Annotation of sys/arch/sparc/dev/fgareg.h, Revision 1.1.1.1
1.1 nbrk 1: /* $OpenBSD: fgareg.h,v 1.2 2003/06/02 18:40:59 jason Exp $ */
2:
3: /*
4: * Copyright (c) 1999 Jason L. Wright (jason@thought.net)
5: * All rights reserved.
6: *
7: * This software was developed by Jason L. Wright under contract with
8: * RTMX Incorporated (http://www.rtmx.com).
9: *
10: * Redistribution and use in source and binary forms, with or without
11: * modification, are permitted provided that the following conditions
12: * are met:
13: * 1. Redistributions of source code must retain the above copyright
14: * notice, this list of conditions and the following disclaimer.
15: * 2. Redistributions in binary form must reproduce the above copyright
16: * notice, this list of conditions and the following disclaimer in the
17: * documentation and/or other materials provided with the distribution.
18: *
19: * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
20: * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
21: * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
22: * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
23: * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
24: * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
25: * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
26: * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
27: * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
28: * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
29: * POSSIBILITY OF SUCH DAMAGE.
30: */
31:
32: /*
33: * Register definitions for Force Gate Array 5000
34: * Definitions from: "Force Gate Array-5000 Technical Reference Manual"
35: * revision 1, April 1995, Force Computers, Inc./GmbH.
36: */
37:
38: /*
39: * FGA Register structure.
40: * The register set takes up 512 bytes and is found in to sbus slot 5's
41: * address space (you can change that).
42: * Most of the bit registers use a negative logic sense: ie. writing
43: * a zero means "setting the bit" and writing a one means "clearing"
44: * the bit.
45: */
46: struct fga_regs {
47: volatile u_int32_t sbus_base; /* sbus base address reg */
48: volatile u_int32_t vme_range[16]; /* master range registers */
49: volatile u_int8_t _unused0[32];
50: volatile u_int8_t vme_master_cap[16];/* master capability */
51: volatile u_int8_t _unused1[8];
52: volatile u_int8_t sbus_ssel[8]; /* sbus slot select */
53: volatile u_int8_t _unused2[15];
54: volatile u_int8_t viack_emu1; /* vme intr ack emulation */
55: volatile u_int8_t _unused3[1];
56: volatile u_int8_t viack_emu2;
57: volatile u_int8_t _unused4[1];
58: volatile u_int8_t viack_emu3;
59: volatile u_int8_t _unused5[1];
60: volatile u_int8_t viack_emu4;
61: volatile u_int8_t _unused6[1];
62: volatile u_int8_t viack_emu5;
63: volatile u_int8_t _unused7[1];
64: volatile u_int8_t viack_emu6;
65: volatile u_int8_t _unused8[1];
66: volatile u_int8_t viack_emu7;
67: volatile u_int8_t _unused9[16];
68: volatile u_int8_t sbus_cap; /* sbus capabilities */
69: volatile u_int8_t sbus_retry_ctrl; /* sbus retry control */
70: volatile u_int8_t sbus_rerun_ctrl; /* sbus rerun control */
71: volatile u_int8_t sbus_cap2; /* sbus capabilities 2 */
72: volatile u_int32_t swpar; /* sbus write post err addr */
