| blob | 8664c88a1ff56665ba6ab532e8b8fd902ef9ea9f |
1 #ifndef _ASM_IA64_SN_SN_SAL_H
2 #define _ASM_IA64_SN_SN_SAL_H
4 /*
5 * System Abstraction Layer definitions for IA64
6 *
7 * This file is subject to the terms and conditions of the GNU General Public
8 * License. See the file "COPYING" in the main directory of this archive
9 * for more details.
10 *
11 * Copyright (c) 2000-2005 Silicon Graphics, Inc. All rights reserved.
12 */
15 #include <asm/sal.h>
16 #include <asm/sn/sn_cpuid.h>
17 #include <asm/sn/arch.h>
18 #include <asm/sn/geo.h>
19 #include <asm/sn/nodepda.h>
20 #include <asm/sn/shub_mmr.h>
22 // SGI Specific Calls
23 #define SN_SAL_POD_MODE 0x02000001
24 #define SN_SAL_SYSTEM_RESET 0x02000002
25 #define SN_SAL_PROBE 0x02000003
26 #define SN_SAL_GET_MASTER_NASID 0x02000004
27 #define SN_SAL_GET_KLCONFIG_ADDR 0x02000005
28 #define SN_SAL_LOG_CE 0x02000006
29 #define SN_SAL_REGISTER_CE 0x02000007
30 #define SN_SAL_GET_PARTITION_ADDR 0x02000009
31 #define SN_SAL_XP_ADDR_REGION 0x0200000f
32 #define SN_SAL_NO_FAULT_ZONE_VIRTUAL 0x02000010
33 #define SN_SAL_NO_FAULT_ZONE_PHYSICAL 0x02000011
34 #define SN_SAL_PRINT_ERROR 0x02000012
37 #define SN_SAL_GET_SAPIC_INFO 0x0200001d
38 #define SN_SAL_GET_SN_INFO 0x0200001e
39 #define SN_SAL_CONSOLE_PUTC 0x02000021
40 #define SN_SAL_CONSOLE_GETC 0x02000022
41 #define SN_SAL_CONSOLE_PUTS 0x02000023
42 #define SN_SAL_CONSOLE_GETS 0x02000024
43 #define SN_SAL_CONSOLE_GETS_TIMEOUT 0x02000025
44 #define SN_SAL_CONSOLE_POLL 0x02000026
45 #define SN_SAL_CONSOLE_INTR 0x02000027
46 #define SN_SAL_CONSOLE_PUTB 0x02000028
47 #define SN_SAL_CONSOLE_XMIT_CHARS 0x0200002a
48 #define SN_SAL_CONSOLE_READC 0x0200002b
49 #define SN_SAL_SYSCTL_OP 0x02000030
50 #define SN_SAL_SYSCTL_MODID_GET 0x02000031
51 #define SN_SAL_SYSCTL_GET 0x02000032
52 #define SN_SAL_SYSCTL_IOBRICK_MODULE_GET 0x02000033
53 #define SN_SAL_SYSCTL_IO_PORTSPEED_GET 0x02000035
54 #define SN_SAL_SYSCTL_SLAB_GET 0x02000036
55 #define SN_SAL_BUS_CONFIG 0x02000037
56 #define SN_SAL_SYS_SERIAL_GET 0x02000038
57 #define SN_SAL_PARTITION_SERIAL_GET 0x02000039
58 #define SN_SAL_SYSCTL_PARTITION_GET 0x0200003a
59 #define SN_SAL_SYSTEM_POWER_DOWN 0x0200003b
60 #define SN_SAL_GET_MASTER_BASEIO_NASID 0x0200003c
61 #define SN_SAL_COHERENCE 0x0200003d
62 #define SN_SAL_MEMPROTECT 0x0200003e
63 #define SN_SAL_SYSCTL_FRU_CAPTURE 0x0200003f
66 #define SN_SAL_IROUTER_OP 0x02000043
67 #define SN_SAL_SYSCTL_EVENT 0x02000044
68 #define SN_SAL_IOIF_INTERRUPT 0x0200004a
70 #define SN_SAL_IOIF_ERROR_INTERRUPT 0x02000051
71 #define SN_SAL_IOIF_PCI_SAFE 0x02000052
72 #define SN_SAL_IOIF_SLOT_ENABLE 0x02000053
