RTEMS  5.1
vmeTsi148.h
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1 
9 #ifndef VME_TSI148_DRIVER_H
10 #define VME_TSI148_DRIVER_H
11 
12 /*
13  * Authorship
14  * ----------
15  * This software was created by
16  * Till Straumann <strauman@slac.stanford.edu>, 2005-2007,
17  * Stanford Linear Accelerator Center, Stanford University.
18  *
19  * Acknowledgement of sponsorship
20  * ------------------------------
21  * This software was produced by
22  * the Stanford Linear Accelerator Center, Stanford University,
23  * under Contract DE-AC03-76SFO0515 with the Department of Energy.
24  *
25  * Government disclaimer of liability
26  * ----------------------------------
27  * Neither the United States nor the United States Department of Energy,
28  * nor any of their employees, makes any warranty, express or implied, or
29  * assumes any legal liability or responsibility for the accuracy,
30  * completeness, or usefulness of any data, apparatus, product, or process
31  * disclosed, or represents that its use would not infringe privately owned
32  * rights.
33  *
34  * Stanford disclaimer of liability
35  * --------------------------------
36  * Stanford University makes no representations or warranties, express or
37  * implied, nor assumes any liability for the use of this software.
38  *
39  * Stanford disclaimer of copyright
40  * --------------------------------
41  * Stanford University, owner of the copyright, hereby disclaims its
42  * copyright and all other rights in this software. Hence, anyone may
43  * freely use it for any purpose without restriction.
44  *
45  * Maintenance of notices
46  * ----------------------
47  * In the interest of clarity regarding the origin and status of this
48  * SLAC software, this and all the preceding Stanford University notices
49  * are to remain affixed to any copy or derivative of this software made
50  * or distributed by the recipient and are to be affixed to any copy of
51  * software made or distributed by the recipient that contains a copy or
52  * derivative of this software.
53  *
54  * ------------------ SLAC Software Notices, Set 4 OTT.002a, 2004 FEB 03
55  */
56 
57 #include <stdint.h>
58 #include <bsp/vme_am_defs.h>
59 
60 
69 /* NOTE: A64 currently not implemented */
70 
71 /* These can be ored with the AM */
72 
73 /* NOTE: unlike the universe, the tsi148 doesn't allow for disabling posted writes ! */
74 
75 #define VME_MODE_PREFETCH_ENABLE VME_AM_IS_MEMORY
76 #define _LD_VME_MODE_PREFETCHSZ 24
77 #define VME_MODE_PREFETCH_SIZE(x) (((x)&3)<<_LD_VME_MODE_PREFETCHSZ)
78 
79 /* These bits can be or'ed with the address-modifier when calling
80  * the 'XlateAddr' routine below to further qualify the
81  * search criteria.
82  */
83 #define VME_MODE_MATCH_MASK (3<<30)
84 #define VME_MODE_EXACT_MATCH (2<<30) /* all bits must match */
85 #define VME_MODE_AS_MATCH (1<<30) /* only A16/24/32 must match */
86 
87 #ifdef __cplusplus
88 extern "C" {
89 #endif
90 
91 typedef volatile uint32_t BERegister; /* emphasize contents are big endian */
92 
93 /*
94  * Scan the PCI busses for the Nth (N=='instance') Tsi148 VME bridge.
95  *
96  * RETURNS:
97  * contents of the IRQ_LINE PCI config register on Success,
98  * the base address of the Tsi148 register block is stored in
99  * *pbase.
100  * -1 on error (no Tsi found, error accessing PCI config space).
101  *
102  * SIDE_EFFECTS: PCI busmaster and response to memory addresses is enabled.
103  */
104 int
105 vmeTsi148FindPciBase(int instance, BERegister **pbase);
106 
107 /* Initialize driver for Nth Tsi148 device found.
108  * This routine does not change any registers but
109  * just scans the PCI bus for Tsi bridges and initializes
110  * a driver slot.
111  *
112  * RETURNS: 0 on success, nonzero on error (or if no Tsi148
113  * device is found).
114  */
115 int
116 vmeTsi148InitInstance(unsigned instance);
117 
118 /* Initialize driver with 1st Tsi148 bridge found
119  * RETURNS: (see vmeTsi148InitInstance()).
