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/* |
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* Copyright (C) 2005-2006 Anders Gavare. All rights reserved. |
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* |
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* Redistribution and use in source and binary forms, with or without |
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* modification, are permitted provided that the following conditions are met: |
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* |
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* 1. Redistributions of source code must retain the above copyright |
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* notice, this list of conditions and the following disclaimer. |
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* 2. Redistributions in binary form must reproduce the above copyright |
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* notice, this list of conditions and the following disclaimer in the |
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* documentation and/or other materials provided with the distribution. |
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* 3. The name of the author may not be used to endorse or promote products |
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* derived from this software without specific prior written permission. |
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* |
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* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND |
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE |
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* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE |
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL |
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS |
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) |
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT |
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY |
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF |
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* SUCH DAMAGE. |
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* |
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* |
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* $Id: cpu.c,v 1.349 2006/07/26 23:21:47 debug Exp $ |
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* |
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* Common routines for CPU emulation. (Not specific to any CPU type.) |
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*/ |
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#include <stdio.h> |
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#include <stdlib.h> |
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#include <sys/types.h> |
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#include <sys/mman.h> |
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#include <string.h> |
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#include "cpu.h" |
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#include "machine.h" |
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#include "memory.h" |
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#include "misc.h" |
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static struct cpu_family *first_cpu_family = NULL; |
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/* |
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* cpu_new(): |
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* |
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* Create a new cpu object. Each family is tried in sequence until a |
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* CPU family recognizes the cpu_type_name. |
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*/ |
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struct cpu *cpu_new(struct memory *mem, struct machine *machine, |
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int cpu_id, char *name) |
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{ |
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struct cpu *cpu; |
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struct cpu_family *fp; |
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char *cpu_type_name; |
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if (name == NULL) { |
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fprintf(stderr, "cpu_new(): cpu name = NULL?\n"); |
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exit(1); |
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} |
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cpu_type_name = strdup(name); |
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if (cpu_type_name == NULL) { |
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fprintf(stderr, "cpu_new(): out of memory\n"); |
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exit(1); |
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} |
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cpu = zeroed_alloc(sizeof(struct cpu)); |
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cpu->memory_rw = NULL; |
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cpu->name = cpu_type_name; |
