Current Path : /sys/amd64/compile/hs32/modules/usr/src/sys/modules/mvs/@/amd64/compile/hs32/modules/usr/src/sys/modules/fxp/@/ia64/disasm/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/mvs/@/amd64/compile/hs32/modules/usr/src/sys/modules/fxp/@/ia64/disasm/disasm_format.c |
/*- * Copyright (c) 2000-2006 Marcel Moolenaar * 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. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 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. */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/ia64/disasm/disasm_format.c 159916 2006-06-24 19:21:11Z marcel $"); #include <sys/param.h> #include <sys/systm.h> #include <ia64/disasm/disasm_int.h> #include <ia64/disasm/disasm.h> /* * Mnemonics (keep in sync with enum asm_op). */ static const char *asm_mnemonics[] = { NULL, "add", "addl", "addp4", "adds", "alloc", "and", "andcm", "br", "break", "brl", "brp", "bsw", "chk", "clrrrb", "cmp", "cmp4", "cmp8xchg16", "cmpxchg1", "cmpxchg2", "cmpxchg4", "cmpxchg8", "cover", "czx1", "czx2", "dep", "epc", "extr", "famax", "famin", "fand", "fandcm", "fc", "fchkf", "fclass", "fclrf", "fcmp", "fcvt", "fetchadd4", "fetchadd8", "flushrs", "fma", "fmax", "fmerge", "fmin", "fmix", "fms", "fnma", "for", "fpack", "fpamax", "fpamin", "fpcmp", "fpcvt", "fpma", "fpmax", "fpmerge", "fpmin", "fpms", "fpnma", "fprcpa", "fprsqrta", "frcpa", "frsqrta", "fselect", "fsetc", "fswap", "fsxt", "fwb", "fxor", "getf", "hint", "invala", "itc", "itr", "ld1", "ld16", "ld2", "ld4", "ld8", "ldf", "ldf8", "ldfd", "ldfe", "ldfp8", "ldfpd", "ldfps", "ldfs", "lfetch", "loadrs", "mf", "mix1", "mix2", "mix4", "mov", "movl", "mux1", "mux2", "nop", "or", "pack2", "pack4", "padd1", "padd2", "padd4", "pavg1", "pavg2", "pavgsub1", "pavgsub2", "pcmp1", "pcmp2", "pcmp4", "pmax1", "pmax2", "pmin1", "pmin2", "pmpy2", "pmpyshr2", "popcnt", "probe", "psad1", "pshl2", "pshl4", "pshladd2", "pshr2", "pshr4", "pshradd2", "psub1", "psub2", "psub4", "ptc", "ptr", "rfi", "rsm", "rum", "setf", "shl", "shladd", "shladdp4", "shr", "shrp", "srlz", "ssm", "st1", "st16", "st2", "st4", "st8", "stf", "stf8", "stfd", "stfe", "stfs", "sub", "sum", "sxt1", "sxt2", "sxt4", "sync", "tak", "tbit", "tf", "thash", "tnat", "tpa", "ttag", "unpack1", "unpack2", "unpack4", "vmsw", "xchg1", "xchg2", "xchg4", "xchg8", "xma", "xor", "zxt1", "zxt2", "zxt4" }; /* * Completers (keep in sync with enum asm_cmpltr_type). */ static const char *asm_completers[] = { "", ".0", ".1", ".a", ".acq", ".and", ".b", ".bias", ".c.clr", ".c.clr.acq", ".c.nc", ".call", ".cexit", ".cloop", ".clr", ".ctop", ".d", ".dc.dc", ".dc.nt", ".dpnt", ".dptk", ".e", ".eq", ".excl", ".exit", ".exp", ".f", ".fault", ".few", ".fill", ".fx", ".fxu", ".g", ".ga", ".ge", ".gt", ".h", ".hu", ".i", ".ia", ".imp", ".l", ".le", ".loop", ".lr", ".lt", ".ltu", ".m", ".many", ".nc", ".ne", ".neq", ".nl", ".nle", ".nlt", ".nm", ".nr", ".ns", ".nt.dc", ".nt.nt", ".nt.tk", ".nt1", ".nt2", ".nta", ".nz", ".or", ".or.andcm", ".ord", ".pr", ".r", ".raz", ".rel", ".ret", ".rw", ".s", ".s0", ".s1", ".s2", ".s3", ".sa", ".se", ".sig", ".spill", ".spnt", ".sptk", ".sss", ".tk.dc", ".tk.nt", ".tk.tk", ".trunc", ".u", ".unc", ".unord", ".uss", ".uus", ".uuu", ".w", ".wexit", ".wtop", ".x", ".xf", ".z" }; void asm_completer(const struct asm_cmpltr *c, char *buf) { strcpy(buf, asm_completers[c->c_type]); } void asm_mnemonic(enum asm_op op, char *buf) { strcpy(buf, asm_mnemonics[(op < ASM_OP_INTERNAL_OPCODES) ? op : 0]); } void asm_operand(const struct asm_oper *o, char *buf, uint64_t ip) { const char *n; n = NULL; switch (o->o_type) { case ASM_OPER_AREG: switch ((int)o->o_value) { case AR_K0: n = "k0"; break; case AR_K1: n = "k1"; break; case AR_K2: n = "k2"; break; case AR_K3: n = "k3"; break; case AR_K4: n = "k4"; break; case AR_K5: n = "k5"; break; case AR_K6: n = "k6"; break; case AR_K7: n = "k7"; break; case AR_RSC: n = "rsc"; break; case AR_BSP: n = "bsp"; break; case AR_BSPSTORE: n = "bspstore"; break; case AR_RNAT: n = "rnat"; break; case AR_FCR: n = "fcr"; break; case AR_EFLAG: n = "eflag"; break; case AR_CSD: n = "csd"; break; case AR_SSD: n = "ssd"; break; case AR_CFLG: n = "cflg"; break; case AR_FSR: n = "fsr"; break; case AR_FIR: n = "fir"; break; case AR_FDR: n = "fdr"; break; case AR_CCV: n = "ccv"; break; case AR_UNAT: n = "unat"; break; case AR_FPSR: n = "fpsr"; break; case AR_ITC: n = "itc"; break; case AR_PFS: n = "pfs"; break; case AR_LC: n = "lc"; break; case AR_EC: n = "ec"; break; default: sprintf(buf, "ar%d", (int)o->o_value); return; } sprintf(buf, "ar.