73 #define SN_SAL_IOIF_SLOT_DISABLE 0x02000054
74 #define SN_SAL_IOIF_GET_HUBDEV_INFO 0x02000055
75 #define SN_SAL_IOIF_GET_PCIBUS_INFO 0x02000056
76 #define SN_SAL_IOIF_GET_PCIDEV_INFO 0x02000057
78 #define SN_SAL_IOIF_GET_DEVICE_DMAFLUSH_LIST 0x0200005a
80 #define SN_SAL_HUB_ERROR_INTERRUPT 0x02000060
81 #define SN_SAL_BTE_RECOVER 0x02000061
82 #define SN_SAL_RESERVED_DO_NOT_USE 0x02000062
83 #define SN_SAL_IOIF_GET_PCI_TOPOLOGY 0x02000064
85 #define SN_SAL_GET_PROM_FEATURE_SET 0x02000065
86 #define SN_SAL_SET_OS_FEATURE_SET 0x02000066
88 /*
89 * Service-specific constants
90 */
92 /* Console interrupt manipulation */
93 /* action codes */
97 /* interrupt specification & status return codes */
101 /* interrupt handling */
102 #define SAL_INTR_ALLOC 1
103 #define SAL_INTR_FREE 2
105 /*
106 * operations available on the generic SN_SAL_SYSCTL_OP
107 * runtime service
108 */
112 /*
113 * IRouter (i.e. generalized system controller) operations
114 */
120 * an open subchannel
121 */
126 /* IRouter interrupt mask bits */
127 #define SAL_IROUTER_INTR_XMIT SAL_CONSOLE_INTR_XMIT
128 #define SAL_IROUTER_INTR_RECV SAL_CONSOLE_INTR_RECV
130 /*
131 * Error Handling Features
132 */
135 #define SAL_ERR_FEAT_MFR_OVERRIDE 0x4
136 #define SAL_ERR_FEAT_SBE_THRESHOLD 0xffff0000
138 /*
139 * SAL Error Codes
140 */
141 #define SALRET_MORE_PASSES 1
142 #define SALRET_OK 0
143 #define SALRET_NOT_IMPLEMENTED (-1)
144 #define SALRET_INVALID_ARG (-2)
145 #define SALRET_ERROR (-3)
147 #define SN_SAL_FAKE_PROM 0x02009999
149 /**
150 * sn_sal_revision - get the SGI SAL revision number
151 *
152 * The SGI PROM stores its version in the sal_[ab]_rev_(major|minor).
153 * This routine simply extracts the major and minor values and
154 * presents them in a u32 format.
155 *
156 * For example, version 4.05 would be represented at 0x0405.
157 */
160 {
164 }
166 /*
167 * Returns the master console nasid, if the call fails, return an illegal
168 * value.
169 */
172 {
184 /* Master console nasid is in 'v0' */
186 }
188 /*
189 * Returns the master baseio nasid, if the call fails, return an illegal
190 * value.
191 */
194 {
206 /* Master baseio nasid is in 'v0' */
208 }
212 {
221 }
223 /*
224 * Returns the next console character.
225 */
228 {
237 /* character is in 'v0' */
241 }
243 /*
244 * Read a character from the SAL console device, after a previous interrupt
245 * or poll operation has given us to know that a character is available
246 * to be read.
247 */
250 {
259 /* character is in 'v0' */
261 }
263 /*
264 * Sends the given character to the console.
265 */
268 {
278 }
280 /*
281 * Sends the given buffer to the console.
