1*d86bea61Smrg /* $NetBSD: intr.h,v 1.4 2023/07/12 06:45:24 mrg Exp $ */
26d3ceb1dSskrll /* $OpenBSD: intr.h,v 1.26 2009/12/29 13:11:40 jsing Exp $ */
36d3ceb1dSskrll
46d3ceb1dSskrll /*-
56d3ceb1dSskrll * Copyright (c) 1998, 2001, 2002 The NetBSD Foundation, Inc.
66d3ceb1dSskrll * All rights reserved.
76d3ceb1dSskrll *
86d3ceb1dSskrll * This code is derived from software contributed to The NetBSD Foundation
96d3ceb1dSskrll * by Charles M. Hannum, and by Jason R. Thorpe, and by Matthew Fredette.
106d3ceb1dSskrll *
116d3ceb1dSskrll * Redistribution and use in source and binary forms, with or without
126d3ceb1dSskrll * modification, are permitted provided that the following conditions
136d3ceb1dSskrll * are met:
146d3ceb1dSskrll * 1. Redistributions of source code must retain the above copyright
156d3ceb1dSskrll * notice, this list of conditions and the following disclaimer.
166d3ceb1dSskrll * 2. Redistributions in binary form must reproduce the above copyright
176d3ceb1dSskrll * notice, this list of conditions and the following disclaimer in the
186d3ceb1dSskrll * documentation and/or other materials provided with the distribution.
196d3ceb1dSskrll *
206d3ceb1dSskrll * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
216d3ceb1dSskrll * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
226d3ceb1dSskrll * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
236d3ceb1dSskrll * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
246d3ceb1dSskrll * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
256d3ceb1dSskrll * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
266d3ceb1dSskrll * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
276d3ceb1dSskrll * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
286d3ceb1dSskrll * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
296d3ceb1dSskrll * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
306d3ceb1dSskrll * POSSIBILITY OF SUCH DAMAGE.
316d3ceb1dSskrll */
326d3ceb1dSskrll
336d3ceb1dSskrll #ifndef _HPPA_INTR_H_
346d3ceb1dSskrll #define _HPPA_INTR_H_
356d3ceb1dSskrll
366d3ceb1dSskrll #include <machine/psl.h>
376d3ceb1dSskrll #include <machine/intrdefs.h>
386d3ceb1dSskrll
396d3ceb1dSskrll #include <sys/evcnt.h>
406d3ceb1dSskrll
416d3ceb1dSskrll #ifndef _LOCORE
426d3ceb1dSskrll
435ef555d7Sriastradh #if defined(_KERNEL) || defined(_KMEMUSER)
44*d86bea61Smrg typedef int ipl_t;
455ef555d7Sriastradh typedef struct {
465ef555d7Sriastradh ipl_t _ipl;
475ef555d7Sriastradh } ipl_cookie_t;
485ef555d7Sriastradh #endif
495ef555d7Sriastradh
506d3ceb1dSskrll #ifdef _KERNEL
516d3ceb1dSskrll
526d3ceb1dSskrll struct cpu_info;
536d3ceb1dSskrll
546d3ceb1dSskrll /*
556d3ceb1dSskrll * The maximum number of bits in a cpl value/spl mask, the maximum number of
566d3ceb1dSskrll * bits in an interrupt request register, and the maximum number of interrupt
576d3ceb1dSskrll * registers.
586d3ceb1dSskrll */
596d3ceb1dSskrll #define HPPA_INTERRUPT_BITS (32)
606d3ceb1dSskrll #define CPU_NINTS HPPA_INTERRUPT_BITS /* Use this one */
616d3ceb1dSskrll
626d3ceb1dSskrll /*
636d3ceb1dSskrll * This describes one HPPA interrupt register.
646d3ceb1dSskrll */
656d3ceb1dSskrll struct hppa_interrupt_register {
666d3ceb1dSskrll bool ir_iscpu;
676d3ceb1dSskrll const char *ir_name; /* name for this intr reg */
686d3ceb1dSskrll struct cpu_info *ir_ci; /* cpu this intr reg */
696d3ceb1dSskrll
706d3ceb1dSskrll /*
716d3ceb1dSskrll * The virtual address of the mask, request and level
726d3ceb1dSskrll * registers.