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cpu->mem = mem; |
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cpu->machine = machine; |
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cpu->cpu_id = cpu_id; |
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cpu->byte_order = EMUL_LITTLE_ENDIAN; |
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cpu->running = 0; |
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cpu_create_or_reset_tc(cpu); |
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fp = first_cpu_family; |
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while (fp != NULL) { |
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if (fp->cpu_new != NULL) { |
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if (fp->cpu_new(cpu, mem, machine, cpu_id, |
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cpu_type_name)) { |
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/* Sanity check: */ |
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if (cpu->memory_rw == NULL) { |
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fatal("\ncpu_new(): memory_rw == " |
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"NULL\n"); |
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exit(1); |
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} |
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break; |
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} |
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} |
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fp = fp->next; |
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} |
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if (fp == NULL) { |
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fatal("\ncpu_new(): unknown cpu type '%s'\n", cpu_type_name); |
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return NULL; |
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} |
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fp->init_tables(cpu); |
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return cpu; |
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} |
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/* |
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* cpu_tlbdump(): |
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* |
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* Called from the debugger to dump the TLB in a readable format. |
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* x is the cpu number to dump, or -1 to dump all CPUs. |
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* |
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* If rawflag is nonzero, then the TLB contents isn't formated nicely, |
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* just dumped. |
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*/ |
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void cpu_tlbdump(struct machine *m, int x, int rawflag) |
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{ |
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if (m->cpu_family == NULL || m->cpu_family->tlbdump == NULL) |
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fatal("cpu_tlbdump(): NULL\n"); |
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else |
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m->cpu_family->tlbdump(m, x, rawflag); |
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} |
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/* |
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* cpu_register_match(): |
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* |
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* Used by the debugger. |
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*/ |
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void cpu_register_match(struct machine *m, char *name, |
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int writeflag, uint64_t *valuep, int *match_register) |
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{ |
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if (m->cpu_family == NULL || m->cpu_family->register_match == NULL) |
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fatal("cpu_register_match(): NULL\n"); |
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else |
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m->cpu_family->register_match(m, name, writeflag, |
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valuep, match_register); |
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} |
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/* |
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* cpu_disassemble_instr(): |
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* |
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* Convert an instruction word into human readable format, for instruction |
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* tracing. |
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*/ |
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int cpu_disassemble_instr(struct machine *m, struct cpu *cpu, |
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unsigned char *instr, int running, uint64_t addr) |
