src/cpus/cpu_alpha.c

/*
 *  Copyright (C) 2005  Anders Gavare.  All rights reserved.
 *
 *  Redistribution and use in source and binary forms, with or without
 *  modification, are permitted provided that the following conditions are met:
 *
 *  1. Redistributions of source code must retain the above copyright
 *     notice, this list of conditions and the following disclaimer.
 *  2. Redistributions in binary form must reproduce the above copyright  
 *     notice, this list of conditions and the following disclaimer in the 
 *     documentation and/or other materials provided with the distribution.
 *  3. The name of the author may not be used to endorse or promote products
 *     derived from this software without specific prior written permission.
 *
 *  THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
 *  ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 *  IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 *  ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE   
 *  FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 *  DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 *  OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 *  HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 *  LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 *  OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 *  SUCH DAMAGE.
 *
 *
 *  $Id: cpu_alpha.c,v 1.2 2005/10/22 17:24:20 debug Exp $
 *
 *  Alpha CPU emulation.
 *
 *  TODO: Many things.
 *
 *  See http://www.eecs.harvard.edu/~nr/toolkit/specs/alpha.html for info
 *  on instruction formats etc.
 */

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>

#include "cpu.h"
#include "machine.h"
#include "memory.h"
#include "misc.h"
#include "symbol.h"

#define DYNTRANS_8K
#define DYNTRANS_PAGESIZE       8192
#include "tmp_alpha_head.c"


/*  Alpha symbolic register names:  */
static char *alpha_regname[N_ALPHA_REGS] = ALPHA_REG_NAMES; 


/*
 *  alpha_cpu_new():
 *
 *  Create a new Alpha CPU object by filling the CPU struct.
 *  Return 1 on success, 0 if cpu_type_name isn't a valid Alpha processor.
 */
int alpha_cpu_new(struct cpu *cpu, struct memory *mem,
        struct machine *machine, int cpu_id, char *cpu_type_name)
{
        int i;

        if (strcasecmp(cpu_type_name, "Alpha") != 0)
                return 0;

        cpu->memory_rw = alpha_memory_rw;
        cpu->update_translation_table = alpha_update_translation_table;
        cpu->invalidate_translation_caches =
            alpha_invalidate_translation_caches;
        cpu->invalidate_code_translation = alpha_invalidate_code_translation;
        cpu->is_32bit = 0;

        /*  Only show name and caches etc for CPU nr 0:  */
        if (cpu_id == 0) {
                debug("%s", cpu->name);
        }

        /*  Create the default virtual->physical->host translation:  */
        cpu->cd.alpha.vph_default_page = malloc(sizeof(struct alpha_vph_page));
        if (cpu->cd.alpha.vph_default_page == NULL) {
                fprintf(stderr, "out of memory in alpha_cpu_new()\n");
                exit(1);
        }
        memset(cpu->cd.alpha.vph_default_page, 0,
            sizeof(struct alpha_vph_page));
        for (i=0; i<ALPHA_LEVEL0; i++)
                cpu->cd.alpha.vph_table0[i] = cpu->cd.alpha.vph_table0_kernel[i]
                    = cpu->cd.alpha.vph_default_page;

        cpu->cd.alpha.r[ALPHA_SP] = 0xfffffc000000ff00ULL;

        return 1;
}


/*
 *  alpha_cpu_dumpinfo():
 */
void alpha_cpu_dumpinfo(struct cpu *cpu)
{
        /*  TODO  */
        debug("\n");
}


/*
 *  alpha_cpu_list_available_types():
 *
 *  Print a list of available Alpha CPU types.
 */
void alpha_cpu_list_available_types(void)
{
        /*  TODO  */

        debug("Alpha\n");
}


/*
 *  alpha_cpu_register_match():
 */
void alpha_cpu_register_match(struct machine *m, char *name,
        int writeflag, uint64_t *valuep, int *match_register)
{
        int i, cpunr = 0;

        /*  CPU number:  */

        /*  TODO  */

        if (strcasecmp(name, "pc") == 0) {
                if (writeflag) {
                        m->cpus[cpunr]->pc = *valuep;
                } else
                        *valuep = m->cpus[cpunr]->pc;
                *match_register = 1;
        }

        /*  Register names:  */
        for (i=0; i<N_ALPHA_REGS; i++) {
                if (strcasecmp(name, alpha_regname[i]) == 0) {
                        if (writeflag)
                                m->cpus[cpunr]->cd.alpha.r[i] = *valuep;
                        else
                                *valuep = m->cpus[cpunr]->cd.alpha.r[i];
                        *match_register = 1;
                }
        }
}


/*
 *  alpha_cpu_register_dump():
 *  
 *  Dump cpu registers in a relatively readable format.
 *  
 *  gprs: set to non-zero to dump GPRs and some special-purpose registers.
 *  coprocs: set bit 0..3 to dump registers in coproc 0..3.
 */
void alpha_cpu_register_dump(struct cpu *cpu, int gprs, int coprocs)
{ 
        char *symbol;
        uint64_t offset;
        int i, x = cpu->cpu_id;

        if (gprs) {
                symbol = get_symbol_name(&cpu->machine->symbol_context,
                    cpu->pc, &offset);
                debug("cpu%i:\t pc = 0x%016llx", x, (long long)cpu->pc);
                debug("  <%s>\n", symbol != NULL? symbol : " no symbol ");
                for (i=0; i<N_ALPHA_REGS; i++) {
                        int r = (i >> 1) + ((i & 1) << 4);
                        if ((i % 2) == 0)
                                debug("cpu%i:\t", x);
                        if (r != ALPHA_ZERO)
                                debug("%3s = 0x%016llx", alpha_regname[r],
                                    (long long)cpu->cd.alpha.r[r]);
                        debug((i % 2) == 1? "\n" : "   ");
                }
        }
}


/*
 *  alpha_cpu_show_full_statistics():
 *
 *  Show detailed statistics on opcode usage on each cpu.
 */
void alpha_cpu_show_full_statistics(struct machine *m)
{
        fatal("alpha_cpu_show_full_statistics(): TODO\n");
}


