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1d506c26d9
This commit is the result of the following actions: - Running gdb/copyright.py to update all of the copyright headers to include 2024, - Manually updating a few files the copyright.py script told me to update, these files had copyright headers embedded within the file, - Regenerating gdbsupport/Makefile.in to refresh it's copyright date, - Using grep to find other files that still mentioned 2023. If these files were updated last year from 2022 to 2023 then I've updated them this year to 2024. I'm sure I've probably missed some dates. Feel free to fix them up as you spot them.
437 lines
10 KiB
C
437 lines
10 KiB
C
/* This file is part of the program GDB, the GNU debugger.
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Copyright (C) 1998-2024 Free Software Foundation, Inc.
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Contributed by Cygnus Solutions.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/* This must come before any other includes. */
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#include "defs.h"
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#include "sim-main.h"
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#include "sim-fpu.h"
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#include "sim-signal.h"
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#include "hw-main.h"
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#include "mn10300-sim.h"
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/* DEVICE
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mn103cpu - mn10300 cpu virtual device
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DESCRIPTION
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Implements the external mn10300 functionality. This includes the
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delivery of interrupts generated from other devices and the
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handling of device specific registers.
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PROPERTIES
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reg = <address> <size>
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Specify the address of the mn10300's control register block. This
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block contains the Interrupt Vector Registers.
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The reg property value `0x20000000 0x42' locates the register block
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at the address specified in the mn10300 user guide.
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PORTS
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reset (input)
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Currently ignored.
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nmi (input)
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Deliver a non-maskable interrupt to the processor.
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level (input)
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Maskable interrupt level port port. The interrupt controller
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notifies the processor of any change in the level of pending
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requested interrupts via this port.
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ack (output)
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Output signal indicating that the processor is delivering a level
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interrupt. The value passed with the event specifies the level of
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the interrupt being delivered.
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BUGS
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When delivering an interrupt, this code assumes that there is only
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one processor (number 0).
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This code does not attempt to be efficient at handling pending
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interrupts. It simply schedules the interrupt delivery handler
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every instruction cycle until all pending interrupts go away. An
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alternative implementation might modify instructions that change
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the PSW and have them check to see if the change makes an interrupt
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delivery possible.
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*/
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/* The interrupt vectors */
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enum { NR_VECTORS = 7, };
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/* The interrupt controller register address blocks */
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struct mn103cpu_block {
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unsigned_word base;
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unsigned_word bound;
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};
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struct mn103cpu {
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struct mn103cpu_block block;
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struct hw_event *pending_handler;
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int pending_level;
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int pending_nmi;
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int pending_reset;
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/* the visible registers */
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uint16_t interrupt_vector[NR_VECTORS];
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uint16_t internal_memory_control;
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uint16_t cpu_mode;
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};
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/* input port ID's */
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enum {
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RESET_PORT,
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NMI_PORT,
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LEVEL_PORT,
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};
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/* output port ID's */
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enum {
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ACK_PORT,
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};
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static const struct hw_port_descriptor mn103cpu_ports[] = {
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/* interrupt inputs */
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{ "reset", RESET_PORT, 0, input_port, },
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{ "nmi", NMI_PORT, 0, input_port, },
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{ "level", LEVEL_PORT, 0, input_port, },
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/* interrupt ack (latch) output from cpu */
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{ "ack", ACK_PORT, 0, output_port, },
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{ NULL, },
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};
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/* Finish off the partially created hw device. Attach our local
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callbacks. Wire up our port names etc */
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static hw_io_read_buffer_method mn103cpu_io_read_buffer;
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static hw_io_write_buffer_method mn103cpu_io_write_buffer;
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static hw_port_event_method mn103cpu_port_event;
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static void
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attach_mn103cpu_regs (struct hw *me,
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struct mn103cpu *controller)
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{
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unsigned_word attach_address;
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int attach_space;
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unsigned attach_size;
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reg_property_spec reg;
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if (hw_find_property (me, "reg") == NULL)
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hw_abort (me, "Missing \"reg\" property");
