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Current File : //sys/amd64/compile/hs32/modules/usr/src/sys/modules/s3/@/amd64/compile/hs32/modules/usr/src/sys/modules/tpm/@/sparc64/sparc64/db_disasm.c |
/*- * Copyright (c) 1994 David S. Miller, davem@nadzieja.rutgers.edu * Copyright (c) 1995 Paul Kranenburg * 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. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by David Miller. * 4. 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 ``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. * from: NetBSD: db_disasm.c,v 1.9 2000/08/16 11:29:42 pk Exp */ #include <sys/cdefs.h> __FBSDID("$FreeBSD: release/9.1.0/sys/sparc64/sparc64/db_disasm.c 190003 2009-03-18 23:52:20Z marius $"); #include <sys/param.h> #include <sys/systm.h> #include <ddb/ddb.h> #include <ddb/db_access.h> #include <ddb/db_sym.h> #include <machine/db_machdep.h> #include <machine/instr.h> #define SIGN(v) (((v)<0)?"-":"") /* * All Sparc instructions are 32-bits, with the one exception being * the set instruction which is actually a macro which expands into * two instructions... * * There are 5 different fields that can be used to identify which * operation is encoded into a particular 32-bit insn. There are 3 * formats for instuctions, which one being used is determined by * bits 30-31 of the insn. Here are the bit fields and their names: * * 1100 0000 0000 0000 0000 0000 0000 0000 op field, determines format * 0000 0001 1100 0000 0000 0000 0000 0000 op2 field, format 2 only * 0000 0001 1111 1000 0000 0000 0000 0000 op3 field, format 3 only * 0000 0000 0000 0000 0010 0000 0000 0000 f3i bit, format 3 only * 0000 0000 0000 0000 0001 0000 0000 0000 X bit, format 3 only */ /* FORMAT macros used in sparc_i table to decode each opcode */ #define FORMAT1(a) (EIF_OP(a)) #define FORMAT2(a,b) (EIF_OP(a) | EIF_F2_OP2(b)) /* For formats 3 and 4 */ #define FORMAT3(a,b,c) (EIF_OP(a) | EIF_F3_OP3(b) | EIF_F3_I(c)) #define FORMAT3F(a,b,c) (EIF_OP(a) | EIF_F3_OP3(b) | EIF_F3_OPF(c)) /* Helper macros to construct OP3 & OPF */ #define OP3_X(x,y) ((((x) & 3) << 4) | ((y) & 0xf)) #define OPF_X(x,y) ((((x) & 0x1f) << 4) | ((y) & 0xf)) /* COND condition codes field... */ #define COND2(y,x) (((((y)<<4) & 1)|((x) & 0xf)) << 14) struct sparc_insn { unsigned int match; const char* name; const char* format; }; static const char *const regs[] = { "g0", "g1", "g2", "g3", "g4", "g5", "g6", "g7", "o0", "o1", "o2", "o3", "o4", "o5", "sp", "o7", "l0", "l1", "l2", "l3", "l4", "l5", "l6", "l7", "i0", "i1", "i2", "i3", "i4", "i5", "fp", "i7" }; static const char *const priv_regs[] = { "tpc", "tnpc", "tstate", "tt", "tick", "tba", "pstate", "tl", "pil", "cwp", "cansave", "canrestore", "cleanwin", "otherwin", "wstate", "fq", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "", "ver" }; static const char *const state_regs[] = { "y", "", "ccr", "asi", "tick", "pc", "fprs", "asr", "", "", "", "", "", "", "", "", "pcr", "pic", "dcr", "gsr", "set_softint", "clr_softint", "softint", "tick_cmpr", "sys_tick", "sys_tick_cmpr", "", "", "", "", "", "", "" }; static const char *const ccodes[] = { "fcc0", "fcc1", "fcc2", "fcc3", "icc", "", "xcc", "" }; static const char *const prefetch[] = { "n_reads", "one_read", "n_writes", "one_write", "page" }; /* The sparc instruction table has a format field which tells what the operand structure for this instruction is. Here are the codes: Modifiers (nust be first): a -- opcode has annul bit p -- opcode has branch prediction bit Codes: 1 -- source register operand stored in rs1 2 -- source register operand stored in rs2 d -- destination register operand stored in rd 3 -- floating source register in rs1 4 -- floating source register in rs2 e -- floating destination register in rd i -- 13-bit immediate value stored in simm13 j -- 11-bit immediate value stored in simm11 l -- displacement using d16lo and d16hi m -- 22-bit fcc displacement value n -- 30-bit displacement used in call insns o -- %fcc number specified in cc1 and cc0 fields p -- address computed by the contents of rs1+rs2 q -- address computed by the contents of rs1+simm13 r -- prefetch s -- %asi is implicit in the insn, rs1 value not used t -- immediate 8-bit asi value u -- 19-bit fcc displacement value 5 -- hard register, %fsr lower-half 6 -- hard register, %fsr all 7 -- [reg_addr rs1+rs2] imm_asi 8 -- [reg_addr rs1+simm13] %asi 9 -- logical or of the cmask and mmask fields (membar insn) 0 -- icc or xcc condition codes register . -- %fcc, %icc, or %xcc in opf_cc field r -- prefection function stored in fcn field A -- privileged register encoded in rs1 B -- state register encoded in rs1 C -- %hi(value) where value is stored in imm22 field D -- 32-bit shift count in shcnt32 E -- 64-bit shift count in shcnt64 F -- software trap number stored in sw_trap G -- privileged register encoded in rd H -- state register encoded in rd V8 only: Y -- write y register P -- write psr register T -- write tbr register W -- write wim register */ static const struct sparc_insn sparc_i[] = { /* * Format 1: Call */ {(FORMAT1(1)), "call", "n"}, /* * Format 0: Sethi & Branches */ /* Illegal