31ade71508
git-svn-id: svn://svn.savannah.nongnu.org/qemu/trunk@2825 c046a42c-6fe2-441c-8c8c-71466251a162
289 lines
7.9 KiB
C
289 lines
7.9 KiB
C
/*
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* QEMU Sparc SLAVIO timer controller emulation
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*
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* Copyright (c) 2003-2005 Fabrice Bellard
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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#include "vl.h"
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//#define DEBUG_TIMER
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#ifdef DEBUG_TIMER
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#define DPRINTF(fmt, args...) \
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do { printf("TIMER: " fmt , ##args); } while (0)
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#else
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#define DPRINTF(fmt, args...)
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#endif
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/*
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* Registers of hardware timer in sun4m.
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*
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* This is the timer/counter part of chip STP2001 (Slave I/O), also
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* produced as NCR89C105. See
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* http://www.ibiblio.org/pub/historic-linux/early-ports/Sparc/NCR/NCR89C105.txt
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*
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* The 31-bit counter is incremented every 500ns by bit 9. Bits 8..0
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* are zero. Bit 31 is 1 when count has been reached.
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*
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* Per-CPU timers interrupt local CPU, system timer uses normal
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* interrupt routing.
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*
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*/
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typedef struct SLAVIO_TIMERState {
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uint32_t limit, count, counthigh;
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int64_t count_load_time;
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int64_t expire_time;
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int64_t stop_time, tick_offset;
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QEMUTimer *irq_timer;
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int irq;
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int reached, stopped;
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int mode; // 0 = processor, 1 = user, 2 = system
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unsigned int cpu;
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void *intctl;
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} SLAVIO_TIMERState;
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#define TIMER_MAXADDR 0x1f
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#define CNT_FREQ 2000000
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// Update count, set irq, update expire_time
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static void slavio_timer_get_out(SLAVIO_TIMERState *s)
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{
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int out;
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int64_t diff, ticks, count;
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uint32_t limit;
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// There are three clock tick units: CPU ticks, register units
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// (nanoseconds), and counter ticks (500 ns).
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if (s->mode == 1 && s->stopped)
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ticks = s->stop_time;
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else
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ticks = qemu_get_clock(vm_clock) - s->tick_offset;
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out = (ticks > s->expire_time);
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if (out)
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s->reached = 0x80000000;
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// Convert register units to counter ticks
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limit = s->limit >> 9;
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if (!limit)
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limit = 0x7fffffff >> 9;
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// Convert cpu ticks to counter ticks
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diff = muldiv64(ticks - s->count_load_time, CNT_FREQ, ticks_per_sec);
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// Calculate what the counter should be, convert to register
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// units
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count = diff % limit;
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s->count = count << 9;
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s->counthigh = count >> 22;
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// Expire time: CPU ticks left to next interrupt
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// Convert remaining counter ticks to CPU ticks
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s->expire_time = ticks + muldiv64(limit - count, ticks_per_sec, CNT_FREQ);
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DPRINTF("irq %d limit %d reached %d d %" PRId64 " count %d s->c %x diff %" PRId64 " stopped %d mode %d\n", s->irq, limit, s->reached?1:0, (ticks-s->count_load_time), count, s->count, s->expire_time - ticks, s->stopped, s->mode);
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if (s->mode != 1)
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pic_set_irq_cpu(s->intctl, s->irq, out, s->cpu);
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}
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// timer callback
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static void slavio_timer_irq(void *opaque)
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{
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SLAVIO_TIMERState *s = opaque;
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if (!s->irq_timer)
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return;
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slavio_timer_get_out(s);
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if (s->mode != 1)
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qemu_mod_timer(s->irq_timer, s->expire_time);
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}
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static uint32_t slavio_timer_mem_readl(void *opaque, target_phys_addr_t addr)
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{
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SLAVIO_TIMERState *s = opaque;
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uint32_t saddr;
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saddr = (addr & TIMER_MAXADDR) >> 2;
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switch (saddr) {
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case 0:
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// read limit (system counter mode) or read most signifying
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// part of counter (user mode)
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if (s->mode != 1) {
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// clear irq
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pic_set_irq_cpu(s->intctl, s->irq, 0, s->cpu);
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s->reached = 0;
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return s->limit;
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}
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else {
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slavio_timer_get_out(s);
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return s->counthigh & 0x7fffffff;
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}
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case 1:
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// read counter and reached bit (system mode) or read lsbits
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// of counter (user mode)
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slavio_timer_get_out(s);
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if (s->mode != 1)
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return (s->count & 0x7fffffff) | s->reached;
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else
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return s->count;
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case 3:
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// read start/stop status
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return s->stopped;
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case 4:
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// read user/system mode
