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/*
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* ARM Generic/Distributed Interrupt Controller
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*
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* Copyright (c) 2006-2007 CodeSourcery.
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* Written by Paul Brook
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*
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* This code is licenced under the GPL.
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*/
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/* This file contains implementation code for the RealView EB interrupt
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controller, MPCore distributed interrupt controller and ARMv7-M
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Nested Vectored Interrupt Controller. */
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//#define DEBUG_GIC
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#ifdef DEBUG_GIC
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#define DPRINTF(fmt, ...) \
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do { printf("arm_gic: " fmt , ## __VA_ARGS__); } while (0) |
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#else
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#define DPRINTF(fmt, ...) do {} while(0) |
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#endif
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#ifdef NVIC
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static const uint8_t gic_id[] = |
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{ 0x00, 0xb0, 0x1b, 0x00, 0x0d, 0xe0, 0x05, 0xb1 }; |
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/* The NVIC has 16 internal vectors. However these are not exposed
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through the normal GIC interface. */
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#define GIC_BASE_IRQ 32 |
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#else
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static const uint8_t gic_id[] = |
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{ 0x90, 0x13, 0x04, 0x00, 0x0d, 0xf0, 0x05, 0xb1 }; |
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#define GIC_BASE_IRQ 0 |
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#endif
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#define FROM_SYSBUSGIC(type, dev) \
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DO_UPCAST(type, gic, FROM_SYSBUS(gic_state, dev)) |
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typedef struct gic_irq_state |
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{ |
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/* ??? The documentation seems to imply the enable bits are global, even
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for per-cpu interrupts. This seems strange. */
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unsigned enabled:1; |
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unsigned pending:NCPU;
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unsigned active:NCPU;
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unsigned level:NCPU;
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unsigned model:1; /* 0 = N:N, 1 = 1:N */ |
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unsigned trigger:1; /* nonzero = edge triggered. */ |
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} gic_irq_state; |
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#define ALL_CPU_MASK ((1 << NCPU) - 1) |
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#define GIC_SET_ENABLED(irq) s->irq_state[irq].enabled = 1 |
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#define GIC_CLEAR_ENABLED(irq) s->irq_state[irq].enabled = 0 |
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#define GIC_TEST_ENABLED(irq) s->irq_state[irq].enabled
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#define GIC_SET_PENDING(irq, cm) s->irq_state[irq].pending |= (cm)
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#define GIC_CLEAR_PENDING(irq, cm) s->irq_state[irq].pending &= ~(cm)
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#define GIC_TEST_PENDING(irq, cm) ((s->irq_state[irq].pending & (cm)) != 0) |
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#define GIC_SET_ACTIVE(irq, cm) s->irq_state[irq].active |= (cm)
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#define GIC_CLEAR_ACTIVE(irq, cm) s->irq_state[irq].active &= ~(cm)
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#define GIC_TEST_ACTIVE(irq, cm) ((s->irq_state[irq].active & (cm)) != 0) |
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#define GIC_SET_MODEL(irq) s->irq_state[irq].model = 1 |
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#define GIC_CLEAR_MODEL(irq) s->irq_state[irq].model = 0 |
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#define GIC_TEST_MODEL(irq) s->irq_state[irq].model
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#define GIC_SET_LEVEL(irq, cm) s->irq_state[irq].level = (cm)
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#define GIC_CLEAR_LEVEL(irq, cm) s->irq_state[irq].level &= ~(cm)
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#define GIC_TEST_LEVEL(irq, cm) ((s->irq_state[irq].level & (cm)) != 0) |
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#define GIC_SET_TRIGGER(irq) s->irq_state[irq].trigger = 1 |
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#define GIC_CLEAR_TRIGGER(irq) s->irq_state[irq].trigger = 0 |
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#define GIC_TEST_TRIGGER(irq) s->irq_state[irq].trigger
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#define GIC_GET_PRIORITY(irq, cpu) \
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(((irq) < 32) ? s->priority1[irq][cpu] : s->priority2[(irq) - 32]) |
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#ifdef NVIC
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#define GIC_TARGET(irq) 1 |
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#else
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#define GIC_TARGET(irq) s->irq_target[irq]
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#endif
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typedef struct gic_state |
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{ |
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SysBusDevice busdev; |
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qemu_irq parent_irq[NCPU]; |
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int enabled;
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int cpu_enabled[NCPU];
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|
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gic_irq_state irq_state[GIC_NIRQ]; |
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#ifndef NVIC
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int irq_target[GIC_NIRQ];
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#endif
