/* * MIPS emulation for QEMU - main translation routines * * Copyright (c) 2004-2005 Jocelyn Mayer * Copyright (c) 2006 Marius Groeger (FPU operations) * Copyright (c) 2006 Thiemo Seufer (MIPS32R2 support) * Copyright (c) 2009 CodeSourcery (MIPS16 and microMIPS support) * Copyright (c) 2012 Jia Liu & Dongxue Zhang (MIPS ASE DSP support) * Copyright (c) 2020 Philippe Mathieu-Daudé * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, see . */ #include "qemu/osdep.h" #include "translate.h" #include "internal.h" #include "exec/helper-proto.h" #include "exec/translation-block.h" #include "semihosting/semihost.h" #include "trace.h" #include "fpu_helper.h" #define HELPER_H "helper.h" #include "exec/helper-info.c.inc" #undef HELPER_H /* * Many sysemu-only helpers are not reachable for user-only. * Define stub generators here, so that we need not either sprinkle * ifdefs through the translator, nor provide the helper function. */ #define STUB_HELPER(NAME, ...) \ static inline void gen_helper_##NAME(__VA_ARGS__) \ { g_assert_not_reached(); } #ifdef CONFIG_USER_ONLY STUB_HELPER(cache, TCGv_env env, TCGv val, TCGv_i32 reg) #endif enum { /* indirect opcode tables */ OPC_SPECIAL = (0x00 << 26), OPC_REGIMM = (0x01 << 26), OPC_CP0 = (0x10 << 26), OPC_CP2 = (0x12 << 26), OPC_CP3 = (0x13 << 26), OPC_SPECIAL2 = (0x1C << 26), OPC_SPECIAL3 = (0x1F << 26), /* arithmetic with immediate */ OPC_ADDI = (0x08 << 26), OPC_ADDIU = (0x09 << 26), OPC_SLTI = (0x0A << 26), OPC_SLTIU = (0x0B << 26), /* logic with immediate */ OPC_ANDI = (0x0C << 26), OPC_ORI = (0x0D << 26), OPC_XORI = (0x0E << 26), OPC_LUI = (0x0F << 26), /* arithmetic with immediate */ OPC_DADDI = (0x18 << 26), OPC_DADDIU = (0x19 << 26), /* Jump and branches */ OPC_J = (0x02 << 26), OPC_JAL = (0x03 << 26), OPC_BEQ = (0x04 << 26), /* Unconditional if rs = rt = 0 (B) */ OPC_BEQL = (0x14 << 26), OPC_BNE = (0x05 << 26), OPC_BNEL = (0x15 << 26), OPC_BLEZ = (0x06 << 26), OPC_BLEZL = (0x16 << 26), OPC_BGTZ = (0x07 << 26), OPC_BGTZL = (0x17 << 26), OPC_JALX = (0x1D << 26), OPC_DAUI = (0x1D << 26), /* Load and stores */ OPC_LDL = (0x1A << 26), OPC_LDR = (0x1B << 26), OPC_LB = (0x20 << 26), OPC_LH = (0x21 << 26), OPC_LWL = (0x22 << 26), OPC_LW = (0x23 << 26), OPC_LWPC = OPC_LW | 0x5, OPC_LBU = (0x24 << 26), OPC_LHU = (0x25 << 26), OPC_LWR = (0x26 << 26), OPC_LWU = (0x27 << 26), OPC_SB = (0x28 << 26), OPC_SH = (0x29 << 26), OPC_SWL = (0x2A << 26), OPC_SW = (0x2B << 26), OPC_SDL = (0x2C << 26), OPC_SDR = (0x2D << 26), OPC_SWR = (0x2E << 26), OPC_LL = (0x30 << 26), OPC_LLD = (0x34 << 26), OPC_LD = (0x37 << 26), OPC_LDPC = OPC_LD | 0x5, OPC_SC = (0x38 << 26), OPC_SCD = (0x3C << 26), OPC_SD = (0x3F << 26), /* Floating point load/store */ OPC_LWC1 = (0x31 << 26), OPC_LWC2 = (0x32 << 26), OPC_LDC1 = (0x35 << 26), OPC_LDC2 = (0x36 << 26), OPC_SWC1 = (0x39 << 26), OPC_SWC2 = (0x3A << 26), OPC_SDC1 = (0x3D << 26), OPC_SDC2 = (0x3E << 26), /* Compact Branches */ OPC_BLEZALC = (0x06 << 26), OPC_BGEZALC = (0x06 << 26), OPC_BGEUC = (0x06 << 26), OPC_BGTZALC = (0x07 << 26), OPC_BLTZALC = (0x07 << 26), OPC_BLTUC = (0x07 << 26), OPC_BOVC = (0x08 << 26), OPC_BEQZALC = (0x08 << 26), OPC_BEQC = (0x08 << 26), OPC_BLEZC = (0x16 << 26), OPC_BGEZC = (0x16 << 26), OPC_BGEC = (0x16 << 26), OPC_BGTZC = (0x17 << 26), OPC_BLTZC = (0x17 << 26), OPC_BLTC = (0x17 << 26), OPC_BNVC = (0x18 << 26), OPC_BNEZALC = (0x18 << 26), OPC_BNEC = (0x18 << 26), OPC_BC = (0x32 << 26), OPC_BEQZC = (0x36 << 26), OPC_JIC = (0x36 << 26), OPC_BALC = (0x3A << 26), OPC_BNEZC = (0x3E << 26), OPC_JIALC = (0x3E << 26), /* MDMX ASE specific */ OPC_MDMX = (0x1E << 26), /* Cache and prefetch */ OPC_CACHE = (0x2F << 26), OPC_PREF = (0x33 << 26), /* PC-relative address computation / loads */ OPC_PCREL = (0x3B << 26), }; /* PC-relative address computation / loads */ #define MASK_OPC_PCREL_TOP2BITS(op) (MASK_OP_MAJOR(op) | (op & (3 << 19))) #define MASK_OPC_PCREL_TOP5BITS(op) (MASK_OP_MAJOR(op) | (op & (0x1f << 16))) enum { /* Instructions determined by bits 19 and 20 */ OPC_ADDIUPC = OPC_PCREL | (0 << 19), R6_OPC_LWPC = OPC_PCREL | (1 << 19), OPC_LWUPC = OPC_PCREL | (2 << 19), /* Instructions determined by bits 16 ... 