120  */
121 int
122 vmeTsi148Init(void);
123 
124 /* Setup the tsi148 chip, i.e. disable most of its
125  * mappings, reset interrupts etc.
126  */
127 void
128 vmeTsi148ResetXX(BERegister *base);
129 
130 /* Setup the tsi148 connected to the first driver slot */
131 void
132 vmeTsi148Reset(void);
133 
134 /* Pull VME SYSRESET line */
135 void
136 vmeTsi148ResetBusXX(BERegister *base);
137 
138 /* Pull VME SYSRESET line of the 1st controller */
139 void
140 vmeTsi148ResetBus(void);
141 
142 /* NOTE: all non-'XX' versions of driver entry points which
143  * have an associated 'XX' entry point operate on the
144  * device connected to the 1st driver slot.
145  */
146 
147 /* configure a outbound port
148  *
149  * port: port number 0..7
150  *
151  * address_space: vxWorks compliant addressing mode identifier
152  * (see vme.h). The most important are:
153  * 0x0d - A32, Sup, Data
154  * 0x3d - A24, Sup, Data
155  * 0x2d - A16, Sup, Data
156  * additionally, the value 0 is accepted; it will
157  * disable this port.
158  * vme_address: address on the vme_bus of this port.
159  * local_address: address on the pci_bus of this port.
160  * length: size of this port.
161  *
162  * NOTE: the addresses and length parameters must meet certain alignment
163  * requirements (see Tsi148 documentation).
164  *
165  * RETURNS: 0 on success, -1 on failure. Error messages printed to stderr.
166  */
167 
168 int
169 vmeTsi148OutboundPortCfgXX(
170  BERegister *base,
171  unsigned long port,
172  unsigned long address_space,
173  unsigned long vme_address,
174  unsigned long pci_address,
175  unsigned long length);
176 
177 int
178 vmeTsi148OutboundPortCfg(
179  unsigned long port,
180  unsigned long address_space,
181  unsigned long vme_address,
182  unsigned long pci_address,
183  unsigned long length);
184 
185 
186 /* configure a VME inbound (PCI master) port */
187 int
188 vmeTsi148InboundPortCfgXX(
189  BERegister *base,
190  unsigned long port,
191  unsigned long address_space,
192  unsigned long vme_address,
193  unsigned long pci_address,
194  unsigned long length);
195 
196 int
197 vmeTsi148InboundPortCfg(
198  unsigned long port,
199  unsigned long address_space,
200  unsigned long vme_address,
201  unsigned long pci_address,
202  unsigned long length);
203 
204 /* Translate an address through the bridge
205  *
206  * vmeTsi248XlateAddr(0,0,as,addr,&result)
207  * yields a VME a address that reflects
208  * a local memory location as seen from the VME bus through the
209  * tsi148 VME inbound port.
210  *
211  * Likewise does vmeTsi148XlateAddr(1,0,as,addr,&result)
212  * translate a VME bus addr (backwards, through the VME outbound
213  * port) to the PCI side of the bridge.
214  *
215  * A valid address space modifier must be specified.
216  * If VME_MODE_EXACT_MATCH is set, all the mode bits must
217  * match the requested mode. If VME_MODE_EXACT_MATCH is not
218  * set in the mode word, only the basic mode (address-space,
219  * sup/usr and pgm/data) is compared.
220  *
221  * The 'reverse' parameter may be used to find a reverse
222  * mapping, i.e. the pci address in a outbound window can be
223  * found if the respective vme address is known etc.
224  *
225  * RETURNS: translated address in *pbusAdrs / *plocalAdrs
226  *
227  * 0: success
228  * -1: address/modifier not found in any bridge port
229  * -2: invalid modifier
230  */
231 
232 int
233 vmeTsi148XlateAddrXX(
234  BERegister *base, /* TSI 148 base address */
235  int outbound, /* look in the outbound windows */
236  int reverse, /* reverse mapping; for outbound ports: map local to VME */
237  unsigned long as, /* address space */
238  unsigned long aIn, /* address to look up */
239  unsigned long *paOut/* where to put result */
240  );
241 
242 int
243 vmeTsi148XlateAddr(
244  int outbound, /* look in the outbound windows */
245  int reverse, /* reverse mapping; for outbound: map local to VME */
246  unsigned long as, /* address space */
247  unsigned long aIn, /* address to look up */
248  unsigned long *paOut/* where to put result */
249  );
250 
251 
252 /* avoid pulling stdio.h into this header.