/*
 *  alpha_cpu_tlbdump():
 *
 *  Called from the debugger to dump the TLB in a readable format.
 *  x is the cpu number to dump, or -1 to dump all CPUs.
 *
 *  If rawflag is nonzero, then the TLB contents isn't formated nicely,
 *  just dumped.
 */
void alpha_cpu_tlbdump(struct machine *m, int x, int rawflag)
{
        fatal("alpha_cpu_tlbdump(): TODO\n");
}


/*
 *  alpha_cpu_interrupt():
 */
int alpha_cpu_interrupt(struct cpu *cpu, uint64_t irq_nr)
{
        fatal("alpha_cpu_interrupt(): TODO\n");
        return 0;
}


/*
 *  alpha_cpu_interrupt_ack():
 */
int alpha_cpu_interrupt_ack(struct cpu *cpu, uint64_t irq_nr)
{
        /*  fatal("alpha_cpu_interrupt_ack(): TODO\n");  */
        return 0;
}


/*
 *  alpha_print_imm16_disp():
 *
 *  Used internally by alpha_cpu_disassemble_instr().
 */
static void alpha_print_imm16_disp(int imm, int rb)
{
        imm = (int16_t)imm;

        if (imm < 0) {
                debug("-");
                imm = -imm;
        }
        if (imm <= 256)
                debug("%i", imm);
        else
                debug("0x%x", imm);
        if (rb != ALPHA_ZERO)
                debug("(%s)", alpha_regname[rb]);
}


/*
 *  alpha_cpu_disassemble_instr():
 *
 *  Convert an instruction word into human readable format, for instruction
 *  tracing.
 *              
 *  If running is 1, cpu->pc should be the address of the instruction.
 *
 *  If running is 0, things that depend on the runtime environment (eg.
 *  register contents) will not be shown, and addr will be used instead of
 *  cpu->pc for relative addresses.
 */                     
int alpha_cpu_disassemble_instr(struct cpu *cpu, unsigned char *ib,
        int running, uint64_t dumpaddr, int bintrans)
{
        uint32_t iw;
        uint64_t offset, tmp;
        int opcode, ra, rb, func, rc, imm, floating, rbrc = 0, indir = 0;
        char *symbol, *mnem = NULL;
        char palcode_name[30];

        if (running)
                dumpaddr = cpu->pc;

        symbol = get_symbol_name(&cpu->machine->symbol_context,
            dumpaddr, &offset);
        if (symbol != NULL && offset == 0)
                debug("<%s>\n", symbol);

        if (cpu->machine->ncpus > 1 && running)
                debug("cpu%i:\t", cpu->cpu_id);

        debug("%016llx:  ", (long long)dumpaddr);

        iw = ib[0] + (ib[1]<<8) + (ib[2]<<16) + (ib[3]<<24);
        debug("%08x\t", (int)iw);

        opcode = iw >> 26;
        ra = (iw >> 21) & 31;
        rb = (iw >> 16) & 31;
        func = (iw >> 5) & 0x7ff;
        rc = iw & 31;
        imm = iw & 0xffff;