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return s->mode & 1;
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default:
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return 0;
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}
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}
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static void slavio_timer_mem_writel(void *opaque, target_phys_addr_t addr, uint32_t val)
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{
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SLAVIO_TIMERState *s = opaque;
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uint32_t saddr;
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saddr = (addr & TIMER_MAXADDR) >> 2;
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switch (saddr) {
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case 0:
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// set limit, reset counter
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s->count_load_time = qemu_get_clock(vm_clock);
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// fall through
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case 2:
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// set limit without resetting counter
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if (!val)
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s->limit = 0x7fffffff;
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else
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s->limit = val & 0x7fffffff;
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slavio_timer_irq(s);
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break;
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case 3:
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// start/stop user counter
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if (s->mode == 1) {
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if (val & 1) {
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s->stop_time = qemu_get_clock(vm_clock);
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s->stopped = 1;
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}
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else {
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if (s->stopped)
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s->tick_offset += qemu_get_clock(vm_clock) - s->stop_time;
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s->stopped = 0;
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}
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}
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break;
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case 4:
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// bit 0: user (1) or system (0) counter mode
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if (s->mode == 0 || s->mode == 1)
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s->mode = val & 1;
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break;
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default:
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break;
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}
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}
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static CPUReadMemoryFunc *slavio_timer_mem_read[3] = {
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slavio_timer_mem_readl,
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slavio_timer_mem_readl,
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slavio_timer_mem_readl,
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};
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static CPUWriteMemoryFunc *slavio_timer_mem_write[3] = {
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slavio_timer_mem_writel,
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slavio_timer_mem_writel,
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slavio_timer_mem_writel,
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};
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static void slavio_timer_save(QEMUFile *f, void *opaque)
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{
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SLAVIO_TIMERState *s = opaque;
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qemu_put_be32s(f, &s->limit);
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qemu_put_be32s(f, &s->count);
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qemu_put_be32s(f, &s->counthigh);
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qemu_put_be64s(f, &s->count_load_time);
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qemu_put_be64s(f, &s->expire_time);
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qemu_put_be64s(f, &s->stop_time);
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qemu_put_be64s(f, &s->tick_offset);
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qemu_put_be32s(f, &s->irq);
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qemu_put_be32s(f, &s->reached);
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qemu_put_be32s(f, &s->stopped);
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qemu_put_be32s(f, &s->mode);
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}
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static int slavio_timer_load(QEMUFile *f, void *opaque, int version_id)
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{
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SLAVIO_TIMERState *s = opaque;
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if (version_id != 1)
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return -EINVAL;
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qemu_get_be32s(f, &s->limit);
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qemu_get_be32s(f, &s->count);
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qemu_get_be32s(f, &s->counthigh);
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qemu_get_be64s(f, &s->count_load_time);
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qemu_get_be64s(f, &s->expire_time);
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qemu_get_be64s(f, &s->stop_time);
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qemu_get_be64s(f, &s->tick_offset);
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qemu_get_be32s(f, &s->irq);
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qemu_get_be32s(f, &s->reached);
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qemu_get_be32s(f, &s->stopped);
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qemu_get_be32s(f, &s->mode);
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return 0;
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}
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static void slavio_timer_reset(void *opaque)
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{
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SLAVIO_TIMERState *s = opaque;
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s->limit = 0;
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s->count = 0;
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s->count_load_time = qemu_get_clock(vm_clock);;
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s->stop_time = s->count_load_time;
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s->tick_offset = 0;
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s->reached = 0;
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s->mode &= 2;
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s->stopped = 1;
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slavio_timer_irq(s);
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}
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void slavio_timer_init(uint32_t addr, int irq, int mode, unsigned int cpu,
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void *intctl)
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{
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int slavio_timer_io_memory;
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SLAVIO_TIMERState *s;
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s = qemu_mallocz(sizeof(SLAVIO_TIMERState));
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if (!s)
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return;
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s->irq = irq;
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s->mode = mode;
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s->cpu = cpu;
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s->irq_timer = qemu_new_timer(vm_clock, slavio_timer_irq, s);
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s->intctl = intctl;
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slavio_timer_io_memory = cpu_register_io_memory(0, slavio_timer_mem_read,
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slavio_timer_mem_write, s);
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cpu_register_physical_memory(addr, TIMER_MAXADDR, slavio_timer_io_memory);
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register_savevm("slavio_timer", addr, 1, slavio_timer_save, slavio_timer_load, s);
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qemu_register_reset(slavio_timer_reset, s);
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slavio_timer_reset(s);
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}
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