Instruction Trap */ {(FORMAT2(0, 0)), "illtrap", "m"}, /* Note: if imm22 is zero then this is actually a "nop" grrr... */ {(FORMAT2(0, 0x4)), "sethi", "Cd"}, /* Branch on Integer Co`ndition Codes "Bicc" */ {(FORMAT2(0, 2) | EIF_F2_COND(8)), "ba", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(0)), "bn", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(9)), "bne", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(1)), "be", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(10)), "bg", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(2)), "ble", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(11)), "bge", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(3)), "bl", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(12)), "bgu", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(4)), "bleu", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(13)), "bcc", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(5)), "bcs", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(14)), "bpos", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(6)), "bneg", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(15)), "bvc", "a,m"}, {(FORMAT2(0, 2) | EIF_F2_COND(7)), "bvs", "a,m"}, /* Branch on Integer Condition Codes with Prediction "BPcc" */ {(FORMAT2(0, 1) | EIF_F2_COND(8)), "ba", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(0)), "bn", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(9)), "bne", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(1)), "be", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(10)), "bg", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(2)), "ble", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(11)), "bge", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(3)), "bl", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(12)), "bgu", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(4)), "bleu", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(13)), "bcc", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(5)), "bcs", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(14)), "bpos", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(6)), "bneg", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(15)), "bvc", "ap,u"}, {(FORMAT2(0, 1) | EIF_F2_COND(7)), "bvs", "ap,u"}, /* Branch on Integer Register with Prediction "BPr" */ {(FORMAT2(0, 3) | EIF_F2_RCOND(1)), "brz", "ap,1l"}, {(FORMAT2(0, 3) | EIF_F2_A(1) | EIF_F2_P(1) | EIF_F2_RCOND(2)), "brlex", "ap,1l"}, {(FORMAT2(0, 3) | EIF_F2_RCOND(3)), "brlz", "ap,1l"}, {(FORMAT2(0, 3) | EIF_F2_RCOND(5)), "brnz", "ap,1l"}, {(FORMAT2(0, 3) | EIF_F2_RCOND(6)), "brgz", "ap,1l"}, {(FORMAT2(0, 3) | EIF_F2_RCOND(7)), "brgez", "ap,1l"}, /* Branch on Floating-Point Condition Codes with Prediction "FBPfcc" */ {(FORMAT2(0, 5) | EIF_F2_COND(8)), "fba", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(0)), "fbn", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(7)), "fbu", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(6)), "fbg", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(5)), "fbug", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(4)), "fbl", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(3)), "fbul", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(2)), "fblg", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(1)), "fbne", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(9)), "fbe", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(10)), "fbue", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(11)), "fbge", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(12)), "fbuge", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(13)), "fble", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(14)), "fbule", "ap,m"}, {(FORMAT2(0, 5) | EIF_F2_COND(15)), "fbo", "ap,m"}, /* Branch on Floating-Point Condition Codes "FBfcc" */ {(FORMAT2(0, 6) | EIF_F2_COND(8)), "fba", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(0)), "fbn", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(7)), "fbu", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(6)), "fbg", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(5)), "fbug", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(4)), "fbl", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(3)), "fbul", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(2)), "fblg", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(1)), "fbne", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(9)), "fbe", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(10)), "fbue", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(11)), "fbge", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(12)), "fbuge", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(13)), "fble", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(14)), "fbule", "a,m"}, {(FORMAT2(0, 6) | EIF_F2_COND(15)), "fbo", "a,m"}, /* * Format 3/2: Arithmetic & misc (table 32, appendix E) */ {FORMAT3(2, OP3_X(0,0), 0), "add", "12d"}, {FORMAT3(2, OP3_X(0,0), 1), "add", "1id"}, {FORMAT3(2, OP3_X(1,0), 0), "addcc", "12d"}, {FORMAT3(2, OP3_X(1,0), 1), "addcc", "1id"}, {FORMAT3(2, OP3_X(2,0), 