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int priority1[32][NCPU]; |
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int priority2[GIC_NIRQ - 32]; |
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int last_active[GIC_NIRQ][NCPU];
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int priority_mask[NCPU];
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int running_irq[NCPU];
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int running_priority[NCPU];
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int current_pending[NCPU];
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int iomemtype;
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} gic_state; |
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/* TODO: Many places that call this routine could be optimized. */
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/* Update interrupt status after enabled or pending bits have been changed. */
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static void gic_update(gic_state *s) |
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{ |
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int best_irq;
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int best_prio;
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int irq;
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int level;
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int cpu;
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int cm;
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|
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for (cpu = 0; cpu < NCPU; cpu++) { |
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cm = 1 << cpu;
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s->current_pending[cpu] = 1023;
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if (!s->enabled || !s->cpu_enabled[cpu]) {
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qemu_irq_lower(s->parent_irq[cpu]); |
117 |
return;
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} |
119 |
best_prio = 0x100;
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best_irq = 1023;
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for (irq = 0; irq < GIC_NIRQ; irq++) { |
122 |
if (GIC_TEST_ENABLED(irq) && GIC_TEST_PENDING(irq, cm)) {
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if (GIC_GET_PRIORITY(irq, cpu) < best_prio) {
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best_prio = GIC_GET_PRIORITY(irq, cpu); |
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best_irq = irq; |
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} |
127 |
} |
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} |
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level = 0;
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if (best_prio <= s->priority_mask[cpu]) {
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s->current_pending[cpu] = best_irq; |
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if (best_prio < s->running_priority[cpu]) {
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DPRINTF("Raised pending IRQ %d\n", best_irq);
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level = 1;
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} |
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} |
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qemu_set_irq(s->parent_irq[cpu], level); |
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} |
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} |
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static void __attribute__((unused)) |
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gic_set_pending_private(gic_state *s, int cpu, int irq) |
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{ |
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int cm = 1 << cpu; |
145 |
|
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if (GIC_TEST_PENDING(irq, cm))
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return;
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DPRINTF("Set %d pending cpu %d\n", irq, cpu);
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GIC_SET_PENDING(irq, cm); |
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gic_update(s); |
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} |
153 |
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/* Process a change in an external IRQ input. */
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static void gic_set_irq(void *opaque, int irq, int level) |
156 |
{ |
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gic_state *s = (gic_state *)opaque; |
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/* The first external input line is internal interrupt 32. */
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irq += 32;
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if (level == GIC_TEST_LEVEL(irq, ALL_CPU_MASK))
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return;
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if (level) {
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GIC_SET_LEVEL(irq, ALL_CPU_MASK); |
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if (GIC_TEST_TRIGGER(irq) || GIC_TEST_ENABLED(irq)) {
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DPRINTF("Set %d pending mask %x\n", irq, GIC_TARGET(irq));
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GIC_SET_PENDING(irq, GIC_TARGET(irq)); |
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} |
169 |
} else {
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GIC_CLEAR_LEVEL(irq, ALL_CPU_MASK); |
171 |
} |
172 |
gic_update(s); |
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} |
174 |
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static void gic_set_running_irq(gic_state *s, int cpu, int irq) |
176 |
{ |
177 |
s->running_irq[cpu] = irq; |
178 |
if (irq == 1023) { |
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s->running_priority[cpu] = 0x100;
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} else {
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s->running_priority[cpu] = GIC_GET_PRIORITY(irq, cpu); |
182 |
} |
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gic_update(s); |
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} |
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static uint32_t gic_acknowledge_irq(gic_state *s, int cpu) |
187 |
{ |
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int new_irq;
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int cm = 1 << cpu; |
190 |
new_irq = s->current_pending[cpu]; |
191 |
if (new_irq == 1023 |
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|| GIC_GET_PRIORITY(new_irq, cpu) >= s->running_priority[cpu]) { |
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DPRINTF("ACK no pending IRQ\n");
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return 1023; |
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} |
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s->last_active[new_irq][cpu] = s->running_irq[cpu]; |
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/* Clear pending flags for both level and edge triggered interrupts.