736d3ceb1dSskrll */
746d3ceb1dSskrll volatile int *ir_mask;
756d3ceb1dSskrll volatile int *ir_req;
766d3ceb1dSskrll volatile int *ir_level;
776d3ceb1dSskrll
786d3ceb1dSskrll /*
796d3ceb1dSskrll * This array has one entry for each bit in the interrupt request
806d3ceb1dSskrll * register.
816d3ceb1dSskrll *
826d3ceb1dSskrll * If the 24 most significant bits are set, the low 8 bits are the
836d3ceb1dSskrll * index of the hppa_interrupt_register that this interrupt bit leads
846d3ceb1dSskrll * to, with zero meaning that the interrupt bit is unused.
856d3ceb1dSskrll *
866d3ceb1dSskrll * Otherwise these bits correspond to hppa_interrupt_bits. That is,
876d3ceb1dSskrll * these bits are ORed to ipending_new in hppa_intr_ipending() when
886d3ceb1dSskrll * an interrupt happens.
896d3ceb1dSskrll *
906d3ceb1dSskrll * Note that this array is indexed by HP bit number, *not* by "normal"
916d3ceb1dSskrll * bit number. In other words, the least significant bit in the inter-
926d3ceb1dSskrll * rupt register corresponds to array index 31.
936d3ceb1dSskrll */
946d3ceb1dSskrll
956d3ceb1dSskrll unsigned int ir_bits_map[HPPA_INTERRUPT_BITS];
966d3ceb1dSskrll
976d3ceb1dSskrll #define IR_BIT_MASK 0xffffff00
986d3ceb1dSskrll #define IR_BIT_REG(x) (IR_BIT_MASK | (x))
996d3ceb1dSskrll #define IR_BIT_UNUSED IR_BIT_REG(0)
1006d3ceb1dSskrll #define IR_BIT_USED_P(x) (((x) & IR_BIT_MASK) != IR_BIT_MASK)
1016d3ceb1dSskrll #define IR_BIT_NESTED_P(x) (((x) & IR_BIT_MASK) == IR_BIT_MASK)
102f7dbfa87Smacallan /* true if not used for interrupt or nested interrupt register */
103f7dbfa87Smacallan #define IR_BIT_UNUSED_P(x) ((x) == IR_BIT_MASK)
1046d3ceb1dSskrll
1056d3ceb1dSskrll int ir_bits; /* mask of allocatable bit numbers */
1066d3ceb1dSskrll int ir_rbits; /* mask of reserved (for lasi/asp) bit numbers */
1076d3ceb1dSskrll };
1086d3ceb1dSskrll
1096d3ceb1dSskrll struct hppa_interrupt_bit {
1106d3ceb1dSskrll
1116d3ceb1dSskrll /*
1126d3ceb1dSskrll * The interrupt register this bit is in. Some handlers, e.g
1136d3ceb1dSskrll * apic_intr, don't make use of an hppa_interrupt_register, but are
1146d3ceb1dSskrll * nested.
1156d3ceb1dSskrll */
1166d3ceb1dSskrll struct hppa_interrupt_register *ib_reg;
1176d3ceb1dSskrll
1186d3ceb1dSskrll /*
1196d3ceb1dSskrll * The priority level associated with this bit, e.g, IPL_BIO, IPL_NET,
1206d3ceb1dSskrll * etc.
1216d3ceb1dSskrll */
1226d3ceb1dSskrll int ib_ipl;
1236d3ceb1dSskrll
1246d3ceb1dSskrll /*
1256d3ceb1dSskrll * The spl mask for this bit. This starts out as the spl bit assigned
1266d3ceb1dSskrll * to this particular interrupt, and later gets fleshed out by the mask
1276d3ceb1dSskrll * calculator to be the full mask that we need to raise spl to when we
1286d3ceb1dSskrll * get this interrupt.