73: volatile u_int32_t slerr; /* sbus late err addr */
74: volatile u_int32_t _unused10;
75: volatile u_int8_t vme_base; /* vme slave base addr */
76: volatile u_int8_t vme_ext[3]; /* vme slave addr extension */
77: volatile u_int32_t sbus_range[3]; /* vme->sbus slave addr */
78: volatile u_int16_t ibox_addr; /* ibox address */
79: volatile u_int16_t ibox_ctrl; /* ibox control */
80: volatile u_int8_t fmb_ctrl; /* FMB control reg */
81: volatile u_int8_t fmb_addr; /* FMB addresss reg */
82: volatile u_int8_t _unused11[10];
83: volatile u_int8_t vme_cap; /* vme capabilities */
84: volatile u_int8_t vmebus_handshake; /* vme handshake mode */
85: volatile u_int8_t _unused12[2];
86: volatile u_int32_t vwpar; /* vme write post addr */
87: volatile u_int8_t _unused13[8];
88: volatile u_int16_t dma_ctrl; /* dma control */
89: volatile u_int8_t dma_mode; /* dma mode */
90: volatile u_int8_t dma_stat; /* dma status */
91: volatile u_int32_t dma_src; /* dma source address */
92: volatile u_int32_t dma_dst; /* dma destination address */
93: volatile u_int32_t dma_captl; /* dma capabilities/length */
94: volatile u_int8_t _unused14[32];
95: volatile u_int8_t mbox[16]; /* mailboxes */
96: volatile u_int8_t sem[48]; /* semaphores */
97: volatile u_int8_t _unused15[32];
98: volatile u_int8_t id[4]; /* revision/id register */
99: volatile u_int8_t gcsr; /* global control/status */
100: volatile u_int8_t _unused16[3];
101: volatile u_int8_t reset_stat; /* reset status */
102: volatile u_int8_t _unused17[24];
103: volatile u_int8_t virq_map[7]; /* vme->sbus irq mapping */
104: volatile u_int8_t mbox_irq_map[16];
105: volatile u_int8_t acfail_irq_map;
106: volatile u_int8_t sysfail_irq_map[2];
107: volatile u_int8_t abort_irq_map;
108: volatile u_int8_t dma_irq_map;
109: volatile u_int8_t wpe_irq_map;
110: volatile u_int8_t arb_irq_map;
111: volatile u_int8_t wdt_irq_map;
112: volatile u_int8_t slerr_irq_map;
113: volatile u_int8_t fmb_irq_map[2];
114: volatile u_int8_t ibox_irq_map;
115: volatile u_int8_t _unused18[20];
116: volatile u_int16_t mbox_stat; /* mailbox status */
117: volatile u_int8_t _unused19[2];
118: volatile u_int8_t arb_ctrl; /* arbitration control */
119: volatile u_int8_t req_ctrl; /* vme request control */
120: volatile u_int8_t bus_ctrl; /* vme bus control */
121: volatile u_int8_t _unused20[1];
122: volatile u_int8_t mcsr0; /* misc control/status */
123: volatile u_int8_t _unused21[3];
124: volatile u_int8_t mcsr1; /* misc control/status */
125: volatile u_int8_t wdt_restart; /* watchdog restart */
126: volatile u_int8_t _unused22[2];
127: volatile u_int32_t intr_stat; /* interrupt status */
128: volatile u_int8_t _unused23[20];
129: };
130:
131: /* sbus_base: sbus base address register */
132: #define SBUS_BASE_RMBA 0xffffe000 /* reg map base address */
133: #define SBUS_BASE_RMSS 0x00000007 /* reg map slot select bits */
134:
135: /* vme_range0..15: master range registers */
136: #define VME_RANGE_VMRCC 0xfff80000 /* master range compare code */
137: #define VME_RANGE_VMAE 0x00078000 /* master adr extension bits */
138: #define VME_RANGE_VMAT 0x00007ff8 /* master adr xlation bits */
139: #define VME_RANGE_WPEN 0x00000002 /* write posting enable */