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Level triggered IRQs will be reasserted once they become inactive. */
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GIC_CLEAR_PENDING(new_irq, GIC_TEST_MODEL(new_irq) ? ALL_CPU_MASK : cm); |
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gic_set_running_irq(s, cpu, new_irq); |
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DPRINTF("ACK %d\n", new_irq);
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return new_irq;
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} |
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static void gic_complete_irq(gic_state * s, int cpu, int irq) |
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{ |
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int update = 0; |
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int cm = 1 << cpu; |
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DPRINTF("EOI %d\n", irq);
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if (s->running_irq[cpu] == 1023) |
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return; /* No active IRQ. */ |
212 |
if (irq != 1023) { |
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/* Mark level triggered interrupts as pending if they are still
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raised. */
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if (!GIC_TEST_TRIGGER(irq) && GIC_TEST_ENABLED(irq)
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&& GIC_TEST_LEVEL(irq, cm) && (GIC_TARGET(irq) & cm) != 0) {
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DPRINTF("Set %d pending mask %x\n", irq, cm);
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GIC_SET_PENDING(irq, cm); |
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update = 1;
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} |
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} |
222 |
if (irq != s->running_irq[cpu]) {
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/* Complete an IRQ that is not currently running. */
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int tmp = s->running_irq[cpu];
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while (s->last_active[tmp][cpu] != 1023) { |
226 |
if (s->last_active[tmp][cpu] == irq) {
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s->last_active[tmp][cpu] = s->last_active[irq][cpu]; |
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break;
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} |
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tmp = s->last_active[tmp][cpu]; |
231 |
} |
232 |
if (update) {
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gic_update(s); |
234 |
} |
235 |
} else {
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/* Complete the current running IRQ. */
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gic_set_running_irq(s, cpu, s->last_active[s->running_irq[cpu]][cpu]); |
238 |
} |
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} |
240 |
|
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static uint32_t gic_dist_readb(void *opaque, target_phys_addr_t offset) |