282 */
285 {
296 }
298 }
300 /*
301 * Print a platform error record
302 */
305 {
315 }
317 /*
318 * Check for Platform errors
319 */
322 {
332 }
334 /*
335 * Set Error Handling Features (Obsolete)
336 */
339 {
351 }
353 /*
354 * Checks for console input.
355 */
358 {
367 /* result is in 'v0' */
371 }
373 /*
374 * Checks console interrupt status
375 */
378 {
391 }
394 }
396 /*
397 * Enable an interrupt on the SAL console device.
398 */
401 {
411 }
413 /*
414 * Disable an interrupt on the SAL console device.
415 */
418 {
428 }
430 /*
431 * Sends a character buffer to the console asynchronously.
432 */
435 {
448 }
451 }
453 /*
454 * Returns the iobrick module Id
455 */
458 {
467 /* result is in 'v0' */
471 }
473 /**
474 * ia64_sn_pod_mode - call the SN_SAL_POD_MODE function
475 *
476 * SN_SAL_POD_MODE actually takes an argument, but it's always
477 * 0 when we call it from the kernel, so we don't have to expose
478 * it to the caller.
479 */
482 {
488 }
490 /**
491 * ia64_sn_probe_mem - read from memory safely
492 * @addr: address to probe
493 * @size: number bytes to read (1,2,4,8)
494 * @data_ptr: address to store value read by probe (-1 returned if probe fails)
495 *
496 * Call into the SAL to do a memory read. If the read generates a machine
497 * check, this routine will recover gracefully and return -1 to the caller.
498 * @addr is usually a kernel virtual address in uncached space (i.e. the
499 * address starts with 0xc), but if called in physical mode, @addr should
500 * be a physical address.
501 *
502 * Return values:
503 * 0 - probe successful
504 * 1 - probe failed (generated MCA)
505 * 2 - Bad arg
506 * <0 - PAL error
507 */
510 {
531 }
532 }
534 }
536 /*
537 * Retrieve the system serial number as an ASCII string.
538 */
541 {
545 }
557 }
558 }
561 /*
562 * Returns a unique id number for this system and partition (suitable for
563 * use with license managers), based in part on the system serial number.
564 */
567 {
574 }
580 }
582 }
584 /*
585 * Returns the partition id of the nasid passed in as an argument,
586 * or INVALID_PARTID if the partition id cannot be retrieved.
587 */
590 {
597 }
599 /*
600 * Returns the physical address of the partition's reserved page through
601 * an iterative number of calls.
602 *
603 * On first call, 'cookie' and 'len' should be set to 0, and 'addr'
604 * set to the nasid of the partition whose reserved page's address is
605 * being sought.
606 * On subsequent calls, pass the values, that were passed back on the
607 * previous call.
608 *
609 * While the return status equals SALRET_MORE_PASSES, keep calling
610 * this function after first copying 'len' bytes starting at 'addr'
611 * into 'buf'. Once the return status equals SALRET_OK, 'addr' will
612 * be the physical address of the partition's reserved page. If the
613 * return status equals neither of these, an error as occurred.
614 */
617 {
625 }
627 /*
628 * Register or unregister a physical address range being referenced across
629 * a partition boundary for which certain SAL errors should be scanned for,
630 * cleaned up and ignored. This is of value for kernel partitioning code only.
631 * Values for the operation argument:
632 * 1 = register this address range with SAL
633 * 0 = unregister this address range with SAL
634 *
635 * SAL maintains a reference count on an address range in case it is registered
636 * multiple times.
637 *
638 * On success, returns the reference count of the address range after the SAL
639 * call has performed the current registration/unregistration. Returns a
640 * negative value if an error occurred.
