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[/] [or1k/] [trunk/] [insight/] [sim/] [ppc/] [interrupts.h] - Rev 1771
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/* This file is part of the program psim. Copyright (C) 1994-1995, Andrew Cagney <cagney@highland.com.au> This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #ifndef _INTERRUPTS_H_ #define _INTERRUPTS_H_ /* Interrupts: The code below handles two different types of interrupts. Synchronous and Asynchronous. Synchronous: Interrupts that must immediately force either an abort or restart of a current instruction are implemented by forcing an instruction restart. (or to put it another way, long jump). In looking at the code it may occure to you that, for some interrupts, they could return instead of restarting the cpu (eg system_call). While true (it once was like that) I've decided to make the behavour of all interrupt routines roughly identical. Because, a cpu's recorded state (ie what is in the cpu structure) is allowed to lag behind the cpu's true current state (eg PC not updated) sycnronous interrupt handers are parameterized with the the cpu being interrupted so that, as part of moddeling the interrupt, the cpu's state can be updated. Asynchronous: Interrupts such as reset or external exception are delivered using more normal (returning) functions. It is assumed that these functions are called out side of the normal processor execution cycle. */ /* Software generated interrupts. The below are generated by software driven events. For instance, an invalid instruction or access (virtual or physical) to an invalid address */ typedef enum { direct_store_storage_interrupt, hash_table_miss_storage_interrupt, protection_violation_storage_interrupt, earwax_violation_storage_interrupt, segment_table_miss_storage_interrupt, earwax_disabled_storage_interrupt, vea_storage_interrupt, } storage_interrupt_reasons; INLINE_INTERRUPTS\ (void) data_storage_interrupt (cpu *processor, unsigned_word cia, unsigned_word ea, storage_interrupt_reasons reason, int is_store); INLINE_INTERRUPTS\ (void) instruction_storage_interrupt (cpu *processor, unsigned_word cia, storage_interrupt_reasons reason); INLINE_INTERRUPTS\ (void) alignment_interrupt (cpu *processor, unsigned_word cia, unsigned_word ra); typedef enum { floating_point_enabled_program_interrupt, illegal_instruction_program_interrupt, privileged_instruction_program_interrupt, trap_program_interrupt, optional_instruction_program_interrupt, /* subset of illegal instruction */ mpc860c0_instruction_program_interrupt, /* fwd br, taken but not predicted, near EO page */ nr_program_interrupt_reasons } program_interrupt_reasons; INLINE_INTERRUPTS\ (void) program_interrupt (cpu *processor, unsigned_word cia, program_interrupt_reasons reason); INLINE_INTERRUPTS\ (void) floating_point_unavailable_interrupt (cpu *processor, unsigned_word cia); INLINE_INTERRUPTS\ (void) system_call_interrupt (cpu *processor, unsigned_word cia); INLINE_INTERRUPTS\ (void) floating_point_assist_interrupt (cpu *processor, unsigned_word cia); INLINE_INTERRUPTS\ (void) machine_check_interrupt (cpu *processor, unsigned_word cia); /* Hardware generated interrupts: These asynchronous hardware generated interrupts may be called at any time. It is the responsibility of this (the interrupts) module to ensure that interrupts are delivered correctly (when possible). The delivery of these interrupts is controlled by the MSR's external interrupt enable bit. When ever the MSR's value is changed, the processor must call the check_masked_interrupts() function in case delivery has been made possible. decrementer_interrupt is `edge' sensitive. Multiple edges arriving before the first edge has been delivered result in only one interrupt. external_interrupt is `level' sensitive. An external interrupt will only be delivered when the external interrupt port is `asserted'. While interrupts are disabled, the external interrupt can be asserted and then de-asserted without an interrupt eventually being delivered. */ enum { external_interrupt_pending = 1, decrementer_interrupt_pending = 2, }; typedef struct _interrupts { event_entry_tag delivery_scheduled; int pending_interrupts; } interrupts; INLINE_INTERRUPTS\ (void) check_masked_interrupts (cpu *processor); INLINE_INTERRUPTS\ (void) decrementer_interrupt (cpu *processor); INLINE_INTERRUPTS\ (void) external_interrupt (cpu *processor, int is_asserted); #endif /* _INTERRUPTS_H_ */
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