242 |
{ |
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gic_state *s = (gic_state *)opaque; |
244 |
uint32_t res; |
245 |
int irq;
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int i;
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int cpu;
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int cm;
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int mask;
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|
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cpu = gic_get_current_cpu(); |
252 |
cm = 1 << cpu;
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if (offset < 0x100) { |
254 |
#ifndef NVIC
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if (offset == 0) |
256 |
return s->enabled;
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if (offset == 4) |
258 |
return ((GIC_NIRQ / 32) - 1) | ((NCPU - 1) << 5); |
259 |
if (offset < 0x08) |
260 |
return 0; |
261 |
#endif
|
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goto bad_reg;
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263 |
} else if (offset < 0x200) { |
264 |
/* Interrupt Set/Clear Enable. */
|
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if (offset < 0x180) |
266 |
irq = (offset - 0x100) * 8; |
267 |
else
|
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irq = (offset - 0x180) * 8; |
269 |
irq += GIC_BASE_IRQ; |
270 |
if (irq >= GIC_NIRQ)
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goto bad_reg;
|
272 |
res = 0;
|
273 |
for (i = 0; i < 8; i++) { |
274 |
if (GIC_TEST_ENABLED(irq + i)) {
|
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res |= (1 << i);
|
276 |
} |
277 |
} |
278 |
} else if (offset < 0x300) { |
279 |
/* Interrupt Set/Clear Pending. */
|
280 |
if (offset < 0x280) |
281 |
irq = (offset - 0x200) * 8; |
282 |
else
|
283 |
irq = (offset - 0x280) * 8; |
284 |
irq += GIC_BASE_IRQ; |
285 |
if (irq >= GIC_NIRQ)
|
286 |
goto bad_reg;
|
287 |
res = 0;
|
288 |
mask = (irq < 32) ? cm : ALL_CPU_MASK;
|
289 |
for (i = 0; i < 8; i++) { |
290 |
if (GIC_TEST_PENDING(irq + i, mask)) {
|
291 |
res |= (1 << i);
|
292 |
} |
293 |
} |
294 |
} else if (offset < 0x400) { |
295 |
/* Interrupt Active. */
|
296 |
irq = (offset - 0x300) * 8 + GIC_BASE_IRQ; |
297 |
if (irq >= GIC_NIRQ)
|
298 |
goto bad_reg;
|
299 |
res = 0;
|
300 |
mask = (irq < 32) ? cm : ALL_CPU_MASK;
|
301 |
for (i = 0; i < 8; i++) { |
302 |
if (GIC_TEST_ACTIVE(irq + i, mask)) {
|
303 |
res |= (1 << i);
|
304 |
} |
305 |
} |
306 |
} else if (offset < 0x800) { |
307 |
/* Interrupt Priority. */
|
308 |
irq = (offset - 0x400) + GIC_BASE_IRQ;
|
309 |
if (irq >= GIC_NIRQ)
|
310 |
goto bad_reg;
|
311 |
res = GIC_GET_PRIORITY(irq, cpu); |
312 |
#ifndef NVIC
|
313 |
} else if (offset < 0xc00) { |
314 |
/* Interrupt CPU Target. */
|
315 |
irq = (offset - 0x800) + GIC_BASE_IRQ;
|
316 |
if (irq >= GIC_NIRQ)
|
317 |
goto bad_reg;
|
318 |
if (irq >= 29 && irq <= 31) { |
319 |
res = cm; |
320 |
} else {
|
321 |
res = GIC_TARGET(irq); |
322 |
} |
323 |
} else if (offset < 0xf00) { |
324 |
/* Interrupt Configuration. */