140: #define VME_RANGE_DECEN 0x00000001 /* range decoding enable */
141:
142: /* vme_master_map0..15: master capability registers */
143: #define VME_MASTER_CAP_DATA 0xe0 /* data capabilities */
144: #define VME_MASTER_CAP_D8 0x00 /* vmebus D8 */
145: #define VME_MASTER_CAP_D16 0x20 /* vmebus D16 */
146: #define VME_MASTER_CAP_D32 0x40 /* vmebus D32 */
147: #define VME_MASTER_CAP_DBLT 0x60 /* vmebus BLT */
148: #define VME_MASTER_CAP_DMBLT 0x80 /* vmebus MBLT */
149: #define VME_MASTER_CAP_ADDR 0x1c /* addr capabilities */
150: #define VME_MASTER_CAP_A16 0x00 /* vmebus A16 */
151: #define VME_MASTER_CAP_A24 0x04 /* vmebus A24 */
152: #define VME_MASTER_CAP_A32 0x08 /* vmebus A32 */
153: #define FVME_MAX_RANGES 16 /* number of ranges avail */
154:
155: /* sbus_ssel0..15: sbus slot select registers */
156: #define SBUS_SSEL_X 0x70 /* slot select pins range X */
157: #define SBUS_SSEL_X_SLOT1 0x00 /* sbus slot 1 */
158: #define SBUS_SSEL_X_SLOT2 0x10 /* sbus slot 2 */
159: #define SBUS_SSEL_X_SLOT3 0x20 /* sbus slot 3 */
160: #define SBUS_SSEL_X_SLOT4 0x30 /* sbus slot 4 */
161: #define SBUS_SSEL_X_SLOT5x 0x40 /* sbus slot 5? */
162: #define SBUS_SSEL_X_SLOT5 0x50 /* sbus slot 5 */
163: #define SBUS_SSEL_Y 0x07 /* slot select pins range X+1*/
164: #define SBUS_SSEL_Y_SLOT1 0x00 /* sbus slot 1 */
165: #define SBUS_SSEL_Y_SLOT2 0x01 /* sbus slot 2 */
166: #define SBUS_SSEL_Y_SLOT3 0x02 /* sbus slot 3 */
167: #define SBUS_SSEL_Y_SLOT4 0x03 /* sbus slot 4 */
168: #define SBUS_SSEL_Y_SLOT5x 0x04 /* sbus slot 5? */
169: #define SBUS_SSEL_Y_SLOT5 0x05 /* sbus slot 5 */
170:
171: /* viack_emu1..7: iack emulation registers */
172: /* bits contain d00-d07 from VMEbus interrupter */
173:
174: /* sbus_cap: sbus capability register */
175: #define SBUS_CAP_BURSTMASK 0xc0 /* dma burst size mask */
176: #define SBUS_CAP_BURST_64 0xc0 /* 64 byte burst */
177: #define SBUS_CAP_BURST_32 0x80 /* 32 byte burst */
178: #define SBUS_CAP_BURST_16 0x40 /* 16 byte burst */
179: #define SBUS_CAP_BURST_8 0x00 /* 8 byte burst */
180: #define SBUS_CAP_READSTOPMASK 0x30 /* master read stop point */
181: #define SBUS_CAP_READSTOP_64 0x30 /* stop at 64 byte boundary */
182: #define SBUS_CAP_READSTOP_32 0x20 /* stop at 32 byte boundary */
183: #define SBUS_CAP_READSTOP_16 0x10 /* stop at 16 byte boundary */
184: #define SBUS_CAP_READSTOP_8 0x00 /* stop at 8 byte boundary */
185: #define SBUS_CAP_BURSTDIS 0x08 /* disable sbus bursts */
186: #define SBUS_CAP_HIDDENARBDIS 0x04 /* disable sbus hidden arb */
187: #define SBUS_CAP_SPLITFLOW 0x02 /* disable flow through */
188:
189: /* sbus_retry_ctrl: sbus retry register */
190: /* clock cycles with no acknowledge */
191:
192: /* sbus_rerun_ctrl: sbus rerun limit register */
193: /* number of times to reruns to try on the bus */
194:
195: /* swpar: sbus write posting error address register */
196: /* virtual sbus transfer address that was ack'd with an error */
197:
198: /* slerr: sbus late error address register */
199: /* virtual sbus address that resulted in a late transfer */
200:
201: /* vme_base: VMEbus base address register */
202: #define VME_BASE_RMVBA 0xfe /* reg map base address */
203: #define VME_BASE_RMACCEN 0x01 /* reg remote access enable */
204:
205: /* vme_ext0..2: slave address extension registers */
206: /* extensions of A24 VMEbus address to 32bit sbus address (msb) */
207:
208: /* sbus_range0..2: slave range registers */
209: #define SBUS_RANGE_VSRCC 0xfff00000 /* slave range compare code */
210: #define SBUS_RANGE_VSAT 0x000ffe00 /* slave address translation */
211: #define SBUS_RANGE_A32DIS 0x00000004 /* disable A32 (enable A24) */
212: #define SBUS_RANGE_WPDIS 0x00000002 /* disable write posting */
213: #define SBUS_RANGE_DECDIS 0x00000001 /* disable encoding */
214:
215: /* ibox_addr: IBOX address register */
216: /* address within VME A16 space where the IBOX is accessed */
217:
218: /* ibox_ctrl: IBOX control register */
219: #define IBOX_CTRL_DIS 0x01 /* disable ibox */
220:
221: /* fmb_ctrl: force message broadcast control register */
222: #define FMB_CTRL_SELAM 0x80 /* supervisor/user access */
223: #define FMB_CTRL_DISCH1 0x40 /* disable channel 1 */
224: #define FMB_CTRL_DISCH2 0x20 /* disable channel 2 */
225: #define FMB_CTRL_SLOTID 0x1f /* slot id: 1-15 */
226:
227: /* vme_cap: global master capability register */
228: #define VME_CAP_NPRV 0x80 /* supervisor access */
229:
230: /* vmebus_handshake: VMEbus handshake configuration register */
231: #define VME_HANDSHAKE_DISSGLE 0x80 /* disable glitch filter */
232: #define VME_HANDSHAKE_DISASFAST 0x40 /* disable fast AS handshake */
233: #define VME_HANDSHAKE_DISDS 0x20 /* disable fast data strobe */
234:
235: /* vwpar: VMEbus write posting address register */
236: /* contains address ack'd with a BERR from the VME bus */
237:
238: /* dma_ctrl: dma control register */
239: #define DMA_CTRL_DMAEN 0x80 /* enable (start) dma */
240: #define DMA_CTRL_DMADIS 0x40 /* disable dma transaction */
241: #define DMA_CTRL_DMAHLT 0x20 /* stop dma transaction */
242: #define DMA_CTRL_DMARESU 0x10 /* resume dma transaction */
243:
244: /* dma_mode: dma mode register */
245: #define DMA_MODE_DMASB 0x80 /* single buffer mode */
246: #define DMA_MODE_DMANRTRY 0x40 /* error on retry */
247:
248: /* dma_stat: dma status register */
249: #define DMA_STAT_DMARUN 0x80 /* dma task is running */
250: #define DMA_STAT_DMAWT 0x40 /* dma task is halted */
251: #define DMA_STAT_DMANT 0x20 /* dma task successful */
252: #define DMA_STAT_ERRMASK 0x18 /* dma error mask */
253: #define DMA_STAT_ERR_SRC 0x00 /* error on source bus */
254: #define DMA_STAT_ERR_DST 0x08 /* error on destination bus */
255: #define DMA_STAT_ERR_NONE 0x10 /* no error termination */
256: #define DMA_STAT_ERR_NOERROR 0x18 /* no error termination */
257:
258: /* dma_src: dma source address register */
259: #define DMA_SRC_ADDR 0xfffffffc /* source address */
260: #define DMA_SRC_VME 0x00000002 /* 0=vme, 1=sbus */
261:
262: /* dma_dst: dma destination address register */
263: #define DMA_DST_ADDR 0xfffffffc /* destination address */
264: #define DMA_DST_VME 0x00000002 /* 0=vme, 1=sbus */
265:
266: /* dma_captl: dma capability/transfer length */
267: #define DMA_CAPTL_SCAPD_MASK 0xe0000000 /* src data capability */
268: #define DMA_CAPTL_SCAPD_D8 0x00000000 /* D8 slave */
269: #define DMA_CAPTL_SCAPD_D16 0x20000000 /* D16 slave */
270: #define DMA_CAPTL_SCAPD_D32 0x40000000 /* D32 slave */