        switch (opcode) {
        case 0x00:
                alpha_palcode_name(iw & 0x3ffffff, palcode_name,
                    sizeof(palcode_name));
                debug("call_pal %s\n", palcode_name);
                break;
        case 0x08:
        case 0x09:
                debug("lda%s\t%s,", opcode == 9? "h" : "", alpha_regname[ra]);
                alpha_print_imm16_disp(imm, rb);
                debug("\n");
                break;
        case 0x0a:
        case 0x0b:
        case 0x0c:
        case 0x0d:
        case 0x0e:
        case 0x0f:
        case 0x20:
        case 0x21:
        case 0x22:
        case 0x23:
        case 0x24:
        case 0x25:
        case 0x26:
        case 0x27:
        case 0x28:
        case 0x29:
        case 0x2a:
        case 0x2b:
        case 0x2c:
        case 0x2d:
        case 0x2e:
        case 0x2f:
                floating = 0;
                switch (opcode) {
                case 0x0a: mnem = "ldbu"; break;
                case 0x0b: mnem = "ldq_u"; break;
                case 0x0c: mnem = "ldwu"; break;
                case 0x0d: mnem = "stw"; break;
                case 0x0e: mnem = "stb"; break;
                case 0x0f: mnem = "stq_u"; break;
                case 0x20: mnem = "ldf"; floating = 1; break;
                case 0x21: mnem = "ldg"; floating = 1; break;
                case 0x22: mnem = "lds"; floating = 1; break;
                case 0x23: mnem = "ldt"; floating = 1; break;
                case 0x24: mnem = "stf"; floating = 1; break;
                case 0x25: mnem = "stg"; floating = 1; break;
                case 0x26: mnem = "sts"; floating = 1; break;
                case 0x27: mnem = "stt"; floating = 1; break;
                case 0x28: mnem = "ldl"; break;
                case 0x29: mnem = "ldq"; break;
                case 0x2a: mnem = "ldl_l"; break;
                case 0x2b: mnem = "ldq_l"; break;
                case 0x2c: mnem = "stl"; break;
                case 0x2d: mnem = "stq"; break;
                case 0x2e: mnem = "stl_c"; break;
                case 0x2f: mnem = "stq_c"; break;
                }
                if (opcode == 0x0b && ra == ALPHA_ZERO) {
                        debug("unop");
                } else {
                        debug("%s\t", mnem);
                        if (floating)
                                debug("f%i,", ra);
                        else
                                debug("%s,", alpha_regname[ra]);
                        alpha_print_imm16_disp(imm, rb);
                }
                debug("\n");
                break;
        case 0x10:
                switch (func & 0x7f) {
                case 0x00: mnem = "addl"; break;
                case 0x02: mnem = "s4addl"; break;
                case 0x09: mnem = "subl"; break;
                case 0x0b: mnem = "s4subl"; break;
                case 0x0f: mnem = "cmpbge"; break;
                case 0x12: mnem = "s8addl"; break;
                case 0x1b: mnem = "s8subl"; break;
                case 0x1d: mnem = "cmpult"; break;
                case 0x20: mnem = "addq"; break;
                case 0x22: mnem = "s4addq"; break;
                case 0x29: mnem = "subq"; break;
                case 0x2b: mnem = "s4subq"; break;
                case 0x2d: mnem = "cmpeq"; break;
                case 0x32: mnem = "s8addq"; break;
                case 0x3b: mnem = "s8subq"; break;
                case 0x3d: mnem = "cmpule"; break;
                case 0x40: mnem = "addl/v"; break;
                case 0x49: mnem = "subl/v"; break;
                case 0x4d: mnem = "cmplt"; break;
                case 0x60: mnem = "addq/v"; break;
                case 0x69: mnem = "subq/v"; break;
                case 0x6d: mnem = "cmple"; break;
                default:debug("UNIMPLEMENTED opcode 0x%x func 0x%x\n",
                            opcode, func);
                }
                if (mnem == NULL)
                        break;
                if (func & 0x80)
                        debug("%s\t%s,0x%x,%s\n", mnem,
                            alpha_regname[ra], (rb << 3) + (func >> 8),
                            alpha_regname[rc]);
                else
                        debug("%s\t%s,%s,%s\n", mnem, alpha_regname[ra],
                            alpha_regname[rb], alpha_regname[rc]);
                break;
        case 0x11:
                switch (func & 0x7f) {
                case 0x000: mnem = "and"; break;
                case 0x008: mnem = "andnot"; break;
                case 0x014: mnem = "cmovlbs"; break;
                case 0x016: mnem = "cmovlbc"; break;
                case 0x020: mnem = "or"; break;
                case 0x024: mnem = "cmoveq"; break;
                case 0x026: mnem = "cmovne"; break;
                case 0x028: mnem = "ornot"; break;
                case 0x040: mnem = "xor"; break;
                case 0x044: mnem = "cmovlt"; break;
                case 0x046: mnem = "cmovge"; break;
                case 0x048: mnem = "eqv"; break;
                case 0x061: mnem = "amask"; break;
                case 0x064: mnem = "cmovle"; break;
                case 0x066: mnem = "cmovgt"; break;
                default:debug("UNIMPLEMENTED opcode 0x%x func 0x%x\n",
                            opcode, func);
                }
                if (mnem == NULL)
                        break;
                /*  Special cases: "nop" etc:  */
                if (func == 0x020 && rc == ALPHA_ZERO)
                        debug("nop\n");
                else if (func == 0x020 && (ra == ALPHA_ZERO
                    || rb == ALPHA_ZERO)) {
                        if (ra == ALPHA_ZERO && rb == ALPHA_ZERO)
                                debug("clr\t%s\n", alpha_regname[rc]);
                        else if (ra == ALPHA_ZERO)
                                debug("mov\t%s,%s\n", alpha_regname[rb],
                                    alpha_regname[rc]);
                        else
                                debug("mov\t%s,%s\n", alpha_regname[ra],
                                    alpha_regname[rc]);
                } else if (func & 0x80)
                        debug("%s\t%s,0x%x,%s\n", mnem,
                            alpha_regname[ra], (rb << 3) + (func >> 8),
                            alpha_regname[rc]);
                else
                        debug("%s\t%s,%s,%s\n", mnem, alpha_regname[ra],
                            alpha_regname[rb], alpha_regname[rc]);
                break;
        case 0x12:
                switch (func & 0x7f) {
                case 0x02: mnem = "mskbl"; break;
                case 0x06: mnem = "extbl"; break;
                case 0x0b: mnem = "insbl"; break;
                case 0x12: mnem = "mskwl"; break;
                case 0x16: mnem = "extwl"; break;
                case 0x1b: mnem = "inswl"; break;
                case 0x22: mnem = "mskll"; break;
                case 0x26: mnem = "extll"; break;
                case 0x2b: mnem = "insll"; break;
                case 0x30: mnem = "zap"; break;
                case 0x31: mnem = "zapnot"; break;
                case 0x32: mnem = "mskql"; break;
                case 0x34: mnem = "srl"; break;
                case 0x36: mnem = "extql"; break;
                case 0x39: mnem = "sll"; break;
                case 0x3b: mnem = "insql"; break;
                case 0x3c: mnem = "sra"; break;
                case 0x52: mnem = "mskwh"; break;
                case 0x57: mnem = "inswh"; break;
                case 0x5a: mnem = "extwh"; break;