0), "taddcc", "12d"}, {FORMAT3(2, OP3_X(2,0), 1), "taddcc", "1id"}, {(FORMAT3(2, 0x30, 1) | EIF_F3_RD(0xf)), "sir", "i"}, {FORMAT3(2, OP3_X(3,0), 0), "wr", "12H"}, {FORMAT3(2, OP3_X(3,0), 1), "wr", "1iH"}, {FORMAT3(2, OP3_X(0,1), 0), "and", "12d"}, {FORMAT3(2, OP3_X(0,1), 1), "and", "1id"}, {FORMAT3(2, OP3_X(1,1), 0), "andcc", "12d"}, {FORMAT3(2, OP3_X(1,1), 1), "andcc", "1id"}, {FORMAT3(2, OP3_X(2,1), 0), "tsubcc", "12d"}, {FORMAT3(2, OP3_X(2,1), 1), "tsubcc", "1id"}, {FORMAT3(2, OP3_X(3,1), 0), "saved", ""}, {FORMAT3(2, OP3_X(3,1), 0) | EIF_F3_FCN(1), "restored", ""}, {FORMAT3(2, OP3_X(0,2), 0), "or", "12d"}, {FORMAT3(2, OP3_X(0,2), 1), "or", "1id"}, {FORMAT3(2, OP3_X(1,2), 0), "orcc", "12d"}, {FORMAT3(2, OP3_X(1,2), 1), "orcc", "1id"}, {FORMAT3(2, OP3_X(2,2), 0), "taddcctv", "12d"}, {FORMAT3(2, OP3_X(2,2), 1), "taddcctv", "1id"}, {FORMAT3(2, OP3_X(3,2), 0), "wrpr", "12G"}, {FORMAT3(2, OP3_X(3,2), 1), "wrpr", "1iG"}, {FORMAT3(2, OP3_X(0,3), 0), "xor", "12d"}, {FORMAT3(2, OP3_X(0,3), 1), "xor", "1id"}, {FORMAT3(2, OP3_X(1,3), 0), "xorcc", "12d"}, {FORMAT3(2, OP3_X(1,3), 1), "xorcc", "1id"}, {FORMAT3(2, OP3_X(2,3), 0), "tsubcctv", "12d"}, {FORMAT3(2, OP3_X(2,3), 1), "tsubcctv", "1id"}, {FORMAT3(2, OP3_X(3,3), 0), "UNDEFINED", ""}, {FORMAT3(2, OP3_X(0,4), 0), "sub", "12d"}, {FORMAT3(2, OP3_X(0,4), 1), "sub", "1id"}, {FORMAT3(2, OP3_X(1,4), 0), "subcc", "12d"}, {FORMAT3(2, OP3_X(1,4), 1), "subcc", "1id"}, {FORMAT3(2, OP3_X(2,4), 0), "mulscc", "12d"}, {FORMAT3(2, OP3_X(2,4), 1), "mulscc", "1id"}, {FORMAT3(2, OP3_X(3,4), 1), "FPop1", ""}, /* see below */ {FORMAT3(2, OP3_X(0,5), 0), "andn", "12d"}, {FORMAT3(2, OP3_X(0,5), 1), "andn", "1id"}, {FORMAT3(2, OP3_X(1,5), 0), "andncc", "12d"}, {FORMAT3(2, OP3_X(1,5), 1), "andncc", "1id"}, {FORMAT3(2, OP3_X(2,5), 0), "sll", "12d"}, {FORMAT3(2, OP3_X(2,5), 1), "sll", "1Dd"}, {FORMAT3(2, OP3_X(2,5), 0) | EIF_F3_X(1), "sllx", "12d"}, {FORMAT3(2, OP3_X(2,5), 1) | EIF_F3_X(1), "sllx", "1Ed"}, {FORMAT3(2, OP3_X(3,5), 1), "FPop2", ""}, /* see below */ {FORMAT3(2, OP3_X(0,6), 0), "orn", "12d"}, {FORMAT3(2, OP3_X(0,6), 1), "orn", "1id"}, {FORMAT3(2, OP3_X(1,6), 0), "orncc", "12d"}, {FORMAT3(2, OP3_X(1,6), 1), "orncc", "1id"}, {FORMAT3(2, OP3_X(2,6), 0), "srl", "12d"}, {FORMAT3(2, OP3_X(2,6), 1), "srl", "1Dd"}, {FORMAT3(2, OP3_X(2,6), 0) | EIF_F3_X(1), "srlx", "12d"}, {FORMAT3(2, OP3_X(2,6), 1) | EIF_F3_X(1), "srlx", "1Ed"}, {FORMAT3(2, OP3_X(3,6), 1), "impdep1", ""}, {FORMAT3(2, OP3_X(0,7), 0), "xorn", "12d"}, {FORMAT3(2, OP3_X(0,7), 1), "xorn", "1id"}, {FORMAT3(2, OP3_X(1,7), 0), "xorncc", "12d"}, {FORMAT3(2, OP3_X(1,7), 1), "xorncc", "1id"}, {FORMAT3(2, OP3_X(2,7), 0), "sra", "12d"}, {FORMAT3(2, OP3_X(2,7), 1), "sra", "1Dd"}, {FORMAT3(2, OP3_X(2,7), 0) | EIF_F3_X(1), "srax", "12d"}, {FORMAT3(2, OP3_X(2,7), 1) | EIF_F3_X(1), "srax", "1Ed"}, {FORMAT3(2, OP3_X(3,7), 1), "impdep2", ""}, {FORMAT3(2, OP3_X(0,8), 0), "addc", "12d"}, {FORMAT3(2, OP3_X(0,8), 1), "addc", "1id"}, {FORMAT3(2, OP3_X(1,8), 0), "addccc", "12d"}, {FORMAT3(2, OP3_X(1,8), 1), "addccc", "1id"}, {(FORMAT3(2, 0x28, 1) | EIF_F3_RS1(15)), "membar", "9"}, {(FORMAT3(2, 0x28, 0) | EIF_F3_RS1(15)), "stbar", ""}, {FORMAT3(2, OP3_X(2,8), 0), "rd", "Bd"}, {FORMAT3(2, OP3_X(3,8), 0), "jmpl", "pd"}, {FORMAT3(2, OP3_X(3,8), 1), "jmpl", "qd"}, {FORMAT3(2, OP3_X(0,9), 0), "mulx", "12d"}, {FORMAT3(2, OP3_X(0,9), 1), "mulx", "1id"}, {FORMAT3(2, OP3_X(1,9), 0), "UNDEFINED", ""}, {FORMAT3(2, OP3_X(2,9), 0), "UNDEFINED", ""}, {FORMAT3(2, OP3_X(3,9), 0), "return", "p"}, {FORMAT3(2, OP3_X(3,9), 1), "return", "q"}, {FORMAT3(2, OP3_X(0,10), 0), "umul", "12d"}, {FORMAT3(2, OP3_X(0,10), 1), "umul", "1id"}, {FORMAT3(2, OP3_X(1,10), 0), "umulcc", "12d"}, {FORMAT3(2, OP3_X(1,10), 1), "umulcc", "1id"}, {FORMAT3(2, OP3_X(2,10), 0), "rdpr", "Ad"}, /* * OP3 = (3,10): TCC: Trap on Integer Condition Codes */ {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0x8)), "ta", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0x8)), "ta", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0x0)), "tn", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0x0)), "tn", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0x9)), "tne", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0x9)), "tne", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0x1)), "te", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0x1)), "te", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0xa)), "tg", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0xa)), "tg", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0x2)), "tle", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0x2)), "tle", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0xb)), "tge", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0xb)), "tge", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0x3)), "tl", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0x3)), "tl", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0xc)), "tgu", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0xc)), "tgu", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0x4)), "tleu", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0x4)), "tleu", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0xd)), "tcc", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0xd)), "tcc", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0x5)), "tcs", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0x5)), "tcs", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0xe)), "tpos", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0xe)), "tpos", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0x6)), "tneg", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0x6)), "tneg", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0xf)), "tvc", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0xf)), "tvc", "0F"}, {(FORMAT3(2, OP3_X(3,10), 