271: #define DMA_CAPTL_SCAPD_BLT 0x60000000 /* BLT slave */
272: #define DMA_CAPTL_SCAPD_MBLT 0x80000000 /* MBLT slave */
273: #define DMA_CAPTL_SCAPA_MASK 0x1c000000 /* src addr capability */
274: #define DMA_CAPTL_SCAPA_A16 0x00000000 /* A16 slave */
275: #define DMA_CAPTL_SCAPA_A24 0x04000000 /* A24 slave */
276: #define DMA_CAPTL_SCAPA_A32 0x08000000 /* A32 slave */
277: #define DMA_CAPTL_DCAPD_MASK 0x03800000 /* dst data capability */
278:
279: /* mbox0..15: mailbox registers */
280: #define MBOX_SEM 0x80 /* semaphore bit */
281:
282: /* sem0..47: semaphore registers */
283: #define SEM_SEM 0x80 /* semaphore bit */
284:
285: /* gcsr: global control and status register */
286: #define GCSR_SETSYSFAIL 0x80 /* assert SYSFAIL* signal */
287: #define GCSR_ENSYSFAIL 0x40 /* enable SYSFAIL* output */
288: #define GCSR_SYSFAIL 0x20 /* SYSFAIL* input status */
289: #define GCSR_RESET 0x10 /* software reset */
290: #define GCSR_ACFAIL 0x08 /* ACFAIL input status */
291: #define GCSR_DISVDR 0x04 /* disable VME DTB drivers */
292: #define GCSR_ENSYSCON 0x02 /* enable system controller */
293:
294: /* reset_stat: reset status register */
295: #define RESET_STAT_SBUS_RESET 0x80 /* sbus has been reset */
296: #define RESET_STAT_VME_SYSRES 0x40 /* vmebus has been reset */
297: #define RESET_STAT_WDT_RESET 0x20 /* watchdog has triggered */
298: #define RESET_STAT_SYSRES_CALL 0x04 /* sysreset in mcsr0 set */
299: #define RESET_STAT_RESET_CALL 0x02 /* reset in mcsr0 set */
300: #define RESET_STAT_LOCRES_CALL 0x01 /* reset in ccsr set */
301:
302: /* *irq_map: interrupt request mapping registers */
303: #define IRQ_MAP_ENABLE 0x08 /* enable irq */
304: #define IRQ_MAP_INT_MASK 0x07 /* irq mapping mask */
305: #define IRQ_MAP_INT 0x00 /* NMI */
306: #define IRQ_MAP_SINT1 0x01 /* sbus pri 1 */
307: #define IRQ_MAP_SINT2 0x02 /* sbus pri 2 */
308: #define IRQ_MAP_SINT3 0x03 /* sbus pri 3 */
309: #define IRQ_MAP_SINT4 0x04 /* sbus pri 4 */
310: #define IRQ_MAP_SINT5 0x05 /* sbus pri 5 */
311: #define IRQ_MAP_SINT6 0x06 /* sbus pri 6 */
312: #define IRQ_MAP_SINT7 0x07 /* sbus pri 7 */
313:
314: /* mbox_stat: mailbox status interrupt status register */
315: /* 1 bit for each mailbox, 0 = interrupt pending, 1 = no interrupt pending */
316:
317: /* arb_ctrl: arbitration control register */
318: #define ARB_CTRL_MASK 0xc0 /* control mask */
319: #define ARB_CTRL_PRIORITY 0xc0 /* priority mode */
320: #define ARB_CTRL_ROBIN 0x40 /* round robin mode */
321: #define ARB_CTRL_PRIROBIN 0x80 /* priority round robin mode */
322:
323: /* req_ctrl: VMEbus request control register */
324: #define REQ_CTRL_FM 0x80 /* 0=fair,1=demand mode */
325: #define REQ_CTRL_RM_MASK 0x70 /* release mode mask */
326: #define REQ_CTRL_RM_ROR 0x30 /* release on request */
327: #define REQ_CTRL_RM_ROC 0x40 /* release on bus clear */
328: #define REQ_CTRL_RM_RAT 0x60 /* release after timeout */
329: #define REQ_CTRL_RM_RWD 0x70 /* release when done */
330: #define REQ_CTRL_REC 0x08 /* 0=begin,1=end of cycle */
331: #define REQ_CTRL_RL_MASK 0x06 /* request level mask */
332: #define REQ_CTRL_RL_BR3 0x06 /* br3 priority */
333: #define REQ_CTRL_RL_BR2 0x04 /* br2 priority */
334: #define REQ_CTRL_RL_BR1 0x02 /* br1 priority */
