// cmd/9l/optab.c, cmd/9l/asmout.c from Vita Nuova. // // Copyright © 1994-1999 Lucent Technologies Inc. All rights reserved. // Portions Copyright © 1995-1997 C H Forsyth (forsyth@terzarima.net) // Portions Copyright © 1997-1999 Vita Nuova Limited // Portions Copyright © 2000-2008 Vita Nuova Holdings Limited (www.vitanuova.com) // Portions Copyright © 2004,2006 Bruce Ellis // Portions Copyright © 2005-2007 C H Forsyth (forsyth@terzarima.net) // Revisions Copyright © 2000-2008 Lucent Technologies Inc. and others // Portions Copyright © 2009 The Go Authors. All rights reserved. // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. // Instruction layout. #include #include #include #include #include "../cmd/9l/9.out.h" #include "../runtime/stack.h" enum { FuncAlign = 8, }; enum { r0iszero = 1, }; typedef struct Optab Optab; struct Optab { short as; uchar a1; uchar a2; uchar a3; uchar a4; char type; char size; char param; }; static Optab optab[] = { { ATEXT, C_LEXT, C_NONE, C_NONE, C_LCON, 0, 0, 0 }, { ATEXT, C_LEXT, C_REG, C_NONE, C_LCON, 0, 0, 0 }, { ATEXT, C_LEXT, C_NONE, C_LCON, C_LCON, 0, 0, 0 }, { ATEXT, C_LEXT, C_REG, C_LCON, C_LCON, 0, 0, 0 }, { ATEXT, C_ADDR, C_NONE, C_NONE, C_LCON, 0, 0, 0 }, { ATEXT, C_ADDR, C_REG, C_NONE, C_LCON, 0, 0, 0 }, { ATEXT, C_ADDR, C_NONE, C_LCON, C_LCON, 0, 0, 0 }, { ATEXT, C_ADDR, C_REG, C_LCON, C_LCON, 0, 0, 0 }, /* move register */ { AMOVD, C_REG, C_NONE, C_NONE, C_REG, 1, 4, 0 }, { AMOVB, C_REG, C_NONE, C_NONE, C_REG, 12, 4, 0 }, { AMOVBZ, C_REG, C_NONE, C_NONE, C_REG, 13, 4, 0 }, { AMOVW, C_REG, C_NONE, C_NONE, C_REG, 12, 4, 0 }, { AMOVWZ, C_REG, C_NONE, C_NONE, C_REG, 13, 4, 0 }, { AADD, C_REG, C_REG, C_NONE, C_REG, 2, 4, 0 }, { AADD, C_REG, C_NONE, C_NONE, C_REG, 2, 4, 0 }, { AADD, C_ADDCON,C_REG, C_NONE, C_REG, 4, 4, 0 }, { AADD, C_ADDCON,C_NONE, C_NONE, C_REG, 4, 4, 0 }, { AADD, C_UCON, C_REG, C_NONE, C_REG, 20, 4, 0 }, { AADD, C_UCON, C_NONE, C_NONE, C_REG, 20, 4, 0 }, { AADD, C_LCON, C_REG, C_NONE, C_REG, 22, 12, 0 }, { AADD, C_LCON, C_NONE, C_NONE, C_REG, 22, 12, 0 }, { AADDC, C_REG, C_REG, C_NONE, C_REG, 2, 4, 0 }, { AADDC, C_REG, C_NONE, C_NONE, C_REG, 2, 4, 0 }, { AADDC, C_ADDCON,C_REG, C_NONE, C_REG, 4, 4, 0 }, { AADDC, C_ADDCON,C_NONE, C_NONE, C_REG, 4, 4, 0 }, { AADDC, C_LCON, C_REG, C_NONE, C_REG, 22, 12, 0 }, { AADDC, C_LCON, C_NONE, C_NONE, C_REG, 22, 12, 0 }, { AAND, C_REG, C_REG, C_NONE, C_REG, 6, 4, 0 }, /* logical, no literal */ { AAND, C_REG, C_NONE, C_NONE, C_REG, 6, 4, 0 }, { AANDCC, C_REG, C_REG, C_NONE, C_REG, 6, 4, 0 }, { AANDCC, C_REG, C_NONE, C_NONE, C_REG, 6, 4, 0 }, { AANDCC, C_ANDCON,C_NONE, C_NONE, C_REG, 58, 4, 0 }, { AANDCC, C_ANDCON,C_REG, C_NONE, C_REG, 58, 4, 0 }, { AANDCC, C_UCON, C_NONE, C_NONE, C_REG, 59, 4, 0 }, { AANDCC, C_UCON, C_REG, C_NONE, C_REG, 59, 4, 0 }, { AANDCC, C_LCON, C_NONE, C_NONE, C_REG, 23, 12, 0 }, { AANDCC, C_LCON, C_REG, C_NONE, C_REG, 23, 12, 0 }, { AMULLW, C_REG, C_REG, C_NONE, C_REG, 2, 4, 0 }, { AMULLW, C_REG, C_NONE, C_NONE, C_REG, 2, 4, 0 }, { AMULLW, C_ADDCON,C_REG, C_NONE, C_REG, 4, 4, 0 }, { AMULLW, C_ADDCON,C_NONE, C_NONE, C_REG, 4, 4, 0 }, { AMULLW, C_ANDCON,C_REG, C_NONE, C_REG, 4, 4, 0 }, { AMULLW, C_ANDCON, C_NONE, C_NONE, C_REG, 4, 4, 0 }, { AMULLW, C_LCON, C_REG, C_NONE, C_REG, 22, 12, 0}, { AMULLW, C_LCON, C_NONE, C_NONE, C_REG, 22, 12, 0}, { ASUBC, C_REG, C_REG, C_NONE, C_REG, 10, 4, 0 }, { ASUBC, C_REG, C_NONE, C_NONE, C_REG, 10, 4, 0 }, { ASUBC, C_REG, C_NONE, C_ADDCON, C_REG, 27, 4, 0 }, { ASUBC, C_REG, C_NONE, C_LCON, C_REG, 28, 12, 0}, { AOR, C_REG, C_REG, C_NONE, C_REG, 6, 4, 0 }, /* logical, literal not cc (or/xor) */ { AOR, C_REG, C_NONE, C_NONE, C_REG, 6, 4, 0 }, { AOR, C_ANDCON, C_NONE, C_NONE, C_REG, 58, 4, 0 }, { AOR, C_ANDCON, C_REG, C_NONE, C_REG, 58, 4, 0 }, { AOR, C_UCON, C_NONE, C_NONE, C_REG, 59, 4, 0 }, { AOR, C_UCON, C_REG, C_NONE, C_REG, 59, 4, 0 }, { AOR, C_LCON, C_NONE, C_NONE, C_REG, 23, 12, 0 }, { AOR, C_LCON, C_REG, C_NONE, C_REG, 23, 12, 0 }, { ADIVW, C_REG, C_REG, C_NONE, C_REG, 2, 4, 0 }, /* op r1[,r2],r3 */ { ADIVW, C_REG, C_NONE, C_NONE, C_REG, 2, 4, 0 }, { ASUB, C_REG, C_REG, C_NONE, C_REG, 10, 4, 0 }, /* op r2[,r1],r3 */ { ASUB, C_REG, C_NONE, C_NONE, C_REG, 10, 4, 0 }, { ASLW, C_REG, C_NONE, C_NONE, C_REG, 6, 4, 0 }, { ASLW, C_REG, C_REG, C_NONE, C_REG, 6, 4, 0 }, { ASLD, C_REG, C_NONE, C_NONE, C_REG, 6, 4, 0 }, { ASLD, C_REG, C_REG, C_NONE, C_REG, 6, 4, 0 }, { ASLD, C_SCON, C_REG, C_NONE, C_REG, 25, 4, 0 }, { ASLD, C_SCON, C_NONE, C_NONE, C_REG, 25, 4, 0 }, { ASLW, C_SCON, C_REG, C_NONE, C_REG, 57, 4, 0 }, { ASLW, C_SCON, C_NONE, C_NONE, C_REG, 57, 4, 0 }, { ASRAW, C_REG, C_NONE, C_NONE, C_REG, 6, 4, 0 }, { ASRAW, C_REG, C_REG, C_NONE, C_REG, 6, 4, 0 }, { ASRAW, C_SCON, C_REG, C_NONE, C_REG, 56, 4, 0 }, { ASRAW, C_SCON, C_NONE, C_NONE, C_REG, 56, 4, 0 }, { ASRAD, C_REG, C_NONE, C_NONE, C_REG, 6, 4, 0 }, { ASRAD, C_REG, C_REG, C_NONE, C_REG, 6, 4, 0 }, { ASRAD, C_SCON, C_REG, C_NONE, C_REG, 56, 4, 0 }, { ASRAD, C_SCON, C_NONE, C_NONE, C_REG, 56, 4, 0 }, { ARLWMI, C_SCON, C_REG, C_LCON, C_REG, 62, 4, 0 }, { ARLWMI, C_REG, C_REG, C_LCON, C_REG, 63, 4, 0 }, { ARLDMI, C_SCON, C_REG, C_LCON, C_REG, 30, 4, 0 }, { ARLDC, C_SCON, C_REG, C_LCON, C_REG, 29, 4, 0 }, { ARLDCL, C_SCON, C_REG, C_LCON, C_REG, 29, 4, 0 }, { ARLDCL, C_REG, C_REG, C_LCON, C_REG, 14, 4, 0 }, { ARLDCL, C_REG, C_NONE, C_LCON, C_REG, 14, 4, 0 }, { AFADD, C_FREG, C_NONE, C_NONE, C_FREG, 2, 4, 0 }, { AFADD, C_FREG, C_REG, C_NONE, C_FREG, 2, 4, 0 }, { AFABS, C_FREG, C_NONE, C_NONE, C_FREG, 33, 4, 0 }, { AFABS, C_NONE, C_NONE, C_NONE, C_FREG, 33, 4, 0 }, { AFMOVD, C_FREG, C_NONE, C_NONE, C_FREG, 33, 4, 0 }, { AFMADD, C_FREG, C_REG, C_FREG, C_FREG, 34, 4, 0 }, { AFMUL, C_FREG, C_NONE, C_NONE, C_FREG, 32, 4, 0 }, { AFMUL, C_FREG, C_REG, C_NONE, C_FREG, 32, 4, 0 }, /* store, short offset */ { AMOVD, C_REG, C_REG, C_NONE, C_ZOREG, 7, 4, REGZERO }, { AMOVW, C_REG, C_REG, C_NONE, C_ZOREG, 7, 4, REGZERO }, { AMOVWZ, C_REG, C_REG, C_NONE, C_ZOREG, 7, 4, REGZERO }, { AMOVBZ, C_REG, C_REG, C_NONE, C_ZOREG, 7, 4, REGZERO }, { AMOVBZU, C_REG, C_REG, C_NONE, C_ZOREG, 7, 4, REGZERO }, { AMOVB, C_REG, C_REG, C_NONE, C_ZOREG, 7, 4, REGZERO }, { AMOVBU, C_REG, C_REG, C_NONE, C_ZOREG, 7, 4, REGZERO }, { AMOVD, C_REG, C_NONE, C_NONE, C_SEXT, 7, 4, REGSB }, { AMOVW, C_REG, C_NONE, C_NONE, C_SEXT, 7, 4, REGSB }, { AMOVWZ, C_REG, C_NONE, C_NONE, C_SEXT, 7, 4, REGSB }, { AMOVBZ, C_REG, C_NONE, C_NONE, C_SEXT, 7, 4, REGSB }, { AMOVB, C_REG, C_NONE, C_NONE, C_SEXT, 7, 4, REGSB }, { AMOVD, C_REG, C_NONE, C_NONE, C_SAUTO, 7, 4, REGSP }, { AMOVW, C_REG, C_NONE, C_NONE, C_SAUTO, 7, 4, REGSP }, { AMOVWZ, C_REG, C_NONE, C_NONE, C_SAUTO, 7, 4, REGSP }, { AMOVBZ, C_REG, C_NONE, C_NONE, C_SAUTO, 7, 4, REGSP }, { AMOVB, C_REG, C_NONE, C_NONE, C_SAUTO, 7, 4, REGSP }, { AMOVD, C_REG, C_NONE, C_NONE, C_SOREG, 7, 4, REGZERO }, { AMOVW, C_REG, C_NONE, C_NONE, C_SOREG, 7, 4, REGZERO }, { AMOVWZ, C_REG, C_NONE, C_NONE, C_SOREG, 7, 4, REGZERO }, { AMOVBZ, C_REG, C_NONE, C_NONE, C_SOREG, 7, 4, REGZERO }, { AMOVBZU, C_REG, C_NONE, C_NONE, C_SOREG, 7, 4, REGZERO }, { AMOVB, C_REG, C_NONE, C_NONE, C_SOREG, 7, 4, REGZERO }, { AMOVBU, C_REG, C_NONE, C_NONE, C_SOREG, 7, 4, REGZERO }, /* load, short offset */ { AMOVD, C_ZOREG,C_REG, C_NONE, C_REG, 8, 4, REGZERO }, { AMOVW, C_ZOREG,C_REG, C_NONE, C_REG, 8, 4, REGZERO }, { AMOVWZ, C_ZOREG,C_REG, C_NONE, C_REG, 8, 4, REGZERO }, { AMOVBZ, C_ZOREG,C_REG, C_NONE, C_REG, 8, 4, REGZERO }, { AMOVBZU, C_ZOREG,C_REG, C_NONE, C_REG, 8, 4, REGZERO }, { AMOVB, C_ZOREG,C_REG, C_NONE, C_REG, 9, 8, REGZERO }, { AMOVBU, C_ZOREG,C_REG, C_NONE, C_REG, 9, 8, REGZERO }, { AMOVD, C_SEXT, C_NONE, C_NONE, C_REG, 8, 4, REGSB }, { AMOVW, C_SEXT, C_NONE, C_NONE, C_REG, 8, 4, REGSB }, { AMOVWZ, C_SEXT, C_NONE, C_NONE, C_REG, 8, 4, REGSB }, { AMOVBZ, C_SEXT, C_NONE, C_NONE, C_REG, 8, 4, REGSB }, { AMOVB, C_SEXT, C_NONE, C_NONE, C_REG, 9, 8, REGSB }, { AMOVD, C_SAUTO,C_NONE, C_NONE, C_REG, 8, 4, REGSP }, { AMOVW, C_SAUTO,C_NONE, C_NONE, C_REG, 8, 4, REGSP }, { AMOVWZ, C_SAUTO,C_NONE, C_NONE, C_REG, 8, 4, REGSP }, { AMOVBZ, C_SAUTO,C_NONE, C_NONE, C_REG, 8, 4, REGSP }, { AMOVB, C_SAUTO,C_NONE, C_NONE, C_REG, 9, 8, REGSP }, { AMOVD, C_SOREG,C_NONE, C_NONE, C_REG, 8, 4, REGZERO }, { AMOVW, C_SOREG,C_NONE, C_NONE, C_REG, 8, 4, REGZERO }, { AMOVWZ, C_SOREG,C_NONE, C_NONE, C_REG, 8, 4, REGZERO }, { AMOVBZ, C_SOREG,C_NONE, C_NONE, C_REG, 8, 4, REGZERO }, { AMOVBZU, C_SOREG,C_NONE, C_NONE, C_REG, 8, 4, REGZERO }, { AMOVB, C_SOREG,C_NONE, C_NONE, C_REG, 9, 8, REGZERO }, { AMOVBU, C_SOREG,C_NONE, C_NONE, C_REG, 9, 8, REGZERO }, /* store, long offset */ { AMOVD, C_REG, C_NONE, C_NONE, C_LEXT, 35, 8, REGSB }, { AMOVW, C_REG, C_NONE, C_NONE, C_LEXT, 35, 8, REGSB }, { AMOVWZ, C_REG, C_NONE, C_NONE, C_LEXT, 35, 8, REGSB }, { AMOVBZ, C_REG, C_NONE, C_NONE, C_LEXT, 35, 8, REGSB }, { AMOVB, C_REG, C_NONE, C_NONE, C_LEXT, 35, 8, REGSB }, { AMOVD, C_REG, C_NONE, C_NONE, C_LAUTO, 35, 8, REGSP }, { AMOVW, C_REG, C_NONE, C_NONE, C_LAUTO, 35, 8, REGSP }, { AMOVWZ, C_REG, C_NONE, C_NONE, C_LAUTO, 35, 8, REGSP }, { AMOVBZ, C_REG, C_NONE, C_NONE, C_LAUTO, 35, 8, REGSP }, { AMOVB, C_REG, C_NONE, C_NONE, C_LAUTO, 35, 8, REGSP }, { AMOVD, C_REG, C_NONE, C_NONE, C_LOREG, 35, 8, REGZERO }, { AMOVW, C_REG, C_NONE, C_NONE, C_LOREG, 35, 8, REGZERO }, { AMOVWZ, C_REG, C_NONE, C_NONE, C_LOREG, 35, 8, REGZERO }, { AMOVBZ, C_REG, C_NONE, C_NONE, C_LOREG, 35, 8, REGZERO }, { AMOVB, C_REG, C_NONE, C_NONE, C_LOREG, 35, 8, REGZERO }, { AMOVD, C_REG, C_NONE, C_NONE, C_ADDR, 74, 8, 0 }, { AMOVW, C_REG, C_NONE, C_NONE, C_ADDR, 