0) | EIF_F4_TCOND(0x7)), "tvs", "12F"}, {(FORMAT3(2, OP3_X(3,10), 1) | EIF_F4_TCOND(0x7)), "tvs", "0F"}, {FORMAT3(2, OP3_X(0,11), 0), "smul", "12d"}, {FORMAT3(2, OP3_X(0,11), 1), "smul", "1id"}, {FORMAT3(2, OP3_X(1,11), 0), "smulcc", "12d"}, {FORMAT3(2, OP3_X(1,11), 1), "smulcc", "1id"}, {FORMAT3(2, OP3_X(2,11), 0), "flushw", ""}, {FORMAT3(2, OP3_X(3,11), 0), "flush", "p"}, {FORMAT3(2, OP3_X(3,11), 1), "flush", "q"}, {FORMAT3(2, OP3_X(0,12), 0), "subc", "12d"}, {FORMAT3(2, OP3_X(0,12), 1), "subc", "1id"}, {FORMAT3(2, OP3_X(1,12), 0), "subccc", "12d"}, {FORMAT3(2, OP3_X(1,12), 1), "subccc", "1id"}, /* * OP3 = (2,12): MOVcc, Move Integer Register on Condition */ /* For Integer Condition Codes */ {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,8)), "mova", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,8)), "mova", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,0)), "movn", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,0)), "movn", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,9)), "movne", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,9)), "movne", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,1)), "move", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,1)), "move", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,10)), "movg", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,10)), "movg", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,2)), "movle", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,2)), "movle", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,11)), "movge", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,11)), "movge", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,3)), "movl", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,3)), "movl", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,12)), "movgu", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,12)), "movgu", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,4)), "movleu", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,4)), "movleu", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,13)), "movcc", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,13)), "movcc", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,5)), "movcs", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,5)), "movcs", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,14)), "movpos", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,14)), "movpos", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,6)), "movneg", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,6)), "movneg", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,15)), "movvc", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,15)), "movvc", "02d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(1,7)), "movvs", "0jd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(1,7)), "movvs", "02d"}, /* For Floating-Point Condition Codes */ {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,8)), "mova", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,8)), "mova", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,0)), "movn", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,0)), "movn", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,7)), "movu", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,7)), "movu", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,6)), "movg", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,6)), "movg", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,5)), "movug", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,5)), "movug", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,4)), "movl", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,4)), "movl", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,3)), "movul", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,3)), "movul", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,2)), "movlg", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,2)), "movlg", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,1)), "movne", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,1)), "movne", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,9)), "move", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,9)), "move", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,10)), "movue", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,10)), "movue", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,11)), "movge", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,11)), "movge", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,12)), "movuge", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,12)), "movuge", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,13)), "movle", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,13)), "movle", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,14)), "movule", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,14)), "movule", "o2d"}, {(FORMAT3(2, OP3_X(2,12), 