641 */
644 {
649 }
651 /*
652 * Register or unregister an instruction range for which SAL errors should
653 * be ignored. If an error occurs while in the registered range, SAL jumps
654 * to return_addr after ignoring the error. Values for the operation argument:
655 * 1 = register this instruction range with SAL
656 * 0 = unregister this instruction range with SAL
657 *
658 * Returns 0 on success, or a negative value if an error occurred.
659 */
663 {
665 u64 call;
670 }
674 }
676 /*
677 * Change or query the coherence domain for this partition. Each cpu-based
678 * nasid is represented by a bit in an array of 64-bit words:
679 * 0 = not in this partition's coherency domain
680 * 1 = in this partition's coherency domain
681 *
682 * It is not possible for the local system's nasids to be removed from
683 * the coherency domain. Purpose of the domain arguments:
684 * new_domain = set the coherence domain to the given nasids
685 * old_domain = return the current coherence domain
686 *
687 * Returns 0 on success, or a negative value if an error occurred.
688 */
691 {
696 }
698 /*
699 * Change memory access protections for a physical address range.
700 * nasid_array is not used on Altix, but may be in future architectures.
701 * Available memory protection access classes are defined after the function.
702 */
705 {
716 }
717 #define SN_MEMPROT_ACCESS_CLASS_0 0x14a080
718 #define SN_MEMPROT_ACCESS_CLASS_1 0x2520c2
719 #define SN_MEMPROT_ACCESS_CLASS_2 0x14a1ca
720 #define SN_MEMPROT_ACCESS_CLASS_3 0x14a290
721 #define SN_MEMPROT_ACCESS_CLASS_6 0x084080
722 #define SN_MEMPROT_ACCESS_CLASS_7 0x021080
724 /*
725 * Turns off system power.
726 */
729 {
734 /* never returns */
735 }
737 /**
738 * ia64_sn_fru_capture - tell the system controller to capture hw state
739 *
740 * This routine will call the SAL which will tell the system controller(s)
741 * to capture hw mmr information from each SHub in the system.
742 */
745 {
751 }
753 /*
754 * Performs an operation on a PCI bus or slot -- power up, power down
755 * or reset.
756 */
760 u64 action)
761 {
769 }
772 /*
773 * Open a subchannel for sending arbitrary data to the system
774 * controller network via the system controller device associated with
775 * 'nasid'. Return the subchannel number or a negative error code.
776 */
779 {
784 }
786 /*
787 * Close system controller subchannel 'subch' previously opened on 'nasid'.
788 */
791 {
796 }
798 /*
799 * Read data from system controller associated with 'nasid' on
800 * subchannel 'subch'. The buffer to be filled is pointed to by
801 * 'buf', and its capacity is in the integer pointed to by 'len'. The
802 * referent of 'len' is set to the number of bytes read by the SAL
803 * call. The return value is either SALRET_OK (for bytes read) or
804 * SALRET_ERROR (for error or "no data available").
805 */
808 {
814 }
816 /*
817 * Write data to the system controller network via the system
818 * controller associated with 'nasid' on suchannel 'subch'. The
819 * buffer to be written out is pointed to by 'buf', and 'len' is the
820 * number of bytes to be written. The return value is either the
821 * number of bytes written (which could be zero) or a negative error
822 * code.
823 */
826 {
832 }
834 /*
835 * Check whether any interrupts are pending for the system controller
836 * associated with 'nasid' and its subchannel 'subch'. The return
837 * value is a mask of pending interrupts (SAL_IROUTER_INTR_XMIT and/or
838 * SAL_IROUTER_INTR_RECV).
839 */
842 {
847 }
849 /*
850 * Enable the interrupt indicated by the intr parameter (either
851 * SAL_IROUTER_INTR_XMIT or SAL_IROUTER_INTR_RECV).
852 */
855 {
860 }
862 /*
863 * Disable the interrupt indicated by the intr parameter (either
864 * SAL_IROUTER_INTR_XMIT or SAL_IROUTER_INTR_RECV).