74, 8, 0 }, { AMOVWZ, C_REG, C_NONE, C_NONE, C_ADDR, 74, 8, 0 }, { AMOVBZ, C_REG, C_NONE, C_NONE, C_ADDR, 74, 8, 0 }, { AMOVB, C_REG, C_NONE, C_NONE, C_ADDR, 74, 8, 0 }, /* load, long offset */ { AMOVD, C_LEXT, C_NONE, C_NONE, C_REG, 36, 8, REGSB }, { AMOVW, C_LEXT, C_NONE, C_NONE, C_REG, 36, 8, REGSB }, { AMOVWZ, C_LEXT, C_NONE, C_NONE, C_REG, 36, 8, REGSB }, { AMOVBZ, C_LEXT, C_NONE, C_NONE, C_REG, 36, 8, REGSB }, { AMOVB, C_LEXT, C_NONE, C_NONE, C_REG, 37, 12, REGSB }, { AMOVD, C_LAUTO,C_NONE, C_NONE, C_REG, 36, 8, REGSP }, { AMOVW, C_LAUTO,C_NONE, C_NONE, C_REG, 36, 8, REGSP }, { AMOVWZ, C_LAUTO,C_NONE, C_NONE, C_REG, 36, 8, REGSP }, { AMOVBZ, C_LAUTO,C_NONE, C_NONE, C_REG, 36, 8, REGSP }, { AMOVB, C_LAUTO,C_NONE, C_NONE, C_REG, 37, 12, REGSP }, { AMOVD, C_LOREG,C_NONE, C_NONE, C_REG, 36, 8, REGZERO }, { AMOVW, C_LOREG,C_NONE, C_NONE, C_REG, 36, 8, REGZERO }, { AMOVWZ, C_LOREG,C_NONE, C_NONE, C_REG, 36, 8, REGZERO }, { AMOVBZ, C_LOREG,C_NONE, C_NONE, C_REG, 36, 8, REGZERO }, { AMOVB, C_LOREG,C_NONE, C_NONE, C_REG, 37, 12, REGZERO }, { AMOVD, C_ADDR, C_NONE, C_NONE, C_REG, 75, 8, 0 }, { AMOVW, C_ADDR, C_NONE, C_NONE, C_REG, 75, 8, 0 }, { AMOVWZ, C_ADDR, C_NONE, C_NONE, C_REG, 75, 8, 0 }, { AMOVBZ, C_ADDR, C_NONE, C_NONE, C_REG, 75, 8, 0 }, { AMOVB, C_ADDR, C_NONE, C_NONE, C_REG, 76, 12, 0 }, /* load constant */ { AMOVD, C_SECON,C_NONE, C_NONE, C_REG, 3, 4, REGSB }, { AMOVD, C_SACON,C_NONE, C_NONE, C_REG, 3, 4, REGSP }, { AMOVD, C_LECON,C_NONE, C_NONE, C_REG, 26, 8, REGSB }, { AMOVD, C_LACON,C_NONE, C_NONE, C_REG, 26, 8, REGSP }, { AMOVD, C_ADDCON,C_NONE, C_NONE, C_REG, 3, 4, REGZERO }, { AMOVW, C_SECON,C_NONE, C_NONE, C_REG, 3, 4, REGSB }, /* TO DO: check */ { AMOVW, C_SACON,C_NONE, C_NONE, C_REG, 3, 4, REGSP }, { AMOVW, C_LECON,C_NONE, C_NONE, C_REG, 26, 8, REGSB }, { AMOVW, C_LACON,C_NONE, C_NONE, C_REG, 26, 8, REGSP }, { AMOVW, C_ADDCON,C_NONE, C_NONE, C_REG, 3, 4, REGZERO }, { AMOVWZ, C_SECON,C_NONE, C_NONE, C_REG, 3, 4, REGSB }, /* TO DO: check */ { AMOVWZ, C_SACON,C_NONE, C_NONE, C_REG, 3, 4, REGSP }, { AMOVWZ, C_LECON,C_NONE, C_NONE, C_REG, 26, 8, REGSB }, { AMOVWZ, C_LACON,C_NONE, C_NONE, C_REG, 26, 8, REGSP }, { AMOVWZ, C_ADDCON,C_NONE, C_NONE, C_REG, 3, 4, REGZERO }, /* load unsigned/long constants (TO DO: check) */ { AMOVD, C_UCON, C_NONE, C_NONE, C_REG, 3, 4, REGZERO }, { AMOVD, C_LCON, C_NONE, C_NONE, C_REG, 19, 8, 0 }, { AMOVW, C_UCON, C_NONE, C_NONE, C_REG, 3, 4, REGZERO }, { AMOVW, C_LCON, C_NONE, C_NONE, C_REG, 19, 8, 0 }, { AMOVWZ, C_UCON, C_NONE, C_NONE, C_REG, 3, 4, REGZERO }, { AMOVWZ, C_LCON, C_NONE, C_NONE, C_REG, 19, 8, 0 }, { AMOVHBR, C_ZOREG, C_REG, C_NONE, C_REG, 45, 4, 0 }, { AMOVHBR, C_ZOREG, C_NONE, C_NONE, C_REG, 45, 4, 0 }, { AMOVHBR, C_REG, C_REG, C_NONE, C_ZOREG, 44, 4, 0 }, { AMOVHBR, C_REG, C_NONE, C_NONE, C_ZOREG, 44, 4, 0 }, { ASYSCALL, C_NONE, C_NONE, C_NONE, C_NONE, 5, 4, 0 }, { ASYSCALL, C_REG, C_NONE, C_NONE, C_NONE, 77, 12, 0 }, { ASYSCALL, C_SCON, C_NONE, C_NONE, C_NONE, 77, 12, 0 }, { ABEQ, C_NONE, C_NONE, C_NONE, C_SBRA, 16, 4, 0 }, { ABEQ, C_CREG, C_NONE, C_NONE, C_SBRA, 16, 4, 0 }, { ABR, C_NONE, C_NONE, C_NONE, C_LBRA, 11, 4, 0 }, { ABC, C_SCON, C_REG, C_NONE, C_SBRA, 16, 4, 0 }, { ABC, C_SCON, C_REG, C_NONE, C_LBRA, 17, 4, 0 }, { ABR, C_NONE, C_NONE, C_NONE, C_LR, 18, 4, 0 }, { ABR, C_NONE, C_NONE, C_NONE, C_CTR, 18, 4, 0 }, { ABR, C_REG, C_NONE, C_NONE, C_CTR, 18, 4, 0 }, { ABR, C_NONE, C_NONE, C_NONE, C_ZOREG, 15, 8, 0 }, { ABC, C_NONE, C_REG, C_NONE, C_LR, 18, 4, 0 }, { ABC, C_NONE, C_REG, C_NONE, C_CTR, 18, 4, 0 }, { ABC, C_SCON, C_REG, C_NONE, C_LR, 18, 4, 0 }, { ABC, C_SCON, C_REG, C_NONE, C_CTR, 18, 4, 0 }, { ABC, C_NONE, C_NONE, C_NONE, C_ZOREG, 15, 8, 0 }, { AFMOVD, C_SEXT, C_NONE, C_NONE, C_FREG, 8, 4, REGSB }, { AFMOVD, C_SAUTO,C_NONE, C_NONE, C_FREG, 8, 4, REGSP }, { AFMOVD, C_SOREG,C_NONE, C_NONE, C_FREG, 8, 4, REGZERO }, { AFMOVD, C_LEXT, C_NONE, C_NONE, C_FREG, 36, 8, REGSB }, { AFMOVD, C_LAUTO,C_NONE, C_NONE, C_FREG, 36, 8, REGSP }, { AFMOVD, C_LOREG,C_NONE, C_NONE, C_FREG, 36, 8, REGZERO }, { AFMOVD, C_ADDR, C_NONE, C_NONE, C_FREG, 75, 8, 0 }, { AFMOVD, C_FREG, C_NONE, C_NONE, C_SEXT, 7, 4, REGSB }, { AFMOVD, C_FREG, C_NONE, C_NONE, C_SAUTO, 7, 4, REGSP }, { AFMOVD, C_FREG, C_NONE, C_NONE, C_SOREG, 7, 4, REGZERO }, { AFMOVD, C_FREG, C_NONE, C_NONE, C_LEXT, 35, 8, REGSB }, { AFMOVD, C_FREG, C_NONE, C_NONE, C_LAUTO, 35, 8, REGSP }, { AFMOVD, C_FREG, C_NONE, C_NONE, C_LOREG, 35, 8, REGZERO }, { AFMOVD, C_FREG, C_NONE, C_NONE, C_ADDR, 74, 8, 0 }, { ASYNC, C_NONE, C_NONE, C_NONE, C_NONE, 46, 4, 0 }, { AWORD, C_LCON, C_NONE, C_NONE, C_NONE, 40, 4, 0 }, { ADWORD, C_LCON, C_NONE, C_NONE, C_NONE, 31, 8, 0 }, { ADWORD, C_DCON, C_NONE, C_NONE, C_NONE, 31, 8, 0 }, { AADDME, C_REG, C_NONE, C_NONE, C_REG, 47, 4, 0 }, { AEXTSB, C_REG, C_NONE, C_NONE, C_REG, 48, 4, 0 }, { AEXTSB, C_NONE, C_NONE, C_NONE, C_REG, 48, 4, 0 }, { ANEG, C_REG, C_NONE, C_NONE, C_REG, 47, 4, 0 }, { ANEG, C_NONE, C_NONE, C_NONE, C_REG, 47, 4, 0 }, { AREM, C_REG, C_NONE, C_NONE, C_REG, 50, 12, 0 }, { AREM, C_REG, C_REG, C_NONE, C_REG, 50, 12, 0 }, { AREMU, C_REG, C_NONE, C_NONE, C_REG, 50, 16, 0 }, { AREMU, C_REG, C_REG, C_NONE, C_REG, 50, 16, 0 }, { AREMD, C_REG, C_NONE, C_NONE, C_REG, 51, 12, 0 }, { AREMD, C_REG, C_REG, C_NONE, C_REG, 51, 12, 0 }, { AREMDU, C_REG, C_NONE, C_NONE, C_REG, 51, 12, 0 }, { AREMDU, C_REG, C_REG, C_NONE, C_REG, 51, 12, 0 }, { AMTFSB0, C_SCON, C_NONE, C_NONE, C_NONE, 52, 4, 0 }, { AMOVFL, C_FPSCR, C_NONE, C_NONE, C_FREG, 53, 4, 0 }, { AMOVFL, C_FREG, C_NONE, C_NONE, C_FPSCR, 64, 4, 0 }, { AMOVFL, C_FREG, C_NONE, C_LCON, C_FPSCR, 64, 4, 0 }, { AMOVFL, C_LCON, C_NONE, C_NONE, C_FPSCR, 65, 4, 0 }, { AMOVD, C_MSR, C_NONE, C_NONE, C_REG, 54, 4, 0 }, /* mfmsr */ { AMOVD, C_REG, C_NONE, C_NONE, C_MSR, 54, 4, 0 }, /* mtmsrd */ { AMOVWZ, C_REG, C_NONE, C_NONE, C_MSR, 54, 4, 0 }, /* mtmsr */ /* 64-bit special registers */ { AMOVD, C_REG, C_NONE, C_NONE, C_SPR, 66, 4, 0 }, { AMOVD, C_REG, C_NONE, C_NONE, C_LR, 66, 4, 0 }, { AMOVD, C_REG, C_NONE, C_NONE, C_CTR, 66, 4, 0 }, { AMOVD, C_REG, C_NONE, C_NONE, C_XER, 66, 4, 0 }, { AMOVD, C_SPR, C_NONE, C_NONE, C_REG, 66, 4, 0 }, { AMOVD, C_LR, C_NONE, C_NONE, C_REG, 66, 4, 0 }, { AMOVD, C_CTR, C_NONE, C_NONE, C_REG, 66, 4, 0 }, { AMOVD, C_XER, C_NONE, C_NONE, C_REG, 66, 4, 0 }, /* 32-bit special registers (gloss over sign-extension or not?) */ { AMOVW, C_REG, C_NONE, C_NONE, C_SPR, 66, 4, 0 }, { AMOVW, C_REG, C_NONE, C_NONE, C_CTR, 66, 4, 0 }, { AMOVW, C_REG, C_NONE, C_NONE, C_XER, 66, 4, 0 }, { AMOVW, C_SPR, C_NONE, C_NONE, C_REG, 66, 4, 0 }, { AMOVW, C_XER, C_NONE, C_NONE, C_REG, 66, 4, 0 }, { AMOVWZ, C_REG, C_NONE, C_NONE, C_SPR, 66, 4, 0 }, { AMOVWZ, C_REG, C_NONE, C_NONE, C_CTR, 66, 4, 0 }, { AMOVWZ, C_REG, C_NONE, C_NONE, C_XER, 66, 4, 0 }, { AMOVWZ, C_SPR, C_NONE, C_NONE, C_REG, 66, 4, 0 }, { AMOVWZ, C_XER, C_NONE, C_NONE, C_REG, 66, 4, 0 }, { AMOVFL, C_FPSCR, C_NONE, C_NONE, C_CREG, 73, 4, 0 }, { AMOVFL, C_CREG, C_NONE, C_NONE, C_CREG, 67, 4, 0 }, { AMOVW, C_CREG, C_NONE, C_NONE, C_REG, 68, 4, 0 }, { AMOVWZ, C_CREG, C_NONE, C_NONE, C_REG, 68, 4, 0 }, { AMOVFL, C_REG, C_NONE, C_LCON, C_CREG, 69, 4, 0 }, { AMOVFL, C_REG, C_NONE, C_NONE, C_CREG, 69, 4, 0 }, { AMOVW, C_REG, C_NONE, C_NONE, C_CREG, 69, 4, 0 }, { AMOVWZ, C_REG, C_NONE, C_NONE, C_CREG, 69, 4, 0 }, { ACMP, C_REG, C_NONE, C_NONE, C_REG, 70, 4, 0 }, { ACMP, C_REG, C_REG, C_NONE, C_REG, 70, 4, 0 }, { ACMP, C_REG, C_NONE, C_NONE, C_ADDCON, 71, 4, 0 }, { ACMP, C_REG, C_REG, C_NONE, C_ADDCON, 71, 4, 0 }, { ACMPU, C_REG, C_NONE, C_NONE, C_REG, 70, 4, 0 }, { ACMPU, C_REG, C_REG, C_NONE, C_REG, 70, 4, 0 }, { ACMPU, C_REG, C_NONE, C_NONE, C_ANDCON, 71, 4, 0 }, { ACMPU, C_REG, C_REG, C_NONE, C_ANDCON, 71, 4, 0 }, { AFCMPO, C_FREG, C_NONE, C_NONE, C_FREG, 70, 4, 0 }, { AFCMPO, C_FREG, C_REG, C_NONE, C_FREG, 70, 4, 0 }, { ATW, C_LCON, C_REG, C_NONE, C_REG, 60, 4, 0 }, { ATW, C_LCON, C_REG, C_NONE, C_ADDCON, 61, 4, 0 }, { ADCBF, C_ZOREG, C_NONE, C_NONE, C_NONE, 43, 4, 0 }, { ADCBF, C_ZOREG, C_REG, C_NONE, C_NONE, 43, 4, 0 }, { AECOWX, C_REG, C_REG, C_NONE, C_ZOREG, 44, 4, 0 }, { AECIWX, C_ZOREG, C_REG, C_NONE, C_REG, 45, 4, 0 }, { AECOWX, C_REG, C_NONE, C_NONE, C_ZOREG, 44, 4, 0 }, { AECIWX, C_ZOREG, C_NONE, C_NONE, C_REG, 45, 4, 0 }, { AEIEIO, C_NONE, C_NONE, C_NONE, C_NONE, 46, 4, 0 }, { ATLBIE, C_REG, C_NONE, C_NONE, C_NONE, 49, 4, 0 }, { ATLBIE, C_SCON, C_NONE, C_NONE, C_REG, 49, 4, 0 }, { ASLBMFEE, C_REG, C_NONE, C_NONE, C_REG, 55, 4, 0 }, { ASLBMTE, C_REG, C_NONE, C_NONE, C_REG, 55, 4, 0 }, { ASTSW, C_REG, C_NONE, C_NONE, C_ZOREG, 44, 4, 0 }, { ASTSW, C_REG, C_NONE, C_LCON, C_ZOREG, 41, 4, 0 }, { ALSW, C_ZOREG, C_NONE, C_NONE, C_REG, 45, 4, 0 }, { ALSW, C_ZOREG, C_NONE, C_LCON, C_REG, 42, 4, 0 }, { AUNDEF, C_NONE, C_NONE, C_NONE, C_NONE, 78, 4, 0 }, { AUSEFIELD, C_ADDR, C_NONE, C_NONE, C_NONE, 0, 0, 0 }, { APCDATA, C_LCON, C_NONE, C_NONE, C_LCON, 0, 0, 0 }, { AFUNCDATA, C_SCON, C_NONE, C_NONE, C_ADDR, 0, 0, 0 }, { ANOP, C_NONE, C_NONE, C_NONE, C_NONE, 0, 0, 0 }, { ADUFFZERO, C_NONE, C_NONE, C_NONE, C_LBRA, 11, 4, 0 }, // same as ABR/ABL { ADUFFCOPY, C_NONE, C_NONE, C_NONE, C_LBRA, 11, 4, 0 }, // same as ABR/ABL { AXXX, C_NONE, C_NONE, C_NONE, C_NONE, 0, 4, 0 }, }; static int ocmp(const void *, const void *); static int cmp(int, int); static void buildop(Link*); static void prasm(Prog *); static int isint32(vlong); static int isuint32(uvlong); static int aclass(Link*, Addr*); static Optab* oplook(Link*, Prog*); static void asmout(Link*, Prog*, Optab*, int32*); static vlong vregoff(Link*, Addr*); static