253  * Applications that want a declaration of the
254  * following routines should
255  * #include <stdio.h>
256  * #define _VME_TSI148_DECLARE_SHOW_ROUTINES
257  * #include <vmeTsi148.h>
258  */
259 #ifdef _VME_TSI148_DECLARE_SHOW_ROUTINES
260 
261 /* Print the current configuration of all outbound ports to
262  * f (stdout if NULL)
263  */
264 
265 void
266 vmeTsi148OutboundPortsShowXX(BERegister *base, FILE *f);
267 
268 void
269 vmeTsi148OutboundPortsShow(FILE *f);
270 
271 /* Print the current configuration of all inbound ports to
272  * f (stdout if NULL)
273  */
274 
275 void
276 vmeTsi148InboundPortsShowXX(BERegister *base, FILE *f);
277 
278 void
279 vmeTsi148InboundPortsShow(FILE *f);
280 
281 #endif
282 
283 
284 /* Disable all in- or out-bound ports, respectively */
285 void
286 vmeTsi148DisableAllInboundPortsXX(BERegister *base);
287 
288 void
289 vmeTsi148DisableAllInboundPorts(void);
290 
291 void
292 vmeTsi148DisableAllOutboundPortsXX(BERegister *base);
293 
294 void
295 vmeTsi148DisableAllOutboundPorts(void);
296 
297 # define TSI_VEAT_VES (1<<31)
298 # define TSI_VEAT_VEOF (1<<30)
299 # define TSI_VEAT_VESCL (1<<29)
300 # define TSI_VEAT_2eOT (1<<21)
301 # define TSI_VEAT_2eST (1<<20)
302 # define TSI_VEAT_BERR (1<<19)
303 # define TSI_VEAT_LWORD (1<<18)
304 # define TSI_VEAT_WRITE (1<<17)
305 # define TSI_VEAT_IACK (1<<16)
306 # define TSI_VEAT_DS1 (1<<15)
307 # define TSI_VEAT_DS0 (1<<14)
308 # define TSI_VEAT_AM(v) (((v)>>8)&63)
309 # define TSI_VEAT_XAM(v) ((v)&255)
310 
311 /* Check and clear the error (AKA 'exception') register.
312  * Note that the Tsi148 does *not* propagate VME bus errors of any kind to
313  * the PCI status register and hence this routine (or registering an ISR
314  * to the TSI_VERR_INT_VEC) is the only means for detecting a bus error.
315  *
316  * RETURNS:
317  * 0 if no error has occurred since this routine was last called.
318  * Contents of the 'VEAT' register (bit definitions as above)
319  * otherwise.
320  * If a non-NULL 'paddr' argument is provided then the lower 32-bit
321  * of the error address is stored in *paddr (only if return value is
322  * non-zero).
323  *
324  * SIDE EFFECTS: this routine clears the error attribute register, allowing
325  * for future errors to be latched.
326  */
327 unsigned long
328 vmeTsi148ClearVMEBusErrorsXX(BERegister *base, uint32_t *paddr);
329 
330 unsigned long
331 vmeTsi148ClearVMEBusErrors(uint32_t *paddr);
332 
333 /* Map internal register block to VME.
334  *
335  * This routine is intended for BSP implementors. The registers must be
336  * accessible from VME so that the interrupt handler can flush the
337  * bridge FIFO (see below).
338  *
339  * vme_base: VME address where the TSI registers (4k) can be mapped.
340  * This VME address must fall into a range covered by
341  * any pre-configured outbound window.
342  * address_space: The desired VME address space.
343  * (all of SUP/USR/PGM/DATA are always accepted).
344  *
345  * See NOTES [vmeTsi148InstallIrqMgrAlt()] below for further information.
346  *
347  * RETURNS: 0 on success, nonzero on error. It is not possible (and results
348  * in a non-zero return code) to change the CRG VME address after
349  * initializing the interrupt manager as it uses the CRG.
350  */
351 int
352 vmeTsi148MapCRGXX(BERegister *base, uint32_t vme_base, uint32_t address_space);
353 
354 int
355 vmeTsi148MapCRG(uint32_t vme_base, uint32_t address_space);
356 
357 
358 /* VME Interrupt Handler functionality */
359 
360 /* we dont use the current RTEMS/BSP interrupt API for the
361  * following reasons:
362  *
363  * - RTEMS/BSP API does not pass an argument to the ISR :-( :-(
364  * - no separate vector space for VME vectors. Some vectors would
365  * have to overlap with existing PCI/ISA vectors.