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{ |
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if (m->cpu_family == NULL || m->cpu_family->disassemble_instr == NULL) { |
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fatal("cpu_disassemble_instr(): NULL\n"); |
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return 0; |
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} else |
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return m->cpu_family->disassemble_instr(cpu, instr, |
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running, addr); |
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} |
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/* |
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* cpu_register_dump(): |
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* |
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* Dump cpu registers in a relatively readable format. |
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* |
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* gprs: set to non-zero to dump GPRs. (CPU dependent.) |
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* coprocs: set bit 0..x to dump registers in coproc 0..x. (CPU dependent.) |
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*/ |
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void cpu_register_dump(struct machine *m, struct cpu *cpu, |
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int gprs, int coprocs) |
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{ |
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if (m->cpu_family == NULL || m->cpu_family->register_dump == NULL) |
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fatal("cpu_register_dump(): NULL\n"); |
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else |
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m->cpu_family->register_dump(cpu, gprs, coprocs); |
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} |
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/* |
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* cpu_gdb_stub(): |
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* |
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* Execute a "remote GDB" command. Return value is a pointer to a newly |
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* allocated response string, if the command was successfully executed. If |
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* there was an error, NULL is returned. |
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*/ |
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char *cpu_gdb_stub(struct cpu *cpu, char *cmd) |
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{ |
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if (cpu->machine->cpu_family == NULL || |
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cpu->machine->cpu_family->gdb_stub == NULL) { |
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fatal("cpu_gdb_stub(): NULL\n"); |
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return NULL; |
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} else |
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return cpu->machine->cpu_family->gdb_stub(cpu, cmd); |
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} |
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/* |
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* cpu_interrupt(): |
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* |
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* Assert an interrupt. |
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* Return value is 1 if the interrupt was asserted, 0 otherwise. |
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*/ |
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int cpu_interrupt(struct cpu *cpu, uint64_t irq_nr) |
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{ |
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if (cpu->machine->cpu_family == NULL || |
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cpu->machine->cpu_family->interrupt == NULL) { |
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fatal("cpu_interrupt(): NULL\n"); |
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return 0; |
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} else |
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return cpu->machine->cpu_family->interrupt(cpu, irq_nr); |
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} |
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/* |
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* cpu_interrupt_ack(): |
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* |
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* Acknowledge an interrupt. |
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* Return value is 1 if the interrupt was deasserted, 0 otherwise. |
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*/ |
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int cpu_interrupt_ack(struct cpu *cpu, uint64_t irq_nr) |
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{ |
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if (cpu->machine->cpu_family == NULL || |
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cpu->machine->cpu_family->interrupt_ack == NULL) { |