20 */ OPC_AUIPC = OPC_PCREL | (0x1e << 16), OPC_ALUIPC = OPC_PCREL | (0x1f << 16), /* Other */ R6_OPC_LDPC = OPC_PCREL | (6 << 18), }; /* MIPS special opcodes */ #define MASK_SPECIAL(op) (MASK_OP_MAJOR(op) | (op & 0x3F)) enum { /* Shifts */ OPC_SLL = 0x00 | OPC_SPECIAL, /* NOP is SLL r0, r0, 0 */ /* SSNOP is SLL r0, r0, 1 */ /* EHB is SLL r0, r0, 3 */ OPC_SRL = 0x02 | OPC_SPECIAL, /* also ROTR */ OPC_ROTR = OPC_SRL | (1 << 21), OPC_SRA = 0x03 | OPC_SPECIAL, OPC_SLLV = 0x04 | OPC_SPECIAL, OPC_SRLV = 0x06 | OPC_SPECIAL, /* also ROTRV */ OPC_ROTRV = OPC_SRLV | (1 << 6), OPC_SRAV = 0x07 | OPC_SPECIAL, OPC_DSLLV = 0x14 | OPC_SPECIAL, OPC_DSRLV = 0x16 | OPC_SPECIAL, /* also DROTRV */ OPC_DROTRV = OPC_DSRLV | (1 << 6), OPC_DSRAV = 0x17 | OPC_SPECIAL, OPC_DSLL = 0x38 | OPC_SPECIAL, OPC_DSRL = 0x3A | OPC_SPECIAL, /* also DROTR */ OPC_DROTR = OPC_DSRL | (1 << 21), OPC_DSRA = 0x3B | OPC_SPECIAL, OPC_DSLL32 = 0x3C | OPC_SPECIAL, OPC_DSRL32 = 0x3E | OPC_SPECIAL, /* also DROTR32 */ OPC_DROTR32 = OPC_DSRL32 | (1 << 21), OPC_DSRA32 = 0x3F | OPC_SPECIAL, /* Multiplication / division */ OPC_MULT = 0x18 | OPC_SPECIAL, OPC_MULTU = 0x19 | OPC_SPECIAL, OPC_DIV = 0x1A | OPC_SPECIAL, OPC_DIVU = 0x1B | OPC_SPECIAL, OPC_DMULT = 0x1C | OPC_SPECIAL, OPC_DMULTU = 0x1D | OPC_SPECIAL, OPC_DDIV = 0x1E | OPC_SPECIAL, OPC_DDIVU = 0x1F | OPC_SPECIAL, /* 2 registers arithmetic / logic */ OPC_ADD = 0x20 | OPC_SPECIAL, OPC_ADDU = 0x21 | OPC_SPECIAL, OPC_SUB = 0x22 | OPC_SPECIAL, OPC_SUBU = 0x23 | OPC_SPECIAL, OPC_AND = 0x24 | OPC_SPECIAL, OPC_OR = 0x25 | OPC_SPECIAL, OPC_XOR = 0x26 | OPC_SPECIAL, OPC_NOR = 0x27 | OPC_SPECIAL, OPC_SLT = 0x2A | OPC_SPECIAL, OPC_SLTU = 0x2B | OPC_SPECIAL, OPC_DADD = 0x2C | OPC_SPECIAL, OPC_DADDU = 0x2D | OPC_SPECIAL, OPC_DSUB = 0x2E | OPC_SPECIAL, OPC_DSUBU = 0x2F | OPC_SPECIAL, /* Jumps */ OPC_JR = 0x08 | OPC_SPECIAL, /* Also JR.HB */ OPC_JALR = 0x09 | OPC_SPECIAL, /* Also JALR.HB */ /* Traps */ OPC_TGE = 0x30 | OPC_SPECIAL, OPC_TGEU = 0x31 | OPC_SPECIAL, OPC_TLT = 0x32 | OPC_SPECIAL, OPC_TLTU = 0x33 | OPC_SPECIAL, OPC_TEQ = 0x34 | OPC_SPECIAL, OPC_TNE = 0x36 | OPC_SPECIAL, /* HI / LO registers load & stores */ OPC_MFHI = 0x10 | OPC_SPECIAL, OPC_MTHI = 0x11 | OPC_SPECIAL, OPC_MFLO = 0x12 | OPC_SPECIAL, OPC_MTLO = 0x13 | OPC_SPECIAL, /* Conditional moves */ OPC_MOVZ = 0x0A | OPC_SPECIAL, OPC_MOVN = 0x0B | OPC_SPECIAL, OPC_SELEQZ = 0x35 | OPC_SPECIAL, OPC_SELNEZ = 0x37 | OPC_SPECIAL, OPC_MOVCI = 0x01 | OPC_SPECIAL, /* Special */ OPC_PMON = 0x05 | OPC_SPECIAL, /* unofficial */ OPC_SYSCALL = 0x0C | OPC_SPECIAL, OPC_BREAK = 0x0D | OPC_SPECIAL, OPC_SPIM = 0x0E | OPC_SPECIAL, /* unofficial */ OPC_SYNC = 0x0F | OPC_SPECIAL, OPC_SPECIAL28_RESERVED = 0x28 | OPC_SPECIAL, OPC_SPECIAL29_RESERVED = 0x29 | OPC_SPECIAL, OPC_SPECIAL39_RESERVED = 0x39 | OPC_SPECIAL, OPC_SPECIAL3D_RESERVED = 0x3D | OPC_SPECIAL, }; /* * R6 Multiply and Divide instructions have the same opcode * and function field as legacy OPC_MULT[U]/OPC_DIV[U] */ #define MASK_R6_MULDIV(op) (MASK_SPECIAL(op) | (op & (0x7ff))) enum { R6_OPC_MUL = OPC_MULT | (2 << 6), R6_OPC_MUH = OPC_MULT | (3 << 6), R6_OPC_MULU = OPC_MULTU | (2 << 6), R6_OPC_MUHU = OPC_MULTU | (3 << 6), R6_OPC_DIV = OPC_DIV | (2 << 6), R6_OPC_MOD = OPC_DIV | (3 << 6), R6_OPC_DIVU = OPC_DIVU | (2 << 6), R6_OPC_MODU = OPC_DIVU | (3 << 6), R6_OPC_DMUL = OPC_DMULT | (2 << 6), R6_OPC_DMUH = OPC_DMULT | (3 << 6), R6_OPC_DMULU = OPC_DMULTU | (2 << 6), R6_OPC_DMUHU = OPC_DMULTU | (3 << 6), R6_OPC_DDIV = OPC_DDIV | (2 << 6), R6_OPC_DMOD = OPC_DDIV | (3 << 6), R6_OPC_DDIVU = OPC_DDIVU | (2 << 6), R6_OPC_DMODU = OPC_DDIVU | (3 << 6), R6_OPC_CLZ = 0x10 | OPC_SPECIAL, R6_OPC_CLO = 0x11 | OPC_SPECIAL, R6_OPC_DCLZ = 0x12 | OPC_SPECIAL, R6_OPC_DCLO = 0x13 | OPC_SPECIAL, R6_OPC_SDBBP = 0x0e | OPC_SPECIAL, }; /* REGIMM (rt field) opcodes */ #define MASK_REGIMM(op) (MASK_OP_MAJOR(op) | (op & (0x1F << 16))) enum { OPC_BLTZ = (0x00 << 16) | OPC_REGIMM, OPC_BLTZL = (0x02 << 16) | OPC_REGIMM, OPC_BGEZ = (0x01 << 16) | OPC_REGIMM, OPC_BGEZL = (0x03 << 16) | OPC_REGIMM, OPC_BLTZAL = (0x10 << 16) | OPC_REGIMM, OPC_BLTZALL = (0x12 << 16) | OPC_REGIMM, OPC_BGEZAL = (0x11 << 16) | OPC_REGIMM, OPC_BGEZALL = (0x13 << 16) | OPC_REGIMM, OPC_TGEI = (0x08 << 16) | OPC_REGIMM, OPC_TGEIU = (0x09 << 16) | OPC_REGIMM, OPC_TLTI = (0x0A << 16) | OPC_REGIMM, OPC_TLTIU = (0x0B << 16) | OPC_REGIMM, OPC_TEQI = (0x0C << 16) | OPC_REGIMM, OPC_TNEI = (0x0E << 16) | OPC_REGIMM, OPC_SIGRIE = (0x17 << 16) | OPC_REGIMM, OPC_SYNCI = (0x1F << 16) | OPC_REGIMM, OPC_DAHI = (0x06 << 16) | OPC_REGIMM, OPC_DATI = (0x1e << 16) | OPC_REGIMM, }; /* Special2 opcodes */ #define MASK_SPECIAL2(op) (MASK_OP_MAJOR(op) | (op & 0x3F)) enum { /* Multiply & xxx operations */ OPC_MADD = 0x00 | OPC_SPECIAL2, OPC_MADDU = 0x01 | OPC_SPECIAL2, OPC_MUL = 0x02 | OPC_SPECIAL2, OPC_MSUB = 0x04 | OPC_SPECIAL2, OPC_MSUBU = 0x05 | OPC_SPECIAL2, /* Loongson 2F */ OPC_MULT_G_2F = 0x10 | OPC_SPECIAL2, OPC_DMULT_G_2F = 0x11 | OPC_SPECIAL2, OPC_MULTU_G_2F = 0x12 | OPC_SPECIAL2, OPC_DMULTU_G_2F = 0x13 | OPC_SPECIAL2, OPC_DIV_G_2F = 0x14 | OPC_SPECIAL2, OPC_DDIV_G_2F = 0x15 | OPC_SPECIAL2, OPC_DIVU_G_2F = 0x16 | OPC_SPECIAL2, OPC_DDIVU_G_2F = 0x17 | OPC_SPECIAL2, OPC_MOD_G_2F = 0x1c | OPC_SPECIAL2, OPC_DMOD_G_2F = 0x1d | OPC_SPECIAL2, OPC_MODU_G_2F = 0x1e | OPC_SPECIAL2, OPC_DMODU_G_2F = 0x1f | OPC_SPECIAL2, /* Misc */ OPC_CLZ = 0x20 | OPC_SPECIAL2, OPC_CLO = 0x21 | OPC_SPECIAL2, OPC_DCLZ = 0x24 | OPC_SPECIAL2, OPC_DCLO = 0x25 | OPC_SPECIAL2, /* Special */ OPC_SDBBP = 0x3F | OPC_SPECIAL2, }; /* Special3 opcodes */ #define MASK_SPECIAL3(op) (MASK_OP_MAJOR(op) | (op & 0x3F)) enum { OPC_EXT = 0x00 | OPC_SPECIAL3, OPC_DEXTM = 0x01 | OPC_SPECIAL3, OPC_DEXTU = 0x02 | OPC_SPECIAL3, OPC_DEXT = 0x03 | OPC_SPECIAL3, OPC_INS = 0x04 | OPC_SPECIAL3, OPC_DINSM = 0x05 | OPC_SPECIAL3, OPC_DINSU = 0x06 | OPC_SPECIAL3, OPC_DINS = 0x07 | OPC_SPECIAL3, OPC_FORK = 0x08 | OPC_SPECIAL3, OPC_YIELD = 0x09 | OPC_SPECIAL3, OPC_BSHFL = 0x20 | OPC_SPECIAL3, OPC_DBSHFL = 0x24 | OPC_SPECIAL3, OPC_RDHWR = 0x3B | OPC_SPECIAL3, OPC_GINV = 0x3D | OPC_SPECIAL3, /* Loongson 2E */ OPC_MULT_G_2E = 0x18 | OPC_SPECIAL3, OPC_MULTU_G_2E = 0x19 | OPC_SPECIAL3, OPC_DIV_G_2E = 0x1A | OPC_SPECIAL3, OPC_DIVU_G_2E = 0x1B | OPC_SPECIAL3, OPC_DMULT_G_2E = 0x1C | OPC_SPECIAL3, OPC_DMULTU_G_2E = 0x1D | OPC_SPECIAL3, OPC_DDIV_G_2E = 0x1E | OPC_SPECIAL3, OPC_DDIVU_G_2E = 0x1F | OPC_SPECIAL3, OPC_MOD_G_2E = 0x22 | OPC_SPECIAL3, OPC_MODU_G_2E = 0x23 | OPC_SPECIAL3, OPC_DMOD_G_2E = 0x26 | OPC_SPECIAL3, OPC_DMODU_G_2E = 0x27 | OPC_SPECIAL3, /* MIPS DSP Load */ OPC_LX_DSP = 0x0A | OPC_SPECIAL3, /* MIPS DSP Arithmetic */ OPC_ADDU_QB_DSP = 0x10 | OPC_SPECIAL3, OPC_ADDU_OB_DSP = 0x14 | OPC_SPECIAL3, OPC_ABSQ_S_PH_DSP = 0x12 | OPC_SPECIAL3, OPC_ABSQ_S_QH_DSP = 0x16 | OPC_SPECIAL3, /* OPC_ADDUH_QB_DSP is same as OPC_MULT_G_2E. */ /* OPC_ADDUH_QB_DSP = 0x18 | OPC_SPECIAL3, */ OPC_CMPU_EQ_QB_DSP = 0x11 | OPC_SPECIAL3, OPC_CMPU_EQ_OB_DSP = 0x15 | OPC_SPECIAL3, /* MIPS DSP GPR-Based Shift Sub-class */ OPC_SHLL_QB_DSP = 0x13 | OPC_SPECIAL3, OPC_SHLL_OB_DSP = 0x17 | OPC_SPECIAL3, /* MIPS DSP Multiply Sub-class insns */ /* OPC_MUL_PH_DSP is same as OPC_ADDUH_QB_DSP. */ /* OPC_MUL_PH_DSP = 0x18 | OPC_SPECIAL3, */ OPC_DPA_W_PH_DSP = 0x30 | OPC_SPECIAL3, OPC_DPAQ_W_QH_DSP = 0x34 | OPC_SPECIAL3, /* DSP Bit/Manipulation Sub-class */ OPC_INSV_DSP = 0x0C | OPC_SPECIAL3, OPC_DINSV_DSP = 0x0D | OPC_SPECIAL3, /* MIPS DSP Append Sub-class */ OPC_APPEND_DSP = 0x31 | OPC_SPECIAL3, OPC_DAPPEND_DSP = 0x35 | OPC_SPECIAL3, /* MIPS DSP Accumulator and DSPControl Access Sub-class */ OPC_EXTR_W_DSP = 0x38 | OPC_SPECIAL3, OPC_DEXTR_W_DSP = 0x3C | OPC_SPECIAL3, /* EVA */ OPC_LWLE = 0x19 | OPC_SPECIAL3, OPC_LWRE = 0x1A | OPC_SPECIAL3, OPC_CACHEE = 0x1B | OPC_SPECIAL3, OPC_SBE = 0x1C | OPC_SPECIAL3, OPC_SHE = 0x1D | OPC_SPECIAL3, OPC_SCE = 0x1E | OPC_SPECIAL3, OPC_SWE = 0x1F | OPC_SPECIAL3, OPC_SWLE = 0x21 | OPC_SPECIAL3, OPC_SWRE = 0x22 | OPC_SPECIAL3, OPC_PREFE = 0x23 | OPC_SPECIAL3, OPC_LBUE = 0x28 | OPC_SPECIAL3, OPC_LHUE = 0x29 | OPC_SPECIAL3, OPC_LBE = 0x2C | OPC_SPECIAL3, OPC_LHE = 0x2D | OPC_SPECIAL3, OPC_LLE = 0x2E | OPC_SPECIAL3, OPC_LWE = 0x2F | OPC_SPECIAL3, /* R6 */ R6_OPC_PREF = 0x35 | OPC_SPECIAL3, R6_OPC_CACHE = 0x25 | OPC_SPECIAL3, R6_OPC_LL = 0x36 | OPC_SPECIAL3, R6_OPC_SC = 0x26 | OPC_SPECIAL3, R6_OPC_LLD = 0x37 | OPC_SPECIAL3, R6_OPC_SCD = 0x27 | OPC_SPECIAL3, }; /* Loongson EXT load/store quad word opcodes */ #define MASK_LOONGSON_GSLSQ(op) (MASK_OP_MAJOR(op) | (op & 0x8020)) enum { OPC_GSLQ = 0x0020 | OPC_LWC2, OPC_GSLQC1 = 0x8020 | OPC_LWC2, OPC_GSSHFL = OPC_LWC2, OPC_GSSQ = 0x0020 | OPC_SWC2, OPC_GSSQC1 = 0x8020 | OPC_SWC2, OPC_GSSHFS = OPC_SWC2, }; /* Loongson EXT shifted load/store opcodes */ #define MASK_LOONGSON_GSSHFLS(op) (MASK_OP_MAJOR(op) | (op & 0xc03f)) enum { OPC_GSLWLC1 = 0x4 | OPC_GSSHFL, OPC_GSLWRC1 = 0x5 | OPC_GSSHFL, OPC_GSLDLC1 = 0x6 | OPC_GSSHFL, OPC_GSLDRC1 = 0x7 | OPC_GSSHFL, OPC_GSSWLC1 = 0x4 | OPC_GSSHFS, OPC_GSSWRC1 = 0x5 | OPC_GSSHFS, OPC_GSSDLC1 = 0x6 | OPC_GSSHFS, OPC_GSSDRC1 = 0x7 | OPC_GSSHFS, }; /* Loongson EXT LDC2/SDC2 opcodes */ #define MASK_LOONGSON_LSDC2(op) (MASK_OP_MAJOR(op) | (op & 0x7)) enum { OPC_GSLBX = 0x0 | OPC_LDC2, OPC_GSLHX = 0x1 | OPC_LDC2, OPC_GSLWX = 