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if (!hw_find_reg_array_property (me, "reg", 0, ®))
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hw_abort (me, "\"reg\" property must contain three addr/size entries");
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hw_unit_address_to_attach_address (hw_parent (me),
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®.address,
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&attach_space,
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&attach_address,
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me);
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controller->block.base = attach_address;
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hw_unit_size_to_attach_size (hw_parent (me),
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®.size,
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&attach_size, me);
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controller->block.bound = attach_address + (attach_size - 1);
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if ((controller->block.base & 3) != 0)
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hw_abort (me, "cpu register block must be 4 byte aligned");
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hw_attach_address (hw_parent (me),
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0,
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attach_space, attach_address, attach_size,
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me);
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}
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static void
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mn103cpu_finish (struct hw *me)
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{
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struct mn103cpu *controller;
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controller = HW_ZALLOC (me, struct mn103cpu);
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set_hw_data (me, controller);
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set_hw_io_read_buffer (me, mn103cpu_io_read_buffer);
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set_hw_io_write_buffer (me, mn103cpu_io_write_buffer);
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set_hw_ports (me, mn103cpu_ports);
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set_hw_port_event (me, mn103cpu_port_event);
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/* Attach ourself to our parent bus */
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attach_mn103cpu_regs (me, controller);
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/* Initialize the read-only registers */
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controller->pending_level = 7; /* FIXME */
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/* ... */
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}
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/* An event arrives on an interrupt port */
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static void
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deliver_mn103cpu_interrupt (struct hw *me,
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void *data)
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{
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struct mn103cpu *controller = hw_data (me);
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SIM_DESC simulator = hw_system (me);
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sim_cpu *cpu = STATE_CPU (simulator, 0);
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if (controller->pending_reset)
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{
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controller->pending_reset = 0;
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/* need to clear all registers et.al! */
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HW_TRACE ((me, "Reset!"));
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hw_abort (me, "Reset!");
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}
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else if (controller->pending_nmi)
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{
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controller->pending_nmi = 0;
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store_word (SP - 4, CPU_PC_GET (cpu));
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store_half (SP - 8, PSW);
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PSW &= ~PSW_IE;
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SP = SP - 8;
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CPU_PC_SET (cpu, 0x40000008);
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HW_TRACE ((me, "nmi pc=0x%08lx psw=0x%04x sp=0x%08lx",
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(long) CPU_PC_GET (cpu), (unsigned) PSW, (long) SP));
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}
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else if ((controller->pending_level < EXTRACT_PSW_LM)
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&& (PSW & PSW_IE))
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{
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/* Don't clear pending level. Request continues to be pending
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until the interrupt controller clears/changes it */
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store_word (SP - 4, CPU_PC_GET (cpu));
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store_half (SP - 8, PSW);
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PSW &= ~PSW_IE;
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PSW &= ~PSW_LM;
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PSW |= INSERT_PSW_LM (controller->pending_level);
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SP = SP - 8;
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CPU_PC_SET (cpu, 0x40000000 + controller->interrupt_vector[controller->pending_level]);
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HW_TRACE ((me, "port-out ack %d", controller->pending_level));
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hw_port_event (me, ACK_PORT, controller->pending_level);
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HW_TRACE ((me, "int level=%d pc=0x%08lx psw=0x%04x sp=0x%08lx",
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controller->pending_level,
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(long) CPU_PC_GET (cpu), (unsigned) PSW, (long) SP));
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}
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if (controller->pending_level < 7) /* FIXME */
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{
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/* As long as there is the potential need to deliver an
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interrupt we keep rescheduling this routine. */
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if (controller->pending_handler != NULL)
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controller->pending_handler =
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hw_event_queue_schedule (me, 1, deliver_mn103cpu_interrupt, NULL);
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}
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else
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{
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/* Don't bother re-scheduling the interrupt handler as there is
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nothing to deliver */
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controller->pending_handler = NULL;
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}
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}
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static void
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mn103cpu_port_event (struct hw *me,
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int my_port,
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struct hw *source,
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int source_port,
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int level)
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{
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struct mn103cpu *controller = hw_data (me);
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/* Schedule our event handler *now* */
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if (controller->pending_handler == NULL)
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controller->pending_handler =
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hw_event_queue_schedule (me, 0, deliver_mn103cpu_interrupt, NULL);