|
325 |
irq = (offset - 0xc00) * 2 + GIC_BASE_IRQ; |
326 |
if (irq >= GIC_NIRQ)
|
327 |
goto bad_reg;
|
328 |
res = 0;
|
329 |
for (i = 0; i < 4; i++) { |
330 |
if (GIC_TEST_MODEL(irq + i))
|
331 |
res |= (1 << (i * 2)); |
332 |
if (GIC_TEST_TRIGGER(irq + i))
|
333 |
res |= (2 << (i * 2)); |
334 |
} |
335 |
#endif
|
336 |
} else if (offset < 0xfe0) { |
337 |
goto bad_reg;
|
338 |
} else /* offset >= 0xfe0 */ { |
339 |
if (offset & 3) { |
340 |
res = 0;
|
341 |
} else {
|
342 |
res = gic_id[(offset - 0xfe0) >> 2]; |
343 |
} |
344 |
} |
345 |
return res;
|
346 |
bad_reg:
|
347 |
hw_error("gic_dist_readb: Bad offset %x\n", (int)offset); |
348 |
return 0; |
349 |
} |
350 |
|
351 |
static uint32_t gic_dist_readw(void *opaque, target_phys_addr_t offset) |
352 |
{ |
353 |
uint32_t val; |
354 |
val = gic_dist_readb(opaque, offset); |
355 |
val |= gic_dist_readb(opaque, offset + 1) << 8; |
356 |
return val;
|
357 |
} |
358 |
|
359 |
static uint32_t gic_dist_readl(void *opaque, target_phys_addr_t offset) |
360 |
{ |
361 |
uint32_t val; |
362 |
#ifdef NVIC
|
363 |
gic_state *s = (gic_state *)opaque; |
364 |
uint32_t addr; |
365 |
addr = offset; |
366 |
if (addr < 0x100 || addr > 0xd00) |
367 |
return nvic_readl(s, addr);
|
368 |
#endif
|
369 |
val = gic_dist_readw(opaque, offset); |
370 |
val |= gic_dist_readw(opaque, offset + 2) << 16; |
371 |
return val;
|
372 |
} |
373 |
|
374 |
static void gic_dist_writeb(void *opaque, target_phys_addr_t offset, |
375 |
uint32_t value) |
376 |
{ |
377 |
gic_state *s = (gic_state *)opaque; |
378 |
int irq;
|
379 |
int i;
|
380 |
int cpu;
|
381 |
|
382 |
cpu = gic_get_current_cpu(); |
383 |
if (offset < 0x100) { |
384 |
#ifdef NVIC
|
385 |
goto bad_reg;
|
386 |
#else
|
387 |
if (offset == 0) { |
388 |
s->enabled = (value & 1);
|
389 |
DPRINTF("Distribution %sabled\n", s->enabled ? "En" : "Dis"); |
390 |
} else if (offset < 4) { |
391 |
/* ignored. */
|
392 |
} else {
|
393 |
goto bad_reg;
|
394 |
} |
395 |
#endif
|
396 |
} else if (offset < 0x180) { |
397 |
/* Interrupt Set Enable. */
|
398 |
irq = (offset - 0x100) * 8 + GIC_BASE_IRQ; |
399 |
if (irq >= GIC_NIRQ)
|
400 |
goto bad_reg;
|
401 |
if (irq < 16) |
402 |
value = 0xff;
|
403 |
for (i = 0; i < 8; i++) { |
404 |
if (value & (1 << i)) { |
405 |
int mask = (irq < 32) ? (1 << cpu) : GIC_TARGET(irq); |
406 |
if (!GIC_TEST_ENABLED(irq + i))
|
407 |
DPRINTF("Enabled IRQ %d\n", irq + i);
|
408 |
GIC_SET_ENABLED(irq + i); |
409 |
/* If a raised level triggered IRQ enabled then mark
|
410 |
is as pending. */
|
411 |
if (GIC_TEST_LEVEL(irq + i, mask)
|
412 |
&& !GIC_TEST_TRIGGER(irq + i)) { |
413 |
DPRINTF("Set %d pending mask %x\n", irq + i, mask);
|
414 |
GIC_SET_PENDING(irq + i, mask); |
415 |
} |
416 |
} |
417 |
} |
418 |
} else if (offset < 0x200) { |
419 |
/* Interrupt Clear Enable. */
|
420 |
irq = (offset - 0x180) * 8 + GIC_BASE_IRQ; |
421 |
if (irq >= GIC_NIRQ)
|
422 |
goto bad_reg;
|
423 |
if (irq < 16) |
424 |
value = 0;
|
425 |
for (i = 0; i < 8; i++) { |
426 |
if (value & (1 << i)) { |
427 |
if (GIC_TEST_ENABLED(irq + i))
|
428 |