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/* debug("cpu_interrupt_ack(): NULL\n"); */ |
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return 0; |
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} else |
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return cpu->machine->cpu_family->interrupt_ack(cpu, irq_nr); |
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} |
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/* |
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* cpu_functioncall_trace(): |
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* |
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* This function should be called if machine->show_trace_tree is enabled, and |
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* a function call is being made. f contains the address of the function. |
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*/ |
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void cpu_functioncall_trace(struct cpu *cpu, uint64_t f) |
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{ |
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int i, n_args = -1; |
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char *symbol; |
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uint64_t offset; |
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if (cpu->machine->ncpus > 1) |
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fatal("cpu%i:\t", cpu->cpu_id); |
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cpu->trace_tree_depth ++; |
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if (cpu->trace_tree_depth > 100) |
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cpu->trace_tree_depth = 100; |
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for (i=0; i<cpu->trace_tree_depth; i++) |
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fatal(" "); |
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fatal("<"); |
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symbol = get_symbol_name_and_n_args(&cpu->machine->symbol_context, |
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f, &offset, &n_args); |
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if (symbol != NULL) |
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fatal("%s", symbol); |
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else { |
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if (cpu->is_32bit) |
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fatal("0x%"PRIx32, (uint32_t) f); |
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else |
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fatal("0x%"PRIx64, (uint64_t) f); |
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} |
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fatal("("); |
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if (cpu->machine->cpu_family->functioncall_trace != NULL) |
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cpu->machine->cpu_family->functioncall_trace(cpu, f, n_args); |
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fatal(")>\n"); |
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dpavlin |
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#ifdef PRINT_MEMORY_CHECKSUM |
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/* Temporary hack for finding bugs: */ |
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fatal("call chksum=%016"PRIx64"\n", memory_checksum(cpu->mem)); |
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#endif |
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} |
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/* |
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* cpu_functioncall_trace_return(): |
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* |
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* This function should be called if machine->show_trace_tree is enabled, and |
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* a function is being returned from. |
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* |
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* TODO: Print return value? This could be implemented similar to the |
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* cpu->functioncall_trace function call above. |
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*/ |
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void cpu_functioncall_trace_return(struct cpu *cpu) |
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{ |
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cpu->trace_tree_depth --; |
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if (cpu->trace_tree_depth < 0) |
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cpu->trace_tree_depth = 0; |
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} |
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/* |
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* cpu_create_or_reset_tc(): |
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* |
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* Create the translation cache in memory (ie allocate memory for it), if |
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* necessary, and then reset it to an initial state. |