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switch (my_port)
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{
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case RESET_PORT:
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controller->pending_reset = 1;
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HW_TRACE ((me, "port-in reset"));
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break;
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case NMI_PORT:
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controller->pending_nmi = 1;
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HW_TRACE ((me, "port-in nmi"));
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break;
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case LEVEL_PORT:
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controller->pending_level = level;
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HW_TRACE ((me, "port-in level=%d", level));
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break;
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default:
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hw_abort (me, "bad switch");
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break;
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}
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}
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/* Read/write to a CPU register */
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enum mn103cpu_regs {
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INVALID_REG,
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IVR0_REG,
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IVR1_REG,
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IVR2_REG,
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IVR3_REG,
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IVR4_REG,
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IVR5_REG,
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IVR6_REG,
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IMCR_REG,
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CPUM_REG,
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};
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static enum mn103cpu_regs
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decode_mn103cpu_addr (struct hw *me,
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struct mn103cpu *controller,
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unsigned_word base)
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{
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switch (base - controller->block.base)
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{
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case 0x000: return IVR0_REG;
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case 0x004: return IVR1_REG;
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case 0x008: return IVR2_REG;
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case 0x00c: return IVR3_REG;
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case 0x010: return IVR4_REG;
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case 0x014: return IVR5_REG;
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case 0x018: return IVR6_REG;
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case 0x020: return IMCR_REG;
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case 0x040: return CPUM_REG;
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default: return INVALID_REG;
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}
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}
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static unsigned
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mn103cpu_io_read_buffer (struct hw *me,
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void *dest,
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int space,
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unsigned_word base,
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unsigned nr_bytes)
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{
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struct mn103cpu *controller = hw_data (me);
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uint16_t val = 0;
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enum mn103cpu_regs reg = decode_mn103cpu_addr (me, controller, base);
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switch (reg)
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{
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case IVR0_REG:
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case IVR1_REG:
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case IVR2_REG:
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case IVR3_REG:
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case IVR4_REG:
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case IVR5_REG:
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case IVR6_REG:
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val = controller->interrupt_vector[reg - IVR0_REG];
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break;
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case IMCR_REG:
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val = controller->internal_memory_control;
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break;
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case CPUM_REG:
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val = controller->cpu_mode;
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break;
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default:
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/* just ignore the read */
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break;
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}
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if (nr_bytes == 2)
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*(uint16_t*) dest = H2LE_2 (val);
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return nr_bytes;
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}
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static unsigned
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mn103cpu_io_write_buffer (struct hw *me,
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const void *source,
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int space,
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unsigned_word base,
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unsigned nr_bytes)
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{
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struct mn103cpu *controller = hw_data (me);
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uint16_t val;
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enum mn103cpu_regs reg;
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if (nr_bytes != 2)
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hw_abort (me, "must be two byte write");
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reg = decode_mn103cpu_addr (me, controller, base);
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val = LE2H_2 (* (uint16_t *) source);
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switch (reg)
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{
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case IVR0_REG:
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case IVR1_REG:
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case IVR2_REG:
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case IVR3_REG:
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case IVR4_REG:
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case IVR5_REG:
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case IVR6_REG:
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controller->interrupt_vector[reg - IVR0_REG] = val;
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HW_TRACE ((me, "ivr%d = 0x%04lx", reg - IVR0_REG, (long) val));
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break;
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default:
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/* just ignore the write */
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break;
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}
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return nr_bytes;
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}
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const struct hw_descriptor dv_mn103cpu_descriptor[] = {
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{ "mn103cpu", mn103cpu_finish, },
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{ NULL },
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};
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