                case 0x62: mnem = "msklh"; break;
                case 0x67: mnem = "inslh"; break;
                case 0x6a: mnem = "extlh"; break;
                case 0x72: mnem = "mskqh"; break;
                case 0x77: mnem = "insqh"; break;
                case 0x7a: mnem = "extqh"; break;
                default:debug("UNIMPLEMENTED opcode 0x%x func 0x%x\n",
                            opcode, func);
                }
                if (mnem == NULL)
                        break;
                if (func & 0x80)
                        debug("%s\t%s,0x%x,%s\n", mnem,
                            alpha_regname[ra], (rb << 3) + (func >> 8),
                            alpha_regname[rc]);
                else
                        debug("%s\t%s,%s,%s\n", mnem, alpha_regname[ra],
                            alpha_regname[rb], alpha_regname[rc]);
                break;
        case 0x13:
                switch (func & 0x7f) {
                case 0x00: mnem = "mull"; break;
                case 0x20: mnem = "mulq"; break;
                case 0x30: mnem = "umulh"; break;
                case 0x40: mnem = "mull/v"; break;
                case 0x60: mnem = "mulq/v"; break;
                default:debug("UNIMPLEMENTED opcode 0x%x func 0x%x\n",
                            opcode, func);
                }
                if (mnem == NULL)
                        break;
                if (func & 0x80)
                        debug("%s\t%s,0x%x,%s\n", mnem,
                            alpha_regname[ra], (rb << 3) + (func >> 8),
                            alpha_regname[rc]);
                else
                        debug("%s\t%s,%s,%s\n", mnem, alpha_regname[ra],
                            alpha_regname[rb], alpha_regname[rc]);
                break;
        case 0x16:
                switch (func & 0x7ff) {
                case 0x080: mnem = "adds"; break;
                case 0x081: mnem = "subs"; break;
                case 0x082: mnem = "muls"; break;
                case 0x083: mnem = "mult"; break;
                case 0x0a0: mnem = "addt"; break;
                case 0x0a1: mnem = "subt"; break;
                case 0x0a2: mnem = "mult"; break;
                case 0x0a3: mnem = "divt"; break;
                case 0x0be: mnem = "cvtqt"; rbrc = 1; break;
                default:debug("UNIMPLEMENTED opcode 0x%x func 0x%x\n",
                            opcode, func);
                }
                if (mnem == NULL)
                        break;
                if (rbrc)
                        debug("%s\tf%i,f%i\n", mnem, rb, rc);
                else
                        debug("%s\tf%i,f%i,f%i\n", mnem, ra, rb, rc);
                break;
        case 0x17:
                switch (func & 0x7ff) {
                case 0x020: mnem = "fabs"; rbrc = 1; break;
                default:debug("UNIMPLEMENTED opcode 0x%x func 0x%x\n",
                            opcode, func);
                }
                if (mnem == NULL)
                        break;
                if ((func & 0x7ff) == 0x020 && ra == 31 && rb == 31)
                        debug("fclr\tf%i\n", rc);
                else if (rbrc)
                        debug("%s\tf%i,f%i\n", mnem, rb, rc);
                else
                        debug("%s\tf%i,f%i,f%i\n", mnem, ra, rb, rc);
                break;
        case 0x18:
                switch (iw & 0xffff) {
                case 0x0000: mnem = "trapb"; break;
                case 0x0400: mnem = "excb"; break;
                case 0x4000: mnem = "mb"; break;
                case 0x4400: mnem = "wmb"; break;
                case 0x8000: mnem = "fetch"; indir = 1; break;
                case 0xa000: mnem = "fetch_m"; indir = 1; break;
                case 0xc000: mnem = "rpcc"; break;
                case 0xe000: mnem = "rc"; break;
                case 0xe800: mnem = "ecb"; indir = 1; break;
                case 0xf000: mnem = "rs"; break;
                case 0xf800: mnem = "wh64"; indir = 1; break;
                default:debug("UNIMPLEMENTED opcode 0x%x func 0x%x\n",
                            opcode, func);
                }
                if (mnem == NULL)
                        break;
                debug("%s", mnem);
                if ((iw & 0xffff) >= 0x8000) {
                        debug("\t");
                        if (indir)
                                debug("(%s)", alpha_regname[rb]);
                        else
                                debug("%s", alpha_regname[ra]);
                }
                debug("\n");
                break;
        case 0x1a:
                tmp = iw & 0x3fff;
                if (tmp & 0x2000)
                        tmp |= 0xffffffffffffc000ULL;
                tmp <<= 2;
                tmp += dumpaddr + sizeof(uint32_t);
                switch ((iw >> 14) & 3) {
                case 0:
                case 1: if (((iw >> 14) & 3) == 0)
                                debug("jmp");
                        else
                                debug("jsr");
                        debug("\t%s,", alpha_regname[ra]);
                        debug("(%s),", alpha_regname[rb]);
                        debug("0x%llx", (long long)tmp);
                        symbol = get_symbol_name(&cpu->machine->symbol_context,
                            tmp, &offset);
                        if (symbol != NULL)
                                debug("\t<%s>", symbol);
                        break;
                case 2: debug("ret");
                        break;
                default:fatal("unimpl JSR!");
                }
                debug("\n");
                break;
        case 0x30:
        case 0x34:
                tmp = iw & 0x1fffff;
                if (tmp & 0x100000)
                        tmp |= 0xffffffffffe00000ULL;
                tmp <<= 2;
                tmp += dumpaddr + sizeof(uint32_t);
                debug("%s\t", opcode==0x30? "br" : "bsr");
                if (ra != ALPHA_ZERO)
                        debug("%s,", alpha_regname[ra]);
                debug("0x%llx", (long long)tmp);
                symbol = get_symbol_name(&cpu->machine->symbol_context,
                    tmp, &offset);
                if (symbol != NULL)
                        debug("\t<%s>", symbol);
                debug("\n");
                break;
        case 0x38:
        case 0x39:
        case 0x3a:
        case 0x3b:
        case 0x3c:
        case 0x3d:
        case 0x3e:
        case 0x3f:
                switch (opcode) {
                case 0x38: mnem = "blbc"; break;
                case 0x39: mnem = "beq"; break;
                case 0x3a: mnem = "blt"; break;
                case 0x3b: mnem = "ble"; break;
                case 0x3c: mnem = "blbs"; break;
                case 0x3d: mnem = "bne"; break;
                case 0x3e: mnem = "bge"; break;
                case 0x3f: mnem = "bgt"; break;
                }
                tmp = iw & 0x1fffff;
                if (tmp & 0x100000)
                        tmp |= 0xffffffffffe00000ULL;
                tmp <<= 2;
                tmp += dumpaddr + sizeof(uint32_t);
                debug("%s\t%s,", mnem, alpha_regname[ra]);
                debug("0x%llx", (long long)tmp);
                symbol = get_symbol_name(&cpu->machine->symbol_context,
                    tmp, &offset);
                if (symbol != NULL)
                        debug("\t<%s>", symbol);
                debug("\n");
                break;
        default:debug("UNIMPLEMENTED opcode 0x%x\n", opcode);
        }