366  * - RTEMS/BSP API allocates a structure for every possible vector
367  * - the irq_on(), irq_off() functions add more bloat than helping.
368  * They are (currently) only used by the framework to disable
369  * interrupts at the device level before removing a handler
370  * and to enable interrupts after installing a handler.
371  * These operations may as well be done by the driver itself.
372  *
373  * Hence, we maintain our own (VME) handler table and hook our PCI
374  * handler into the standard RTEMS/BSP environment. Our handler then
375  * dispatches VME interrupts.
376  */
377 
378 typedef void (*VmeTsi148ISR) (void *usrArg, unsigned long vector);
379 
380 /* install a handler for a VME vector
381  * RETURNS 0 on success, nonzero on failure.
382  */
383 int
384 vmeTsi148InstallISR(unsigned long vector, VmeTsi148ISR handler, void *usrArg);
385 
386 /* remove a handler for a VME vector. The vector and usrArg parameters
387  * must match the respective parameters used when installing the handler.
388  * RETURNS 0 on success, nonzero on failure.
389  */
390 int
391 vmeTsi148RemoveISR(unsigned long vector, VmeTsi148ISR handler, void *usrArg);
392 
393 /* query for the currently installed ISR and usr parameter at a given vector
394  * RETURNS: ISR or 0 (vector too big or no ISR installed)
395  */
396 VmeTsi148ISR
397 vmeTsi148ISRGet(unsigned long vector, void **parg);
398 
399 /* utility routines to enable/disable a VME IRQ level
400  *
401  * To enable/disable the internal interrupt sources (special vectors above)
402  * pass a vector argument > 255.
403  *
404  * RETURNS 0 on success, nonzero on failure
405  */
406 int
407 vmeTsi148IntEnable(unsigned int level);
408 
409 int
410 vmeTsi148IntDisable(unsigned int level);
411 
412 /* Check if an interrupt level or internal source is enabled:
413  *
414  * 'level': VME level 1..7 or internal special vector > 255
415  *
416  * RETURNS: value > 0 if interrupt is currently enabled,
417  * zero if interrupt is currently disabled,
418  * -1 on error (invalid argument).
419  */
420 
421 int
422 vmeTsi148IntIsEnabled(unsigned int level);
423 
424 /* Set IACK width (1,2, or 4 bytes) for a given interrupt level.
425  *
426  * 'width' arg may be 0,1,2 or 4. If zero, the currently active
427  * value is returned but not modified.
428  *
429  * RETURNS: old width or -1 if invalid argument.
430  */
431 
432 int
433 vmeTsi148SetIackWidth(int level, int width);
434 
435 /* Change the routing of IRQ 'level' to 'pin'.
436  * If the BSP connects more than one of the four
437  * physical interrupt lines from the tsi148 to
438  * the board's PIC then you may change the physical
439  * line a given 'level' is using. By default,
440  * all 7 VME levels use the first wire (pin==0) and
441  * all internal sources use the (optional) second
442  * wire (pin==1) [The driver doesn't support more than
443  * four wires].
444  * This feature is useful if you want to make use of
445  * different hardware priorities of the PIC. Let's
446  * say you want to give IRQ level 7 the highest priority.
447  * You could then give 'pin 0' a higher priority (at the
448  * PIC) and 'pin 1' a lower priority and issue.
449  *
450  * for ( i=1; i<7; i++ ) vmeTsi148IntRoute(i, 1);
451  *
452  * PARAMETERS:
453  * 'level' : VME interrupt level '1..7' or one of
454  * the internal sources. Pass the internal
455  * source's vector number (>=256).
456  * 'pin' : a value of 0 routes the requested IRQ to
457  * the first line registered with the manager,
458  * a value of 1 routes it to the second wire
459  * etc.
460  *
461  * RETURNS: 0 on success, nonzero on error (invalid arguments)
462  *
463  * NOTES: - DONT change the tsi148 'map' registers
464  * directly. The driver caches routing internally.
465  * - support for the extra wires (beyond wire #0) is
466  * board dependent. If the board only provides
467  * a single physical wire from the tsi148 to
468  * the PIC then the feature might not be available.