DPRINTF("Disabled IRQ %d\n", irq + i);
|
429 |
GIC_CLEAR_ENABLED(irq + i); |
430 |
} |
431 |
} |
432 |
} else if (offset < 0x280) { |
433 |
/* Interrupt Set Pending. */
|
434 |
irq = (offset - 0x200) * 8 + GIC_BASE_IRQ; |
435 |
if (irq >= GIC_NIRQ)
|
436 |
goto bad_reg;
|
437 |
if (irq < 16) |
438 |
irq = 0;
|
439 |
|
440 |
for (i = 0; i < 8; i++) { |
441 |
if (value & (1 << i)) { |
442 |
GIC_SET_PENDING(irq + i, GIC_TARGET(irq)); |
443 |
} |
444 |
} |
445 |
} else if (offset < 0x300) { |
446 |
/* Interrupt Clear Pending. */
|
447 |
irq = (offset - 0x280) * 8 + GIC_BASE_IRQ; |
448 |
if (irq >= GIC_NIRQ)
|
449 |
goto bad_reg;
|
450 |
for (i = 0; i < 8; i++) { |
451 |
/* ??? This currently clears the pending bit for all CPUs, even
|
452 |
for per-CPU interrupts. It's unclear whether this is the
|
453 |
corect behavior. */
|
454 |
if (value & (1 << i)) { |
455 |
GIC_CLEAR_PENDING(irq + i, ALL_CPU_MASK); |
456 |
} |
457 |
} |
458 |
} else if (offset < 0x400) { |
459 |
/* Interrupt Active. */
|
460 |
goto bad_reg;
|
461 |
} else if (offset < 0x800) { |
462 |
/* Interrupt Priority. */
|
463 |
irq = (offset - 0x400) + GIC_BASE_IRQ;
|
464 |
if (irq >= GIC_NIRQ)
|
465 |
goto bad_reg;
|
466 |
if (irq < 32) { |
467 |
s->priority1[irq][cpu] = value; |
468 |
} else {
|
469 |
s->priority2[irq - 32] = value;
|
470 |
} |
471 |
#ifndef NVIC
|
472 |
} else if (offset < 0xc00) { |
473 |
/* Interrupt CPU Target. */
|
474 |
irq = (offset - 0x800) + GIC_BASE_IRQ;
|
475 |
if (irq >= GIC_NIRQ)
|
476 |
goto bad_reg;
|
477 |
if (irq < 29) |
478 |
value = 0;
|
479 |
else if (irq < 32) |
480 |
value = ALL_CPU_MASK; |
481 |
s->irq_target[irq] = value & ALL_CPU_MASK; |
482 |
} else if (offset < 0xf00) { |
483 |
/* Interrupt Configuration. */
|
484 |
irq = (offset - 0xc00) * 4 + GIC_BASE_IRQ; |
485 |
if (irq >= GIC_NIRQ)
|
486 |
goto bad_reg;
|
487 |
if (irq < 32) |
488 |
value |= 0xaa;
|
489 |
for (i = 0; i < 4; i++) { |
490 |
if (value & (1 << (i * 2))) { |
491 |
GIC_SET_MODEL(irq + i); |
492 |
} else {
|
493 |
GIC_CLEAR_MODEL(irq + i); |
494 |
} |
495 |
if (value & (2 << (i * 2))) { |
496 |
GIC_SET_TRIGGER(irq + i); |
497 |
} else {
|
498 |
GIC_CLEAR_TRIGGER(irq + i); |
499 |
} |
500 |
} |
501 |
#endif
|
502 |
} else {
|
503 |
/* 0xf00 is only handled for 32-bit writes. */
|
504 |
goto bad_reg;
|
505 |
} |
506 |
gic_update(s); |
507 |
return;
|
508 |
bad_reg:
|
509 |
hw_error("gic_dist_writeb: Bad offset %x\n", (int)offset); |
510 |
} |
511 |
|
512 |
static void gic_dist_writew(void *opaque, target_phys_addr_t offset, |
513 |
uint32_t value) |
514 |
{ |
515 |
gic_dist_writeb(opaque, offset, value & 0xff);
|
516 |
gic_dist_writeb(opaque, offset + 1, value >> 8); |
517 |
} |
518 |
|
519 |
static void gic_dist_writel(void *opaque, target_phys_addr_t offset, |
520 |
uint32_t value) |
521 |
{ |
522 |
gic_state *s = (gic_state *)opaque; |
523 |
#ifdef NVIC
|
524 |
uint32_t addr; |
525 |
addr = offset; |
526 |
if (addr < 0x100 || (addr > 0xd00 && addr != 0xf00)) { |
527 |
nvic_writel(s, addr, value); |
528 |
return;
|
529 |
} |
530 |
#endif
|
531 |
if (offset == 0xf00) { |
532 |
int cpu;