        return sizeof(uint32_t);
}


#define MEMORY_RW       alpha_userland_memory_rw
#define MEM_ALPHA
#define MEM_USERLAND
#include "../memory_rw.c"
#undef MEM_USERLAND
#undef MEM_ALPHA
#undef MEMORY_RW


#include "tmp_alpha_tail.c"

1	/*
2	* Copyright (C) 2005 Anders Gavare. All rights reserved.
3	*
4	* Redistribution and use in source and binary forms, with or without
5	* modification, are permitted provided that the following conditions are met:
6	*
7	* 1. Redistributions of source code must retain the above copyright
8	* notice, this list of conditions and the following disclaimer.
9	* 2. Redistributions in binary form must reproduce the above copyright
10	* notice, this list of conditions and the following disclaimer in the
11	* documentation and/or other materials provided with the distribution.
12	* 3. The name of the author may not be used to endorse or promote products
13	* derived from this software without specific prior written permission.
14	*
15	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
16	* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
17	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
18	* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
19	* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
20	* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
21	* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
22	* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
23	* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
24	* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
25	* SUCH DAMAGE.
26	*
27	*
28	* $Id: cpu_alpha.c,v 1.2 2005/10/22 17:24:20 debug Exp $
29	*
30	* Alpha CPU emulation.
31	*
32	* TODO: Many things.
33	*
34	* See http://www.eecs.harvard.edu/~nr/toolkit/specs/alpha.html for info
35	* on instruction formats etc.
36	*/
37
38	#include <stdio.h>
39	#include <stdlib.h>
40	#include <string.h>
41	#include <ctype.h>
42
43	#include "cpu.h"
44	#include "machine.h"
45	#include "memory.h"
46	#include "misc.h"
47	#include "symbol.h"
48
49	#define DYNTRANS_8K
50	#define DYNTRANS_PAGESIZE 8192
51	#include "tmp_alpha_head.c"
52
53
54	/* Alpha symbolic register names: */
55	static char *alpha_regname[N_ALPHA_REGS] = ALPHA_REG_NAMES;
56
57
58	/*
59	* alpha_cpu_new():
60	*
61	* Create a new Alpha CPU object by filling the CPU struct.
62	* Return 1 on success, 0 if cpu_type_name isn't a valid Alpha processor.
63	*/
64	int alpha_cpu_new(struct cpu cpu, struct memory mem,
65	struct machine machine, int cpu_id, char cpu_type_name)
66	{
67	int i;
68
69	if (strcasecmp(cpu_type_name, "Alpha") != 0)
70	return 0;
71
72	cpu->memory_rw = alpha_memory_rw;
73	cpu->update_translation_table = alpha_update_translation_table;
74	cpu->invalidate_translation_caches =
75	alpha_invalidate_translation_caches;
76	cpu->invalidate_code_translation = alpha_invalidate_code_translation;
77	cpu->is_32bit = 0;
78
79	/* Only show name and caches etc for CPU nr 0: */
80	if (cpu_id == 0) {
81	debug("%s", cpu->name);
82	}
83
84	/* Create the default virtual->physical->host translation: */
85	cpu->cd.alpha.vph_default_page = malloc(sizeof(struct alpha_vph_page));
86	if (cpu->cd.alpha.vph_default_page == NULL) {
87	fprintf(stderr, "out of memory in alpha_cpu_new()\n");
88	exit(1);
89	}
90	memset(cpu->cd.alpha.vph_default_page, 0,
91	sizeof(struct alpha_vph_page));
92	for (i=0; i<ALPHA_LEVEL0; i++)
93	cpu->cd.alpha.vph_table0[i] = cpu->cd.alpha.vph_table0_kernel[i]
94	= cpu->cd.alpha.vph_default_page;
95
96	cpu->cd.alpha.r[ALPHA_SP] = 0xfffffc000000ff00ULL;
97
98	return 1;
99	}
100
101
102	/*
103	* alpha_cpu_dumpinfo():
104	*/
105	void alpha_cpu_dumpinfo(struct cpu *cpu)
106	{
107	/* TODO */
108	debug("\n");
109	}
110
111
112	/*
113	* alpha_cpu_list_available_types():
114	*
115	* Print a list of available Alpha CPU types.
116	*/
117	void alpha_cpu_list_available_types(void)
118	{
119	/* TODO */
120
121	debug("Alpha\n");
122	}
123
124
125	/*
126	* alpha_cpu_register_match():
127	*/
128	void alpha_cpu_register_match(struct machine m, char name,
129	int writeflag, uint64_t valuep, int match_register)
130	{
131	int i, cpunr = 0;
132
133	/* CPU number: */
134
135	/* TODO */
136
137	if (strcasecmp(name, "pc") == 0) {
138	if (writeflag) {
139	m->cpus[cpunr]->pc = *valuep;
140	} else
141	*valuep = m->cpus[cpunr]->pc;
142	*match_register = 1;
143	}
144
145	/* Register names: */
146	for (i=0; i<N_ALPHA_REGS; i++) {
147	if (strcasecmp(name, alpha_regname[i]) == 0) {
148	if (writeflag)
149	m->cpus[cpunr]->cd.alpha.r[i] = *valuep;
150	else
151	*valuep = m->cpus[cpunr]->cd.alpha.r[i];
152	*match_register = 1;
153	}
154	}
155	}
156
157
158	/*
159	* alpha_cpu_register_dump():
160	*
161	* Dump cpu registers in a relatively readable format.
162	*