469  */
470 int
471 vmeTsi148IntRoute(unsigned int level, unsigned int pin);
472 
473 /* Raise a VME Interrupt at 'level' and respond with 'vector' to a
474  * handler on the VME bus. (The handler could be a different board
475  * or the tsi148 itself.
476  *
477  * Note that you could install a interrupt handler at TSI_VME_SW_IACK_INT_VEC
478  * to be notified of an IACK cycle having completed.
479  *
480  * This routine is mainly FOR TESTING.
481  *
482  * NOTES:
483  * - the VICR register is modified.
484  * - NO MUTUAL EXCLUSION PROTECTION (reads VICR, modifies then writes back).
485  * If several users need access to VICR it is their responsibility to serialize access.
486  *
487  * Arguments:
488  * 'level': interrupt level, 1..7
489  * 'vector': vector number (0..255) that the tsi148 puts on the bus in response to
490  * an IACK cycle.
491  *
492  * RETURNS:
493  * 0: Success
494  * -1: Invalid argument (level not 1..7, vector >= 256)
495  * -2: Interrupt 'level' already asserted (maybe nobody handles it).
496  * You can manually clear it be setting the IRQC bit in
497  * VICR. Make sure really nobody responds to avoid spurious
498  * interrupts (consult tsi148 docs).
499  */
500 
501 int
502 vmeTsi148IntRaiseXX(BERegister *base, int level, unsigned vector);
503 
504 int
505 vmeTsi148IntRaise(int level, unsigned vector);
506 
507 /* Loopback test of the VME interrupt subsystem.
508  * - installs ISRs on 'vector' and on TSI_VME_SW_IACK_INT_VEC
509  * - asserts VME interrupt 'level'
510  * - waits for both interrupts: 'ordinary' VME interrupt of 'level' and
511  * IACK completion interrupt ('special' vector TSI_VME_SW_IACK_INT_VEC).
512  *
513  * NOTES:
514  * - make sure no other handler responds to 'level'.
515  * - make sure no ISR is installed on both vectors yet.
516  * - ISRs installed by this routine are removed after completion.
517  * - no concurrent access protection of all involved resources
518  * (levels, vectors and registers [see vmeTsi148IntRaise()])
519  * is implemented.
520  * - this routine is intended for TESTING (when implementing new BSPs etc.).
521  * - one RTEMS message queue is temporarily used (created/deleted).
522  *
523  * RETURNS:
524  * 0: Success.
525  * -1: Invalid arguments.
526  * 1: Test failed (outstanding interrupts).
527  * rtems_status_code: Failed RTEMS directive.
528  */
529 
530 int
531 vmeTsi148IntLoopbackTst(int level, unsigned vector);
532 
533 /* use these special vectors to connect a handler to the
534  * tsi148 specific interrupts (such as "DMA done", SW or
535  * error irqs etc.)
536  * NOTE: The wrapper clears all status LINT bits (except
537  * for regular VME irqs). Also note that it is the user's
538  * responsibility to enable the necessary interrupts in
539  * LINT_EN
540  *
541  * !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
542  * DO NOT CHANGE THE ORDER OF THESE VECTORS - THE DRIVER
543  * DEPENDS ON IT
544  * !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
545  *
546  * Deliberately, these vectors match the universe driver's
547  */
548 /* 256 no VOWN interrupt */
549 #define TSI_DMA_INT_VEC 257
550 #define TSI_LERR_INT_VEC 258
551 #define TSI_VERR_INT_VEC 259
552 /* 260 is reserved */
553 #define TSI_VME_SW_IACK_INT_VEC 261
554 /* 262 no PCI SW IRQ */
555 #define TSI_SYSFAIL_INT_VEC 263
556 #define TSI_ACFAIL_INT_VEC 264
557 #define TSI_MBOX0_INT_VEC 265
558 #define TSI_MBOX1_INT_VEC 266
559 #define TSI_MBOX2_INT_VEC 267
560 #define TSI_MBOX3_INT_VEC 268
561 #define TSI_LM0_INT_VEC 269
562 #define TSI_LM1_INT_VEC 270
563 #define TSI_LM2_INT_VEC 271
564 #define TSI_LM3_INT_VEC 272
565 
566 /* New vectors; only on TSI148 */
567 #define TSI_VIES_INT_VEC 273
568 #define TSI_DMA1_INT_VEC 274
569 
570 #define TSI_NUM_INT_VECS 275
571 
572 #ifdef __INSIDE_RTEMS_BSP__
573 
574 #include <stdarg.h>
575 
576 /* the tsi148 interrupt handler is capable of routing all sorts of
577  * (VME) interrupts to 4 different lines (some of) which may be hooked up
578  * in a (board specific) way to a PIC.