1296d3ceb1dSskrll */
1306d3ceb1dSskrll int ib_spl;
1316d3ceb1dSskrll
1326d3ceb1dSskrll /* The interrupt name. */
1336d3ceb1dSskrll char ib_name[16];
1346d3ceb1dSskrll
1356d3ceb1dSskrll /* The interrupt event count. */
1366d3ceb1dSskrll struct evcnt ib_evcnt;
1376d3ceb1dSskrll
1386d3ceb1dSskrll /*
1396d3ceb1dSskrll * The interrupt handler and argument for this bit. If the argument is
1406d3ceb1dSskrll * NULL, the handler gets the trapframe.
1416d3ceb1dSskrll */
1426d3ceb1dSskrll int (*ib_handler)(void *);
1436d3ceb1dSskrll void *ib_arg;
1446d3ceb1dSskrll
1456d3ceb1dSskrll };
1466d3ceb1dSskrll
1476d3ceb1dSskrll void hppa_intr_bootstrap(void);
1486d3ceb1dSskrll void hppa_intr_initialise(struct cpu_info *);
1496d3ceb1dSskrll void hppa_interrupt_register_establish(struct cpu_info *,
1506d3ceb1dSskrll struct hppa_interrupt_register *);
1516d3ceb1dSskrll void * hppa_intr_establish(int, int (*)(void *), void *,
1526d3ceb1dSskrll struct hppa_interrupt_register *, int);
1536d3ceb1dSskrll int hppa_intr_allocate_bit(struct hppa_interrupt_register *, int);
1546d3ceb1dSskrll void hppa_intr_enable(void);
1556d3ceb1dSskrll
1566d3ceb1dSskrll /* splraise()/spllower() are in locore.S */
1576d3ceb1dSskrll int splraise(int);
1586d3ceb1dSskrll void spllower(int);
1596d3ceb1dSskrll
1606d3ceb1dSskrll /*
1616d3ceb1dSskrll * Miscellaneous
1626d3ceb1dSskrll */
1636d3ceb1dSskrll #define spl0() spllower(0)
1646d3ceb1dSskrll #define splx(x) spllower(x)
1656d3ceb1dSskrll
1666d3ceb1dSskrll static inline ipl_cookie_t
makeiplcookie(ipl_t ipl)1676d3ceb1dSskrll makeiplcookie(ipl_t ipl)
1686d3ceb1dSskrll {
1696d3ceb1dSskrll
1706d3ceb1dSskrll return (ipl_cookie_t){._ipl = ipl};
1716d3ceb1dSskrll }
1726d3ceb1dSskrll
1736d3ceb1dSskrll static inline int
splraiseipl(ipl_cookie_t icookie)1746d3ceb1dSskrll splraiseipl(ipl_cookie_t icookie)
1756d3ceb1dSskrll {
1766d3ceb1dSskrll
1776d3ceb1dSskrll return splraise(icookie._ipl);
1786d3ceb1dSskrll }
1796d3ceb1dSskrll
1806d3ceb1dSskrll #include <sys/spl.h>
1816d3ceb1dSskrll #endif
1826d3ceb1dSskrll
1836d3ceb1dSskrll #define setsoftast(l) ((l)->l_md.md_astpending = 1)
1846d3ceb1dSskrll
1856d3ceb1dSskrll #ifdef MULTIPROCESSOR
1866d3ceb1dSskrll
1876d3ceb1dSskrll struct cpu_info;
1886d3ceb1dSskrll
1896d3ceb1dSskrll void hppa_ipi_init(struct cpu_info *);
1906d3ceb1dSskrll int hppa_ipi_intr(void *arg);
1916d3ceb1dSskrll int hppa_ipi_send(struct cpu_info *, u_long);
1926d3ceb1dSskrll int hppa_ipi_broadcast(u_long);
1936d3ceb1dSskrll #endif
1946d3ceb1dSskrll
1956d3ceb1dSskrll #endif /* !_LOCORE */
1966d3ceb1dSskrll
1976d3ceb1dSskrll #endif /* !_HPPA_INTR_H_ */
198