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*/ |
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void cpu_create_or_reset_tc(struct cpu *cpu) |
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{ |
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size_t s = DYNTRANS_CACHE_SIZE + DYNTRANS_CACHE_MARGIN; |
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if (cpu->translation_cache == NULL) |
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cpu->translation_cache = zeroed_alloc(s); |
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/* Create an empty table at the beginning of the translation cache: */ |
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memset(cpu->translation_cache, 0, sizeof(uint32_t) |
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* N_BASE_TABLE_ENTRIES); |
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cpu->translation_cache_cur_ofs = |
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N_BASE_TABLE_ENTRIES * sizeof(uint32_t); |
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/* |
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* There might be other translation pointers that still point to |
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* within the translation_cache region. Let's invalidate those too: |
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*/ |
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if (cpu->invalidate_code_translation != NULL) |
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cpu->invalidate_code_translation(cpu, 0, INVALIDATE_ALL); |
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} |
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/* |
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* cpu_dumpinfo(): |
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* |
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* Dumps info about a CPU using debug(). "cpu0: CPUNAME, running" (or similar) |
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dpavlin |
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* is outputed, and it is up to CPU dependent code to complete the line. |
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*/ |
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void cpu_dumpinfo(struct machine *m, struct cpu *cpu) |
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{ |
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debug("cpu%i: %s, %s", cpu->cpu_id, cpu->name, |
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cpu->running? "running" : "stopped"); |
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if (m->cpu_family == NULL || m->cpu_family->dumpinfo == NULL) |
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fatal("cpu_dumpinfo(): NULL\n"); |
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else |
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m->cpu_family->dumpinfo(cpu); |
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} |
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/* |
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* cpu_list_available_types(): |
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* |
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* Print a list of available CPU types for each cpu family. |
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*/ |
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void cpu_list_available_types(void) |
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{ |
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struct cpu_family *fp; |
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dpavlin |
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int iadd = DEBUG_INDENTATION; |
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dpavlin |
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fp = first_cpu_family; |
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if (fp == NULL) { |
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debug("No CPUs defined!\n"); |
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return; |
361 |
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} |
362 |
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while (fp != NULL) { |
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debug("%s:\n", fp->name); |
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debug_indentation(iadd); |
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if (fp->list_available_types != NULL) |
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fp->list_available_types(); |
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else |
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debug("(internal error: list_available_types" |
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" = NULL)\n"); |
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debug_indentation(-iadd); |
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fp = fp->next; |
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} |
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} |
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/* |
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* cpu_run_deinit(): |
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* |
