typedef enum pcie_msg_type {
555 	PCIE_PME_MSG		= (uint64_t)0x18, /* PME message */
556 	PCIE_PME_ACK_MSG	= (uint64_t)0x1b, /* PME ACK message */
557 	PCIE_CORR_MSG		= (uint64_t)0x30, /* Correctable message */
558 	PCIE_NONFATAL_MSG	= (uint64_t)0x31, /* Non fatal message */
559 	PCIE_FATAL_MSG		= (uint64_t)0x33  /* Fatal message */
560 } pcie_msg_type_t;
561 
562 #endif /* _ASM */
563 
564 #ifdef	__cplusplus
565 }
566 #endif
567 
568 #endif	/* _SYS_PX_IOAPI_H */
569