0x2 | OPC_LDC2, OPC_GSLDX = 0x3 | OPC_LDC2, OPC_GSLWXC1 = 0x6 | OPC_LDC2, OPC_GSLDXC1 = 0x7 | OPC_LDC2, OPC_GSSBX = 0x0 | OPC_SDC2, OPC_GSSHX = 0x1 | OPC_SDC2, OPC_GSSWX = 0x2 | OPC_SDC2, OPC_GSSDX = 0x3 | OPC_SDC2, OPC_GSSWXC1 = 0x6 | OPC_SDC2, OPC_GSSDXC1 = 0x7 | OPC_SDC2, }; /* BSHFL opcodes */ #define MASK_BSHFL(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { OPC_WSBH = (0x02 << 6) | OPC_BSHFL, OPC_SEB = (0x10 << 6) | OPC_BSHFL, OPC_SEH = (0x18 << 6) | OPC_BSHFL, OPC_ALIGN = (0x08 << 6) | OPC_BSHFL, /* 010.bp (010.00 to 010.11) */ OPC_ALIGN_1 = (0x09 << 6) | OPC_BSHFL, OPC_ALIGN_2 = (0x0A << 6) | OPC_BSHFL, OPC_ALIGN_3 = (0x0B << 6) | OPC_BSHFL, OPC_BITSWAP = (0x00 << 6) | OPC_BSHFL /* 00000 */ }; /* DBSHFL opcodes */ #define MASK_DBSHFL(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { OPC_DSBH = (0x02 << 6) | OPC_DBSHFL, OPC_DSHD = (0x05 << 6) | OPC_DBSHFL, OPC_DALIGN = (0x08 << 6) | OPC_DBSHFL, /* 01.bp (01.000 to 01.111) */ OPC_DALIGN_1 = (0x09 << 6) | OPC_DBSHFL, OPC_DALIGN_2 = (0x0A << 6) | OPC_DBSHFL, OPC_DALIGN_3 = (0x0B << 6) | OPC_DBSHFL, OPC_DALIGN_4 = (0x0C << 6) | OPC_DBSHFL, OPC_DALIGN_5 = (0x0D << 6) | OPC_DBSHFL, OPC_DALIGN_6 = (0x0E << 6) | OPC_DBSHFL, OPC_DALIGN_7 = (0x0F << 6) | OPC_DBSHFL, OPC_DBITSWAP = (0x00 << 6) | OPC_DBSHFL, /* 00000 */ }; /* MIPS DSP REGIMM opcodes */ enum { OPC_BPOSGE32 = (0x1C << 16) | OPC_REGIMM, OPC_BPOSGE64 = (0x1D << 16) | OPC_REGIMM, }; #define MASK_LX(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) /* MIPS DSP Load */ enum { OPC_LBUX = (0x06 << 6) | OPC_LX_DSP, OPC_LHX = (0x04 << 6) | OPC_LX_DSP, OPC_LWX = (0x00 << 6) | OPC_LX_DSP, OPC_LDX = (0x08 << 6) | OPC_LX_DSP, }; #define MASK_ADDU_QB(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* MIPS DSP Arithmetic Sub-class */ OPC_ADDQ_PH = (0x0A << 6) | OPC_ADDU_QB_DSP, OPC_ADDQ_S_PH = (0x0E << 6) | OPC_ADDU_QB_DSP, OPC_ADDQ_S_W = (0x16 << 6) | OPC_ADDU_QB_DSP, OPC_ADDU_QB = (0x00 << 6) | OPC_ADDU_QB_DSP, OPC_ADDU_S_QB = (0x04 << 6) | OPC_ADDU_QB_DSP, OPC_ADDU_PH = (0x08 << 6) | OPC_ADDU_QB_DSP, OPC_ADDU_S_PH = (0x0C << 6) | OPC_ADDU_QB_DSP, OPC_SUBQ_PH = (0x0B << 6) | OPC_ADDU_QB_DSP, OPC_SUBQ_S_PH = (0x0F << 6) | OPC_ADDU_QB_DSP, OPC_SUBQ_S_W = (0x17 << 6) | OPC_ADDU_QB_DSP, OPC_SUBU_QB = (0x01 << 6) | OPC_ADDU_QB_DSP, OPC_SUBU_S_QB = (0x05 << 6) | OPC_ADDU_QB_DSP, OPC_SUBU_PH = (0x09 << 6) | OPC_ADDU_QB_DSP, OPC_SUBU_S_PH = (0x0D << 6) | OPC_ADDU_QB_DSP, OPC_ADDSC = (0x10 << 6) | OPC_ADDU_QB_DSP, OPC_ADDWC = (0x11 << 6) | OPC_ADDU_QB_DSP, OPC_MODSUB = (0x12 << 6) | OPC_ADDU_QB_DSP, OPC_RADDU_W_QB = (0x14 << 6) | OPC_ADDU_QB_DSP, /* MIPS DSP Multiply Sub-class insns */ OPC_MULEU_S_PH_QBL = (0x06 << 6) | OPC_ADDU_QB_DSP, OPC_MULEU_S_PH_QBR = (0x07 << 6) | OPC_ADDU_QB_DSP, OPC_MULQ_RS_PH = (0x1F << 6) | OPC_ADDU_QB_DSP, OPC_MULEQ_S_W_PHL = (0x1C << 6) | OPC_ADDU_QB_DSP, OPC_MULEQ_S_W_PHR = (0x1D << 6) | OPC_ADDU_QB_DSP, OPC_MULQ_S_PH = (0x1E << 6) | OPC_ADDU_QB_DSP, }; #define OPC_ADDUH_QB_DSP OPC_MULT_G_2E #define MASK_ADDUH_QB(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* MIPS DSP Arithmetic Sub-class */ OPC_ADDUH_QB = (0x00 << 6) | OPC_ADDUH_QB_DSP, OPC_ADDUH_R_QB = (0x02 << 6) | OPC_ADDUH_QB_DSP, OPC_ADDQH_PH = (0x08 << 6) | OPC_ADDUH_QB_DSP, OPC_ADDQH_R_PH = (0x0A << 6) | OPC_ADDUH_QB_DSP, OPC_ADDQH_W = (0x10 << 6) | OPC_ADDUH_QB_DSP, OPC_ADDQH_R_W = (0x12 << 6) | OPC_ADDUH_QB_DSP, OPC_SUBUH_QB = (0x01 << 6) | OPC_ADDUH_QB_DSP, OPC_SUBUH_R_QB = (0x03 << 6) | OPC_ADDUH_QB_DSP, OPC_SUBQH_PH = (0x09 << 6) | OPC_ADDUH_QB_DSP, OPC_SUBQH_R_PH = (0x0B << 6) | OPC_ADDUH_QB_DSP, OPC_SUBQH_W = (0x11 << 6) | OPC_ADDUH_QB_DSP, OPC_SUBQH_R_W = (0x13 << 6) | OPC_ADDUH_QB_DSP, /* MIPS DSP Multiply Sub-class insns */ OPC_MUL_PH = (0x0C << 6) | OPC_ADDUH_QB_DSP, OPC_MUL_S_PH = (0x0E << 6) | OPC_ADDUH_QB_DSP, OPC_MULQ_S_W = (0x16 << 6) | OPC_ADDUH_QB_DSP, OPC_MULQ_RS_W = (0x17 << 6) | OPC_ADDUH_QB_DSP, }; #define MASK_ABSQ_S_PH(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* MIPS DSP Arithmetic Sub-class */ OPC_ABSQ_S_QB = (0x01 << 6) | OPC_ABSQ_S_PH_DSP, OPC_ABSQ_S_PH = (0x09 << 6) | OPC_ABSQ_S_PH_DSP, OPC_ABSQ_S_W = (0x11 << 6) | OPC_ABSQ_S_PH_DSP, OPC_PRECEQ_W_PHL = (0x0C << 6) | OPC_ABSQ_S_PH_DSP, OPC_PRECEQ_W_PHR = (0x0D << 6) | OPC_ABSQ_S_PH_DSP, OPC_PRECEQU_PH_QBL = (0x04 << 6) | OPC_ABSQ_S_PH_DSP, OPC_PRECEQU_PH_QBR = (0x05 << 6) | OPC_ABSQ_S_PH_DSP, OPC_PRECEQU_PH_QBLA = (0x06 << 6) | OPC_ABSQ_S_PH_DSP, OPC_PRECEQU_PH_QBRA = (0x07 << 