%s", n); return; case ASM_OPER_BREG: if (o->o_value != 0) sprintf(buf, "b%d", (int)o->o_value); else strcpy(buf, "rp"); return; case ASM_OPER_CPUID: n = "cpuid"; break; case ASM_OPER_CREG: switch ((int)o->o_value) { case CR_DCR: n = "dcr"; break; case CR_ITM: n = "itm"; break; case CR_IVA: n = "iva"; break; case CR_PTA: n = "pta"; break; case CR_IPSR: n = "ipsr"; break; case CR_ISR: n = "isr"; break; case CR_IIP: n = "iip"; break; case CR_IFA: n = "ifa"; break; case CR_ITIR: n = "itir"; break; case CR_IIPA: n = "iipa"; break; case CR_IFS: n = "ifs"; break; case CR_IIM: n = "iim"; break; case CR_IHA: n = "iha"; break; case CR_LID: n = "lid"; break; case CR_IVR: n = "ivr"; break; case CR_TPR: n = "tpr"; break; case CR_EOI: n = "eoi"; break; case CR_IRR0: n = "irr0"; break; case CR_IRR1: n = "irr1"; break; case CR_IRR2: n = "irr2"; break; case CR_IRR3: n = "irr3"; break; case CR_ITV: n = "itv"; break; case CR_PMV: n = "pmv"; break; case CR_CMCV: n = "cmcv"; break; case CR_LRR0: n = "lrr0"; break; case CR_LRR1: n = "lrr1"; break; default: sprintf(buf, "cr%d", (int)o->o_value); return; } sprintf(buf, "cr.%s", n); return; case ASM_OPER_DBR: n = "dbr"; break; case ASM_OPER_DISP: sprintf(buf, "%lx", ip + o->o_value); return; case ASM_OPER_DTR: n = "dtr"; break; case ASM_OPER_FREG: sprintf(buf, "f%d", (int)o->o_value); return; case ASM_OPER_GREG: break; case ASM_OPER_IBR: n = "ibr"; break; case ASM_OPER_IMM: sprintf(buf, "0x%lx", o->o_value); return; case ASM_OPER_IP: strcpy(buf, "ip"); return; case ASM_OPER_ITR: n = "itr"; break; case ASM_OPER_MEM: n = ""; break; case ASM_OPER_MSR: n = "msr"; break; case ASM_OPER_PKR: n = "pkr"; break; case ASM_OPER_PMC: n = "pmc"; break; case ASM_OPER_PMD: n = "pmd"; break; case ASM_OPER_PR: strcpy(buf, "pr"); return; case ASM_OPER_PR_ROT: strcpy(buf, "pr.rot"); return; case ASM_OPER_PREG: sprintf(buf, "p%d", (int)o->o_value); return; case ASM_OPER_PSR: strcpy(buf, "psr"); return; case ASM_OPER_PSR_L: strcpy(buf, "psr.l"); return; case ASM_OPER_PSR_UM: strcpy(buf, "psr.um"); return; case ASM_OPER_RR: n = "rr"; break; case ASM_OPER_NONE: KASSERT(0, ("foo")); break; } if (n != NULL) buf += sprintf(buf, "%s[", n); switch ((int)o->o_value) { case 1: strcpy(buf, "gp"); buf += 2; break; case 12: strcpy(buf, "sp"); buf += 2; break; case 13: strcpy(buf, "tp"); buf += 2; break; default: buf += sprintf(buf, "r%d", (int)o->o_value); break; } if (n != NULL) strcpy(buf, "]"); } void asm_print_bundle(const struct asm_bundle *b, uint64_t ip) { asm_print_inst(b, 0, ip); asm_print_inst(b, 1, ip); asm_print_inst(b, 2, ip); } void asm_print_inst(const struct asm_bundle *b, int slot, uint64_t ip) { char buf[32]; const struct asm_inst *i; const char *tmpl; int n, w; tmpl = b->b_templ + slot; if (*tmpl == ';' || (slot == 2 && b->b_templ[1] == ';')) tmpl++; i = b->b_inst + slot; if (*tmpl == 'L' || i->i_op == ASM_OP_NONE) return; /* Address + slot. */ printf("%lx[%c] ", ip + slot, *tmpl); /* Predicate. */ if (i->i_oper[0].o_value != 0) { asm_operand(i->i_oper+0, buf, ip); w = printf("(%s)", buf); } else w = 0; while (w++ < 8) printf(" "); /* Mnemonic & completers. */ asm_mnemonic(i->i_op, buf); w = printf(buf); n = 0; while (n < i->i_ncmpltrs) { asm_completer(i->i_cmpltr + n, buf); w += printf(buf); n++; } while (w++ < 15) printf(" "); printf(" "); /* Operands. */ n = 1; while (n < 7 && i->i_oper[n].o_type != ASM_OPER_NONE) { if (n > 1) { if (n == i->i_srcidx) printf(" = "); else printf(", "); } asm_operand(i->i_oper + n, buf, ip); printf(buf); n++; } printf("\n"); }