579  *
580  * This driver initially supports at most two lines (i.e., if the user
581  * doesn't re-route anything). By default, it routes the
582  * 7 VME interrupts to the main line and optionally, it routes the 'special'
583  * interrupts generated by the tsi148 itself (DMA done, SW irq etc.)
584  * to a second line. If no second line is available, all IRQs are routed
585  * to the main line.
586  *
587  * The routing of interrupts to the two lines can be modified (using
588  * the vmeTsi148IntRoute() call - see above - i.e., to make use of
589  * different hardware priorities and/or more physically available lines.
590  *
591  * Because the driver has no way to figure out which lines are actually
592  * wired to the PIC, this information has to be provided when installing
593  * the manager.
594  *
595  * Hence the manager sets up routing VME interrupts to 1 or 2 tsi148
596  * OUTPUTS. However, it must also be told to which PIC INPUTS they
597  * are wired.
598  * Optionally, the first PIC input line can be read from PCI config space
599  * but the second must be passed to this routine. Note that the info read
600  * from PCI config space is wrong for some boards!
601  *
602  * PARAMETERS:
603  * flags: VMETSI148_IRQ_MGR_FLAG_SHARED:
604  * use the BSP_install_rtems_shared_irq_handler() instead
605  * of BSP_install_rtems_irq_handler(). Use this if the PIC
606  * line is used by other devices, too.
607  * CAVEAT: shared interrupts need RTEMS workspace, i.e., the
608  * VME interrupt manager can only be installed
609  * *after workspace is initialized* if 'shared' is nonzero
610  * (i.e., *not* from bspstart()).
611  *
612  * tsi_pin_0: to which output pin (of the tsi148) should the 7
613  * VME irq levels be routed.
614  *
615  * pic_pin_0: specifies to which PIC input the 'main' output is
616  * wired on your board. If passed a value < 0, the driver
617  * reads this information from PCI config space ("IRQ line").
618  * ... : up to three additional tsi_pin/pic_pin pairs can be
619  * specified if your board provides more physical wires.
620  * In any case must the varargs list be terminated by '-1'.
621  *
622  * RETURNS: 0 on success, -1 on failure.
623  *
624  * NOTES: The Tsi148 always does 'posted' writes through a FIFO buffer.
625  * This effectively makes VME write operations asynchronous
626  * which can have undesired side-effects.
627  * In particular, consider the case of an ISR clearing the
628  * interrupt condition by writing to a CSR. The write operation
629  * doesn't really do anything but goes into the FIFO and
630  * the user ISR returns. At this point, the interrupt manager
631  * may find the IRQ still pending, trying another IACK
632  * cycle. Because it is probable that at this time the FIFO
633  * has been flushed and the CSR-write operation been effective,
634  * the IACK then times out.
635  * Note that this phenomenon becomes more obvious as CPUs
636  * become faster.
637  *
638  * To avoid this race condition and many VME drivers having
639  * to be re-written, a VME read (having the desired side-effect
640  * of flushing the write FIFO) must be issued between the
641  * user ISR returning and the interrupt manager checking for
642  * more pending interrupts.
643  *
644  * Therefore, the BSP needs to map the Tsi148 register
645  * block to VME so that a read over VME can be effectuated.
646  * (In addition to being mapped to VME, the mapped address
647  * range must be accessible through an outbound window.)
648  */
649 
650 #define VMETSI148_IRQ_MGR_FLAG_SHARED 1
651 int
652 vmeTsi148InstallIrqMgrAlt(int shared, int tsi_pin0, int pic_pin0, ...);
653 
654 int
655 vmeTsi148InstallIrqMgrVa(int shared, int tsi_pin0, int pic_pin0, va_list ap);
656 #endif
657 
658 #ifdef __cplusplus
659 }
660 #endif
661 
662 #endif
vxworks compatible addressing modes