int32 regoff(Link*, Addr*); static int32 oprrr(Link*, int); static int32 opirr(Link*, int); static int32 opload(Link*, int); static int32 opstore(Link*, int); static int32 oploadx(Link*, int); static int32 opstorex(Link*, int); static int getmask(uchar*, uint32); static void maskgen(Link*, Prog*, uchar*, uint32); static int getmask64(uchar*, uvlong); static void maskgen64(Link*, Prog*, uchar*, uvlong); static uint32 loadu32(int, vlong); static void addaddrreloc(Link*, LSym*, int*, int*); static struct { Optab* start; Optab* stop; } oprange[ALAST]; static uchar xcmp[C_NCLASS][C_NCLASS]; void span9(Link *ctxt, LSym *cursym) { Prog *p, *q; Optab *o; int m, bflag; vlong c, otxt; int32 out[6], i, j; uchar *bp, *cast; p = cursym->text; if(p == nil || p->link == nil) // handle external functions and ELF section symbols return; ctxt->cursym = cursym; ctxt->autosize = (int32)(p->to.offset & 0xffffffffll) + 8; if(oprange[AANDN].start == nil) buildop(ctxt); c = 0; p->pc = c; for(p = p->link; p != nil; p = p->link) { ctxt->curp = p; p->pc = c; o = oplook(ctxt, p); m = o->size; if(m == 0) { if(p->as != ANOP && p->as != AFUNCDATA && p->as != APCDATA) ctxt->diag("zero-width instruction\n%P", p); continue; } c += m; } cursym->size = c; /* * if any procedure is large enough to * generate a large SBRA branch, then * generate extra passes putting branches * around jmps to fix. this is rare. */ bflag = 1; while(bflag) { if(ctxt->debugvlog) Bprint(ctxt->bso, "%5.2f span1\n", cputime()); bflag = 0; c = 0; for(p = cursym->text->link; p != nil; p = p->link) { p->pc = c; o = oplook(ctxt, p); // very large conditional branches if((o->type == 16 || o->type == 17) && p->pcond) { otxt = p->pcond->pc - c; if(otxt < -(1L<<15)+10 || otxt >= (1L<<15)-10) { q = ctxt->arch->prg(); q->link = p->link; p->link = q; q->as = ABR; q->to.type = D_BRANCH; q->pcond = p->pcond; p->pcond = q; q = ctxt->arch->prg(); q->link = p->link; p->link = q; q->as = ABR; q->to.type = D_BRANCH; q->pcond = q->link->link; //addnop(p->link); //addnop(p); bflag = 1; } } m = o->size; if(m == 0) { if(p->as != ANOP && p->as != AFUNCDATA && p->as != APCDATA) ctxt->diag("zero-width instruction\n%P", p); continue; } c += m; } cursym->size = c; } c += -c&(FuncAlign-1); cursym->size = c; /* * lay out the code, emitting code and data relocations. */ if(ctxt->tlsg == nil) ctxt->tlsg = linklookup(ctxt, "runtime.tlsg", 0); symgrow(ctxt, cursym, cursym->size); bp = cursym->p; for(p = cursym->text->link; p != nil; p = p->link) { ctxt->pc = p->pc; ctxt->curp = p; o = oplook(ctxt, p); if(o->size > 4*nelem(out)) sysfatal("out array in span9 is too small, need at least %d for %P", o->size/4, p); asmout(ctxt, p, o, out); for(i=0; isize/4; i++) { cast = (uchar*)&out[i]; for(j=0; j<4; j++) *bp++ = cast[inuxi4[j]]; } } } static int isint32(vlong v) { return (int32)v == v; } static int isuint32(uvlong v) { return (uint32)v == v; } static int aclass(Link *ctxt, Addr *a) { LSym *s; switch(a->type) { case D_NONE: return C_NONE; case D_REG: return C_REG; case D_FREG: return C_FREG; case D_CREG: return C_CREG; case D_SPR: if(a->offset == D_LR) return C_LR; if(a->offset == D_XER) return C_XER; if(a->offset == D_CTR) return C_CTR; return C_SPR; case D_DCR: return C_SPR; case D_FPSCR: return C_FPSCR; case D_MSR: return C_MSR; case D_OREG: switch(a->name) { case D_EXTERN: case D_STATIC: if(a->sym == nil) break; ctxt->instoffset = a->offset; if(a->sym != nil) // use relocation return C_ADDR; return C_LEXT; case D_AUTO: ctxt->instoffset = ctxt->autosize + a->offset; if(ctxt->instoffset >= -BIG && ctxt->instoffset < BIG) return C_SAUTO; return C_LAUTO; case D_PARAM: ctxt->instoffset = ctxt->autosize + a->offset + 8L; if(ctxt->instoffset >= -BIG && ctxt->instoffset < BIG) return C_SAUTO; return C_LAUTO; case D_NONE: ctxt->instoffset = a->offset; if(ctxt->instoffset == 0) return C_ZOREG; if(ctxt->instoffset >= -BIG && ctxt->instoffset < BIG) return C_SOREG; return C_LOREG; } return C_GOK; case D_OPT: ctxt->instoffset = a->offset & 31L; if(a->name == D_NONE) return C_SCON; return C_GOK; case D_CONST: switch(a->name) { case D_NONE: ctxt->instoffset = a->offset; if(a->reg != NREG) { if(-BIG <= ctxt->instoffset && ctxt->instoffset <= BIG) return C_SACON; return C_LACON; } consize: if(ctxt->instoffset >= 0) { if(ctxt->instoffset == 0) return C_ZCON; if(ctxt->instoffset <= 0x7fff) return C_SCON; if(ctxt->instoffset <= 0xffff) return C_ANDCON; if((ctxt->instoffset & 0xffff) == 0 && isuint32(ctxt->instoffset)) /* && (instoffset & (1<<31)) == 0) */ return C_UCON; if(isint32(ctxt->instoffset) || isuint32(ctxt->instoffset)) return C_LCON; return C_DCON; } if(ctxt->instoffset >= -0x8000) return C_ADDCON; if((ctxt->instoffset & 0xffff) == 0 && isint32(ctxt->instoffset)) return C_UCON; if(isint32(ctxt->instoffset)) return C_LCON; return C_DCON; case D_EXTERN: case D_STATIC: s = a->sym; if(s == nil) break; if(s->type == SCONST) { ctxt->instoffset = s->value + a->offset; goto consize; } ctxt->instoffset = s->value + a->offset; /* not sure why this barfs */ return C_LCON; case D_AUTO: ctxt->instoffset = ctxt->autosize + a->offset; if(ctxt->instoffset >= -BIG && ctxt->instoffset < BIG) return C_SACON; return C_LACON; case D_PARAM: ctxt->instoffset = ctxt->autosize + a->offset + 8L; if(ctxt->instoffset >= -BIG && ctxt->instoffset < BIG) return C_SACON; return C_LACON; } return C_GOK; case D_BRANCH: return C_SBRA; } return C_GOK; } static void prasm(Prog *p) { print("%P\n", p); } static Optab* oplook(Link *ctxt, Prog *p) { int a1, a2, a3, a4, r; uchar *c1, *c3, *c4; Optab *o, *e; a1 = p->optab; if(a1) return optab+(a1-1); a1 = p->from.class; if(a1 == 0) { a1 = aclass(ctxt, &p->from) + 1; p->from.class = a1; } a1--; a3 = p->from3.class; if(a3 == 0) { a3 = aclass(ctxt, &p->from3) + 1; p->from3.class = a3; } a3--; a4 = p->to.class; if(a4 == 0) { a4 = aclass(ctxt, &p->to) + 1; p->to.class = a4; } a4--; a2 = C_NONE; if(p->reg != NREG) a2 = C_REG; //print("oplook %P %d %d %d %d\n", p, a1, a2, a3, a4); r = p->as; o = oprange[r].start; if(o == 0) o = oprange[r].stop; /* just generate an error */ e = oprange[r].stop; c1 = xcmp[a1]; c3 = xcmp[a3]; c4 = xcmp[a4]; for(; oa2 == a2) if(c1[o->a1]) if(c3[o->a3]) if(c4[o->a4]) { p->optab = (o-optab)+1; return o; } ctxt->diag("illegal combination %A %^ %^ %^ %^", p->as, a1, a2, a3, a4); prasm(p); if(o == 0) o = optab; return o; } static int cmp(int a, int b) { if(a == b) return 1; switch(a) { case C_LCON: if(b == C_ZCON || b == C_SCON || b == C_UCON || b == C_ADDCON || b == C_ANDCON) return 1; break; case C_ADDCON: if(b == C_ZCON || b == C_SCON) return 1; break; case C_ANDCON: if(b == C_ZCON || b == C_SCON) return 1; break; case C_SPR: if(b == C_LR || b == C_XER || b == C_CTR) return 1; break; case C_UCON: if(b == C_ZCON) return 1; break; case C_SCON: if(b == C_ZCON) return 1; break; case C_LACON: if(b == C_SACON) return 1; break; case C_LBRA: if(b == C_SBRA) return 1; break; case C_LEXT: if(b == C_SEXT) return 1; break; case C_LAUTO: if(b == C_SAUTO) return 1; break; case C_REG: if(b == C_ZCON) return r0iszero; break; case C_LOREG: if(b == C_ZOREG || b == C_SOREG) return 1; break; case C_SOREG: if(b == C_ZOREG) return 1; break; case C_ANY: return 1; } return 0; } static int ocmp(const void *a1, const void *a2) { const Optab *p1, *p2; int n; p1 = a1; p2 = a2; n = p1->as - p2->as; if(n) return n; n = p1->a1 - p2->a1; if(n) return n; n = p1->a2 - p2->a2; if(n) return n; n = p1->a3 - p2->a3; if(n) return n; n = p1->a4 - p2->a4; if(n) return n; return 0; } static void buildop(Link *ctxt) { int i, n, r; for(i=0; idiag("unknown op in build: %A", r); sysfatal("bad code"); case ADCBF: /* unary indexed: op (b+a); op (b) */ oprange[ADCBI] = oprange[r]; oprange[ADCBST] = oprange[r]; oprange[ADCBT] = oprange[r]; oprange[ADCBTST] = oprange[r]; oprange[ADCBZ] = oprange[r]; oprange[AICBI] = oprange[r]; break; case AECOWX: /* indexed store: op s,(b+a); op s,(b) */ oprange[ASTWCCC] = oprange[r]; oprange[ASTDCCC] = oprange[r]; break; case AREM: /* macro */ oprange[AREMCC] = oprange[r]; oprange[AREMV] = oprange[r]; oprange[AREMVCC] = oprange[r]; break; case AREMU: oprange[AREMU] = oprange[r]; oprange[AREMUCC] = oprange[r]; oprange[AREMUV] = oprange[r]; oprange[AREMUVCC] = oprange[r]; break; case AREMD: oprange[AREMDCC] = oprange[r]; oprange[AREMDV] = oprange[r]; oprange[AREMDVCC] = oprange[r]; break; case AREMDU: oprange[AREMDU] = oprange[r]; oprange[AREMDUCC] = oprange[r]; oprange[AREMDUV] = oprange[r]; oprange[AREMDUVCC] = oprange[r]; break; case ADIVW: /* op Rb[,Ra],Rd */ oprange[AMULHW] = oprange[r]; oprange[AMULHWCC] = oprange[r]; oprange[AMULHWU] = oprange[r]; oprange[AMULHWUCC] = oprange[r]; oprange[AMULLWCC] = oprange[r]; oprange[AMULLWVCC] = oprange[r]; oprange[AMULLWV] = oprange[r]; oprange[ADIVWCC] = oprange[r]; oprange[ADIVWV] = oprange[r]; oprange[ADIVWVCC] = oprange[r]; oprange[ADIVWU] = oprange[r]; oprange[ADIVWUCC] = oprange[r]; oprange[ADIVWUV] = oprange[r]; oprange[ADIVWUVCC] = oprange[r]; oprange[AADDCC] = oprange[r]; oprange[AADDCV] = oprange[r]; oprange[AADDCVCC] = oprange[r]; oprange[AADDV] = oprange[r]; oprange[AADDVCC] = oprange[r]; oprange[AADDE] = oprange[r]; oprange[AADDECC] = oprange[r]; oprange[AADDEV] = oprange[r]; oprange[AADDEVCC] = oprange[r]; oprange[ACRAND] = oprange[r]; oprange[ACRANDN] = oprange[r]; oprange[ACREQV] = oprange[r]; oprange[ACRNAND] = oprange[r]; oprange[ACRNOR] = oprange[r]; oprange[ACROR] = oprange[r]; oprange[ACRORN] = oprange[r]; oprange[ACRXOR] = oprange[r]; oprange[AMULHD] = oprange[r]; oprange[AMULHDCC] = oprange[r]; oprange[AMULHDU] = oprange[r]; oprange[AMULHDUCC] = oprange[r]; oprange[AMULLD] = oprange[r]; oprange[AMULLDCC] = oprange[r]; oprange[AMULLDVCC] = oprange[r]; oprange[AMULLDV] = oprange[r]; oprange[ADIVD] = oprange[r]; oprange[ADIVDCC] = oprange[r]; oprange[ADIVDVCC] = oprange[r]; oprange[ADIVDV] = oprange[r]; oprange[ADIVDU] = oprange[r]; oprange[ADIVDUCC] = oprange[r]; oprange[ADIVDUVCC] = oprange[r]; oprange[ADIVDUCC] = oprange[r]; break; case