865 */
868 {
873 }
875 /*
876 * Set up a node as the point of contact for system controller
877 * environmental event delivery.
878 */
881 {
886 }
888 /*
889 * Ask the system controller on the specified nasid to reset
890 * the CX corelet clock. Only valid on TIO nodes.
891 */
894 {
904 }
906 /*
907 * Get the associated ioboard type for a given nasid.
908 */
911 {
918 }
922 }
925 }
927 /**
928 * ia64_sn_get_fit_compt - read a FIT entry from the PROM header
929 * @nasid: NASID of node to read
930 * @index: FIT entry index to be retrieved (0..n)
931 * @fitentry: 16 byte buffer where FIT entry will be stored.
932 * @banbuf: optional buffer for retrieving banner
933 * @banlen: length of banner buffer
934 *
935 * Access to the physical PROM chips needs to be serialized since reads and
936 * writes can't occur at the same time, so we need to call into the SAL when
937 * we want to look at the FIT entries on the chips.
938 *
939 * Returns:
940 * %SALRET_OK if ok
941 * %SALRET_INVALID_ARG if index too big
942 * %SALRET_NOT_IMPLEMENTED if running on older PROM
943 * ??? if nasid invalid OR banner buffer not large enough
944 */
947 u64 banlen)
948 {
953 }
955 /*
956 * Initialize the SAL components of the system controller
957 * communication driver; specifically pass in a sizable buffer that
958 * can be used for allocation of subchannel queues as new subchannels
959 * are opened. "buf" points to the buffer, and "len" specifies its
960 * length.
961 */
964 {
969 }
971 /*
972 * Returns the nasid, subnode & slice corresponding to a SAPIC ID
973 *
974 * In:
975 * arg0 - SN_SAL_GET_SAPIC_INFO
976 * arg1 - sapicid (lid >> 16)
977 * Out:
978 * v0 - nasid
979 * v1 - subnode
980 * v2 - slice
981 */
984 {
993 /***** BEGIN HACK - temp til old proms no longer supported ********/
999 }
1000 /***** END HACK *******/
1009 }
1011 /*
1012 * Returns information about the HUB/SHUB.
1013 * In:
1014 * arg0 - SN_SAL_GET_SN_INFO
1015 * arg1 - 0 (other values reserved for future use)
1016 * Out:
1017 * v0
1018 * [7:0] - shub type (0=shub1, 1=shub2)
1019 * [15:8] - Log2 max number of nodes in entire system (includes
1020 * C-bricks, I-bricks, etc)
1021 * [23:16] - Log2 of nodes per sharing domain
1022 * [31:24] - partition ID
1023 * [39:32] - coherency_id
1024 * [47:40] - regionsize
1025 * v1
1026 * [15:0] - nasid mask (ex., 0x7ff for 11 bit nasid)
1027 * [23:15] - bit position of low nasid bit
1028 */
1032 {
1041 /***** BEGIN HACK - temp til old proms no longer supported ********/
1044 #define SH_SHUB_ID_NODES_PER_BIT_MASK 0x001f000000000000UL
1045 #define SH_SHUB_ID_NODES_PER_BIT_SHFT 48
1053 if (reg) *reg = (HUB_L((u64 *) LOCAL_MMR_ADDR(SH1_SHUB_ID)) & SH_SHUB_ID_NODES_PER_BIT_MASK) >>
1054 SH_SHUB_ID_NODES_PER_BIT_SHFT;
1056 }
1057 /***** END HACK *******/
1071 }
1073 /*
1074 * This is the access point to the Altix PROM hardware performance
1075 * and status monitoring interface. For info on using this, see
1076 * include/asm-ia64/sn/sn2/sn_hwperf.h
1077 */
1081 {
1088 }
1092 {
1096 }
1098 /*
1099 * BTE error recovery is implemented in SAL
1100 */
1103 {
1111 }
1115 {
1119 }
1123 {
1131 }
1135 {
1140 }