freebsd-dev/sys/ia64/include/intr.h

91 lines
3.0 KiB
C
Raw Normal View History

/*-
* Copyright (c) 2007-2010 Marcel Moolenaar
* Copyright (c) 1998 Doug Rabson
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD$
*/
#ifndef _MACHINE_INTR_H_
#define _MACHINE_INTR_H_
Revamp the interrupt code based on the previous commit: o Introduce XIV, eXternal Interrupt Vector, to differentiate from the interrupts vectors that are offsets in the IVT (Interrupt Vector Table). There's a vector for external interrupts, which are based on the XIVs. o Keep track of allocated and reserved XIVs so that we can assign XIVs without hardcoding anything. When XIVs are allocated, an interrupt handler and a class is specified for the XIV. Classes are: 1. architecture-defined: XIV 15 is returned when no external interrupt are pending, 2. platform-defined: SAL reports which XIV is used to wakeup an AP (typically 0xFF, but it's 0x12 for the Altix 350). 3. inter-processor interrupts: allocated for SMP support and non-redirectable. 4. device interrupts (i.e. IRQs): allocated when devices are discovered and are redirectable. o Rewrite the central interrupt handler to call the per-XIV interrupt handler and rename it to ia64_handle_intr(). Move the per-XIV handler implementation to the file where we have the XIV allocation/reservation. Clock interrupt handling is moved to clock.c. IPI handling is moved to mp_machdep.c. o Drop support for the Intel 8259A because it was broken. When XIV 0 is received, the CPU should initiate an INTA cycle to obtain the interrupt vector of the 8259-based interrupt. In these cases the interrupt controller we should be talking to WRT to masking on signalling EOI is the 8259 and not the I/O SAPIC. This requires adriver for the Intel 8259A which isn't available for ia64. Thus stop pretending to support ExtINTs and instead panic() so that if we come across hardware that has an Intel 8259A, so have something real to work with. o With XIVs for IPIs dynamically allocatedi and also based on priority, define the IPI_* symbols as variables rather than constants. The variable holds the XIV allocated for the IPI. o IPI_STOP_HARD delivers a NMI if possible. Otherwise the XIV assigned to IPI_STOP is delivered.
2010-03-17 00:37:15 +00:00
#define IA64_NXIVS 256 /* External Interrupt Vectors */
#define IA64_MIN_XIV 16
#define IA64_MAX_HWPRIO 14
struct sapic;
Revamp the interrupt code based on the previous commit: o Introduce XIV, eXternal Interrupt Vector, to differentiate from the interrupts vectors that are offsets in the IVT (Interrupt Vector Table). There's a vector for external interrupts, which are based on the XIVs. o Keep track of allocated and reserved XIVs so that we can assign XIVs without hardcoding anything. When XIVs are allocated, an interrupt handler and a class is specified for the XIV. Classes are: 1. architecture-defined: XIV 15 is returned when no external interrupt are pending, 2. platform-defined: SAL reports which XIV is used to wakeup an AP (typically 0xFF, but it's 0x12 for the Altix 350). 3. inter-processor interrupts: allocated for SMP support and non-redirectable. 4. device interrupts (i.e. IRQs): allocated when devices are discovered and are redirectable. o Rewrite the central interrupt handler to call the per-XIV interrupt handler and rename it to ia64_handle_intr(). Move the per-XIV handler implementation to the file where we have the XIV allocation/reservation. Clock interrupt handling is moved to clock.c. IPI handling is moved to mp_machdep.c. o Drop support for the Intel 8259A because it was broken. When XIV 0 is received, the CPU should initiate an INTA cycle to obtain the interrupt vector of the 8259-based interrupt. In these cases the interrupt controller we should be talking to WRT to masking on signalling EOI is the 8259 and not the I/O SAPIC. This requires adriver for the Intel 8259A which isn't available for ia64. Thus stop pretending to support ExtINTs and instead panic() so that if we come across hardware that has an Intel 8259A, so have something real to work with. o With XIVs for IPIs dynamically allocatedi and also based on priority, define the IPI_* symbols as variables rather than constants. The variable holds the XIV allocated for the IPI. o IPI_STOP_HARD delivers a NMI if possible. Otherwise the XIV assigned to IPI_STOP is delivered.