AMOVBZ: /* lbz, stz, rlwm(r/r), lhz, lha, stz, and x variants */ oprange[AMOVH] = oprange[r]; oprange[AMOVHZ] = oprange[r]; break; case AMOVBZU: /* lbz[x]u, stb[x]u, lhz[x]u, lha[x]u, sth[u]x, ld[x]u, std[u]x */ oprange[AMOVHU] = oprange[r]; oprange[AMOVHZU] = oprange[r]; oprange[AMOVWU] = oprange[r]; oprange[AMOVWZU] = oprange[r]; oprange[AMOVDU] = oprange[r]; oprange[AMOVMW] = oprange[r]; break; case AAND: /* logical op Rb,Rs,Ra; no literal */ oprange[AANDN] = oprange[r]; oprange[AANDNCC] = oprange[r]; oprange[AEQV] = oprange[r]; oprange[AEQVCC] = oprange[r]; oprange[ANAND] = oprange[r]; oprange[ANANDCC] = oprange[r]; oprange[ANOR] = oprange[r]; oprange[ANORCC] = oprange[r]; oprange[AORCC] = oprange[r]; oprange[AORN] = oprange[r]; oprange[AORNCC] = oprange[r]; oprange[AXORCC] = oprange[r]; break; case AADDME: /* op Ra, Rd */ oprange[AADDMECC] = oprange[r]; oprange[AADDMEV] = oprange[r]; oprange[AADDMEVCC] = oprange[r]; oprange[AADDZE] = oprange[r]; oprange[AADDZECC] = oprange[r]; oprange[AADDZEV] = oprange[r]; oprange[AADDZEVCC] = oprange[r]; oprange[ASUBME] = oprange[r]; oprange[ASUBMECC] = oprange[r]; oprange[ASUBMEV] = oprange[r]; oprange[ASUBMEVCC] = oprange[r]; oprange[ASUBZE] = oprange[r]; oprange[ASUBZECC] = oprange[r]; oprange[ASUBZEV] = oprange[r]; oprange[ASUBZEVCC] = oprange[r]; break; case AADDC: oprange[AADDCCC] = oprange[r]; break; case ABEQ: oprange[ABGE] = oprange[r]; oprange[ABGT] = oprange[r]; oprange[ABLE] = oprange[r]; oprange[ABLT] = oprange[r]; oprange[ABNE] = oprange[r]; oprange[ABVC] = oprange[r]; oprange[ABVS] = oprange[r]; break; case ABR: oprange[ABL] = oprange[r]; break; case ABC: oprange[ABCL] = oprange[r]; break; case AEXTSB: /* op Rs, Ra */ oprange[AEXTSBCC] = oprange[r]; oprange[AEXTSH] = oprange[r]; oprange[AEXTSHCC] = oprange[r]; oprange[ACNTLZW] = oprange[r]; oprange[ACNTLZWCC] = oprange[r]; oprange[ACNTLZD] = oprange[r]; oprange[AEXTSW] = oprange[r]; oprange[AEXTSWCC] = oprange[r]; oprange[ACNTLZDCC] = oprange[r]; break; case AFABS: /* fop [s,]d */ oprange[AFABSCC] = oprange[r]; oprange[AFNABS] = oprange[r]; oprange[AFNABSCC] = oprange[r]; oprange[AFNEG] = oprange[r]; oprange[AFNEGCC] = oprange[r]; oprange[AFRSP] = oprange[r]; oprange[AFRSPCC] = oprange[r]; oprange[AFCTIW] = oprange[r]; oprange[AFCTIWCC] = oprange[r]; oprange[AFCTIWZ] = oprange[r]; oprange[AFCTIWZCC] = oprange[r]; oprange[AFCTID] = oprange[r]; oprange[AFCTIDCC] = oprange[r]; oprange[AFCTIDZ] = oprange[r]; oprange[AFCTIDZCC] = oprange[r]; oprange[AFCFID] = oprange[r]; oprange[AFCFIDCC] = oprange[r]; oprange[AFRES] = oprange[r]; oprange[AFRESCC] = oprange[r]; oprange[AFRSQRTE] = oprange[r]; oprange[AFRSQRTECC] = oprange[r]; oprange[AFSQRT] = oprange[r]; oprange[AFSQRTCC] = oprange[r]; oprange[AFSQRTS] = oprange[r]; oprange[AFSQRTSCC] = oprange[r]; break; case AFADD: oprange[AFADDS] = oprange[r]; oprange[AFADDCC] = oprange[r]; oprange[AFADDSCC] = oprange[r]; oprange[AFDIV] = oprange[r]; oprange[AFDIVS] = oprange[r]; oprange[AFDIVCC] = oprange[r]; oprange[AFDIVSCC] = oprange[r]; oprange[AFSUB] = oprange[r]; oprange[AFSUBS] = oprange[r]; oprange[AFSUBCC] = oprange[r]; oprange[AFSUBSCC] = oprange[r]; break; case AFMADD: oprange[AFMADDCC] = oprange[r]; oprange[AFMADDS] = oprange[r]; oprange[AFMADDSCC] = oprange[r]; oprange[AFMSUB] = oprange[r]; oprange[AFMSUBCC] = oprange[r]; oprange[AFMSUBS] = oprange[r]; oprange[AFMSUBSCC] = oprange[r]; oprange[AFNMADD] = oprange[r]; oprange[AFNMADDCC] = oprange[r]; oprange[AFNMADDS] = oprange[r]; oprange[AFNMADDSCC] = oprange[r]; oprange[AFNMSUB] = oprange[r]; oprange[AFNMSUBCC] = oprange[r]; oprange[AFNMSUBS] = oprange[r]; oprange[AFNMSUBSCC] = oprange[r]; oprange[AFSEL] = oprange[r]; oprange[AFSELCC] = oprange[r]; break; case AFMUL: oprange[AFMULS] = oprange[r]; oprange[AFMULCC] = oprange[r]; oprange[AFMULSCC] = oprange[r]; break; case AFCMPO: oprange[AFCMPU] = oprange[r]; break; case AMTFSB0: oprange[AMTFSB0CC] = oprange[r]; oprange[AMTFSB1] = oprange[r]; oprange[AMTFSB1CC] = oprange[r]; break; case ANEG: /* op [Ra,] Rd */ oprange[ANEGCC] = oprange[r]; oprange[ANEGV] = oprange[r]; oprange[ANEGVCC] = oprange[r]; break; case AOR: /* or/xor Rb,Rs,Ra; ori/xori $uimm,Rs,Ra; oris/xoris $uimm,Rs,Ra */ oprange[AXOR] = oprange[r]; break; case ASLW: oprange[ASLWCC] = oprange[r]; oprange[ASRW] = oprange[r]; oprange[ASRWCC] = oprange[r]; break; case ASLD: oprange[ASLDCC] = oprange[r]; oprange[ASRD] = oprange[r]; oprange[ASRDCC] = oprange[r]; break; case ASRAW: /* sraw Rb,Rs,Ra; srawi sh,Rs,Ra */ oprange[ASRAWCC] = oprange[r]; break; case ASRAD: /* sraw Rb,Rs,Ra; srawi sh,Rs,Ra */ oprange[ASRADCC] = oprange[r]; break; case ASUB: /* SUB Ra,Rb,Rd => subf Rd,ra,rb */ oprange[ASUB] = oprange[r]; oprange[ASUBCC] = oprange[r]; oprange[ASUBV] = oprange[r]; oprange[ASUBVCC] = oprange[r]; oprange[ASUBCCC] = oprange[r]; oprange[ASUBCV] = oprange[r]; oprange[ASUBCVCC] = oprange[r]; oprange[ASUBE] = oprange[r]; oprange[ASUBECC] = oprange[r]; oprange[ASUBEV] = oprange[r]; oprange[ASUBEVCC] = oprange[r]; break; case ASYNC: oprange[AISYNC] = oprange[r]; oprange[APTESYNC] = oprange[r]; oprange[ATLBSYNC] = oprange[r]; break; case ARLWMI: oprange[ARLWMICC] = oprange[r]; oprange[ARLWNM] = oprange[r]; oprange[ARLWNMCC] = oprange[r]; break; case ARLDMI: oprange[ARLDMICC] = oprange[r]; break; case ARLDC: oprange[ARLDCCC] = oprange[r]; break; case ARLDCL: oprange[ARLDCR] = oprange[r]; oprange[ARLDCLCC] = oprange[r]; oprange[ARLDCRCC] = oprange[r]; break; case AFMOVD: oprange[AFMOVDCC] = oprange[r]; oprange[AFMOVDU] = oprange[r]; oprange[AFMOVS] = oprange[r]; oprange[AFMOVSU] = oprange[r]; break; case AECIWX: oprange[ALWAR] = oprange[r]; oprange[ALDAR] = oprange[r]; break; case ASYSCALL: /* just the op; flow of control */ oprange[ARFI] = oprange[r]; oprange[ARFCI] = oprange[r]; oprange[ARFID] = oprange[r]; oprange[AHRFID] = oprange[r]; break; case AMOVHBR: oprange[AMOVWBR] = oprange[r]; break; case ASLBMFEE: oprange[ASLBMFEV] = oprange[r]; break; case ATW: oprange[ATD] = oprange[r]; break; case ATLBIE: oprange[ASLBIE] = oprange[r]; oprange[ATLBIEL] = oprange[r]; break; case AEIEIO: oprange[ASLBIA] = oprange[r]; break; case ACMP: oprange[ACMPW] = oprange[r]; break; case ACMPU: oprange[ACMPWU] = oprange[r]; break; case AADD: case AANDCC: /* and. Rb,Rs,Ra; andi. $uimm,Rs,Ra; andis. $uimm,Rs,Ra */ case ALSW: case AMOVW: /* load/store/move word with sign extension; special 32-bit move; move 32-bit literals */ case AMOVWZ: /* load/store/move word with zero extension; move 32-bit literals */ case AMOVD: /* load/store/move 64-bit values, including 32-bit literals with/without sign-extension */ case AMOVB: /* macro: move byte with sign extension */ case AMOVBU: /* macro: move byte with sign extension & update */ case AMOVFL: case AMULLW: /* op $s[,r2],r3; op r1[,r2],r3; no cc/v */ case ASUBC: /* op r1,$s,r3; op r1[,r2],r3 */ case ASTSW: case ASLBMTE: case AWORD: case ADWORD: case ANOP: case ATEXT: case AUNDEF: case AUSEFIELD: case AFUNCDATA: case APCDATA: case ADUFFZERO: case ADUFFCOPY: break; } } } #define OPVCC(o,xo,oe,rc) (((o)<<26)|((xo)<<1)|((oe)<<10)|((rc)&1)) #define OPCC(o,xo,rc) OPVCC((o),(xo),0,(rc)) #define OP(o,xo) OPVCC((o),(xo),0,0) /* the order is dest, a/s, b/imm for both arithmetic and logical operations */ #define AOP_RRR(op,d,a,b) ((op)|(((d)&31L)<<21)|(((a)&31L)<<16)|(((b)&31L)<<11)) #define AOP_IRR(op,d,a,simm) ((op)|(((d)&31L)<<21)|(((a)&31L)<<16)|((simm)&0xFFFF)) #define LOP_RRR(op,a,s,b) ((op)|(((s)&31L)<<21)|(((a)&31L)<<16)|(((b)&31L)<<11)) #define LOP_IRR(op,a,s,uimm) ((op)|(((s)&31L)<<21)|(((a)&31L)<<16)|((uimm)&0xFFFF)) #define OP_BR(op,li,aa) ((op)|((li)&0x03FFFFFC)|((aa)<<1)) #define OP_BC(op,bo,bi,bd,aa) ((op)|(((bo)&0x1F)<<21)|(((bi)&0x1F)<<16)|((bd)&0xFFFC)|((aa)<<1)) #define OP_BCR(op,bo,bi) ((op)|(((bo)&0x1F)<<21)|(((bi)&0x1F)<<16)) #define OP_RLW(op,a,s,sh,mb,me) ((op)|(((s)&31L)<<21)|(((a)&31L)<<16)|(((sh)&31L)<<11)|\ (((mb)&31L)<<6)|(((me)&31L)<<1)) #define OP_ADD OPVCC(31,266,0,0) #define OP_ADDI OPVCC(14,0,0,0) #define OP_ADDIS OPVCC(15,0,0,0) #define OP_ANDI OPVCC(28,0,0,0) #define OP_EXTSB OPVCC(31,954,0,0) #define OP_EXTSH OPVCC(31,922,0,0) #define OP_EXTSW OPVCC(31,986,0,0) #define OP_MCRF OPVCC(19,0,0,0) #define OP_MCRFS OPVCC(63,64,0,0) #define OP_MCRXR OPVCC(31,512,0,0) #define OP_MFCR OPVCC(31,19,0,0) #define OP_MFFS OPVCC(63,583,0,0) #define OP_MFMSR OPVCC(31,83,0,0) #define OP_MFSPR OPVCC(31,339,0,0) #define OP_MFSR OPVCC(31,595,0,0) #define OP_MFSRIN OPVCC(31,659,0,0) #define OP_MTCRF OPVCC(31,144,0,0) #define OP_MTFSF OPVCC(63,711,0,0) #define OP_MTFSFI OPVCC(63,134,0,0) #define OP_MTMSR OPVCC(31,146,0,0) #define OP_MTMSRD OPVCC(31,178,0,0) #define OP_MTSPR OPVCC(31,467,0,0) #define OP_MTSR OPVCC(31,210,0,0) #define OP_MTSRIN OPVCC(31,242,0,0) #define OP_MULLW OPVCC(31,235,0,0) #define OP_MULLD OPVCC(31,233,0,0) #define OP_OR OPVCC(31,444,0,0) #define OP_ORI OPVCC(24,0,0,0) #define OP_ORIS OPVCC(25,0,0,0) #define OP_RLWINM OPVCC(21,0,0,0) #define OP_SUBF OPVCC(31,40,0,0) #define OP_RLDIC OPVCC(30,4,0,0) #define OP_RLDICR OPVCC(30,2,0,0) #define OP_RLDICL