1) | COND2(0,15)), "movo", "ojd"}, {(FORMAT3(2, OP3_X(2,12), 0) | COND2(0,15)), "movo", "o2d"}, {FORMAT3(2, OP3_X(3,12), 0), "save", "12d"}, {FORMAT3(2, OP3_X(3,12), 1), "save", "1id"}, {FORMAT3(2, OP3_X(0,13), 0), "udivx", "12d"}, {FORMAT3(2, OP3_X(0,13), 1), "udivx", "1id"}, {FORMAT3(2, OP3_X(1,13), 0), "UNDEFINED", ""}, {FORMAT3(2, OP3_X(2,13), 0), "sdivx", "12d"}, {FORMAT3(2, OP3_X(2,13), 1), "sdivx", "1id"}, {FORMAT3(2, OP3_X(3,13), 0), "restore", "12d"}, {FORMAT3(2, OP3_X(3,13), 1), "restore", "1id"}, {FORMAT3(2, OP3_X(0,14), 0), "udiv", "12d"}, {FORMAT3(2, OP3_X(0,14), 1), "udiv", "1id"}, {FORMAT3(2, OP3_X(1,14), 0), "udivcc", "12d"}, {FORMAT3(2, OP3_X(1,14), 1), "udivcc", "1id"}, {FORMAT3(2, OP3_X(2,14), 0), "popc", "2d"}, {FORMAT3(2, OP3_X(2,14), 1), "popc", "id"}, {FORMAT3(2, OP3_X(3,14), 0), "done", ""}, {FORMAT3(2, OP3_X(3,14) | EIF_F3_FCN(1), 1), "retry", ""}, {FORMAT3(2, OP3_X(0,15), 0), "sdiv", "12d"}, {FORMAT3(2, OP3_X(0,15), 1), "sdiv", "1id"}, {FORMAT3(2, OP3_X(1,15), 0), "sdivcc", "12d"}, {FORMAT3(2, OP3_X(1,15), 1), "sdivcc", "1id"}, /* * OP3 = (2,15): MOVr: * Move Integer Register on Register Condition */ {(FORMAT3(2, OP3_X(2,15), 1) | EIF_F3_RCOND(1)), "movrz", "1jd"}, {(FORMAT3(2, OP3_X(2,15), 0) | EIF_F3_RCOND(1)), "movrz", "12d"}, {(FORMAT3(2, OP3_X(2,15), 1) | EIF_F3_RCOND(2)), "movrlez", "1jd"}, {(FORMAT3(2, OP3_X(2,15), 0) | EIF_F3_RCOND(2)), "movrlez", "12d"}, {(FORMAT3(2, OP3_X(2,15), 1) | EIF_F3_RCOND(3)), "movrlz", "1jd"}, {(FORMAT3(2, OP3_X(2,15), 0) | EIF_F3_RCOND(3)), "movrlz", "12d"}, {(FORMAT3(2, OP3_X(2,15), 1) | EIF_F3_RCOND(5)), "movrnz", "1jd"}, {(FORMAT3(2, OP3_X(2,15), 0) | EIF_F3_RCOND(5)), "movrnz", "12d"}, {(FORMAT3(2, OP3_X(2,15), 1) | EIF_F3_RCOND(6)), "movrgz", "1jd"}, {(FORMAT3(2, OP3_X(2,15), 0) | EIF_F3_RCOND(6)), "movrgz", "12d"}, {(FORMAT3(2, OP3_X(2,15), 1) | EIF_F3_RCOND(7)), "movrgez", "1jd"}, {(FORMAT3(2, OP3_X(2,15), 0) | EIF_F3_RCOND(7)), "movrgez", "12d"}, {FORMAT3(2, OP3_X(3,15), 0), "UNDEFINED", ""}, /* * Format 3/3: Load and store (appendix E, table 33) */ /* Loads */ {(FORMAT3(3, OP3_X(0,0), 0)), "lduw", "pd"}, {(FORMAT3(3, OP3_X(0,0), 1)), "lduw", "qd"}, {(FORMAT3(3, OP3_X(1,0), 0)), "lduwa", "7d"}, {(FORMAT3(3, OP3_X(1,0), 1)), "lduwa", "8d"}, {(FORMAT3(3, OP3_X(2,0), 0)), "ldf", "pe"}, {(FORMAT3(3, OP3_X(2,0), 1)), "ldf", "qe"}, {(FORMAT3(3, OP3_X(3,0), 0)), "ldfa", "7e"}, {(FORMAT3(3, OP3_X(3,0), 1)), "ldfa", "8e"}, {(FORMAT3(3, OP3_X(0,1), 0)), "ldub", "pd"}, {(FORMAT3(3, OP3_X(0,1), 1)), "ldub", "qd"}, {(FORMAT3(3, OP3_X(1,1), 0)), "lduba", "7d"}, {(FORMAT3(3, OP3_X(1,1), 1)), "lduba", "8d"}, {(FORMAT3(3, OP3_X(2,1), 0) | EIF_F3_RD(0)), "lduw", "p5"}, {(FORMAT3(3, OP3_X(2,1), 1) | EIF_F3_RD(0)), "lduw", "q5"}, {(FORMAT3(3, OP3_X(2,1), 0) | EIF_F3_RD(1)), "ldx", "p6"}, {(FORMAT3(3, OP3_X(2,1), 1) | EIF_F3_RD(1)), "ldx", "q6"}, {(FORMAT3(3, OP3_X(0,2), 0)), "lduh", "pd"}, {(FORMAT3(3, OP3_X(0,2), 1)), "lduh", "qd"}, {(FORMAT3(3, OP3_X(1,2), 0)), "lduha", "7d"}, {(FORMAT3(3, OP3_X(1,2), 1)), "lduha", "8d"}, {(FORMAT3(3, OP3_X(2,2), 0)), "ldq", "pe"}, {(FORMAT3(3, OP3_X(2,2), 1)), "ldq", "qe"}, {(FORMAT3(3, OP3_X(3,2), 0)), "ldqa", "7e"}, {(FORMAT3(3, OP3_X(3,2), 1)), "ldqa", "8e"}, {(FORMAT3(3, OP3_X(0,3), 0)), "ldd", "pd"}, {(FORMAT3(3, OP3_X(0,3), 1)), "ldd", "qd"}, {(FORMAT3(3, OP3_X(1,3), 0)), "ldda", "7d"}, {(FORMAT3(3, OP3_X(1,3), 1)), "ldda", "8d"}, {(FORMAT3(3, OP3_X(2,3), 0)), "ldd", "pe"}, {(FORMAT3(3, OP3_X(2,3), 1)), "ldd", "qe"}, {(FORMAT3(3, OP3_X(3,3), 0)), "ldda", "7e"}, {(FORMAT3(3, OP3_X(3,3), 1)), "ldda", "8e"}, {(FORMAT3(3, OP3_X(0,4), 0)), "stw", "dp"}, {(FORMAT3(3, OP3_X(0,4), 1)), "stw", "dq"}, {(FORMAT3(3, OP3_X(1,4), 0)), "stwa", "d7"}, {(FORMAT3(3, OP3_X(1,4), 1)), "stwa", "d8"}, {(FORMAT3(3, OP3_X(2,4), 0)), "stf", "ep"}, {(FORMAT3(3, OP3_X(2,4), 1)), "stf", "eq"}, {(FORMAT3(3, OP3_X(3,4), 0)), "stfa", "e7"}, {(FORMAT3(3, OP3_X(3,4), 1)), "stfa", "e8"}, {(FORMAT3(3, OP3_X(0,5), 0)), "stb", "dp"}, {(FORMAT3(3, OP3_X(0,5), 1)), "stb", "dq"}, {(FORMAT3(3, OP3_X(1,5), 0)), "stba", "d7"}, {(FORMAT3(3, OP3_X(1,5), 1)), "stba", "d8"}, {(FORMAT3(3, OP3_X(2,5), 0)), "stw", "5p"}, {(FORMAT3(3, OP3_X(2,5), 1)), "stw", "5q"}, {(FORMAT3(3, OP3_X(2,5), 0) | EIF_F3_RD(1)), "stx", "6p"}, {(FORMAT3(3, OP3_X(2,5), 1) | EIF_F3_RD(1)), "stx", "6q"}, {(FORMAT3(3, OP3_X(0,6), 0)), "sth", "dp"}, {(FORMAT3(3, OP3_X(0,6), 1)), "sth", "dq"}, {(FORMAT3(3, OP3_X(1,6), 0)), "stha", "d7"}, {(FORMAT3(3, OP3_X(1,6), 1)), "stha", "d8"}, {(FORMAT3(3, OP3_X(2,6), 0)), "stq", "ep"}, {(FORMAT3(3, OP3_X(2,6), 1)), "stq", "eq"}, {(FORMAT3(3, OP3_X(3,6), 