163	* gprs: set to non-zero to dump GPRs and some special-purpose registers.
164	* coprocs: set bit 0..3 to dump registers in coproc 0..3.
165	*/
166	void alpha_cpu_register_dump(struct cpu *cpu, int gprs, int coprocs)
167	{
168	char *symbol;
169	uint64_t offset;
170	int i, x = cpu->cpu_id;
171
172	if (gprs) {
173	symbol = get_symbol_name(&cpu->machine->symbol_context,
174	cpu->pc, &offset);
175	debug("cpu%i:\t pc = 0x%016llx", x, (long long)cpu->pc);
176	debug(" <%s>\n", symbol != NULL? symbol : " no symbol ");
177	for (i=0; i<N_ALPHA_REGS; i++) {
178	int r = (i >> 1) + ((i & 1) << 4);
179	if ((i % 2) == 0)
180	debug("cpu%i:\t", x);
181	if (r != ALPHA_ZERO)
182	debug("%3s = 0x%016llx", alpha_regname[r],
183	(long long)cpu->cd.alpha.r[r]);
184	debug((i % 2) == 1? "\n" : " ");
185	}
186	}
187	}
188
189
190	/*
191	* alpha_cpu_show_full_statistics():
192	*
193	* Show detailed statistics on opcode usage on each cpu.
194	*/
195	void alpha_cpu_show_full_statistics(struct machine *m)
196	{
197	fatal("alpha_cpu_show_full_statistics(): TODO\n");
198	}
199
200
201	/*
202	* alpha_cpu_tlbdump():
203	*
204	* Called from the debugger to dump the TLB in a readable format.
205	* x is the cpu number to dump, or -1 to dump all CPUs.
206	*
207	* If rawflag is nonzero, then the TLB contents isn't formated nicely,
208	* just dumped.
209	*/
210	void alpha_cpu_tlbdump(struct machine *m, int x, int rawflag)
211	{
212	fatal("alpha_cpu_tlbdump(): TODO\n");
213	}
214
215
216	/*
217	* alpha_cpu_interrupt():
218	*/
219	int alpha_cpu_interrupt(struct cpu *cpu, uint64_t irq_nr)
220	{
221	fatal("alpha_cpu_interrupt(): TODO\n");
222	return 0;
223	}
224
225
226	/*
227	* alpha_cpu_interrupt_ack():
228	*/
229	int alpha_cpu_interrupt_ack(struct cpu *cpu, uint64_t irq_nr)
230	{
231	/* fatal("alpha_cpu_interrupt_ack(): TODO\n"); */
232	return 0;
233	}
234
235
236	/*
237	* alpha_print_imm16_disp():
238	*
239	* Used internally by alpha_cpu_disassemble_instr().
240	*/
241	static void alpha_print_imm16_disp(int imm, int rb)
242	{
243	imm = (int16_t)imm;
244
245	if (imm < 0) {
246	debug("-");
247	imm = -imm;
248	}
249	if (imm <= 256)
250	debug("%i", imm);
251	else
252	debug("0x%x", imm);
253	if (rb != ALPHA_ZERO)
254	debug("(%s)", alpha_regname[rb]);
255	}
256
257
258	/*
259	* alpha_cpu_disassemble_instr():
260	*
261	* Convert an instruction word into human readable format, for instruction
262	* tracing.
263	*
264	* If running is 1, cpu->pc should be the address of the instruction.
265	*
266	* If running is 0, things that depend on the runtime environment (eg.
267	* register contents) will not be shown, and addr will be used instead of
268	* cpu->pc for relative addresses.
269	*/
270	int alpha_cpu_disassemble_instr(struct cpu cpu, unsigned char ib,
271	int running, uint64_t dumpaddr, int bintrans)
272	{
273	uint32_t iw;
274	uint64_t offset, tmp;
275	int opcode, ra, rb, func, rc, imm, floating, rbrc = 0, indir = 0;
276	char symbol, mnem = NULL;
277	char palcode_name[30];
278
279	if (running)
280	dumpaddr = cpu->pc;
281
282	symbol = get_symbol_name(&cpu->machine->symbol_context,
283	dumpaddr, &offset);
284	if (symbol != NULL && offset == 0)
285	debug("<%s>\n", symbol);
286
287	if (cpu->machine->ncpus > 1 && running)
288	debug("cpu%i:\t", cpu->cpu_id);
289
290	debug("%016llx: ", (long long)dumpaddr);
291
292	iw = ib[0] + (ib[1]<<8) + (ib[2]<<16) + (ib[3]<<24);
293	debug("%08x\t", (int)iw);
294
295	opcode = iw >> 26;
296	ra = (iw >> 21) & 31;
297	rb = (iw >> 16) & 31;
298	func = (iw >> 5) & 0x7ff;
299	rc = iw & 31;
300	imm = iw & 0xffff;
301
302	switch (opcode) {
303	case 0x00:
304	alpha_palcode_name(iw & 0x3ffffff, palcode_name,
305	sizeof(palcode_name));
306	debug("call_pal %s\n", palcode_name);
307	break;
308	case 0x08:
309	case 0x09:
310	debug("lda%s\t%s,", opcode == 9? "h" : "", alpha_regname[ra]);
311	alpha_print_imm16_disp(imm, rb);
312	debug("\n");
313	break;
314	case 0x0a:
315	case 0x0b:
316	case 0x0c:
317	case 0x0d:
318	case 0x0e:
319	case 0x0f:
320	case 0x20:
321	case 0x21:
322	case 0x22:
323	case 0x23:
324	case 0x24:
325	case 0x25:
326	case 0x26:
327	case 0x27:
328	case 0x28:
329	case 0x29:
330	case 0x2a:
331	case 0x2b:
332	case 0x2c:
333	case 0x2d:
334	case 0x2e:
335	case 0x2f:
336	floating = 0;
337	switch (opcode) {
338	case 0x0a: mnem = "ldbu"; break;
339	case 0x0b: mnem = "ldq_u"; break;
340	case 0x0c: mnem = "ldwu"; break;
341	case 0x0d: mnem = "stw"; break;
342	case 0x0e: mnem = "stb"; break;
343	case 0x0f: mnem = "stq_u"; break;
344	case 0x20: mnem = "ldf"; floating = 1; break;
345	case 0x21: mnem = "ldg"; floating = 1; break;
346	case 0x22: mnem = "lds"; floating = 1; break;
347	case 0x23: mnem = "ldt"; floating = 1; break;
348	case 0x24: mnem = "stf"; floating = 1; break;
349	case 0x25: mnem = "stg"; floating = 1; break;