2010-03-17 00:37:15 +00:00
struct thread;
struct trapframe;
/*
* Layout of the Processor Interrupt Block.
*/
struct ia64_pib
{
uint64_t ib_ipi[65536][2]; /* 64K-way IPIs (1MB area). */
uint8_t _rsvd1[0xe0000];
uint8_t ib_inta; /* Generate INTA cycle. */
uint8_t _rsvd2[7];
uint8_t ib_xtp; /* External Task Priority. */
uint8_t _rsvd3[7];
uint8_t _rsvd4[0x1fff0];
};
Revamp the interrupt code based on the previous commit: o Introduce XIV, eXternal Interrupt Vector, to differentiate from the interrupts vectors that are offsets in the IVT (Interrupt Vector Table). There's a vector for external interrupts, which are based on the XIVs. o Keep track of allocated and reserved XIVs so that we can assign XIVs without hardcoding anything. When XIVs are allocated, an interrupt handler and a class is specified for the XIV. Classes are: 1. architecture-defined: XIV 15 is returned when no external interrupt are pending, 2. platform-defined: SAL reports which XIV is used to wakeup an AP (typically 0xFF, but it's 0x12 for the Altix 350). 3. inter-processor interrupts: allocated for SMP support and non-redirectable. 4. device interrupts (i.e. IRQs): allocated when devices are discovered and are redirectable. o Rewrite the central interrupt handler to call the per-XIV interrupt handler and rename it to ia64_handle_intr(). Move the per-XIV handler implementation to the file where we have the XIV allocation/reservation. Clock interrupt handling is moved to clock.c. IPI handling is moved to mp_machdep.c. o Drop support for the Intel 8259A because it was broken. When XIV 0 is received, the CPU should initiate an INTA cycle to obtain the interrupt vector of the 8259-based interrupt. In these cases the interrupt controller we should be talking to WRT to masking on signalling EOI is the 8259 and not the I/O SAPIC. This requires adriver for the Intel 8259A which isn't available for ia64. Thus stop pretending to support ExtINTs and instead panic() so that if we come across hardware that has an Intel 8259A, so have something real to work with. o With XIVs for IPIs dynamically allocatedi and also based on priority, define the IPI_* symbols as variables rather than constants. The variable holds the XIV allocated for the IPI. o IPI_STOP_HARD delivers a NMI if possible. Otherwise the XIV assigned to IPI_STOP is delivered.
2010-03-17 00:37:15 +00:00
enum ia64_xiv_use {
IA64_XIV_FREE,
IA64_XIV_ARCH, /* Architecturally defined. */
IA64_XIV_PLAT, /* Platform defined. */
IA64_XIV_IPI, /* Used for IPIs. */
IA64_XIV_IRQ /* Used for external interrupts. */
};
typedef u_int (ia64_ihtype)(struct thread *, u_int, struct trapframe *);
extern struct ia64_pib *ia64_pib;
Revamp the interrupt code based on the previous commit: o Introduce XIV, eXternal Interrupt Vector, to differentiate from the interrupts vectors that are offsets in the IVT (Interrupt Vector Table). There's a vector for external interrupts, which are based on the XIVs. o Keep track of allocated and reserved XIVs so that we can assign XIVs without hardcoding anything. When XIVs are allocated, an interrupt handler and a class is specified for the XIV. Classes are: 1. architecture-defined: XIV 15 is returned when no external interrupt are pending, 2. platform-defined: SAL reports which XIV is used to wakeup an AP (typically 0xFF, but it's 0x12 for the Altix 350). 3. inter-processor interrupts: allocated for SMP support and non-redirectable. 4. device interrupts (i.e. IRQs): allocated when devices are discovered and are redirectable. o Rewrite the central interrupt handler to call the per-XIV interrupt handler and rename it to ia64_handle_intr(). Move the per-XIV handler implementation to the file where we have the XIV allocation/reservation. Clock interrupt handling is moved to clock.c. IPI handling is moved to mp_machdep.c. o Drop support for the Intel 8259A because it was broken. When XIV 0 is received, the CPU should initiate an INTA cycle to obtain the interrupt vector of the 8259-based interrupt. In these cases the interrupt controller we should be talking to WRT to masking on signalling EOI is the 8259 and not the I/O SAPIC. This requires adriver for the Intel 8259A which isn't available for ia64. Thus stop pretending to support ExtINTs and instead panic() so that if we come across hardware that has an Intel 8259A, so have something real to work with. o With XIVs for IPIs dynamically allocatedi and also based on priority, define the IPI_* symbols as variables rather than constants. The variable holds the XIV allocated for the IPI. o IPI_STOP_HARD delivers a NMI if possible. Otherwise the XIV assigned to IPI_STOP is delivered.