335: #define REQ_CTRL_RL_BR0 0x00 /* br0 priority */
336: #define REQ_CTRL_GLFI 0x01 /* enable bbsy glitch filter */
337:
338: /* bus_ctrl: VMEbus capture register */
339: #define BUS_CTRL_BCAP 0x80 /* request and keep bus */
340: #define BUS_CTRL_OWN 0x40 /* do we own the bus? */
341:
342: /* mcsr0: miscellaneous control and status register 0 */
343: #define MCSR0_ABORTSW 0x80 /* status of abort switch */
344: #define MCSR0_SCON 0x40 /* status of SCON input */
345: #define MCSR0_SYSRESET 0x20 /* assert SYSRESET* */
346: #define MCSR0_RESET 0x10 /* software reset fga5000 */
347: #define MCSR0_ENA_VME_TIMEOUT 0x08 /* enable VME timeout */
348: #define MCSR0_VME_TIMEOUT_MASK 0x06 /* VME transaction timeout */
349: #define MCSR0_VME_TIMEOUT_32 0x02 /* 32 usec */
350: #define MCSR0_VME_TIMEOUT_128 0x04 /* 128 usec */
351: #define MCSR0_VME_TIMEOUT_512 0x06 /* 512 usec */
352: #define MCSR0_SYSRESET_IN 0x01 /* enable SYSRESET input */
353:
354: /* mcsr1: miscellaneous control and status register 1 */
355: #define MCSR1_ENAWDT 0x80 /* enable watchdog timer */
356: #define MCSR1_TIMEOUT_MASK 0x70 /* watchdog timeout mask */
357: #define MCSR1_TIMEOUT_408MS 0x00 /* 408 msec */
358: #define MCSR1_TIMEOUT_168S 0x10 /* 1.68 sec */
359: #define MCSR1_TIMEOUT_67S 0x20 /* 6.7 sec */
360: #define MCSR1_TIMEOUT_268S 0x30 /* 26.8 sec */
361: #define MCSR1_TIMEOUT_1M48S 0x40 /* 1 min 48 sec */
362: #define MCSR1_TIMEOUT_7M9S 0x50 /* 7 min 9 sec */
363: #define MCSR1_TIMEOUT_28M38S 0x60 /* 28 min 38 sec */
364: #define MCSR1_TIMEOUT_1H54M 0x70 /* 1 hour 54 min */
365: #define MCSR1_IRQ_FREEZE 0x08 /* freeze irq map regs */
366:
367: /* wdt_restart: watchdog timer restart register */
368: /* any read/write resets the watchdog timer */
369:
370: /* intr_stat: interrupt status register */
371: #define INTR_STAT_ACFAIL 0x80000000 /* acfail pending */
372: #define INTR_STAT_SYSFAILASSERT 0x40000000 /* sysfail assert pending */
373: #define INTR_STAT_SYSFAILNEGATE 0x20000000 /* sysfail negate pending */
374: #define INTR_STAT_ABORT 0x10000000 /* abort pending */
375: #define INTR_STAT_ARBTIMEOUT 0x08000000 /* arbitration timeout */
376: #define INTR_STAT_MAILBOX 0x04000000 /* mailbox intr pending */
377: #define INTR_STAT_SBUS_WPERR 0x02000000 /* sbus wperr pending */
378: #define INTR_STAT_VME_WPERR 0x01000000 /* vme wperr pending */
379: #define INTR_STAT_DMATERM 0x00800000 /* dma finished */
380: #define INTR_STAT_WDT 0x00400000 /* watchdog half timeout */
381: #define INTR_STAT_SLERR 0x00200000 /* sbus late error pending */
382: #define INTR_STAT_IBOX 0x00100000 /* ibox pending */
383: #define INTR_STAT_FMB0 0x00080000 /* fmb channel 0 pending */
384: #define INTR_STAT_FMB1 0x00040000 /* fmb channel 1 pending */
385: #define INTR_STAT_VMEIRQ7 0x00000080 /* vme irq 7 pending */
386: #define INTR_STAT_VMEIRQ6 0x00000040 /* vme irq 6 pending */
387: #define INTR_STAT_VMEIRQ5 0x00000020 /* vme irq 5 pending */
388: #define INTR_STAT_VMEIRQ4 0x00000010 /* vme irq 4 pending */
389: #define INTR_STAT_VMEIRQ3 0x00000008 /* vme irq 3 pending */
390: #define INTR_STAT_VMEIRQ2 0x00000004 /* vme irq 2 pending */
391: #define INTR_STAT_VMEIRQ1 0x00000002 /* vme irq 1 pending */
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