6) | OPC_ABSQ_S_PH_DSP, OPC_PRECEU_PH_QBL = (0x1C << 6) | OPC_ABSQ_S_PH_DSP, OPC_PRECEU_PH_QBR = (0x1D << 6) | OPC_ABSQ_S_PH_DSP, OPC_PRECEU_PH_QBLA = (0x1E << 6) | OPC_ABSQ_S_PH_DSP, OPC_PRECEU_PH_QBRA = (0x1F << 6) | OPC_ABSQ_S_PH_DSP, /* DSP Bit/Manipulation Sub-class */ OPC_BITREV = (0x1B << 6) | OPC_ABSQ_S_PH_DSP, OPC_REPL_QB = (0x02 << 6) | OPC_ABSQ_S_PH_DSP, OPC_REPLV_QB = (0x03 << 6) | OPC_ABSQ_S_PH_DSP, OPC_REPL_PH = (0x0A << 6) | OPC_ABSQ_S_PH_DSP, OPC_REPLV_PH = (0x0B << 6) | OPC_ABSQ_S_PH_DSP, }; #define MASK_CMPU_EQ_QB(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* MIPS DSP Arithmetic Sub-class */ OPC_PRECR_QB_PH = (0x0D << 6) | OPC_CMPU_EQ_QB_DSP, OPC_PRECRQ_QB_PH = (0x0C << 6) | OPC_CMPU_EQ_QB_DSP, OPC_PRECR_SRA_PH_W = (0x1E << 6) | OPC_CMPU_EQ_QB_DSP, OPC_PRECR_SRA_R_PH_W = (0x1F << 6) | OPC_CMPU_EQ_QB_DSP, OPC_PRECRQ_PH_W = (0x14 << 6) | OPC_CMPU_EQ_QB_DSP, OPC_PRECRQ_RS_PH_W = (0x15 << 6) | OPC_CMPU_EQ_QB_DSP, OPC_PRECRQU_S_QB_PH = (0x0F << 6) | OPC_CMPU_EQ_QB_DSP, /* DSP Compare-Pick Sub-class */ OPC_CMPU_EQ_QB = (0x00 << 6) | OPC_CMPU_EQ_QB_DSP, OPC_CMPU_LT_QB = (0x01 << 6) | OPC_CMPU_EQ_QB_DSP, OPC_CMPU_LE_QB = (0x02 << 6) | OPC_CMPU_EQ_QB_DSP, OPC_CMPGU_EQ_QB = (0x04 << 6) | OPC_CMPU_EQ_QB_DSP, OPC_CMPGU_LT_QB = (0x05 << 6) | OPC_CMPU_EQ_QB_DSP, OPC_CMPGU_LE_QB = (0x06 << 6) | OPC_CMPU_EQ_QB_DSP, OPC_CMPGDU_EQ_QB = (0x18 << 6) | OPC_CMPU_EQ_QB_DSP, OPC_CMPGDU_LT_QB = (0x19 << 6) | OPC_CMPU_EQ_QB_DSP, OPC_CMPGDU_LE_QB = (0x1A << 6) | OPC_CMPU_EQ_QB_DSP, OPC_CMP_EQ_PH = (0x08 << 6) | OPC_CMPU_EQ_QB_DSP, OPC_CMP_LT_PH = (0x09 << 6) | OPC_CMPU_EQ_QB_DSP, OPC_CMP_LE_PH = (0x0A << 6) | OPC_CMPU_EQ_QB_DSP, OPC_PICK_QB = (0x03 << 6) | OPC_CMPU_EQ_QB_DSP, OPC_PICK_PH = (0x0B << 6) | OPC_CMPU_EQ_QB_DSP, OPC_PACKRL_PH = (0x0E << 6) | OPC_CMPU_EQ_QB_DSP, }; #define MASK_SHLL_QB(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* MIPS DSP GPR-Based Shift Sub-class */ OPC_SHLL_QB = (0x00 << 6) | OPC_SHLL_QB_DSP, OPC_SHLLV_QB = (0x02 << 6) | OPC_SHLL_QB_DSP, OPC_SHLL_PH = (0x08 << 6) | OPC_SHLL_QB_DSP, OPC_SHLLV_PH = (0x0A << 6) | OPC_SHLL_QB_DSP, OPC_SHLL_S_PH = (0x0C << 6) | OPC_SHLL_QB_DSP, OPC_SHLLV_S_PH = (0x0E << 6) | OPC_SHLL_QB_DSP, OPC_SHLL_S_W = (0x14 << 6) | OPC_SHLL_QB_DSP, OPC_SHLLV_S_W = (0x16 << 6) | OPC_SHLL_QB_DSP, OPC_SHRL_QB = (0x01 << 6) | OPC_SHLL_QB_DSP, OPC_SHRLV_QB = (0x03 << 6) | OPC_SHLL_QB_DSP, OPC_SHRL_PH = (0x19 << 6) | OPC_SHLL_QB_DSP, OPC_SHRLV_PH = (0x1B << 6) | OPC_SHLL_QB_DSP, OPC_SHRA_QB = (0x04 << 6) | OPC_SHLL_QB_DSP, OPC_SHRA_R_QB = (0x05 << 6) | OPC_SHLL_QB_DSP, OPC_SHRAV_QB = (0x06 << 6) | OPC_SHLL_QB_DSP, OPC_SHRAV_R_QB = (0x07 << 6) | OPC_SHLL_QB_DSP, OPC_SHRA_PH = (0x09 << 6) | OPC_SHLL_QB_DSP, OPC_SHRAV_PH = (0x0B << 6) | OPC_SHLL_QB_DSP, OPC_SHRA_R_PH = (0x0D << 6) | OPC_SHLL_QB_DSP, OPC_SHRAV_R_PH = (0x0F << 6) | OPC_SHLL_QB_DSP, OPC_SHRA_R_W = (0x15 << 6) | OPC_SHLL_QB_DSP, OPC_SHRAV_R_W = (0x17 << 6) | OPC_SHLL_QB_DSP, }; #define MASK_DPA_W_PH(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* MIPS DSP Multiply Sub-class insns */ OPC_DPAU_H_QBL = (0x03 << 6) | OPC_DPA_W_PH_DSP, OPC_DPAU_H_QBR = (0x07 << 6) | OPC_DPA_W_PH_DSP, OPC_DPSU_H_QBL = (0x0B << 6) | OPC_DPA_W_PH_DSP, OPC_DPSU_H_QBR = (0x0F << 6) | OPC_DPA_W_PH_DSP, OPC_DPA_W_PH = (0x00 << 6) | OPC_DPA_W_PH_DSP, OPC_DPAX_W_PH = (0x08 << 6) | OPC_DPA_W_PH_DSP, OPC_DPAQ_S_W_PH = (0x04 << 6) | OPC_DPA_W_PH_DSP, OPC_DPAQX_S_W_PH = (0x18 << 6) | OPC_DPA_W_PH_DSP, OPC_DPAQX_SA_W_PH = (0x1A << 6) | OPC_DPA_W_PH_DSP, OPC_DPS_W_PH = (0x01 << 6) | OPC_DPA_W_PH_DSP, OPC_DPSX_W_PH = (0x09 << 6) | OPC_DPA_W_PH_DSP, OPC_DPSQ_S_W_PH = (0x05 << 6) | OPC_DPA_W_PH_DSP, OPC_DPSQX_S_W_PH = (0x19 << 6) | OPC_DPA_W_PH_DSP, OPC_DPSQX_SA_W_PH = (0x1B << 6) | OPC_DPA_W_PH_DSP, OPC_MULSAQ_S_W_PH = (0x06 << 6) | OPC_DPA_W_PH_DSP, OPC_DPAQ_SA_L_W = (0x0C << 6) | OPC_DPA_W_PH_DSP, OPC_DPSQ_SA_L_W = (0x0D << 6) | OPC_DPA_W_PH_DSP, OPC_MAQ_S_W_PHL = (0x14 << 6) | OPC_DPA_W_PH_DSP, OPC_MAQ_S_W_PHR = (0x16 << 6) | OPC_DPA_W_PH_DSP, OPC_MAQ_SA_W_PHL = (0x10 << 6) | OPC_DPA_W_PH_DSP, OPC_MAQ_SA_W_PHR = (0x12 << 6) | OPC_DPA_W_PH_DSP, OPC_MULSA_W_PH = (0x02 << 6) | OPC_DPA_W_PH_DSP, }; #define MASK_INSV(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* DSP Bit/Manipulation Sub-class */ OPC_INSV = (0x00 << 6) | OPC_INSV_DSP, }; #define MASK_APPEND(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* MIPS DSP Append Sub-class */ OPC_APPEND = (0x00 << 6) | OPC_APPEND_DSP, OPC_PREPEND = (0x01 << 