|
533 |
int irq;
|
534 |
int mask;
|
535 |
|
536 |
cpu = gic_get_current_cpu(); |
537 |
irq = value & 0x3ff;
|
538 |
switch ((value >> 24) & 3) { |
539 |
case 0: |
540 |
mask = (value >> 16) & ALL_CPU_MASK;
|
541 |
break;
|
542 |
case 1: |
543 |
mask = 1 << cpu;
|
544 |
break;
|
545 |
case 2: |
546 |
mask = ALL_CPU_MASK ^ (1 << cpu);
|
547 |
break;
|
548 |
default:
|
549 |
DPRINTF("Bad Soft Int target filter\n");
|
550 |
mask = ALL_CPU_MASK; |
551 |
break;
|
552 |
} |
553 |
GIC_SET_PENDING(irq, mask); |
554 |
gic_update(s); |
555 |
return;
|
556 |
} |
557 |
gic_dist_writew(opaque, offset, value & 0xffff);
|
558 |
gic_dist_writew(opaque, offset + 2, value >> 16); |
559 |
} |
560 |
|
561 |
static CPUReadMemoryFunc * const gic_dist_readfn[] = { |
562 |
gic_dist_readb, |
563 |
gic_dist_readw, |
564 |
gic_dist_readl |
565 |
}; |
566 |
|
567 |
static CPUWriteMemoryFunc * const gic_dist_writefn[] = { |
568 |
gic_dist_writeb, |
569 |
gic_dist_writew, |
570 |
gic_dist_writel |
571 |
}; |
572 |
|
573 |
#ifndef NVIC
|
574 |
static uint32_t gic_cpu_read(gic_state *s, int cpu, int offset) |
575 |
{ |
576 |
switch (offset) {
|
577 |
case 0x00: /* Control */ |
578 |
return s->cpu_enabled[cpu];
|
579 |
case 0x04: /* Priority mask */ |
580 |
return s->priority_mask[cpu];
|
581 |
case 0x08: /* Binary Point */ |
582 |
/* ??? Not implemented. */
|
583 |
return 0; |
584 |
case 0x0c: /* Acknowledge */ |
585 |
return gic_acknowledge_irq(s, cpu);
|
586 |
case 0x14: /* Runing Priority */ |
587 |
return s->running_priority[cpu];
|
588 |
case 0x18: /* Highest Pending Interrupt */ |
589 |
return s->current_pending[cpu];
|
590 |
default:
|
591 |
hw_error("gic_cpu_read: Bad offset %x\n", (int)offset); |
592 |
return 0; |
593 |
} |
594 |
} |
595 |
|
596 |
static void gic_cpu_write(gic_state *s, int cpu, int offset, uint32_t value) |
597 |
{ |
598 |
switch (offset) {
|
599 |
case 0x00: /* Control */ |
600 |
s->cpu_enabled[cpu] = (value & 1);
|
601 |
DPRINTF("CPU %sabled\n", s->cpu_enabled ? "En" : "Dis"); |
602 |
break;
|
603 |
case 0x04: /* Priority mask */ |
604 |
s->priority_mask[cpu] = (value & 0xff);
|
605 |
break;
|
606 |
case 0x08: /* Binary Point */ |
607 |
/* ??? Not implemented. */
|
608 |
break;
|
609 |
case 0x10: /* End Of Interrupt */ |
610 |
return gic_complete_irq(s, cpu, value & 0x3ff); |
611 |
default:
|
612 |
hw_error("gic_cpu_write: Bad offset %x\n", (int)offset); |
613 |
return;
|
614 |
} |
615 |
gic_update(s); |
616 |
} |
617 |
#endif
|
618 |
|
619 |
static void gic_reset(gic_state *s) |
620 |
{ |
621 |
int i;
|
622 |
memset(s->irq_state, 0, GIC_NIRQ * sizeof(gic_irq_state)); |
623 |
for (i = 0 ; i < NCPU; i++) { |
624 |
s->priority_mask[i] = 0xf0;
|
625 |
s->current_pending[i] = 1023;
|
626 |
s->running_irq[i] = 1023;
|
627 |
s->running_priority[i] = 0x100;
|
628 |
#ifdef NVIC
|
629 |
/* The NVIC doesn't have per-cpu interfaces, so enable by default. */
|
630 |
s->cpu_enabled[i] = 1;
|
631 |
#else
|
632 |
s->cpu_enabled[i] = 0;
|
633 |
#endif
|
634 |
} |
635 |
for (i = 0; i < 16; i++) { |
636 |
GIC_SET_ENABLED(i); |
637 |
GIC_SET_TRIGGER(i); |