0)), "stqa", "e7"}, {(FORMAT3(3, OP3_X(3,6), 1)), "stqa", "e8"}, {(FORMAT3(3, OP3_X(0,7), 0)), "std", "dp"}, {(FORMAT3(3, OP3_X(0,7), 1)), "std", "dq"}, {(FORMAT3(3, OP3_X(1,7), 0)), "stda", "d7"}, {(FORMAT3(3, OP3_X(1,7), 1)), "stda", "d8"}, {(FORMAT3(3, OP3_X(2,7), 0)), "std", "ep"}, {(FORMAT3(3, OP3_X(2,7), 1)), "std", "eq"}, {(FORMAT3(3, OP3_X(3,7), 0)), "stda", "e7"}, {(FORMAT3(3, OP3_X(3,7), 1)), "stda", "e8"}, {(FORMAT3(3, OP3_X(0,8), 0)), "ldsw", "pd"}, {(FORMAT3(3, OP3_X(0,8), 1)), "ldsw", "qd"}, {(FORMAT3(3, OP3_X(1,8), 0)), "ldswa", "7d"}, {(FORMAT3(3, OP3_X(1,8), 1)), "ldswa", "8d"}, {(FORMAT3(3, OP3_X(0,9), 0)), "ldsb", "pd"}, {(FORMAT3(3, OP3_X(0,9), 1)), "ldsb", "qd"}, {(FORMAT3(3, OP3_X(1,9), 0)), "ldsba", "7d"}, {(FORMAT3(3, OP3_X(1,9), 1)), "ldsba", "8d"}, {(FORMAT3(3, OP3_X(0,10), 0)), "ldsh", "pd"}, {(FORMAT3(3, OP3_X(0,10), 1)), "ldsh", "qd"}, {(FORMAT3(3, OP3_X(1,10), 0)), "ldsha", "7d"}, {(FORMAT3(3, OP3_X(1,10), 1)), "ldsha", "8d"}, {(FORMAT3(3, OP3_X(0,11), 0)), "ldx", "pd"}, {(FORMAT3(3, OP3_X(0,11), 1)), "ldx", "qd"}, {(FORMAT3(3, OP3_X(1,11), 0)), "ldxa", "7d"}, {(FORMAT3(3, OP3_X(1,11), 1)), "ldxa", "8d"}, {(FORMAT3(3, OP3_X(3,12), 1)), "casa", "s2d"}, {(FORMAT3(3, OP3_X(3,12), 0)), "casa", "t2d"}, {(FORMAT3(3, OP3_X(0,13), 0)), "ldstub", "7d"}, {(FORMAT3(3, OP3_X(0,13), 1)), "ldstub", "8d"}, {(FORMAT3(3, OP3_X(1,13), 0)), "ldstuba", "pd"}, {(FORMAT3(3, OP3_X(1,13), 1)), "ldstuba", "qd"}, {(FORMAT3(3, OP3_X(2,13), 0)), "prefetch", "pr"}, {(FORMAT3(3, OP3_X(2,13), 1)), "prefetch", "qr"}, {(FORMAT3(3, OP3_X(3,13), 0)), "prefetcha", "7r"}, {(FORMAT3(3, OP3_X(3,13), 1)), "prefetcha", "8r"}, {(FORMAT3(3, OP3_X(0,14), 0)), "stx", "dp"}, {(FORMAT3(3, OP3_X(0,14), 1)), "stx", "dq"}, {(FORMAT3(3, OP3_X(1,14), 0)), "stxa", "d7"}, {(FORMAT3(3, OP3_X(1,14), 1)), "stxa", "d8"}, {(FORMAT3(3, OP3_X(3,14), 0)), "casxa", "t2d"}, {(FORMAT3(3, OP3_X(3,14), 1)), "casxa", "s2d"}, /* Swap Register */ {(FORMAT3(3, OP3_X(0,15), 0)), "swap", "pd"}, {(FORMAT3(3, OP3_X(0,15), 1)), "swap", "qd"}, {(FORMAT3(3, OP3_X(1,15), 0)), "swapa", "7d"}, {(FORMAT3(3, OP3_X(1,15), 1)), "swapa", "8d"}, /* * OP3 = (3,4): FPop1 (table 34) */ {(FORMAT3F(2, OP3_X(3,4), OPF_X(0,1))), "fmovs", ".4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(0,2))), "fmovd", ".4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(0,3))), "fmovq", ".4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(0,5))), "fnegs", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(0,6))), "fnegd", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(0,7))), "fnegq", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(0,9))), "fabss", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(0,10))), "fabsd", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(0,11))), "fabsq", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(2,9))), "fsqrts", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(2,10))), "fsqrtd", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(2,11))), "fsqrtq", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(4,1))), "fadds", "34e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(4,2))), "faddd", "34e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(4,3))), "faddq", "34e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(4,5))), "fsubs", "34e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(4,6))), "fsubd", "34e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(4,7))), "fsubq", "34e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(4,9))), "fmuls", "34e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(4,10))), "fmuld", "34e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(4,11))), "fmulq", "34e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(4,13))), "fdivs", "34e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(4,14))), "fdivd", "34e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(4,15))), "fdivq", "34e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(6,9))), "fsmuld", "34e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(6,14))), "fdmulq", "34e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(8,1))), "fstox", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(8,2))), "fdtox", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(8,3))), "fqtox", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(8,4))), "fxtos", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(8,8))), "fxtod", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(8,12))), "fxtoq", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(12,4))), "fitos", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(12,6))), "fdtos", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(12,7))), "fqtos", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(12,8))), "fitod", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(12,9))), "fstod", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(12,11))), "fqtod", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(12,12))), "fitoq", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(12,13))), "fstoq", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(12,14))), "fdtoq", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(13,1))), "fstoi", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(13,2))), "fdtoi", "4e"}, {(FORMAT3F(2, OP3_X(3,4), OPF_X(13,3))), "fqtoi", "4e"}, #ifdef