2010-03-17 00:37:15 +00:00
void ia64_handle_intr(struct trapframe *);
int ia64_setup_intr(const char *, int, driver_filter_t, driver_intr_t,
void *, enum intr_type, void **);
int ia64_teardown_intr(void *);
Revamp the interrupt code based on the previous commit: o Introduce XIV, eXternal Interrupt Vector, to differentiate from the interrupts vectors that are offsets in the IVT (Interrupt Vector Table). There's a vector for external interrupts, which are based on the XIVs. o Keep track of allocated and reserved XIVs so that we can assign XIVs without hardcoding anything. When XIVs are allocated, an interrupt handler and a class is specified for the XIV. Classes are: 1. architecture-defined: XIV 15 is returned when no external interrupt are pending, 2. platform-defined: SAL reports which XIV is used to wakeup an AP (typically 0xFF, but it's 0x12 for the Altix 350). 3. inter-processor interrupts: allocated for SMP support and non-redirectable. 4. device interrupts (i.e. IRQs): allocated when devices are discovered and are redirectable. o Rewrite the central interrupt handler to call the per-XIV interrupt handler and rename it to ia64_handle_intr(). Move the per-XIV handler implementation to the file where we have the XIV allocation/reservation. Clock interrupt handling is moved to clock.c. IPI handling is moved to mp_machdep.c. o Drop support for the Intel 8259A because it was broken. When XIV 0 is received, the CPU should initiate an INTA cycle to obtain the interrupt vector of the 8259-based interrupt. In these cases the interrupt controller we should be talking to WRT to masking on signalling EOI is the 8259 and not the I/O SAPIC. This requires adriver for the Intel 8259A which isn't available for ia64. Thus stop pretending to support ExtINTs and instead panic() so that if we come across hardware that has an Intel 8259A, so have something real to work with. o With XIVs for IPIs dynamically allocatedi and also based on priority, define the IPI_* symbols as variables rather than constants. The variable holds the XIV allocated for the IPI. o IPI_STOP_HARD delivers a NMI if possible. Otherwise the XIV assigned to IPI_STOP is delivered.
2010-03-17 00:37:15 +00:00
void ia64_xiv_init(void);
u_int ia64_xiv_alloc(u_int, enum ia64_xiv_use, ia64_ihtype);
int ia64_xiv_free(u_int, enum ia64_xiv_use);
int ia64_xiv_reserve(u_int, enum ia64_xiv_use, ia64_ihtype);
int sapic_config_intr(u_int, enum intr_trigger, enum intr_polarity);
struct sapic *sapic_create(u_int, u_int, uint64_t);
int sapic_enable(struct sapic *, u_int, u_int);
void sapic_eoi(struct sapic *, u_int);
struct sapic *sapic_lookup(u_int, u_int *);
void sapic_mask(struct sapic *, u_int);
void sapic_unmask(struct sapic *, u_int);
#ifdef DDB
void sapic_print(struct sapic *, u_int);
#endif
#endif /* !_MACHINE_INTR_H_ */