638 |
} |
639 |
#ifdef NVIC
|
640 |
/* The NVIC is always enabled. */
|
641 |
s->enabled = 1;
|
642 |
#else
|
643 |
s->enabled = 0;
|
644 |
#endif
|
645 |
} |
646 |
|
647 |
static void gic_save(QEMUFile *f, void *opaque) |
648 |
{ |
649 |
gic_state *s = (gic_state *)opaque; |
650 |
int i;
|
651 |
int j;
|
652 |
|
653 |
qemu_put_be32(f, s->enabled); |
654 |
for (i = 0; i < NCPU; i++) { |
655 |
qemu_put_be32(f, s->cpu_enabled[i]); |
656 |
#ifndef NVIC
|
657 |
qemu_put_be32(f, s->irq_target[i]); |
658 |
#endif
|
659 |
for (j = 0; j < 32; j++) |
660 |
qemu_put_be32(f, s->priority1[j][i]); |
661 |
for (j = 0; j < GIC_NIRQ; j++) |
662 |
qemu_put_be32(f, s->last_active[j][i]); |
663 |
qemu_put_be32(f, s->priority_mask[i]); |
664 |
qemu_put_be32(f, s->running_irq[i]); |
665 |
qemu_put_be32(f, s->running_priority[i]); |
666 |
qemu_put_be32(f, s->current_pending[i]); |
667 |
} |
668 |
for (i = 0; i < GIC_NIRQ - 32; i++) { |
669 |
qemu_put_be32(f, s->priority2[i]); |
670 |
} |
671 |
for (i = 0; i < GIC_NIRQ; i++) { |
672 |
qemu_put_byte(f, s->irq_state[i].enabled); |
673 |
qemu_put_byte(f, s->irq_state[i].pending); |
674 |
qemu_put_byte(f, s->irq_state[i].active); |
675 |
qemu_put_byte(f, s->irq_state[i].level); |
676 |
qemu_put_byte(f, s->irq_state[i].model); |
677 |
qemu_put_byte(f, s->irq_state[i].trigger); |
678 |
} |
679 |
} |
680 |
|
681 |
static int gic_load(QEMUFile *f, void *opaque, int version_id) |
682 |
{ |
683 |
gic_state *s = (gic_state *)opaque; |
684 |
int i;
|
685 |
int j;
|
686 |
|
687 |
if (version_id != 1) |
688 |
return -EINVAL;
|
689 |
|
690 |
s->enabled = qemu_get_be32(f); |
691 |
for (i = 0; i < NCPU; i++) { |
692 |
s->cpu_enabled[i] = qemu_get_be32(f); |
693 |
#ifndef NVIC
|
694 |
s->irq_target[i] = qemu_get_be32(f); |
695 |
#endif
|
696 |
for (j = 0; j < 32; j++) |
697 |
s->priority1[j][i] = qemu_get_be32(f); |
698 |
for (j = 0; j < GIC_NIRQ; j++) |
699 |
s->last_active[j][i] = qemu_get_be32(f); |
700 |
s->priority_mask[i] = qemu_get_be32(f); |
701 |
s->running_irq[i] = qemu_get_be32(f); |
702 |
s->running_priority[i] = qemu_get_be32(f); |
703 |
s->current_pending[i] = qemu_get_be32(f); |
704 |
} |
705 |
for (i = 0; i < GIC_NIRQ - 32; i++) { |
706 |
s->priority2[i] = qemu_get_be32(f); |
707 |
} |
708 |
for (i = 0; i < GIC_NIRQ; i++) { |
709 |
s->irq_state[i].enabled = qemu_get_byte(f); |
710 |
s->irq_state[i].pending = qemu_get_byte(f); |
711 |
s->irq_state[i].active = qemu_get_byte(f); |
712 |
s->irq_state[i].level = qemu_get_byte(f); |
713 |
s->irq_state[i].model = qemu_get_byte(f); |
714 |
s->irq_state[i].trigger = qemu_get_byte(f); |
715 |
} |
716 |
|
717 |
return 0; |
718 |
} |
719 |
|
720 |
static void gic_init(gic_state *s) |
721 |
{ |
722 |
int i;
|
723 |
|
724 |
qdev_init_gpio_in(&s->busdev.qdev, gic_set_irq, GIC_NIRQ - 32);
|
725 |
for (i = 0; i < NCPU; i++) { |
726 |
sysbus_init_irq(&s->busdev, &s->parent_irq[i]); |
727 |
} |
728 |
s->iomemtype = cpu_register_io_memory(gic_dist_readfn, |
729 |
gic_dist_writefn, s); |
730 |
gic_reset(s); |
731 |
register_savevm("arm_gic", -1, 1, gic_save, gic_load, s); |
732 |
} |