OPVCC(30,0,0,0) #define oclass(v) ((v).class-1) // add R_ADDRPOWER relocation to symbol s for the two instructions o1 and o2. static void addaddrreloc(Link *ctxt, LSym *s, int *o1, int *o2) { Reloc *rel; rel = addrel(ctxt->cursym); rel->off = ctxt->pc; rel->siz = 8; rel->sym = s; rel->add = ((uvlong)*o1<<32) | (uint32)*o2; rel->type = R_ADDRPOWER; } /* * 32-bit masks */ static int getmask(uchar *m, uint32 v) { int i; m[0] = m[1] = 0; if(v != ~0U && v & (1<<31) && v & 1){ /* MB > ME */ if(getmask(m, ~v)){ i = m[0]; m[0] = m[1]+1; m[1] = i-1; return 1; } return 0; } for(i=0; i<32; i++) if(v & (1<<(31-i))){ m[0] = i; do { m[1] = i; } while(++i<32 && (v & (1<<(31-i))) != 0); for(; i<32; i++) if(v & (1<<(31-i))) return 0; return 1; } return 0; } static void maskgen(Link *ctxt, Prog *p, uchar *m, uint32 v) { if(!getmask(m, v)) ctxt->diag("cannot generate mask #%lux\n%P", v, p); } /* * 64-bit masks (rldic etc) */ static int getmask64(uchar *m, uvlong v) { int i; m[0] = m[1] = 0; for(i=0; i<64; i++) if(v & ((uvlong)1<<(63-i))){ m[0] = i; do { m[1] = i; } while(++i<64 && (v & ((uvlong)1<<(63-i))) != 0); for(; i<64; i++) if(v & ((uvlong)1<<(63-i))) return 0; return 1; } return 0; } static void maskgen64(Link *ctxt, Prog *p, uchar *m, uvlong v) { if(!getmask64(m, v)) ctxt->diag("cannot generate mask #%llux\n%P", v, p); } static uint32 loadu32(int r, vlong d) { int32 v; v = d>>16; if(isuint32(d)) return LOP_IRR(OP_ORIS, r, REGZERO, v); return AOP_IRR(OP_ADDIS, r, REGZERO, v); } static uint16 high16adjusted(int32 d) { if(d & 0x8000) return (d>>16) + 1; return d>>16; } static void asmout(Link *ctxt, Prog *p, Optab *o, int32 *out) { int32 o1, o2, o3, o4, o5, v, t; vlong d; int r, a; uchar mask[2]; Reloc *rel; o1 = 0; o2 = 0; o3 = 0; o4 = 0; o5 = 0; //print("%P => case %d\n", p, o->type); switch(o->type) { default: ctxt->diag("unknown type %d", o->type); prasm(p); break; case 0: /* pseudo ops */ break; case 1: /* mov r1,r2 ==> OR Rs,Rs,Ra */ if(p->to.reg == REGZERO && p->from.type == D_CONST) { v = regoff(ctxt, &p->from); if(r0iszero && v != 0) { //nerrors--; ctxt->diag("literal operation on R0\n%P", p); } o1 = LOP_IRR(OP_ADDI, REGZERO, REGZERO, v); break; } o1 = LOP_RRR(OP_OR, p->to.reg, p->from.reg, p->from.reg); break; case 2: /* int/cr/fp op Rb,[Ra],Rd */ r = p->reg; if(r == NREG) r = p->to.reg; o1 = AOP_RRR(oprrr(ctxt, p->as), p->to.reg, r, p->from.reg); break; case 3: /* mov $soreg/addcon/ucon, r ==> addis/addi $i,reg',r */ d = vregoff(ctxt, &p->from); v = d; r = p->from.reg; if(r == NREG) r = o->param; if(r0iszero && p->to.reg == 0 && (r != 0 || v != 0)) ctxt->diag("literal operation on R0\n%P", p); a = OP_ADDI; if(o->a1 == C_UCON) { if((d&0xffff) != 0) sysfatal("invalid handling of %P", p); v >>= 16; if(r == REGZERO && isuint32(d)){ o1 = LOP_IRR(OP_ORIS, p->to.reg, REGZERO, v); break; } a = OP_ADDIS; } else { if((int16)d != d) sysfatal("invalid handling of %P", p); } o1 = AOP_IRR(a, p->to.reg, r, v); break; case 4: /* add/mul $scon,[r1],r2 */ v = regoff(ctxt, &p->from); r = p->reg; if(r == NREG) r = p->to.reg; if(r0iszero && p->to.reg == 0) ctxt->diag("literal operation on R0\n%P", p); if((int16)v != v) sysfatal("mishandled instruction %P", p); o1 = AOP_IRR(opirr(ctxt, p->as), p->to.reg, r, v); break; case 5: /* syscall */ o1 = oprrr(ctxt, p->as); break; case 6: /* logical op Rb,[Rs,]Ra; no literal */ r = p->reg; if(r == NREG) r = p->to.reg; o1 = LOP_RRR(oprrr(ctxt, p->as), p->to.reg, r, p->from.reg); break; case 7: /* mov r, soreg ==> stw o(r) */ r = p->to.reg; if(r == NREG) r = o->param; v = regoff(ctxt, &p->to); if(p->to.type == D_OREG && p->reg != NREG) { if(v) ctxt->diag("illegal indexed instruction\n%P", p); o1 = AOP_RRR(opstorex(ctxt, p->as), p->from.reg, p->reg, r); } else { if((int16)v != v) sysfatal("mishandled instruction %P", p); o1 = AOP_IRR(opstore(ctxt, p->as), p->from.reg, r, v); } break; case 8: /* mov soreg, r ==> lbz/lhz/lwz o(r) */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(ctxt, &p->from); if(p->from.type == D_OREG && p->reg != NREG) { if(v) ctxt->diag("illegal indexed instruction\n%P", p); o1 = AOP_RRR(oploadx(ctxt, p->as), p->to.reg, p->reg, r); } else { if((int16)v != v) sysfatal("mishandled instruction %P", p); o1 = AOP_IRR(opload(ctxt, p->as), p->to.reg, r, v); } break; case 9: /* movb soreg, r ==> lbz o(r),r2; extsb r2,r2 */ r = p->from.reg; if(r == NREG) r = o->param; v = regoff(ctxt, &p->from); if(p->from.type == D_OREG && p->reg != NREG) { if(v) ctxt->diag("illegal indexed instruction\n%P", p); o1 = AOP_RRR(oploadx(ctxt, p->as), p->to.reg, p->reg, r); } else o1 = AOP_IRR(opload(ctxt, p->as), p->to.reg, r, v); o2 = LOP_RRR(OP_EXTSB, p->to.reg, p->to.reg, 0); break; case 10: /* sub Ra,[Rb],Rd => subf Rd,Ra,Rb */ r = p->reg; if(r == NREG) r = p->to.reg; o1 = AOP_RRR(oprrr(ctxt, p->as), p->to.reg, p->from.reg, r); break; case 11: /* br/bl lbra */ v = 0; if(p->pcond) { v = p->pcond->pc - p->pc; if(v & 03) { ctxt->diag("odd branch target address\n%P", p); v &= ~03; } if(v < -(1L<<25) || v >= (1L<<24)) ctxt->diag("branch too far\n%P", p); } o1 = OP_BR(opirr(ctxt, p->as), v, 0); if(p->to.sym != nil) { rel = addrel(ctxt->cursym); rel->off = ctxt->pc; rel->siz = 4; rel->sym = p->to.sym; v += p->to.offset; if(v & 03) { ctxt->diag("odd branch target address\n%P", p); v &= ~03; } rel->add = v; rel->type = R_CALLPOWER; } break; case 12: /* movb r,r (extsb); movw r,r (extsw) */ if(p->to.reg == REGZERO && p->from.type == D_CONST) { v = regoff(ctxt, &p->from); if(r0iszero && v != 0) { ctxt->diag("literal operation on R0\n%P", p); } o1 = LOP_IRR(OP_ADDI, REGZERO, REGZERO, v); break; } if(p->as == AMOVW) o1 = LOP_RRR(OP_EXTSW, p->to.reg, p->from.reg, 0); else o1 = LOP_RRR(OP_EXTSB, p->to.reg, p->from.reg, 0); break; case 13: /* mov[bhw]z r,r; uses rlwinm not andi. to avoid changing CC */ if(p->as == AMOVBZ) o1 = OP_RLW(OP_RLWINM, p->to.reg, p->from.reg, 0, 24, 31); else if(p->as == AMOVH) o1 = LOP_RRR(OP_EXTSH, p->to.reg, p->from.reg, 0); else if(p->as == AMOVHZ) o1 = OP_RLW(OP_RLWINM, p->to.reg, p->from.reg, 0, 16, 31); else if(p->as == AMOVWZ) o1 = OP_RLW(OP_RLDIC, p->to.reg, p->from.reg, 0, 0, 0) | (1<<5); /* MB=32 */ else ctxt->diag("internal: bad mov[bhw]z\n%P", p); break; case 14: /* rldc[lr] Rb,Rs,$mask,Ra -- left, right give different masks */ r = p->reg; if(r == NREG) r = p->to.reg; d = vregoff(ctxt, &p->from3); maskgen64(ctxt, p, mask, d); switch(p->as){ case ARLDCL: case ARLDCLCC: a = mask[0]; /* MB */ if(mask[1] != 63) ctxt->diag("invalid mask for rotate: %llux (end != bit 63)\n%P", d, p); break; case ARLDCR: case ARLDCRCC: a = mask[1]; /* ME */ if(mask[0] != 0) ctxt->diag("invalid mask for rotate: %llux (start != 0)\n%P", d, p); break; default: ctxt->diag("unexpected op in rldc case\n%P", p); a = 0; } o1 = LOP_RRR(oprrr(ctxt, p->as), p->to.reg, r, p->from.reg); o1 |= (a&31L)<<6; if(a & 0x20) o1 |= 1<<5; /* mb[5] is top bit */ break; case 17: /* bc bo,bi,lbra (same for now) */ case 16: /* bc bo,bi,sbra */ a = 0; if(p->from.type == D_CONST) a = regoff(ctxt, &p->from); r = p->reg; if(r == NREG) r = 0; v = 0; if(p->pcond) v = p->pcond->pc - p->pc; if(v & 03) { ctxt->diag("odd branch target address\n%P", p); v &= ~03; } if(v < -(1L<<16) || v >= (1L<<15)) ctxt->diag("branch too far\n%P", p); o1 = OP_BC(opirr(ctxt, p->as), a, r, v, 0); break; case 15: /* br/bl (r) => mov r,lr; br/bl (lr) */ if(p->as == ABC || p->as == ABCL) v = regoff(ctxt, &p->to)&31L; else v = 20; /* unconditional */ r = p->reg; if(r == NREG) r = 0; o1 = AOP_RRR(OP_MTSPR, p->to.reg, 0, 0) | ((D_LR&0x1f)<<16) | (((D_LR>>5)&0x1f)<<11); o2 = OPVCC(19, 16, 0, 0); if(p->as == ABL || p->as == ABCL) o2 |= 1; o2 = OP_BCR(o2, v, r); break; case 18: /* br/bl (lr/ctr); bc/bcl bo,bi,(lr/ctr) */ if(p->as == ABC || p->as == ABCL) v = regoff(ctxt, &p->from)&31L; else v = 20; /* unconditional */ r = p->reg; if(r == NREG) r = 0; switch(oclass(p->to)) { case C_CTR: o1 = OPVCC(19, 528, 0, 0); break; case C_LR: o1 = OPVCC(19, 16, 0, 0); break; default: ctxt->diag("bad optab entry (18): %d\n%P", p->to.class, p); v = 0; } if(p->as == ABL || p->as == ABCL) o1 |= 1; o1 = OP_BCR(o1, v, r); break; case 19: /* mov $lcon,r ==> cau+or */ d = vregoff(ctxt, &p->from); if(p->from.sym == nil) { o1 = loadu32(p->to.reg, d); o2 = LOP_IRR(OP_ORI, p->to.reg, p->to.reg, (int32)d); } else { o1 = AOP_IRR(OP_ADDIS, REGTMP, REGZERO, high16adjusted(d)); o2 = AOP_IRR(OP_ADDI, p->to.reg, REGTMP, d); addaddrreloc(ctxt, p->from.sym, &o1, &o2); } //if(dlm) reloc(&p->from, p->pc, 0); break; case 20: /* add $ucon,,r */ v = regoff(ctxt, &p->from); r = p->reg; if(r == NREG) r = p->to.reg; if(p->as == AADD && (!r0iszero && p->reg == 0 || r0iszero && p->to.reg == 0)) ctxt->diag("literal operation on R0\n%P", p); o1 = AOP_IRR(opirr(ctxt, p->as+AEND), p->to.reg, r, v>>16); break; case 22: /* add $lcon,r1,r2 ==> cau+or+add */ /* could do add/sub more efficiently */ if(p->to.reg == REGTMP || p->reg == REGTMP) ctxt->diag("cant synthesize large constant\n%P", p); d = vregoff(ctxt, &p->from); o1 = loadu32(REGTMP, d); o2 = LOP_IRR(OP_ORI, REGTMP, REGTMP, (int32)d); r = p->reg; if(r == NREG) r = p->to.reg; o3 = AOP_RRR(oprrr(ctxt, p->as), p->to.reg, REGTMP, r); if(p->from.sym != nil) ctxt->diag("%P is not supported", p); //if(dlm) reloc(&p->from, p->pc, 0); break; case 23: /* and $lcon,r1,r2 ==> cau+or+and */ /* masks could be done using rlnm etc. */ if(p->to.reg == REGTMP || p->reg == REGTMP) ctxt->diag("cant synthesize large constant\n%P", p); d = vregoff(ctxt, &p->from); o1 = loadu32(REGTMP, d); o2 = LOP_IRR(OP_ORI, REGTMP, REGTMP, (int32)d); r = p->reg; if(r == NREG) r = p->to.reg; o3 = LOP_RRR(oprrr(ctxt, p->as), p->to.reg, REGTMP, r); if(p->from.sym != nil) ctxt->diag("%P is not supported", p); //if(dlm) reloc(&p->from, p->pc, 0); break; /*24*/ case 25: /* sld[.] $sh,rS,rA -> rldicr[.] $sh,rS,mask(0,63-sh),rA; srd[.] -> rldicl */ v = regoff(ctxt, &p->from); if(v < 0) v = 0; else if(v > 63) v = 63; r = p->reg; if(r == NREG) r = p->to.reg; switch(p->as){ case ASLD: case ASLDCC: a = 63-v; o1 = OP_RLDICR; break; case ASRD: case ASRDCC: a = v; v = 64-v; o1 = OP_RLDICL; break; default: ctxt->diag("unexpected op in sldi case\n%P", p); a = 0; o1 = 0; } o1 = AOP_RRR(o1, r, p->to.reg, (v&0x1F)); o1 |= (a&31L)<<6; if(v & 0x20) o1 |= 1<<1; if(a & 0x20) o1 |= 1<<5; /* mb[5] is top bit */ if(p->as == ASLDCC || p->as == ASRDCC) o1 |= 1; /* Rc */ break; case 26: /* mov $lsext/auto/oreg,,r2 ==> addis+addi */ if(p->to.reg == REGTMP) ctxt->diag("can't synthesize large constant\n%P", p); v = regoff(ctxt, &p->from); if(v & 0x8000L) v += 0x10000L; r = p->from.reg; if(r == NREG) r = o->param; o1 = AOP_IRR(OP_ADDIS, REGTMP, r, v>>16); o2 = AOP_IRR(OP_ADDI, p->to.reg, REGTMP, v); break; case 27: /* subc ra,$simm,rd => subfic rd,ra,$simm */ v = regoff(ctxt, &p->from3); r = p->from.reg; o1 = AOP_IRR(opirr(ctxt, p->as), p->to.reg, r, v); break; case 28: /* subc r1,$lcon,r2 ==> cau+or+subfc */ if(p->to.reg == REGTMP || p->from.reg == REGTMP) ctxt->diag("can't synthesize large constant\n%P", p); v = regoff(ctxt, &p->from3); o1 = AOP_IRR(OP_ADDIS, REGTMP, REGZERO, v>>16); o2 = LOP_IRR(OP_ORI, REGTMP, REGTMP, v); o3 = AOP_RRR(oprrr(ctxt, p->as), p->to.reg, p->from.reg, REGTMP); if(p->from.sym != nil) ctxt->diag("%P is not supported", p); //if(dlm) reloc(&p->from3, p->pc, 0); break; case 29: /* rldic[lr]? $sh,s,$mask,a -- left, right, plain give different masks */ v = regoff(ctxt, &p->from); d = vregoff(ctxt, &p->from3); maskgen64(ctxt, p, mask, d); switch(p->as){ case ARLDC: case ARLDCCC: a = mask[0]; /* MB */ if(mask[1] != (63-v)) ctxt->diag("invalid mask for shift: %llux (shift %ld)\n%P", d, v, p); break; case ARLDCL: case ARLDCLCC: a = mask[0]; /* MB */ if(mask[1] != 63) ctxt->diag("invalid mask for shift: %llux (shift %ld)\n%P", d, v, p); break; case ARLDCR: case ARLDCRCC: a = mask[1]; /* ME */ if(mask[0] != 0) ctxt->diag("invalid mask for shift: %llux (shift %ld)\n%P", d, v, p); break; default: ctxt->diag("unexpected op in rldic case\n%P", p); a = 0; } o1 = AOP_RRR(opirr(ctxt, p->as), p->reg, p->to.reg, (v&0x1F)); o1 |= (a&31L)<<6; if(v & 0x20) o1 |= 1<<1; if(a & 0x20) o1 |= 1<<5; /* mb[5] is top bit */ break; case 30: /* rldimi $sh,s,$mask,a */ v = regoff(ctxt, &p->from); d = vregoff(ctxt, &p->from3); maskgen64(ctxt, p, mask, d); if(mask[1] != (63-v)) ctxt->diag("invalid mask for shift: %llux (shift %ld)\n%P", d, v, p); o1 = AOP_RRR(opirr(ctxt, p->as), p->reg, p->to.reg, (v&0x1F)); o1 |= (mask[0]&31L)<<6; if(v & 0x20) o1 |= 1<<1; if(mask[0] & 0x20) o1 |= 1<<5; /* mb[5] is top bit */ break; case 31: /* dword */ d = vregoff(ctxt, &p->from); if(ctxt->arch->endian == BigEndian) { o1 = d>>32; o2 = d; } else { o1 = d; o2 = d>>32; } if(p->from.sym != nil) { rel = addrel(ctxt->cursym); rel->off = ctxt->pc; rel->siz = 8; rel->sym = p->from.sym; rel->add = p->from.offset; rel->type = R_ADDR; o1 = o2 = 0; } break; case 32: /* fmul frc,fra,frd */ r = p->reg; if(r == NREG) r = p->to.reg; o1 = AOP_RRR(oprrr(ctxt, p->as), p->to.reg, r, 0)|((p->from.reg&31L)<<6); break; case 33: /* fabs [frb,]frd; fmr. frb,frd */ r = p->from.reg; if(oclass(p->from) == C_NONE) r = p->to.reg; o1 = AOP_RRR(oprrr(ctxt, p->as), p->to.reg, 0, r); break; case 34: /* FMADDx fra,frb,frc,frd (d=a*b+c); FSELx a<0? (d=b): (d=c) */ o1 = AOP_RRR(oprrr(ctxt, p->as), p->to.reg, p->from.reg, p->reg)|((p->from3.reg&31L)<<6); break; case 35: /* mov r,lext/lauto/loreg ==> cau $(v>>16),sb,r'; store o(r') */ v = regoff(ctxt, &p->to); if(v & 0x8000L) v += 0x10000L; r = p->to.reg; if(r == NREG) r = o->param; o1 = AOP_IRR(OP_ADDIS, REGTMP, r, v>>16); o2 = AOP_IRR(opstore(ctxt, p->as), p->from.reg, REGTMP, v); break; case 36: /* mov bz/h/hz lext/lauto/lreg,r ==> lbz/lha/lhz etc */ v = regoff(ctxt, &p->from); if(v & 0x8000L) v += 0x10000L; r = p->from.reg; if(r == NREG) r = o->param; o1 = AOP_IRR(OP_ADDIS, REGTMP, r, v>>16); o2 = AOP_IRR(opload(ctxt, p->as), p->to.reg, REGTMP, v); break; case 37: /* movb lext/lauto/lreg,r ==> lbz o(reg),r; extsb r */ v = regoff(ctxt, &p->from); if(v & 0x8000L) v += 0x10000L; r = p->from.reg; if(r == NREG) r = o->param; o1 = AOP_IRR(OP_ADDIS, REGTMP, r, v>>16); o2 = AOP_IRR(opload(ctxt, p->as), p->to.reg, REGTMP, v); o3 = LOP_RRR(OP_EXTSB, p->to.reg, p->to.reg, 0); break; case 40: /* word */ o1 = regoff(ctxt, &p->from); break; case 41: /* stswi */ o1 = AOP_RRR(opirr(ctxt, p->as), p->from.reg, p->to.reg, 0) | ((regoff(ctxt, &p->from3)&0x7F)<<11); break; case 42: /* lswi */ o1 = AOP_RRR(opirr(ctxt, p->as), p->to.reg, p->from.reg, 0) | ((regoff(ctxt, &p->from3)&0x7F)<<11); break; case 43: /* unary indexed source: dcbf (b); dcbf (a+b) */ r = p->reg; if(r == NREG) r = 0; o1 = AOP_RRR(oprrr(ctxt, p->as), 0, r, p->from.reg); break; case 44: /* indexed store */ r = p->reg; if(r == NREG) r = 0; o1 = AOP_RRR(opstorex(ctxt, p->as), p->from.reg, r, p->to.reg); break; case 45: /* indexed load */ r = p->reg; if(r == NREG) r = 0; o1 = AOP_RRR(oploadx(ctxt, p->as), p->to.reg, r, p->from.reg); break; case 46: /* plain op */ o1 = oprrr(ctxt, p->as); break; case 47: /* op Ra, Rd; also op [Ra,] Rd */ r = p->from.reg; if(r == NREG) r = p->to.reg; o1 = AOP_RRR(oprrr(ctxt, p->as), p->to.reg, r, 0); break; case 48: /* op Rs, Ra */ r = p->from.reg; if(r == NREG) r = p->to.reg; o1 = LOP_RRR(oprrr(ctxt, p->as), p->to.reg, r, 0); break; case 49: /* op Rb; op $n, Rb */ if(p->from.type != D_REG){ /* tlbie $L, rB */ v = regoff(ctxt, &p->from) & 1; o1 = AOP_RRR(oprrr(ctxt, p->as), 0, 0, p->to.reg) | (v<<21); }else o1 = AOP_RRR(oprrr(ctxt, p->as), 0, 0, p->from.reg); break; case 50: /* rem[u] r1[,r2],r3 */ r = p->reg; if(r == NREG) r = p->to.reg; v = oprrr(ctxt, p->as); t = v & ((1<<10)|1); /* OE|Rc */ o1 = AOP_RRR(v&~t, REGTMP, r, p->from.reg); o2 = AOP_RRR(OP_MULLW, REGTMP, REGTMP, p->from.reg); o3 = AOP_RRR(OP_SUBF|t, p->to.reg, REGTMP, r); if(p->as == AREMU) { o4 = o3; /* Clear top 32 bits */ o3 = OP_RLW(OP_RLDIC, REGTMP, REGTMP, 0, 0, 0) | (1<<5); } break; case 51: /* remd[u] r1[,r2],r3 */ r = p->reg; if(r == NREG) r = p->to.reg; v = oprrr(ctxt, p->as); t = v & ((1<<10)|1); /* OE|Rc */ o1 = AOP_RRR(v&~t, REGTMP, r, p->from.reg); o2 = AOP_RRR(OP_MULLD, REGTMP, REGTMP, p->from.reg); o3 = AOP_RRR(OP_SUBF|t, p->to.reg, REGTMP, r); break; case 52: /* mtfsbNx cr(n) */ v = regoff(ctxt, &p->from)&31L; o1 = AOP_RRR(oprrr(ctxt, p->as), v, 0, 0); break; case 53: /* mffsX ,fr1 */ o1 = AOP_RRR(OP_MFFS, p->to.reg, 0, 0); break; case 54: /* mov msr,r1; mov r1, msr*/ if(oclass(p->from) == C_REG){ if(p->as == AMOVD) o1 = AOP_RRR(OP_MTMSRD, p->from.reg, 0, 0); else o1 = AOP_RRR(OP_MTMSR, p->from.reg, 0, 0); }else o1 = AOP_RRR(OP_MFMSR, p->to.reg, 0, 0); break; case 55: /* op Rb, Rd */ o1 = AOP_RRR(oprrr(ctxt, p->as), p->to.reg, 0, p->from.reg); break; case 56: /* sra $sh,[s,]a; srd $sh,[s,]a */ v = regoff(ctxt, &p->from); r = p->reg; if(r == NREG) r = p->to.reg; o1 = AOP_RRR(opirr(ctxt, p->as), r, p->to.reg, v&31L); if(p->as == ASRAD && (v&0x20)) o1 |= 1<<1; /* mb[5] */ break; case 57: /* slw $sh,[s,]a -> rlwinm ... */ v = regoff(ctxt, &p->from); r = p->reg; if(r == NREG) r = p->to.reg; /* * Let user (gs) shoot himself in the foot. * qc has already complained. * if(v < 0 || v > 31) ctxt->diag("illegal shift %ld\n%P", v, p); */ if(v < 0) v = 0; else if(v > 32) v = 32; if(p->as == ASRW || p->as == ASRWCC) { /* shift right */ mask[0] = v; mask[1] = 31; v = 32-v; } else { mask[0] = 0; mask[1] = 31-v; } o1 = OP_RLW(OP_RLWINM, p->to.reg, r, v, mask[0], mask[1]); if(p->as == ASLWCC || p->as == ASRWCC) o1 |= 1; /* Rc */ break; case 58: /* logical $andcon,[s],a */ v = regoff(ctxt, &p->from); r = p->reg; if(r == NREG) r = p->to.reg; o1 = LOP_IRR(opirr(ctxt, p->as), p->to.reg, r, v); break; case 59: /* or/and $ucon,,r */ v = regoff(ctxt, &p->from); r = p->reg; if(r == NREG) r = p->to.reg; o1 = LOP_IRR(opirr(ctxt, p->as+AEND), p->to.reg, r, v>>16); /* oris, xoris, andis */ break; case 60: /* tw to,a,b */ r = regoff(ctxt, &p->from)&31L; o1 = AOP_RRR(oprrr(ctxt, p->as), r, p->reg, p->to.reg); break; case 61: /* tw to,a,$simm */ r = regoff(ctxt, &p->from)&31L; v = regoff(ctxt, &p->to); o1 = AOP_IRR(opirr(ctxt, p->as), r, p->reg, v); break; case 62: /* rlwmi $sh,s,$mask,a */ v = regoff(ctxt, &p->from); maskgen(ctxt, p, mask, regoff(ctxt, &p->from3)); o1 = AOP_RRR(opirr(ctxt, p->as), p->reg, p->to.reg, v); o1 |= ((mask[0]&31L)<<6)|((mask[1]&31L)<<1); break; case 63: /* rlwmi b,s,$mask,a */ maskgen(ctxt, p, mask, regoff(ctxt, &p->from3)); o1 = AOP_RRR(opirr(ctxt, p->as), p->reg, p->to.reg, p->from.reg); o1 |= ((mask[0]&31L)<<6)|((mask[1]&31L)<<1); break; case 64: /* mtfsf fr[, $m] {,fpcsr} */ if(p->from3.type != D_NONE) v = regoff(ctxt, &p->from3)&255L; else v = 255; o1 = OP_MTFSF | (v<<17) | (p->from.reg<<11); break; case 65: /* MOVFL $imm,FPSCR(n) => mtfsfi crfd,imm */ if(p->to.reg == NREG) ctxt->diag("must specify FPSCR(n)\n%P", p); o1 = OP_MTFSFI | ((p->to.reg&15L)<<23) | ((regoff(ctxt, &p->from)&31L)<<12); break; case 66: /* mov spr,r1; mov r1,spr, also dcr */ if(p->from.type == D_REG) { r = p->from.reg; v = p->to.offset; if(p->to.type == D_DCR) o1 = OPVCC(31,451,0,0); /* mtdcr */ else o1 = OPVCC(31,467,0,0); /* mtspr */ } else { r = p->to.reg; v = p->from.offset; if(p->from.type == D_DCR) o1 = OPVCC(31,323,0,0); /* mfdcr */ else o1 = OPVCC(31,339,0,0); /* mfspr */ } o1 = AOP_RRR(o1, r, 0, 0) | ((v&0x1f)<<16) | (((v>>5)&0x1f)<<11); break; case 67: /* mcrf crfD,crfS */ if(p->from.type != D_CREG || p->from.reg == NREG || p->to.type != D_CREG || p->to.reg == NREG) ctxt->diag("illegal CR field number\n%P", p); o1 = AOP_RRR(OP_MCRF, ((p->to.reg&7L)<<2), ((p->from.reg&7)<<2), 0); break; case 68: /* mfcr rD; mfocrf CRM,rD */ if(p->from.type == D_CREG && p->from.reg != NREG){ v = 1<<(7-(p->to.reg&7)); /* CR(n) */ o1 = AOP_RRR(OP_MFCR, p->to.reg, 0, 0) | (1<<20) | (v<<12); /* new form, mfocrf */ }else o1 = AOP_RRR(OP_MFCR, p->to.reg, 0, 0); /* old form, whole register */ break; case 69: /* mtcrf CRM,rS */ if(p->from3.type != D_NONE) { if(p->to.reg != NREG) ctxt->diag("can't use both mask and CR(n)\n%P", p); v = regoff(ctxt, &p->from3) & 0xff; } else { if(p->to.reg == NREG) v = 0xff; /* CR */ else v = 1<<(7-(p->to.reg&7)); /* CR(n) */ } o1 = AOP_RRR(OP_MTCRF, p->from.reg, 0, 0) | (v<<12); break; case 70: /* [f]cmp r,r,cr*/ if(p->reg == NREG) r = 0; else r = (p->reg&7)<<2; o1 = AOP_RRR(oprrr(ctxt, p->as), r, p->from.reg, p->to.reg); break; case 71: /* cmp[l] r,i,cr*/ if(p->reg == NREG) r = 0; else r = (p->reg&7)<<2; o1 = AOP_RRR(opirr(ctxt, p->as), r, p->from.reg, 0) | (regoff(ctxt, &p->to)&0xffff); break; case 72: /* slbmte (Rb+Rs -> slb[Rb]) -> Rs, Rb */ o1 = AOP_RRR(oprrr(ctxt, p->as), p->from.reg, 0, p->to.reg); break; case 73: /* mcrfs crfD,crfS */ if(p->from.type != D_FPSCR || p->from.reg == NREG || p->to.type != D_CREG || p->to.reg == NREG) ctxt->diag("illegal FPSCR/CR field number\n%P", p); o1 = AOP_RRR(OP_MCRFS, ((p->to.reg&7L)<<2), ((p->from.reg&7)<<2), 0); break; case 77: /* syscall $scon, syscall Rx */ if(p->from.type == D_CONST) { if(p->from.offset > BIG || p->from.offset < -BIG) ctxt->diag("illegal syscall, sysnum too large: %P", p); o1 = AOP_IRR(OP_ADDI, REGZERO, REGZERO, p->from.offset); } else if(p->from.type == D_REG) { o1 = LOP_RRR(OP_OR, REGZERO, p->from.reg, p->from.reg); } else { ctxt->diag("illegal syscall: %P", p); o1 = 0x7fe00008; // trap always } o2 = oprrr(ctxt, p->as); o3 = AOP_RRR(oprrr(ctxt, AXOR), REGZERO, REGZERO, REGZERO); // XOR R0, R0 break; case 78: /* undef */ o1 = 0; /* "An instruction consisting entirely of binary 0s is guaranteed always to be an illegal instruction." */ break; /* relocation operations */ case 74: v = regoff(ctxt, &p->to); o1 = AOP_IRR(OP_ADDIS, REGTMP, REGZERO, high16adjusted(v)); o2 = AOP_IRR(opstore(ctxt, p->as), p->from.reg, REGTMP, v); addaddrreloc(ctxt, p->to.sym, &o1, &o2); //if(dlm) reloc(&p->to, p->pc, 1); break; case 75: v = regoff(ctxt, &p->from); o1 = AOP_IRR(OP_ADDIS, REGTMP, REGZERO, high16adjusted(v)); o2 = AOP_IRR(opload(ctxt, p->as), p->to.reg, REGTMP, v); addaddrreloc(ctxt, p->from.sym, &o1, &o2); //if(dlm) reloc(&p->from, p->pc, 1); break; case 76: v = regoff(ctxt, &p->from); o1 = AOP_IRR(OP_ADDIS, REGTMP, REGZERO, high16adjusted(v)); o2 = AOP_IRR(opload(ctxt, p->as), p->to.reg, REGTMP, v); addaddrreloc(ctxt, p->from.sym, &o1, &o2); o3 = LOP_RRR(OP_EXTSB, p->to.reg, p->to.reg, 0); //if(dlm) reloc(&p->from, p->pc, 1); break; } out[0] = o1; out[1] = o2; out[2] = o3; out[3] = o4; out[4] = o5; return; } static vlong vregoff(Link *ctxt, Addr *a) { ctxt->instoffset = 0; aclass(ctxt, a); return ctxt->instoffset; } static int32 regoff(Link *ctxt, Addr *a) { return vregoff(ctxt, a); } static int32 oprrr(Link *ctxt, int a) { switch(a) { case AADD: return OPVCC(31,266,0,0); case AADDCC: return OPVCC(31,266,0,1); case AADDV: return OPVCC(31,266,1,0); case AADDVCC: return OPVCC(31,266,1,1); case AADDC: return OPVCC(31,10,0,0); case AADDCCC: return OPVCC(31,10,0,1); case AADDCV: return OPVCC(31,10,1,0); case AADDCVCC: return OPVCC(31,10,1,1); case AADDE: return OPVCC(31,138,0,0); case AADDECC: return OPVCC(31,138,0,1); case AADDEV: return OPVCC(31,138,1,0); case AADDEVCC: return OPVCC(31,138,1,1); case AADDME: return OPVCC(31,234,0,0); case AADDMECC: return OPVCC(31,234,0,1); case AADDMEV: return OPVCC(31,234,1,0); case AADDMEVCC: return OPVCC(31,234,1,1); case AADDZE: return OPVCC(31,202,0,0); case AADDZECC: return OPVCC(31,202,0,1); case AADDZEV: return OPVCC(31,202,1,0); case AADDZEVCC: return OPVCC(31,202,1,1); case AAND: return OPVCC(31,28,0,0); case AANDCC: return OPVCC(31,28,0,1); case AANDN: return OPVCC(31,60,0,0); case AANDNCC: return OPVCC(31,60,0,1); case ACMP: return OPVCC(31,0,0,0)|(1<<21); /* L=1 */ case ACMPU: return OPVCC(31,32,0,0)|(1<<21); case ACMPW: return OPVCC(31,0,0,0); /* L=0 */ case ACMPWU: return OPVCC(31,32,0,0); case ACNTLZW: return OPVCC(31,26,0,0); case ACNTLZWCC: return OPVCC(31,26,0,1); case ACNTLZD: return OPVCC(31,58,0,0); case ACNTLZDCC: return OPVCC(31,58,0,1); case ACRAND: return OPVCC(19,257,0,0); case ACRANDN: return OPVCC(19,129,0,0); case ACREQV: return OPVCC(19,289,0,0); case ACRNAND: return OPVCC(19,225,0,0); case ACRNOR: return OPVCC(19,33,0,0); case ACROR: return OPVCC(19,449,0,0); case ACRORN: return OPVCC(19,417,0,0); case ACRXOR: return OPVCC(19,193,0,0); case ADCBF: return OPVCC(31,86,0,0); case ADCBI: return OPVCC(31,470,0,0); case ADCBST: return OPVCC(31,54,0,0); case ADCBT: return OPVCC(31,278,0,0); case ADCBTST: return OPVCC(31,246,0,0); case ADCBZ: return OPVCC(31,1014,0,0); case AREM: case ADIVW: return OPVCC(31,491,0,0); case AREMCC: case ADIVWCC: return OPVCC(31,491,0,1); case AREMV: case ADIVWV: return OPVCC(31,491,1,0); case AREMVCC: case ADIVWVCC: return OPVCC(31,491,1,1); case AREMU: case ADIVWU: return OPVCC(31,459,0,0); case AREMUCC: case ADIVWUCC: return OPVCC(31,459,0,1); case AREMUV: case ADIVWUV: return OPVCC(31,459,1,0); case AREMUVCC: case ADIVWUVCC: return OPVCC(31,459,1,1); case AREMD: case ADIVD: return OPVCC(31,489,0,0); case AREMDCC: case ADIVDCC: return OPVCC(31,489,0,1); case AREMDV: case ADIVDV: return OPVCC(31,489,1,0); case AREMDVCC: case ADIVDVCC: return OPVCC(31,489,1,1); case AREMDU: case ADIVDU: return OPVCC(31,457,0,0); case AREMDUCC: case ADIVDUCC: return OPVCC(31,457,0,1); case AREMDUV: case ADIVDUV: return OPVCC(31,457,1,0); case AREMDUVCC: case ADIVDUVCC: return OPVCC(31,457,1,1); case AEIEIO: return OPVCC(31,854,0,0); case AEQV: return OPVCC(31,284,0,0); case AEQVCC: return OPVCC(31,284,0,1); case AEXTSB: return OPVCC(31,954,0,0); case AEXTSBCC: return OPVCC(31,954,0,1); case AEXTSH: return OPVCC(31,922,0,0); case AEXTSHCC: return OPVCC(31,922,0,1); case AEXTSW: return OPVCC(31,986,0,0); case AEXTSWCC: return OPVCC(31,986,0,1); case AFABS: return OPVCC(63,264,0,0); case AFABSCC: return OPVCC(63,264,0,1); case AFADD: return OPVCC(63,21,0,0); case AFADDCC: return OPVCC(63,21,0,1); case AFADDS: return OPVCC(59,21,0,0); case AFADDSCC: return OPVCC(59,21,0,1); case AFCMPO: return OPVCC(63,32,0,0); case AFCMPU: return OPVCC(63,0,0,0); case AFCFID: return OPVCC(63,846,0,0); case AFCFIDCC: return OPVCC(63,846,0,1); case AFCTIW: return OPVCC(63,14,0,0); case AFCTIWCC: return OPVCC(63,14,0,1); case AFCTIWZ: return OPVCC(63,15,0,0); case AFCTIWZCC: return OPVCC(63,15,0,1); case AFCTID: return OPVCC(63,814,0,0); case AFCTIDCC: return OPVCC(63,814,0,1); case AFCTIDZ: return OPVCC(63,815,0,0); case AFCTIDZCC: return OPVCC(63,815,0,1); case AFDIV: return OPVCC(63,18,0,0); case AFDIVCC: return OPVCC(63,18,0,1); case AFDIVS: return OPVCC(59,18,0,0); case AFDIVSCC: return OPVCC(59,18,0,1); case AFMADD: return OPVCC(63,29,0,0); case AFMADDCC: return OPVCC(63,29,0,1); case AFMADDS: return OPVCC(59,29,0,0); case AFMADDSCC: return OPVCC(59,29,0,1); case AFMOVS: case AFMOVD: return OPVCC(63,72,0,0); /* load */ case AFMOVDCC: return OPVCC(63,72,0,1); case AFMSUB: return OPVCC(63,28,0,0); case AFMSUBCC: return OPVCC(63,28,0,1); case AFMSUBS: return OPVCC(59,28,0,0); case AFMSUBSCC: return OPVCC(59,28,0,1); case AFMUL: return OPVCC(63,25,0,0); case AFMULCC: return OPVCC(63,25,0,1); case AFMULS: return OPVCC(59,25,0,0); case AFMULSCC: return OPVCC(59,25,0,1); case AFNABS: return OPVCC(63,136,0,0); case AFNABSCC: return OPVCC(63,136,0,1); case AFNEG: return OPVCC(63,40,0,0); case AFNEGCC: return OPVCC(63,40,0,1); case AFNMADD: return OPVCC(63,31,0,0); case AFNMADDCC: return OPVCC(63,31,0,1); case AFNMADDS: return OPVCC(59,31,0,0); case AFNMADDSCC: return OPVCC(59,31,0,1); case AFNMSUB: return OPVCC(63,30,0,0); case AFNMSUBCC: return OPVCC(63,30,0,1); case AFNMSUBS: return OPVCC(59,30,0,0); case AFNMSUBSCC: return OPVCC(59,30,0,1); case AFRES: return OPVCC(59,24,0,0); case AFRESCC: return OPVCC(59,24,0,1); case AFRSP: return OPVCC(63,12,0,0); case AFRSPCC: return OPVCC(63,12,0,1); case AFRSQRTE: return OPVCC(63,26,0,0); case AFRSQRTECC: return OPVCC(63,26,0,1); case AFSEL: return OPVCC(63,23,0,0); case AFSELCC: return OPVCC(63,23,0,1); case AFSQRT: return OPVCC(63,22,0,0); case AFSQRTCC: return OPVCC(63,22,0,1); case AFSQRTS: return OPVCC(59,22,0,0); case AFSQRTSCC: return OPVCC(59,22,0,1); case AFSUB: return OPVCC(63,20,0,0); case AFSUBCC: return OPVCC(63,20,0,1); case AFSUBS: return OPVCC(59,20,0,0); case AFSUBSCC: return OPVCC(59,20,0,1); case AICBI: return OPVCC(31,982,0,0); case AISYNC: return OPVCC(19,150,0,0); case AMTFSB0: return OPVCC(63,70,0,0); case AMTFSB0CC: return OPVCC(63,70,0,1); case AMTFSB1: return OPVCC(63,38,0,0); case AMTFSB1CC: return OPVCC(63,38,0,1); case AMULHW: return OPVCC(31,75,0,0); case AMULHWCC: return OPVCC(31,75,0,1); case AMULHWU: return OPVCC(31,11,0,0); case AMULHWUCC: return OPVCC(31,11,0,1); case