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* Shuts down all CPUs in a machine when ending a simulation. (This function |
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* should only need to be called once for each machine.) |
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*/ |
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dpavlin |
12 |
void cpu_run_deinit(struct machine *machine) |
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dpavlin |
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{ |
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int te; |
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/* |
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dpavlin |
28 |
* Two last ticks of every hardware device. This will allow e.g. |
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* framebuffers to draw the last updates to the screen before halting. |
391 |
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* |
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* TODO: This should be refactored when redesigning the mainbus |
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* concepts! |
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dpavlin |
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*/ |
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|
|
for (te=0; te<machine->n_tick_entries; te++) { |
396 |
|
|
machine->tick_func[te](machine->cpus[0], |
397 |
|
|
machine->tick_extra[te]); |
398 |
|
|
machine->tick_func[te](machine->cpus[0], |
399 |
|
|
machine->tick_extra[te]); |
400 |
|
|
} |
401 |
|
|
|
402 |
dpavlin |
28 |
if (machine->show_nr_of_instructions) |
403 |
dpavlin |
10 |
cpu_show_cycles(machine, 1); |
404 |
dpavlin |
2 |
|
405 |
|
|
fflush(stdout); |
406 |
|
|
} |
407 |
|
|
|
408 |
|
|
|
409 |
|
|
/* |
410 |
|
|
* cpu_show_cycles(): |
411 |
|
|
* |
412 |
|
|
* If automatic adjustment of clock interrupts is turned on, then recalculate |
413 |
|
|
* emulated_hz. Also, if show_nr_of_instructions is on, then print a |
414 |
|
|
* line to stdout about how many instructions/cycles have been executed so |
415 |
|
|
* far. |
416 |
|
|
*/ |
417 |
dpavlin |
10 |
void cpu_show_cycles(struct machine *machine, int forced) |
418 |
dpavlin |
2 |
{ |
419 |
|
|
uint64_t offset, pc; |
420 |
|
|
char *symbol; |
421 |
dpavlin |
12 |
int64_t mseconds, ninstrs, is, avg; |
422 |
dpavlin |
2 |
struct timeval tv; |
423 |
dpavlin |
24 |
int h, m, s, ms, d; |
424 |
dpavlin |
2 |
|
425 |
|
|
static int64_t mseconds_last = 0; |
426 |
|
|
static int64_t ninstrs_last = -1; |
427 |
|
|
|
428 |
|
|
pc = machine->cpus[machine->bootstrap_cpu]->pc; |
429 |
|
|
|
430 |
|
|
gettimeofday(&tv, NULL); |
431 |
dpavlin |
10 |
mseconds = (tv.tv_sec - machine->starttime.tv_sec) * 1000 |
432 |
|
|
+ (tv.tv_usec - machine->starttime.tv_usec) / 1000; |
433 |
dpavlin |
2 |
|
434 |
|
|
if (mseconds == 0) |
435 |
|
|
mseconds = 1; |
436 |
|
|
|
437 |
|
|
if (mseconds - mseconds_last == 0) |
438 |
|
|
mseconds ++; |
439 |
|
|
|
440 |
dpavlin |
28 |
ninstrs = machine->ninstrs_since_gettimeofday; |
441 |
dpavlin |
2 |
|
442 |
|
|
if (machine->automatic_clock_adjustment) { |
443 |
|
|
static int first_adjustment = 1; |
444 |
|
|
|
445 |
|
|
/* Current nr of cycles per second: */ |
446 |
|
|
int64_t cur_cycles_per_second = 1000 * |
447 |
dpavlin |
24 |
(ninstrs-ninstrs_last) / (mseconds-mseconds_last); |
448 |
dpavlin |
2 |
|
449 |
dpavlin |
24 |
/* fatal("[ CYCLES PER SECOND = %"PRIi64" ]\n", |
450 |
|
|
cur_cycles_per_second); */ |
451 |
|
|
|
452 |
dpavlin |
2 |
if (cur_cycles_per_second < 1000000) |
453 |
|
|
cur_cycles_per_second = 1000000; |
454 |
|
|
|
455 |
|
|
if (first_adjustment) { |
456 |
|
|
machine->emulated_hz = cur_cycles_per_second; |
457 |
|
|
first_adjustment = 0; |
458 |
|
|
} else { |
459 |
|
|
machine->emulated_hz = (15 * machine->emulated_hz + |
460 |
|
|
cur_cycles_per_second) / 16; |
461 |
|
|
} |
462 |
|
|
|
463 |
dpavlin |
24 |
/* fatal("[ updating emulated_hz to %"PRIi64" Hz ]\n", |
464 |
|
|
machine->emulated_hz); */ |
465 |
dpavlin |
2 |
} |
466 |
|
|
|
467 |
|
|
|
468 |
|
|
/* RETURN here, unless show_nr_of_instructions (-N) is turned on: */ |
469 |
|
|
if (!machine->show_nr_of_instructions && !forced) |
470 |
|
|
goto do_return; |
471 |
|
|
|
472 |
dpavlin |
28 |
printf("[ %"PRIi64" instrs", (int64_t)machine->ninstrs); |
473 |
dpavlin |
2 |
|
474 |
|
|
if (!machine->automatic_clock_adjustment) { |
475 |
|
|
d = machine->emulated_hz / 1000; |
476 |
|
|
if (d < 1) |
477 |
|
|
d = 1; |
478 |
dpavlin |
28 |
ms = machine->ninstrs / d; |
479 |
dpavlin |
2 |
h = ms / 3600000; |
480 |
|
|
ms -= 3600000 * h; |
481 |
|
|
m = ms / 60000; |
482 |
|
|
ms -= 60000 * m; |
483 |
|
|
s = ms / 1000; |
484 |
|
|
ms -= 1000 * s; |
485 |
|
|
|
486 |
dpavlin |
22 |
printf(", emulated time = %02i:%02i:%02i.%03i; ", h, m, s, ms); |
487 |
dpavlin |
2 |
} |
488 |
|
|
|
489 |
|
|
/* Instructions per second, and average so far: */ |
490 |
dpavlin |
12 |
is = 1000 * (ninstrs-ninstrs_last) / (mseconds-mseconds_last); |
491 |
|
|
avg = (long long)1000 * ninstrs / mseconds; |
492 |
|
|
if (is < 0) |
493 |
|
|
is = 0; |
494 |
|
|
if (avg < 0) |
495 |
|
|
avg = 0; |
496 |
dpavlin |
24 |
printf("; i/s=%"PRIi64" avg=%"PRIi64, is, avg); |
497 |
dpavlin |
2 |
|
498 |
|
|
symbol = get_symbol_name(&machine->symbol_context, pc, &offset); |