xxx /* * OP3 =(3,5): FPop2 (table 35) */ {(FORMAT3F(2, OP3_X(3,5), 81)), "fcmps", "o34"}, {(FORMAT3F(2, OP3_X(3,5), 82)), "fcmpd", "o34"}, {(FORMAT3F(2, OP3_X(3,5), 83)), "fcmpq", "o34"}, {(FORMAT3F(2, OP3_X(3,5), 85)), "fcmpes", "o34"}, {(FORMAT3F(2, OP3_X(3,5), 86)), "fcmped", "o34"}, {(FORMAT3F(2, OP3_X(3,5), 87)), "fcmpeq", "o34"}, /* Move Floating-Point Register on Condition "FMOVcc" */ /* FIXME should check for single, double, and quad movements */ /* Integer Condition Codes */ {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,8)), "fmova", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,0)), "fmovn", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,9)), "fmovne", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,1)), "fmove", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,10)), "fmovg", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,2)), "fmovle", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,11)), "fmovge", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,3)), "fmovl", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,12)), "fmovgu", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,4)), "fmovleu", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,13)), "fmovcc", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,5)), "fmovcs", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,14)), "fmovpos", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,6)), "fmovneg", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,15)), "fmovvc", "04e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,7)), "fmovvs", "04e"}, /* Floating-Point Condition Codes */ {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,8)), "fmova", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,0)), "fmovn", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,7)), "fmovu", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,6)), "fmovg", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,5)), "fmovug", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,4)), "fmovk", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,3)), "fmovul", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,2)), "fmovlg", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,1)), "fmovne", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,9)), "fmove", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,10)), "fmovue", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,11)), "fmovge", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,12)), "fmovuge", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,13)), "fmovle", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,14)), "fmovule", "o4e"}, {(FORMAT3(2, OP3_X(3,5), 0) | COND2(0,15)), "fmovo", "o4e"}, /* Move F-P Register on Integer Register Condition "FMOVr" */ /* FIXME: check for short, double, and quad's */ {(FORMAT3(2, OP3_X(3,5), 0) | EIF_F3_RCOND(1)), "fmovre", "14e"}, {(FORMAT3(2, OP3_X(3,5), 0) | EIF_F3_RCOND(2)), "fmovrlez", "14e"}, {(FORMAT3(2, OP3_X(3,5), 0) | EIF_F3_RCOND(3)), "fmovrlz", "14e"}, {(FORMAT3(2, OP3_X(3,5), 0) | EIF_F3_RCOND(5)), "fmovrne", "14e"}, {(FORMAT3(2, OP3_X(3,5), 0) | EIF_F3_RCOND(6)), "fmovrgz", "14e"}, {(FORMAT3(2, OP3_X(3,5), 0) | EIF_F3_RCOND(7)), "fmovrgez", "14e"}, #endif /* FP logical insns -- UltraSPARC extens */ {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,0))), "fzero", "e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,1))), "fzeros", "e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,14))), "fone", "e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,15))), "fones", "e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,4))), "fsrc1", "3e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,5))), "fsrc1s", "3e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,8))), "fsrc2", "4e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,9))), "fsrc2s", "4e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,10))), "fnot1", "3e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,11))), "fnot1s", "3e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,6))), "fnot2", "4e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,7))), "fnot2s", "4e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,12))), "for", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,13))), "fors", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,2))), "fnor", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,3))), "fnors", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,0))), "fand", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,1))), "fands", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,14))), "fnand", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,15))), "fnands", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,12))), "fxor", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,13))), "fxors", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,2))), "fxnor", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,3))), "fxnors", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,10))), "fornot1", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,11))), "fornot1s", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,6))), "fornot2", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(7,7))), "fornot2s", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,8))), "fandnot1", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,9))), "fandnot1s", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,4))), "fandnot2", "34e"}, {(FORMAT3F(2, OP3_X(3,6), OPF_X(6,5))), "fandnot2s", "34e"}, /* grrrr.... */ {0, 0, 0} }; db_addr_t db_disasm(db_addr_t loc, boolean_t altfmt) { const struct sparc_insn* i_ptr = (struct sparc_insn *)&sparc_i; unsigned int insn, you_lose, bitmask; int matchp; const char* f_ptr, *cp; you_lose = 0; matchp = 0; insn = db_get_value(loc, 4, 0); if (insn == 0x01000000) { db_printf("nop\n"); return loc + 4; } while (i_ptr->name) { /* calculate YOU_LOSE value */ bitmask= (i_ptr->match); you_lose = (~bitmask); if (((bitmask>>30) & 0x3) == 0x1) { /* Call */ you_lose = ((~0x1)<<30); } else if (((bitmask>>30) & 0x3) == 0x0) { if (((bitmask>>22) & 0x7) == 0x4) { /* Sethi */ you_lose &= (FORMAT2(0x3,0x7)); } else { /* Branches */ you_lose &= (FORMAT2(0x3,0x7) | EIF_F2_COND(0xf)); } } else if (((bitmask>>30) & 0x3) == 0x2 && ((bitmask>>19) & 0x3f) == 0x34) /* XXX */ { /* FPop1 */ you_lose &= (FORMAT3(0x3,0x3f,0x1) | EIF_F3_OPF(0x1ff)); } else if (((bitmask>>30) & 0x3) == 0x2 && ((bitmask>>19) & 0x3f) == 0x3a) /* XXX */ { /* Tcc */ you_lose &= (FORMAT3(0x3,0x3f,0x1) | EIF_F4_TCOND(0xf)); } else if (((bitmask>>30) & 0x3) == 0x2 && ((bitmask>>21) & 0xf) == 0x9 && ((bitmask>>19) & 0x3) != 0) /* XXX */ { /* shifts */ you_lose &= (FORMAT3(0x3,0x3f,0x1)) | EIF_F3_X(1); } else if (((bitmask>>30) & 0x3) == 0x2 && ((bitmask>>19) & 0x3f) == 0x2c) /* XXX */ { /* cmov */ you_lose &= (FORMAT3(0x3,0x3f,0x1) | COND2(1,0xf)); } else if (((bitmask>>30) & 0x3) == 0x2 && ((bitmask>>19) & 0x3f) == 0x35) /* XXX */ { /* fmov */ you_lose &= (FORMAT3(0x3,0x3f,0x1) | COND2(1,0xf)); } else { you_lose &= (FORMAT3(0x3,0x3f,0x1)); } if (((bitmask & insn) == bitmask) && ((you_lose & insn) == 0)) { matchp = 1; break; } i_ptr++; }; if (!matchp) { db_printf("undefined\n"); return loc + 4; } db_printf("%s", i_ptr->name); f_ptr = i_ptr->format; for (cp = f_ptr; *cp; cp++) { if (*cp == ',') { for (;f_ptr < cp; f_ptr++) switch (*f_ptr) { case 'a': if (insn & EIF_F2_A(1)) db_printf(",a"); break; case 'p': if (insn & EIF_F2_P(1)) db_printf(",pt"); else db_printf(",pn"); break; } f_ptr++; break; } } db_printf(" \t"); while (*f_ptr) { switch (*f_ptr) { int64_t val; case '1': db_printf("%%%s", regs[((insn >> 14) & 0x1f)]); break; case '2': db_printf("%%%s", regs[(insn & 0x1f)]); break; case 'd': db_printf("%%%s", regs[((insn >> 25) & 0x1f)]); break; case '3': db_printf("%%f%d", ((insn >> 14) & 0x1f)); break; case '4': db_printf("%%f%d", (insn & 0x1f)); break; case 'e': db_printf("%%f%d", ((insn >> 25) & 0x1f)); break; case 'i': /* simm13 -- signed */ val = IF_SIMM(insn, 13); db_printf("%s0x%x", SIGN(val), (int)abs(val)); break; case 'j': /* simm11 -- signed */ val = IF_SIMM(insn, 11); db_printf("%s0x%x", SIGN(val), (int)abs(val)); break; case 'l': val = (((insn>>20)&0x3)<<13)|(insn & 0x1fff); val = IF_SIMM(val, 16); db_printsym((db_addr_t)(loc + (4 * val)), DB_STGY_ANY); break; case 'm': db_printsym((db_addr_t)(loc + (4 * IF_SIMM(insn, 22))), DB_STGY_ANY); break; case 'u': db_printsym((db_addr_t)(loc + (4 * IF_SIMM(insn, 19))), DB_STGY_ANY); break; case 'n': db_printsym((db_addr_t)(loc + (4 * IF_SIMM(insn, 30))), DB_STGY_PROC); break; case 's': db_printf("%%asi"); break; case 't': db_printf("0x%-2.2x", ((insn >> 5) & 0xff)); break; case 'o': db_printf("%%fcc%d", ((insn >> 25) & 0x3)); break; case 'p': case '7': db_printf("[%%%s + %%%s]", regs[((insn >> 14) & 0x1f)], regs[(insn & 0x1f)]); if (*f_ptr == '7') db_printf(" %d", ((insn >> 5) & 0xff)); break; case 'q': case '8': val = IF_SIMM(insn, 13); db_printf("[%%%s %c 0x%x]", regs[((insn >> 14) & 0x1f)], (int)((val<0)?'-':'+'), (int)abs(val)); if (*f_ptr == '8') db_printf(" %%asi"); break; case '5': db_printf("%%fsr"); break; case '6': db_printf("%%fsr"); break; case '9': db_printf("0x%xl", ((insn & 0xf) | ((insn >> 4) & 0x7))); break; case '0': db_printf("%%%s", ccodes[((insn >> 11) & 0x3) + 4]); break; case '.': db_printf("%%%s", ccodes[((insn >> 11) & 0x7)]); break; case 'r': db_printf("#%s", prefetch[((insn >> 25) & 0x1f)]); break; case 'A': db_printf("%%%s", priv_regs[((insn >> 14) & 0x1f)]); break; case 'B': db_printf("%%%s", state_regs[((insn >> 14) & 0x1f)]); break; case 'C': db_printf("%%hi(0x%x)", ((insn & 0x3fffff) << 10)); break; case 'D': db_printf("0x%x", (insn & 0x1f)); break; case 'E': db_printf("%d", (insn & 0x3f)); break; case 'F': db_printf("%d", (insn & 0x3f)); break; case 'G': db_printf("%%%s", priv_regs[((insn >> 25) & 0x1f)]); break; case 'H': db_printf("%%%s", state_regs[((insn >> 25) & 0x1f)]); break; default: db_printf("(UNKNOWN)"); break; } if (*(++f_ptr)) db_printf(", "); }; db_printf("\n"); return (loc + 4); }