AMULLW: return OPVCC(31,235,0,0); case AMULLWCC: return OPVCC(31,235,0,1); case AMULLWV: return OPVCC(31,235,1,0); case AMULLWVCC: return OPVCC(31,235,1,1); case AMULHD: return OPVCC(31,73,0,0); case AMULHDCC: return OPVCC(31,73,0,1); case AMULHDU: return OPVCC(31,9,0,0); case AMULHDUCC: return OPVCC(31,9,0,1); case AMULLD: return OPVCC(31,233,0,0); case AMULLDCC: return OPVCC(31,233,0,1); case AMULLDV: return OPVCC(31,233,1,0); case AMULLDVCC: return OPVCC(31,233,1,1); case ANAND: return OPVCC(31,476,0,0); case ANANDCC: return OPVCC(31,476,0,1); case ANEG: return OPVCC(31,104,0,0); case ANEGCC: return OPVCC(31,104,0,1); case ANEGV: return OPVCC(31,104,1,0); case ANEGVCC: return OPVCC(31,104,1,1); case ANOR: return OPVCC(31,124,0,0); case ANORCC: return OPVCC(31,124,0,1); case AOR: return OPVCC(31,444,0,0); case AORCC: return OPVCC(31,444,0,1); case AORN: return OPVCC(31,412,0,0); case AORNCC: return OPVCC(31,412,0,1); case ARFI: return OPVCC(19,50,0,0); case ARFCI: return OPVCC(19,51,0,0); case ARFID: return OPVCC(19,18,0,0); case AHRFID: return OPVCC(19,274,0,0); case ARLWMI: return OPVCC(20,0,0,0); case ARLWMICC: return OPVCC(20,0,0,1); case ARLWNM: return OPVCC(23,0,0,0); case ARLWNMCC: return OPVCC(23,0,0,1); case ARLDCL: return OPVCC(30,8,0,0); case ARLDCR: return OPVCC(30,9,0,0); case ASYSCALL: return OPVCC(17,1,0,0); case ASLW: return OPVCC(31,24,0,0); case ASLWCC: return OPVCC(31,24,0,1); case ASLD: return OPVCC(31,27,0,0); case ASLDCC: return OPVCC(31,27,0,1); case ASRAW: return OPVCC(31,792,0,0); case ASRAWCC: return OPVCC(31,792,0,1); case ASRAD: return OPVCC(31,794,0,0); case ASRADCC: return OPVCC(31,794,0,1); case ASRW: return OPVCC(31,536,0,0); case ASRWCC: return OPVCC(31,536,0,1); case ASRD: return OPVCC(31,539,0,0); case ASRDCC: return OPVCC(31,539,0,1); case ASUB: return OPVCC(31,40,0,0); case ASUBCC: return OPVCC(31,40,0,1); case ASUBV: return OPVCC(31,40,1,0); case ASUBVCC: return OPVCC(31,40,1,1); case ASUBC: return OPVCC(31,8,0,0); case ASUBCCC: return OPVCC(31,8,0,1); case ASUBCV: return OPVCC(31,8,1,0); case ASUBCVCC: return OPVCC(31,8,1,1); case ASUBE: return OPVCC(31,136,0,0); case ASUBECC: return OPVCC(31,136,0,1); case ASUBEV: return OPVCC(31,136,1,0); case ASUBEVCC: return OPVCC(31,136,1,1); case ASUBME: return OPVCC(31,232,0,0); case ASUBMECC: return OPVCC(31,232,0,1); case ASUBMEV: return OPVCC(31,232,1,0); case ASUBMEVCC: return OPVCC(31,232,1,1); case ASUBZE: return OPVCC(31,200,0,0); case ASUBZECC: return OPVCC(31,200,0,1); case ASUBZEV: return OPVCC(31,200,1,0); case ASUBZEVCC: return OPVCC(31,200,1,1); case ASYNC: return OPVCC(31,598,0,0); case APTESYNC: return OPVCC(31,598,0,0) | (2<<21); case ATLBIE: return OPVCC(31,306,0,0); case ATLBIEL: return OPVCC(31,274,0,0); case ATLBSYNC: return OPVCC(31,566,0,0); case ASLBIA: return OPVCC(31,498,0,0); case ASLBIE: return OPVCC(31,434,0,0); case ASLBMFEE: return OPVCC(31,915,0,0); case ASLBMFEV: return OPVCC(31,851,0,0); case ASLBMTE: return OPVCC(31,402,0,0); case ATW: return OPVCC(31,4,0,0); case ATD: return OPVCC(31,68,0,0); case AXOR: return OPVCC(31,316,0,0); case AXORCC: return OPVCC(31,316,0,1); } ctxt->diag("bad r/r opcode %A", a); return 0; } static int32 opirr(Link *ctxt, int a) { switch(a) { case AADD: return OPVCC(14,0,0,0); case AADDC: return OPVCC(12,0,0,0); case AADDCCC: return OPVCC(13,0,0,0); case AADD+AEND: return OPVCC(15,0,0,0); /* ADDIS/CAU */ case AANDCC: return OPVCC(28,0,0,0); case AANDCC+AEND: return OPVCC(29,0,0,0); /* ANDIS./ANDIU. */ case ABR: return OPVCC(18,0,0,0); case ABL: return OPVCC(18,0,0,0) | 1; case ADUFFZERO: return OPVCC(18,0,0,0) | 1; case ADUFFCOPY: return OPVCC(18,0,0,0) | 1; case ABC: return OPVCC(16,0,0,0); case ABCL: return OPVCC(16,0,0,0) | 1; case ABEQ: return AOP_RRR(16<<26,12,2,0); case ABGE: return AOP_RRR(16<<26,4,0,0); case ABGT: return AOP_RRR(16<<26,12,1,0); case ABLE: return AOP_RRR(16<<26,4,1,0); case ABLT: return AOP_RRR(16<<26,12,0,0); case ABNE: return AOP_RRR(16<<26,4,2,0); case ABVC: return AOP_RRR(16<<26,4,3,0); case ABVS: return AOP_RRR(16<<26,12,3,0); case ACMP: return OPVCC(11,0,0,0)|(1<<21); /* L=1 */ case ACMPU: return OPVCC(10,0,0,0)|(1<<21); case ACMPW: return OPVCC(11,0,0,0); /* L=0 */ case ACMPWU: return OPVCC(10,0,0,0); case ALSW: return OPVCC(31,597,0,0); case AMULLW: return OPVCC(7,0,0,0); case AOR: return OPVCC(24,0,0,0); case AOR+AEND: return OPVCC(25,0,0,0); /* ORIS/ORIU */ case ARLWMI: return OPVCC(20,0,0,0); /* rlwimi */ case ARLWMICC: return OPVCC(20,0,0,1); case ARLDMI: return OPVCC(30,0,0,0) | (3<<2); /* rldimi */ case ARLDMICC: return OPVCC(30,0,0,1) | (3<<2); case ARLWNM: return OPVCC(21,0,0,0); /* rlwinm */ case ARLWNMCC: return OPVCC(21,0,0,1); case ARLDCL: return OPVCC(30,0,0,0); /* rldicl */ case ARLDCLCC: return OPVCC(30,0,0,1); case ARLDCR: return OPVCC(30,1,0,0); /* rldicr */ case ARLDCRCC: return OPVCC(30,1,0,1); case ARLDC: return OPVCC(30,0,0,0) | (2<<2); case ARLDCCC: return OPVCC(30,0,0,1) | (2<<2); case ASRAW: return OPVCC(31,824,0,0); case ASRAWCC: return OPVCC(31,824,0,1); case ASRAD: return OPVCC(31,(413<<1),0,0); case ASRADCC: return OPVCC(31,(413<<1),0,1); case ASTSW: return OPVCC(31,725,0,0); case ASUBC: return OPVCC(8,0,0,0); case ATW: return OPVCC(3,0,0,0); case ATD: return OPVCC(2,0,0,0); case AXOR: return OPVCC(26,0,0,0); /* XORIL */ case AXOR+AEND: return OPVCC(27,0,0,0); /* XORIU */ } ctxt->diag("bad opcode i/r %A", a); return 0; } /* * load o(a),d */ static int32 opload(Link *ctxt, int a) { switch(a) { case AMOVD: return OPVCC(58,0,0,0); /* ld */ case AMOVDU: return OPVCC(58,0,0,1); /* ldu */ case AMOVWZ: return OPVCC(32,0,0,0); /* lwz */ case AMOVWZU: return OPVCC(33,0,0,0); /* lwzu */ case AMOVW: return OPVCC(58,0,0,0)|(1<<1); /* lwa */ /* no AMOVWU */ case AMOVB: case AMOVBZ: return OPVCC(34,0,0,0); /* load */ case AMOVBU: case AMOVBZU: return OPVCC(35,0,0,0); case AFMOVD: return OPVCC(50,0,0,0); case AFMOVDU: return OPVCC(51,0,0,0); case AFMOVS: return OPVCC(48,0,0,0); case AFMOVSU: return OPVCC(49,0,0,0); case AMOVH: return OPVCC(42,0,0,0); case AMOVHU: return OPVCC(43,0,0,0); case AMOVHZ: return OPVCC(40,0,0,0); case AMOVHZU: return OPVCC(41,0,0,0); case AMOVMW: return OPVCC(46,0,0,0); /* lmw */ } ctxt->diag("bad load opcode %A", a); return 0; } /* * indexed load a(b),d */ static int32 oploadx(Link *ctxt, int a) { switch(a) { case AMOVWZ: return OPVCC(31,23,0,0); /* lwzx */ case AMOVWZU: return OPVCC(31,55,0,0); /* lwzux */ case AMOVW: return OPVCC(31,341,0,0); /* lwax */ case AMOVWU: return OPVCC(31,373,0,0); /* lwaux */ case AMOVB: case AMOVBZ: return OPVCC(31,87,0,0); /* lbzx */ case AMOVBU: case AMOVBZU: return OPVCC(31,119,0,0); /* lbzux */ case AFMOVD: return OPVCC(31,599,0,0); /* lfdx */ case AFMOVDU: return OPVCC(31,631,0,0); /* lfdux */ case AFMOVS: return OPVCC(31,535,0,0); /* lfsx */ case AFMOVSU: return OPVCC(31,567,0,0); /* lfsux */ case AMOVH: return OPVCC(31,343,0,0); /* lhax */ case AMOVHU: return OPVCC(31,375,0,0); /* lhaux */ case AMOVHBR: return OPVCC(31,790,0,0); /* lhbrx */ case AMOVWBR: return OPVCC(31,534,0,0); /* lwbrx */ case AMOVHZ: return OPVCC(31,279,0,0); /* lhzx */ case AMOVHZU: return OPVCC(31,311,0,0); /* lhzux */ case AECIWX: return OPVCC(31,310,0,0); /* eciwx */ case ALWAR: return OPVCC(31,20,0,0); /* lwarx */ case ALDAR: return OPVCC(31,84,0,0); case ALSW: return OPVCC(31,533,0,0); /* lswx */ case AMOVD: return OPVCC(31,21,0,0); /* ldx */ case AMOVDU: return OPVCC(31,53,0,0); /* ldux */ } ctxt->diag("bad loadx opcode %A", a); return 0; } /* * store s,o(d) */ static int32 opstore(Link *ctxt, int a) { switch(a) { case AMOVB: case AMOVBZ: return OPVCC(38,0,0,0); /* stb */ case AMOVBU: case AMOVBZU: return OPVCC(39,0,0,0); /* stbu */ case AFMOVD: return OPVCC(54,0,0,0); /* stfd */ case AFMOVDU: return OPVCC(55,0,0,0); /* stfdu */ case AFMOVS: return OPVCC(52,0,0,0); /* stfs */ case AFMOVSU: return OPVCC(53,0,0,0); /* stfsu */ case AMOVHZ: case AMOVH: return OPVCC(44,0,0,0); /* sth */ case AMOVHZU: case AMOVHU: return OPVCC(45,0,0,0); /* sthu */ case AMOVMW: return OPVCC(47,0,0,0); /* stmw */ case ASTSW: return OPVCC(31,725,0,0); /* stswi */ case AMOVWZ: case AMOVW: return OPVCC(36,0,0,0); /* stw */ case AMOVWZU: case AMOVWU: return OPVCC(37,0,0,0); /* stwu */ case AMOVD: return OPVCC(62,0,0,0); /* std */ case AMOVDU: return OPVCC(62,0,0,1); /* stdu */ } ctxt->diag("unknown store opcode %A", a); return 0; } /* * indexed store s,a(b) */ static int32 opstorex(Link *ctxt, int a) { switch(a) { case AMOVB: case AMOVBZ: return OPVCC(31,215,0,0); /* stbx */ case AMOVBU: case AMOVBZU: return OPVCC(31,247,0,0); /* stbux */ case AFMOVD: return OPVCC(31,727,0,0); /* stfdx */ case AFMOVDU: return OPVCC(31,759,0,0); /* stfdux */ case AFMOVS: return OPVCC(31,663,0,0); /* stfsx */ case AFMOVSU: return OPVCC(31,695,0,0); /* stfsux */ case AMOVHZ: case AMOVH: return OPVCC(31,407,0,0); /* sthx */ case AMOVHBR: return OPVCC(31,918,0,0); /* sthbrx */ case AMOVHZU: case AMOVHU: return OPVCC(31,439,0,0); /* sthux */ case AMOVWZ: case AMOVW: return OPVCC(31,151,0,0); /* stwx */ case AMOVWZU: case AMOVWU: return OPVCC(31,183,0,0); /* stwux */ case ASTSW: return OPVCC(31,661,0,0); /* stswx */ case AMOVWBR: return OPVCC(31,662,0,0); /* stwbrx */ case ASTWCCC: return OPVCC(31,150,0,1); /* stwcx. */ case ASTDCCC: return OPVCC(31,214,0,1); /* stwdx. */ case AECOWX: return OPVCC(31,438,0,0); /* ecowx */ case AMOVD: return OPVCC(31,149,0,0); /* stdx */ case AMOVDU: return OPVCC(31,181,0,0); /* stdux */ } ctxt->diag("unknown storex opcode %A", a); return 0; }