499 |
|
|
|
500 |
dpavlin |
12 |
if (machine->ncpus == 1) { |
501 |
|
|
if (machine->cpus[machine->bootstrap_cpu]->is_32bit) |
502 |
dpavlin |
24 |
printf("; pc=0x%08"PRIx32, (uint32_t) pc); |
503 |
dpavlin |
12 |
else |
504 |
dpavlin |
24 |
printf("; pc=0x%016"PRIx64, (uint64_t) pc); |
505 |
dpavlin |
12 |
} |
506 |
dpavlin |
2 |
|
507 |
dpavlin |
10 |
if (symbol != NULL) |
508 |
|
|
printf(" <%s>", symbol); |
509 |
|
|
printf(" ]\n"); |
510 |
dpavlin |
2 |
|
511 |
|
|
do_return: |
512 |
|
|
ninstrs_last = ninstrs; |
513 |
|
|
mseconds_last = mseconds; |
514 |
|
|
} |
515 |
|
|
|
516 |
|
|
|
517 |
|
|
/* |
518 |
|
|
* cpu_run_init(): |
519 |
|
|
* |
520 |
|
|
* Prepare to run instructions on all CPUs in this machine. (This function |
521 |
|
|
* should only need to be called once for each machine.) |
522 |
|
|
*/ |
523 |
dpavlin |
12 |
void cpu_run_init(struct machine *machine) |
524 |
dpavlin |
2 |
{ |
525 |
dpavlin |
28 |
machine->ninstrs_flush = 0; |
526 |
|
|
machine->ninstrs = 0; |
527 |
|
|
machine->ninstrs_show = 0; |
528 |
dpavlin |
2 |
|
529 |
|
|
/* For performance measurement: */ |
530 |
|
|
gettimeofday(&machine->starttime, NULL); |
531 |
dpavlin |
28 |
machine->ninstrs_since_gettimeofday = 0; |
532 |
dpavlin |
2 |
} |
533 |
|
|
|
534 |
|
|
|
535 |
|
|
/* |
536 |
|
|
* add_cpu_family(): |
537 |
|
|
* |
538 |
|
|
* Allocates a cpu_family struct and calls an init function for the |
539 |
|
|
* family to fill in reasonable data and pointers. |
540 |
|
|
*/ |
541 |
|
|
static void add_cpu_family(int (*family_init)(struct cpu_family *), int arch) |
542 |
|
|
{ |
543 |
|
|
struct cpu_family *fp, *tmp; |
544 |
|
|
int res; |
545 |
|
|
|
546 |
|
|
fp = malloc(sizeof(struct cpu_family)); |
547 |
|
|
if (fp == NULL) { |
548 |
|
|
fprintf(stderr, "add_cpu_family(): out of memory\n"); |
549 |
|
|
exit(1); |
550 |
|
|
} |
551 |
|
|
memset(fp, 0, sizeof(struct cpu_family)); |
552 |
|
|
|
553 |
|
|
/* |
554 |
|
|
* family_init() returns 1 if the struct has been filled with |
555 |
|
|
* valid data, 0 if suppor for the cpu family isn't compiled |
556 |
|
|
* into the emulator. |
557 |
|
|
*/ |
558 |
|
|
res = family_init(fp); |
559 |
|
|
if (!res) { |
560 |
|
|
free(fp); |
561 |
|
|
return; |
562 |
|
|
} |
563 |
|
|
fp->arch = arch; |
564 |
|
|
fp->next = NULL; |
565 |
|
|
|
566 |
|
|
/* Add last in family chain: */ |
567 |
|
|
tmp = first_cpu_family; |
568 |
|
|
if (tmp == NULL) { |
569 |
|
|
first_cpu_family = fp; |
570 |
|
|
} else { |
571 |
|
|
while (tmp->next != NULL) |
572 |
|
|
tmp = tmp->next; |
573 |
|
|
tmp->next = fp; |
574 |
|
|
} |
575 |
|
|
} |
576 |
|
|
|
577 |
|
|
|
578 |
|
|
/* |
579 |
|
|
* cpu_family_ptr_by_number(): |
580 |
|
|
* |
581 |
|
|
* Returns a pointer to a CPU family based on the ARCH_* integers. |
582 |
|
|
*/ |
583 |
|
|
struct cpu_family *cpu_family_ptr_by_number(int arch) |
584 |
|
|
{ |
585 |
|
|
struct cpu_family *fp; |
586 |
|
|
fp = first_cpu_family; |
587 |
|
|
|
588 |
|
|
/* YUCK! This is too hardcoded! TODO */ |
589 |
|
|
|
590 |
|
|
while (fp != NULL) { |
591 |
|
|
if (arch == fp->arch) |
592 |
|
|
return fp; |
593 |
|
|
fp = fp->next; |
594 |
|
|
} |
595 |
|
|
|
596 |
|
|
return NULL; |
597 |
|
|
} |
598 |
|
|
|
599 |
|
|
|
600 |
|
|
/* |
601 |
|
|
* cpu_init(): |
602 |
|
|
* |
603 |
|
|
* Should be called before any other cpu_*() function. |
604 |
|
|
*/ |
605 |
|
|
void cpu_init(void) |
606 |
|
|
{ |
607 |
|
|
/* Note: These are registered in alphabetic order. */ |
608 |
dpavlin |
12 |
|
609 |
|
|
#ifdef ENABLE_ALPHA |
610 |
|
|
add_cpu_family(alpha_cpu_family_init, ARCH_ALPHA); |
611 |
|
|
#endif |
612 |
|
|
|
613 |
|
|
#ifdef ENABLE_ARM |
614 |
dpavlin |
6 |
add_cpu_family(arm_cpu_family_init, ARCH_ARM); |
615 |
dpavlin |
12 |
#endif |
616 |
|
|
|
617 |
dpavlin |
14 |
#ifdef ENABLE_AVR |
618 |
|
|
add_cpu_family(avr_cpu_family_init, ARCH_AVR); |
619 |
|
|
#endif |
620 |
|
|
|
621 |
|
|
#ifdef ENABLE_HPPA |
622 |
|
|
add_cpu_family(hppa_cpu_family_init, ARCH_HPPA); |
623 |
|
|
#endif |
624 |
|
|
|
625 |
|
|
#ifdef ENABLE_I960 |
626 |
|
|
add_cpu_family(i960_cpu_family_init, ARCH_I960); |
627 |
|
|
#endif |
628 |
|
|
|
629 |
dpavlin |
12 |
#ifdef ENABLE_IA64 |
630 |
|
|
add_cpu_family(ia64_cpu_family_init, ARCH_IA64); |
631 |
|
|
#endif |
632 |
|
|
|
633 |
|
|
#ifdef ENABLE_M68K |
634 |
|
|
add_cpu_family(m68k_cpu_family_init, ARCH_M68K); |
635 |
|
|
#endif |
636 |
|
|
|
637 |
|
|
#ifdef ENABLE_MIPS |
638 |
dpavlin |
2 |
add_cpu_family(mips_cpu_family_init, ARCH_MIPS); |
639 |
dpavlin |
12 |
#endif |
640 |
|
|
|
641 |
|
|
#ifdef ENABLE_PPC |
642 |
dpavlin |
2 |
add_cpu_family(ppc_cpu_family_init, ARCH_PPC); |
643 |
dpavlin |
12 |
#endif |
644 |
|
|
|
645 |
dpavlin |
14 |
#ifdef ENABLE_SH |
646 |
|
|
add_cpu_family(sh_cpu_family_init, ARCH_SH); |
647 |
|
|
#endif |
648 |
|
|
|
649 |
dpavlin |
12 |
#ifdef ENABLE_SPARC |
650 |
|
|
add_cpu_family(sparc_cpu_family_init, ARCH_SPARC); |
651 |
|
|
#endif |
652 |
|
|
|
653 |
dpavlin |
28 |
#ifdef ENABLE_TRANSPUTER |
654 |
|
|
add_cpu_family(transputer_cpu_family_init, ARCH_TRANSPUTER); |
655 |
|
|
#endif |
656 |
|
|
|
657 |
dpavlin |
12 |
#ifdef ENABLE_X86 |
658 |
dpavlin |
4 |
add_cpu_family(x86_cpu_family_init, ARCH_X86); |
659 |
dpavlin |
12 |
#endif |
660 |
dpavlin |
2 |
} |
661 |
|
|
|