350	case 0x26: mnem = "sts"; floating = 1; break;
351	case 0x27: mnem = "stt"; floating = 1; break;
352	case 0x28: mnem = "ldl"; break;
353	case 0x29: mnem = "ldq"; break;
354	case 0x2a: mnem = "ldl_l"; break;
355	case 0x2b: mnem = "ldq_l"; break;
356	case 0x2c: mnem = "stl"; break;
357	case 0x2d: mnem = "stq"; break;
358	case 0x2e: mnem = "stl_c"; break;
359	case 0x2f: mnem = "stq_c"; break;
360	}
361	if (opcode == 0x0b && ra == ALPHA_ZERO) {
362	debug("unop");
363	} else {
364	debug("%s\t", mnem);
365	if (floating)
366	debug("f%i,", ra);
367	else
368	debug("%s,", alpha_regname[ra]);
369	alpha_print_imm16_disp(imm, rb);
370	}
371	debug("\n");
372	break;
373	case 0x10:
374	switch (func & 0x7f) {
375	case 0x00: mnem = "addl"; break;
376	case 0x02: mnem = "s4addl"; break;
377	case 0x09: mnem = "subl"; break;
378	case 0x0b: mnem = "s4subl"; break;
379	case 0x0f: mnem = "cmpbge"; break;
380	case 0x12: mnem = "s8addl"; break;
381	case 0x1b: mnem = "s8subl"; break;
382	case 0x1d: mnem = "cmpult"; break;
383	case 0x20: mnem = "addq"; break;
384	case 0x22: mnem = "s4addq"; break;
385	case 0x29: mnem = "subq"; break;
386	case 0x2b: mnem = "s4subq"; break;
387	case 0x2d: mnem = "cmpeq"; break;
388	case 0x32: mnem = "s8addq"; break;
389	case 0x3b: mnem = "s8subq"; break;
390	case 0x3d: mnem = "cmpule"; break;
391	case 0x40: mnem = "addl/v"; break;
392	case 0x49: mnem = "subl/v"; break;
393	case 0x4d: mnem = "cmplt"; break;
394	case 0x60: mnem = "addq/v"; break;
395	case 0x69: mnem = "subq/v"; break;
396	case 0x6d: mnem = "cmple"; break;
397	default:debug("UNIMPLEMENTED opcode 0x%x func 0x%x\n",
398	opcode, func);
399	}
400	if (mnem == NULL)
401	break;
402	if (func & 0x80)
403	debug("%s\t%s,0x%x,%s\n", mnem,
404	alpha_regname[ra], (rb << 3) + (func >> 8),
405	alpha_regname[rc]);
406	else
407	debug("%s\t%s,%s,%s\n", mnem, alpha_regname[ra],
408	alpha_regname[rb], alpha_regname[rc]);
409	break;
410	case 0x11:
411	switch (func & 0x7f) {
412	case 0x000: mnem = "and"; break;
413	case 0x008: mnem = "andnot"; break;
414	case 0x014: mnem = "cmovlbs"; break;
415	case 0x016: mnem = "cmovlbc"; break;
416	case 0x020: mnem = "or"; break;
417	case 0x024: mnem = "cmoveq"; break;
418	case 0x026: mnem = "cmovne"; break;
419	case 0x028: mnem = "ornot"; break;
420	case 0x040: mnem = "xor"; break;
421	case 0x044: mnem = "cmovlt"; break;
422	case 0x046: mnem = "cmovge"; break;
423	case 0x048: mnem = "eqv"; break;
424	case 0x061: mnem = "amask"; break;
425	case 0x064: mnem = "cmovle"; break;
426	case 0x066: mnem = "cmovgt"; break;
427	default:debug("UNIMPLEMENTED opcode 0x%x func 0x%x\n",
428	opcode, func);
429	}
430	if (mnem == NULL)
431	break;
432	/* Special cases: "nop" etc: */
433	if (func == 0x020 && rc == ALPHA_ZERO)
434	debug("nop\n");
435	else if (func == 0x020 && (ra == ALPHA_ZERO
436	\|\| rb == ALPHA_ZERO)) {
437	if (ra == ALPHA_ZERO && rb == ALPHA_ZERO)
438	debug("clr\t%s\n", alpha_regname[rc]);
439	else if (ra == ALPHA_ZERO)
440	debug("mov\t%s,%s\n", alpha_regname[rb],
441	alpha_regname[rc]);
442	else
443	debug("mov\t%s,%s\n", alpha_regname[ra],
444	alpha_regname[rc]);
445	} else if (func & 0x80)
446	debug("%s\t%s,0x%x,%s\n", mnem,
447	alpha_regname[ra], (rb << 3) + (func >> 8),
448	alpha_regname[rc]);
449	else
450	debug("%s\t%s,%s,%s\n", mnem, alpha_regname[ra],
451	alpha_regname[rb], alpha_regname[rc]);
452	break;
453	case 0x12:
454	switch (func & 0x7f) {
455	case 0x02: mnem = "mskbl"; break;
456	case 0x06: mnem = "extbl"; break;
457	case 0x0b: mnem = "insbl"; break;
458	case 0x12: mnem = "mskwl"; break;
459	case 0x16: mnem = "extwl"; break;
460	case 0x1b: mnem = "inswl"; break;
461	case 0x22: mnem = "mskll"; break;
462	case 0x26: mnem = "extll"; break;
463	case 0x2b: mnem = "insll"; break;
464	case 0x30: mnem = "zap"; break;
465	case 0x31: mnem = "zapnot"; break;
466	case 0x32: mnem = "mskql"; break;
467	case 0x34: mnem = "srl"; break;
468	case 0x36: mnem = "extql"; break;
469	case 0x39: mnem = "sll"; break;
470	case 0x3b: mnem = "insql"; break;
471	case 0x3c: mnem = "sra"; break;
472	case 0x52: mnem = "mskwh"; break;
473	case 0x57: mnem = "inswh"; break;
474	case 0x5a: mnem = "extwh"; break;
475	case 0x62: mnem = "msklh"; break;
476	case 0x67: mnem = "inslh"; break;
477	case 0x6a: mnem = "extlh"; break;
478	case 0x72: mnem = "mskqh"; break;
479	case 0x77: mnem = "insqh"; break;
480	case 0x7a: mnem = "extqh"; break;
481	default:debug("UNIMPLEMENTED opcode 0x%x func 0x%x\n",
482	opcode, func);
483	}
484	if (mnem == NULL)
485	break;
486	if (func & 0x80)
487	debug("%s\t%s,0x%x,%s\n", mnem,
488	alpha_regname[ra], (rb << 3) + (func >> 8),
489	alpha_regname[rc]);
490	else
491	debug("%s\t%s,%s,%s\n", mnem, alpha_regname[ra],
492	alpha_regname[rb], alpha_regname[rc]);
493	break;
494	case 0x13:
495	switch (func & 0x7f) {
496	case 0x00: mnem = "mull"; break;
497	case 0x20: mnem = "mulq"; break;
498	case 0x30: mnem = "umulh"; break;
499	case 0x40: mnem = "mull/v"; break;
500	case 0x60: mnem = "mulq/v"; break;
501	default:debug("UNIMPLEMENTED opcode 0x%x func 0x%x\n",
502	opcode, func);
503	}
504	if (mnem == NULL)
505	break;
506	if (func & 0x80)
507	debug("%s\t%s,0x%x,%s\n", mnem,
508	alpha_regname[ra], (rb << 3) + (func >> 8),
509	alpha_regname[rc]);
510	else
511	debug("%s\t%s,%s,%s\n", mnem, alpha_regname[ra],
512	alpha_regname[rb], alpha_regname[rc]);
513	break;
514	case 0x16:
515	switch (func & 0x7ff) {
516	case 0x080: mnem = "adds"; break;
517	case 0x081: mnem = "subs"; break;
518	case 0x082: mnem = "muls"; break;
519	case 0x083: mnem = "mult"; break;
520	case 0x0a0: mnem = "addt"; break;
521	case 0x0a1: mnem = "subt"; break;
522	case 0x0a2: mnem = "mult"; break;
523	case 0x0a3: mnem = "divt"; break;
524	case 0x0be: mnem = "cvtqt"; rbrc = 1; break;
525	default:debug("UNIMPLEMENTED opcode 0x%x func 0x%x\n",
526	opcode, func);
527	}
528	if (mnem == NULL)
529	break;
530	if (rbrc)
531	debug("%s\tf%i,f%i\n", mnem, rb, rc);
532	else
533	debug("%s\tf%i,f%i,f%i\n", mnem, ra, rb, rc);
534	break;
535	case 0x17:
536	switch (func & 0x7ff) {
537	case 0x020: mnem = "fabs"; rbrc = 1; break;
538	default:debug("UNIMPLEMENTED opcode 0x%x func 0x%x\n",
539	opcode, func);
540	}
541	if (mnem == NULL)
542	break;
543	if ((func & 0x7ff) == 0x020 && ra == 31 && rb == 31)
544	debug("fclr\tf%i\n", rc);
545	else if (rbrc)
546	debug("%s\tf%i,f%i\n", mnem, rb, rc);
547	else
548	debug("%s\tf%i,f%i,f%i\n", mnem, ra, rb, rc);
549	break;
550	case 0x18:
551	switch (iw & 0xffff) {
552	case 0x0000: mnem = "trapb"; break;
553	case 0x0400: mnem = "excb"; break;
554	case 0x4000: mnem = "mb"; break;
555	case 0x4400: mnem = "wmb"; break;
556	case 0x8000: mnem = "fetch"; indir = 1; break;
557	case 0xa000: mnem = "fetch_m"; indir = 1; break;
558	case 0xc000: mnem = "rpcc"; break;
559	case 0xe000: mnem = "rc"; break;
560	case 0xe800: mnem = "ecb"; indir = 1; break;
561	case 0xf000: mnem = "rs"; break;
562	case 0xf800: mnem = "wh64"; indir = 1; break;
563	default:debug("UNIMPLEMENTED opcode 0x%x func 0x%x\n",
564	opcode, func);
565	}
566	if (mnem == NULL)
567	break;
568	debug("%s", mnem);
569	if ((iw & 0xffff) >= 0x8000) {
570	debug("\t");
571	if (indir)
572	debug("(%s)", alpha_regname[rb]);
573	else
574	debug("%s", alpha_regname[ra]);
575	}
576	debug("\n");
577	break;
578	case 0x1a:
579	tmp = iw & 0x3fff;
580	if (tmp & 0x2000)
581	tmp \|= 0xffffffffffffc000ULL;
582	tmp <<= 2;
583	tmp += dumpaddr + sizeof(uint32_t);
584	switch ((iw >> 14) & 3) {
585	case 0:
586	case 1: if (((iw >> 14) & 3) == 0)
587	debug("jmp");
588	else
589	debug("jsr");
590	debug("\t%s,", alpha_regname[ra]);
591	debug("(%s),", alpha_regname[rb]);
592	debug("0x%llx", (long long)tmp);
593	symbol = get_symbol_name(&cpu->machine->symbol_context,
594	tmp, &offset);
595	if (symbol != NULL)
596	debug("\t<%s>", symbol);
597	break;
598	case 2: debug("ret");
599	break;
600	default:fatal("unimpl JSR!");
601	}
602	debug("\n");
603	break;
604	case 0x30:
605	case 0x34:
606	tmp = iw & 0x1fffff;
607	if (tmp & 0x100000)
608	tmp \|= 0xffffffffffe00000ULL;
609	tmp <<= 2;
610	tmp += dumpaddr + sizeof(uint32_t);
611	debug("%s\t", opcode==0x30? "br" : "bsr");
612	if (ra != ALPHA_ZERO)
613	debug("%s,", alpha_regname[ra]);
614	debug("0x%llx", (long long)tmp);
615	symbol = get_symbol_name(&cpu->machine->symbol_context,
616	tmp, &offset);
617	if (symbol != NULL)
618	debug("\t<%s>", symbol);
619	debug("\n");
620	break;
621	case 0x38:
622	case 0x39:
623	case 0x3a:
624	case 0x3b:
625	case 0x3c:
626	case 0x3d:
627	case 0x3e:
628	case 0x3f:
629	switch (opcode) {
630	case 0x38: mnem = "blbc"; break;
631	case 0x39: mnem = "beq"; break;
632	case 0x3a: mnem = "blt"; break;
633	case 0x3b: mnem = "ble"; break;
634	case 0x3c: mnem = "blbs"; break;
635	case 0x3d: mnem = "bne"; break;
636	case 0x3e: mnem = "bge"; break;
637	case 0x3f: mnem = "bgt"; break;
638	}
639	tmp = iw & 0x1fffff;
640	if (tmp & 0x100000)
641	tmp \|= 0xffffffffffe00000ULL;
642	tmp <<= 2;
643	tmp += dumpaddr + sizeof(uint32_t);
644	debug("%s\t%s,", mnem, alpha_regname[ra]);
645	debug("0x%llx", (long long)tmp);
646	symbol = get_symbol_name(&cpu->machine->symbol_context,
647	tmp, &offset);
648	if (symbol != NULL)
649	debug("\t<%s>", symbol);
650	debug("\n");
651	break;
652	default:debug("UNIMPLEMENTED opcode 0x%x\n", opcode);
653	}
654
655	return sizeof(uint32_t);
656	}
657
658
659	#define MEMORY_RW alpha_userland_memory_rw
660	#define MEM_ALPHA
661	#define MEM_USERLAND
662	#include "../memory_rw.c"
663	#undef MEM_USERLAND
664	#undef MEM_ALPHA
665	#undef MEMORY_RW
666
667
668	#include "tmp_alpha_tail.c"
669