6) | OPC_APPEND_DSP, OPC_BALIGN = (0x10 << 6) | OPC_APPEND_DSP, }; #define MASK_EXTR_W(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* MIPS DSP Accumulator and DSPControl Access Sub-class */ OPC_EXTR_W = (0x00 << 6) | OPC_EXTR_W_DSP, OPC_EXTR_R_W = (0x04 << 6) | OPC_EXTR_W_DSP, OPC_EXTR_RS_W = (0x06 << 6) | OPC_EXTR_W_DSP, OPC_EXTR_S_H = (0x0E << 6) | OPC_EXTR_W_DSP, OPC_EXTRV_S_H = (0x0F << 6) | OPC_EXTR_W_DSP, OPC_EXTRV_W = (0x01 << 6) | OPC_EXTR_W_DSP, OPC_EXTRV_R_W = (0x05 << 6) | OPC_EXTR_W_DSP, OPC_EXTRV_RS_W = (0x07 << 6) | OPC_EXTR_W_DSP, OPC_EXTP = (0x02 << 6) | OPC_EXTR_W_DSP, OPC_EXTPV = (0x03 << 6) | OPC_EXTR_W_DSP, OPC_EXTPDP = (0x0A << 6) | OPC_EXTR_W_DSP, OPC_EXTPDPV = (0x0B << 6) | OPC_EXTR_W_DSP, OPC_SHILO = (0x1A << 6) | OPC_EXTR_W_DSP, OPC_SHILOV = (0x1B << 6) | OPC_EXTR_W_DSP, OPC_MTHLIP = (0x1F << 6) | OPC_EXTR_W_DSP, OPC_WRDSP = (0x13 << 6) | OPC_EXTR_W_DSP, OPC_RDDSP = (0x12 << 6) | OPC_EXTR_W_DSP, }; #define MASK_ABSQ_S_QH(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* MIPS DSP Arithmetic Sub-class */ OPC_PRECEQ_L_PWL = (0x14 << 6) | OPC_ABSQ_S_QH_DSP, OPC_PRECEQ_L_PWR = (0x15 << 6) | OPC_ABSQ_S_QH_DSP, OPC_PRECEQ_PW_QHL = (0x0C << 6) | OPC_ABSQ_S_QH_DSP, OPC_PRECEQ_PW_QHR = (0x0D << 6) | OPC_ABSQ_S_QH_DSP, OPC_PRECEQ_PW_QHLA = (0x0E << 6) | OPC_ABSQ_S_QH_DSP, OPC_PRECEQ_PW_QHRA = (0x0F << 6) | OPC_ABSQ_S_QH_DSP, OPC_PRECEQU_QH_OBL = (0x04 << 6) | OPC_ABSQ_S_QH_DSP, OPC_PRECEQU_QH_OBR = (0x05 << 6) | OPC_ABSQ_S_QH_DSP, OPC_PRECEQU_QH_OBLA = (0x06 << 6) | OPC_ABSQ_S_QH_DSP, OPC_PRECEQU_QH_OBRA = (0x07 << 6) | OPC_ABSQ_S_QH_DSP, OPC_PRECEU_QH_OBL = (0x1C << 6) | OPC_ABSQ_S_QH_DSP, OPC_PRECEU_QH_OBR = (0x1D << 6) | OPC_ABSQ_S_QH_DSP, OPC_PRECEU_QH_OBLA = (0x1E << 6) | OPC_ABSQ_S_QH_DSP, OPC_PRECEU_QH_OBRA = (0x1F << 6) | OPC_ABSQ_S_QH_DSP, OPC_ABSQ_S_OB = (0x01 << 6) | OPC_ABSQ_S_QH_DSP, OPC_ABSQ_S_PW = (0x11 << 6) | OPC_ABSQ_S_QH_DSP, OPC_ABSQ_S_QH = (0x09 << 6) | OPC_ABSQ_S_QH_DSP, /* DSP Bit/Manipulation Sub-class */ OPC_REPL_OB = (0x02 << 6) | OPC_ABSQ_S_QH_DSP, OPC_REPL_PW = (0x12 << 6) | OPC_ABSQ_S_QH_DSP, OPC_REPL_QH = (0x0A << 6) | OPC_ABSQ_S_QH_DSP, OPC_REPLV_OB = (0x03 << 6) | OPC_ABSQ_S_QH_DSP, OPC_REPLV_PW = (0x13 << 6) | OPC_ABSQ_S_QH_DSP, OPC_REPLV_QH = (0x0B << 6) | OPC_ABSQ_S_QH_DSP, }; #define MASK_ADDU_OB(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* MIPS DSP Multiply Sub-class insns */ OPC_MULEQ_S_PW_QHL = (0x1C << 6) | OPC_ADDU_OB_DSP, OPC_MULEQ_S_PW_QHR = (0x1D << 6) | OPC_ADDU_OB_DSP, OPC_MULEU_S_QH_OBL = (0x06 << 6) | OPC_ADDU_OB_DSP, OPC_MULEU_S_QH_OBR = (0x07 << 6) | OPC_ADDU_OB_DSP, OPC_MULQ_RS_QH = (0x1F << 6) | OPC_ADDU_OB_DSP, /* MIPS DSP Arithmetic Sub-class */ OPC_RADDU_L_OB = (0x14 << 6) | OPC_ADDU_OB_DSP, OPC_SUBQ_PW = (0x13 << 6) | OPC_ADDU_OB_DSP, OPC_SUBQ_S_PW = (0x17 << 6) | OPC_ADDU_OB_DSP, OPC_SUBQ_QH = (0x0B << 6) | OPC_ADDU_OB_DSP, OPC_SUBQ_S_QH = (0x0F << 6) | OPC_ADDU_OB_DSP, OPC_SUBU_OB = (0x01 << 6) | OPC_ADDU_OB_DSP, OPC_SUBU_S_OB = (0x05 << 6) | OPC_ADDU_OB_DSP, OPC_SUBU_QH = (0x09 << 6) | OPC_ADDU_OB_DSP, OPC_SUBU_S_QH = (0x0D << 6) | OPC_ADDU_OB_DSP, OPC_SUBUH_OB = (0x19 << 6) | OPC_ADDU_OB_DSP, OPC_SUBUH_R_OB = (0x1B << 6) | OPC_ADDU_OB_DSP, OPC_ADDQ_PW = (0x12 << 6) | OPC_ADDU_OB_DSP, OPC_ADDQ_S_PW = (0x16 << 6) | OPC_ADDU_OB_DSP, OPC_ADDQ_QH = (0x0A << 6) | OPC_ADDU_OB_DSP, OPC_ADDQ_S_QH = (0x0E << 6) | OPC_ADDU_OB_DSP, OPC_ADDU_OB = (0x00 << 6) | OPC_ADDU_OB_DSP, OPC_ADDU_S_OB = (0x04 << 6) | OPC_ADDU_OB_DSP, OPC_ADDU_QH = (0x08 << 6) | OPC_ADDU_OB_DSP, OPC_ADDU_S_QH = (0x0C << 6) | OPC_ADDU_OB_DSP, OPC_ADDUH_OB = (0x18 << 6) | OPC_ADDU_OB_DSP, OPC_ADDUH_R_OB = (0x1A << 6) | OPC_ADDU_OB_DSP, }; #define MASK_CMPU_EQ_OB(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* DSP Compare-Pick Sub-class */ OPC_CMP_EQ_PW = (0x10 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_CMP_LT_PW = (0x11 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_CMP_LE_PW = (0x12 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_CMP_EQ_QH = (0x08 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_CMP_LT_QH = (0x09 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_CMP_LE_QH = (0x0A << 6) | OPC_CMPU_EQ_OB_DSP, OPC_CMPGDU_EQ_OB = (0x18 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_CMPGDU_LT_OB = (0x19 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_CMPGDU_LE_OB = (0x1A << 6) | OPC_CMPU_EQ_OB_DSP, OPC_CMPGU_EQ_OB = (0x04 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_CMPGU_LT_OB = (0x05 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_CMPGU_LE_OB = (0x06 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_CMPU_EQ_OB = (0x00 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_CMPU_LT_OB = (0x01 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_CMPU_LE_OB = (0x02 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_PACKRL_PW = (0x0E << 6) | OPC_CMPU_EQ_OB_DSP, OPC_PICK_OB = (0x03 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_PICK_PW = (0x13 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_PICK_QH = (0x0B << 6) | OPC_CMPU_EQ_OB_DSP, /* MIPS DSP Arithmetic Sub-class */ OPC_PRECR_OB_QH = (0x0D << 6) | OPC_CMPU_EQ_OB_DSP, OPC_PRECR_SRA_QH_PW = (0x1E << 6) | OPC_CMPU_EQ_OB_DSP, OPC_PRECR_SRA_R_QH_PW = (0x1F << 6) | OPC_CMPU_EQ_OB_DSP, OPC_PRECRQ_OB_QH = (0x0C << 6) | OPC_CMPU_EQ_OB_DSP, OPC_PRECRQ_PW_L = (0x1C << 6) | OPC_CMPU_EQ_OB_DSP, OPC_PRECRQ_QH_PW = (0x14 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_PRECRQ_RS_QH_PW = (0x15 << 6) | OPC_CMPU_EQ_OB_DSP, OPC_PRECRQU_S_OB_QH = (0x0F << 6) | OPC_CMPU_EQ_OB_DSP, }; #define MASK_DAPPEND(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* DSP Append Sub-class */ OPC_DAPPEND = (0x00 << 6) | OPC_DAPPEND_DSP, OPC_PREPENDD = (0x03 << 6) | OPC_DAPPEND_DSP, OPC_PREPENDW = (0x01 << 6) | OPC_DAPPEND_DSP, OPC_DBALIGN = (0x10 << 6) | OPC_DAPPEND_DSP, }; #define MASK_DEXTR_W(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* MIPS DSP Accumulator and DSPControl Access Sub-class */ OPC_DMTHLIP = (0x1F << 6) | OPC_DEXTR_W_DSP, OPC_DSHILO = (0x1A << 6) | OPC_DEXTR_W_DSP, OPC_DEXTP = (0x02 << 6) | OPC_DEXTR_W_DSP, OPC_DEXTPDP = (0x0A << 6) | OPC_DEXTR_W_DSP, OPC_DEXTPDPV = (0x0B << 6) | OPC_DEXTR_W_DSP, OPC_DEXTPV = (0x03 << 6) | OPC_DEXTR_W_DSP, OPC_DEXTR_L = (0x10 << 6) | OPC_DEXTR_W_DSP, OPC_DEXTR_R_L = (0x14 << 6) | OPC_DEXTR_W_DSP, OPC_DEXTR_RS_L = (0x16 << 6) | OPC_DEXTR_W_DSP, OPC_DEXTR_W = (0x00 << 6) | OPC_DEXTR_W_DSP, OPC_DEXTR_R_W = (0x04 << 6) | OPC_DEXTR_W_DSP, OPC_DEXTR_RS_W = (0x06 << 6) | OPC_DEXTR_W_DSP, OPC_DEXTR_S_H = (0x0E << 6) | OPC_DEXTR_W_DSP, OPC_DEXTRV_L = (0x11 << 6) | OPC_DEXTR_W_DSP, OPC_DEXTRV_R_L = (0x15 << 6) | OPC_DEXTR_W_DSP, OPC_DEXTRV_RS_L = (0x17 << 6) | OPC_DEXTR_W_DSP, OPC_DEXTRV_S_H = (0x0F << 6) | OPC_DEXTR_W_DSP, OPC_DEXTRV_W = (0x01 << 6) | OPC_DEXTR_W_DSP, OPC_DEXTRV_R_W = (0x05 << 6) | OPC_DEXTR_W_DSP, OPC_DEXTRV_RS_W = (0x07 << 6) | OPC_DEXTR_W_DSP, OPC_DSHILOV = (0x1B << 6) | OPC_DEXTR_W_DSP, }; #define MASK_DINSV(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* DSP Bit/Manipulation Sub-class */ OPC_DINSV = (0x00 << 6) | OPC_DINSV_DSP, }; #define MASK_DPAQ_W_QH(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* MIPS DSP Multiply Sub-class insns */ OPC_DMADD = (0x19 << 6) | OPC_DPAQ_W_QH_DSP, OPC_DMADDU = (0x1D << 6) | OPC_DPAQ_W_QH_DSP, OPC_DMSUB = (0x1B << 6) | OPC_DPAQ_W_QH_DSP, OPC_DMSUBU = (0x1F << 6) | OPC_DPAQ_W_QH_DSP, OPC_DPA_W_QH = (0x00 << 6) | OPC_DPAQ_W_QH_DSP, OPC_DPAQ_S_W_QH = (0x04 << 6) | OPC_DPAQ_W_QH_DSP, OPC_DPAQ_SA_L_PW = (0x0C << 6) | OPC_DPAQ_W_QH_DSP, OPC_DPAU_H_OBL = (0x03 << 6) | OPC_DPAQ_W_QH_DSP, OPC_DPAU_H_OBR = (0x07 << 6) | OPC_DPAQ_W_QH_DSP, OPC_DPS_W_QH = (0x01 << 6) | OPC_DPAQ_W_QH_DSP, OPC_DPSQ_S_W_QH = (0x05 << 6) | OPC_DPAQ_W_QH_DSP, OPC_DPSQ_SA_L_PW = (0x0D << 6) | OPC_DPAQ_W_QH_DSP, OPC_DPSU_H_OBL = (0x0B << 6) | OPC_DPAQ_W_QH_DSP, OPC_DPSU_H_OBR = (0x0F << 6) | OPC_DPAQ_W_QH_DSP, OPC_MAQ_S_L_PWL = (0x1C << 6) | OPC_DPAQ_W_QH_DSP, OPC_MAQ_S_L_PWR = (0x1E << 6) | OPC_DPAQ_W_QH_DSP, OPC_MAQ_S_W_QHLL = (0x14 << 6) | OPC_DPAQ_W_QH_DSP, OPC_MAQ_SA_W_QHLL = (0x10 << 6) | OPC_DPAQ_W_QH_DSP, OPC_MAQ_S_W_QHLR = (0x15 << 6) | OPC_DPAQ_W_QH_DSP, OPC_MAQ_SA_W_QHLR = (0x11 << 6) | OPC_DPAQ_W_QH_DSP, OPC_MAQ_S_W_QHRL = (0x16 << 6) | OPC_DPAQ_W_QH_DSP, OPC_MAQ_SA_W_QHRL = (0x12 << 6) | OPC_DPAQ_W_QH_DSP, OPC_MAQ_S_W_QHRR = (0x17 << 6) | OPC_DPAQ_W_QH_DSP, OPC_MAQ_SA_W_QHRR = (0x13 << 6) | OPC_DPAQ_W_QH_DSP, OPC_MULSAQ_S_L_PW = (0x0E << 6) | OPC_DPAQ_W_QH_DSP, OPC_MULSAQ_S_W_QH = (0x06 << 6) | OPC_DPAQ_W_QH_DSP, }; #define MASK_SHLL_OB(op) (MASK_SPECIAL3(op) | (op & (0x1F << 6))) enum { /* MIPS DSP GPR-Based Shift Sub-class */ OPC_SHLL_PW = (0x10 << 6) | OPC_SHLL_OB_DSP, OPC_SHLL_S_PW = (0x14 << 6) | OPC_SHLL_OB_DSP, OPC_SHLLV_OB = (0x02 << 6) | OPC_SHLL_OB_DSP, OPC_SHLLV_PW = (0x12 << 6) | OPC_SHLL_OB_DSP, OPC_SHLLV_S_PW = (0x16 << 6) | OPC_SHLL_OB_DSP, OPC_SHLLV_QH = (0x0A << 6) | OPC_SHLL_OB_DSP, OPC_SHLLV_S_QH = (0x0E << 6) | OPC_SHLL_OB_DSP, OPC_SHRA_PW = (0x11 << 6) | OPC_SHLL_OB_DSP, OPC_SHRA_R_PW = (0x15 << 6) | OPC_SHLL_OB_DSP, OPC_SHRAV_OB = (0x06 << 6) | OPC_SHLL_OB_DSP, OPC_SHRAV_R_OB = (0x07 << 6) | OPC_SHLL_OB_DSP, OPC_SHRAV_PW = (0x13 << 6) | OPC_SHLL_OB_DSP, OPC_SHRAV_R_PW = (0x17 << 6) | OPC_SHLL_OB_DSP, OPC_SHRAV_QH = (0x0B << 6) | OPC_SHLL_OB_DSP, OPC_SHRAV_R_QH = (0x0F << 6) | OPC_SHLL_OB_DSP, OPC_SHRLV_OB = (0x03 << 6) | OPC_SHLL_OB_DSP, OPC_SHRLV_QH = (0x1B << 6) | OPC_SHLL_OB_DSP, OPC_SHLL_OB = (0x00 << 6) | OPC_SHLL_OB_DSP, OPC_SHLL_QH = (0x08 << 6) | OPC_SHLL_OB_DSP, OPC_SHLL_S_QH = (0x0C << 6) | OPC_SHLL_OB_DSP, OPC_SHRA_OB = (0x04 << 6) | OPC_SHLL_OB_DSP, OPC_SHRA_R_OB = (0x05 << 6) | OPC_SHLL_OB_DSP, OPC_SHRA_QH = (0x09 << 6) | OPC_SHLL_OB_DSP, OPC_SHRA_R_QH = (0x0D << 6) | OPC_SHLL_OB_DSP, OPC_SHRL_OB = (0x01 << 6) | OPC_SHLL_OB_DSP, OPC_SHRL_QH = (0x19 << 6) | OPC_SHLL_OB_DSP, }; /* Coprocessor 0 (rs field) */ #define MASK_CP0(op) (MASK_OP_MAJOR(op) | (op & (0x1F << 21))) enum { OPC_MFC0 = (0x00 << 21) | OPC_CP0, OPC_DMFC0 = (0x01 << 21) | OPC_CP0, OPC_MFHC0 = (0x02 << 21) | OPC_CP0, OPC_MTC0 = (0x04 << 21) | OPC_CP0, OPC_DMTC0 = (0x05 << 21) | OPC_CP0, OPC_MTHC0 = (0x06 << 21) | OPC_CP0, OPC_MFTR = (0x08 << 21) | OPC_CP0, OPC_RDPGPR = (0x0A << 21) | OPC_CP0, OPC_MFMC0 = (0x0B << 21) | OPC_CP0, OPC_MTTR = (0x0C << 21) | OPC_CP0, OPC_WRPGPR = (0x0E << 21) | OPC_CP0, OPC_C0 = (0x10 << 21) | OPC_CP0, OPC_C0_1 = (0x11 << 21) | OPC_CP0, OPC_C0_2 = (0x12 << 21) | OPC_CP0, OPC_C0_3 = (0x13 << 21) | OPC_CP0, OPC_C0_4 = (0x14 << 21) | OPC_CP0, OPC_C0_5 = (0x15 << 21) | OPC_CP0, OPC_C0_6 = (0x16 << 21) | OPC_CP0, OPC_C0_7 = (0x17 << 21) | OPC_CP0, OPC_C0_8 = (0x18 << 21) | OPC_CP0, OPC_C0_9 = (0x19 << 21) | OPC_CP0, OPC_C0_A = (0x1A << 21) | OPC_CP0, OPC_C0_B = (0x1B << 21) | OPC_CP0, OPC_C0_C = (0x1C << 21) | OPC_CP0, OPC_C0_D = (0x1D << 21) | OPC_CP0, OPC_C0_E = (0x1E << 21) | OPC_CP0, OPC_C0_F = (0x1F << 21) | OPC_CP0, }; /* MFMC0 opcodes */ #define MASK_MFMC0(op) (MASK_CP0(op) | (op & 0xFFFF)) enum { OPC_DMT = 0x01 | (0 << 5) | (0x0F << 6) | (0x01 << 11) | OPC_MFMC0, OPC_EMT = 0x01 | (1 << 5) | (0x0F << 6) | (0x01 << 11) | OPC_MFMC0, OPC_DVPE = 0x01 | (0 << 5) | OPC_MFMC0, OPC_EVPE = 0x01 | (1 << 5) | OPC_MFMC0, OPC_DI = (0 << 5) | (0x0C << 11) | OPC_MFMC0, OPC_EI = (1 << 5) | (0x0C << 11) | OPC_MFMC0, OPC_DVP = 0x04 | (0 << 3) | (1 << 5) | (0 << 11) | OPC_MFMC0, OPC_EVP = 0x04 | (0 << 3) | (0 << 5) | (0 << 11) | OPC_MFMC0, }; /* Coprocessor 0 (with rs == C0) */ #define MASK_C0(op) (MASK_CP0(op) | (op & 0x3F)) enum { OPC_TLBR = 0x01 | OPC_C0, OPC_TLBWI = 0x02 | OPC_C0, OPC_TLBINV = 0x03 | OPC_C0, OPC_TLBINVF = 0x04 | OPC_C0, OPC_TLBWR = 0x06 | OPC_C0, OPC_TLBP = 0x08 | OPC_C0, OPC_RFE = 0x10 | OPC_C0, OPC_ERET = 0x18 | OPC_C0, OPC_DERET = 0x1F | OPC_C0, OPC_WAIT = 0x20 | OPC_C0, }; #define MASK_CP2(op) (MASK_OP_MAJOR(op) | (op & (0x1F << 21))) enum { OPC_MFC2 = (0x00 << 21) | OPC_CP2, OPC_DMFC2 = (0x01 << 21) | OPC_CP2, OPC_CFC2 = (0x02 << 21) | OPC_CP2, OPC_MFHC2 = (0x03 << 21) | OPC_CP2, OPC_MTC2 = (0x04 << 21) | OPC_CP2, OPC_DMTC2 = (0x05 << 21) | OPC_CP2, OPC_CTC2 = (0x06 << 21) | OPC_CP2, OPC_MTHC2 = (0x07 << 21) | OPC_CP2, OPC_BC2 = (0x08 << 21) | OPC_CP2, OPC_BC2EQZ = (0x09 << 21) | OPC_CP2, OPC_BC2NEZ = (0x0D << 21) | OPC_CP2, }; #define MASK_LMMI(op) (MASK_OP_MAJOR(op) | (op & (0x1F << 21)) | (op & 0x1F)) enum { OPC_PADDSH = (24 << 21) | (0x00) | OPC_CP2, OPC_PADDUSH = (25 << 21) | (0x00) | OPC_CP2, OPC_PADDH = (26 << 21) | (0x00) | OPC_CP2, OPC_PADDW = (27 << 21) | (0x00) | OPC_CP2, OPC_PADDSB = (28 << 21) | (0x00) | OPC_CP2, OPC_PADDUSB = (29 << 21) | (0x00) | OPC_CP2, OPC_PADDB = (30 << 21) | (0x00) | OPC_CP2, OPC_PADDD = (31 << 21) | (0x00) | OPC_CP2, OPC_PSUBSH = (24 << 21) | (0x01) | OPC_CP2, OPC_PSUBUSH = (25 << 21) | (0x01) | OPC_CP2, OPC_PSUBH = (26 << 21) | (0x01) | OPC_CP2, OPC_PSUBW = (27 << 21) | (0x01) | OPC_CP2, OPC_PSUBSB = (28 << 21) | (0x01) | OPC_CP2, OPC_PSUBUSB = (29 << 21) | (0x01) | OPC_CP2, OPC_PSUBB = (30 << 21) | (0x01) | OPC_CP2, OPC_PSUBD = (31 << 21) | (0x01) | OPC_CP2, OPC_PSHUFH = (24 << 21) | (0x02) | OPC_CP2, OPC_PACKSSWH = (25 << 21) | (0x02) | OPC_CP2, OPC_PACKSSHB = (26 << 21) | (0x02) | OPC_CP2, OPC_PACKUSHB = (27 << 21) | (0x02) | OPC_CP2, OPC_XOR_CP2 = (28 << 21) | (0x02) | OPC_CP2, OPC_NOR_CP2 = (29 << 21) | (0x02) | OPC_CP2, OPC_AND_CP2 = (30 << 21) | (0x02) | OPC_CP2, OPC_PANDN = (31 << 21) | (0x02) | OPC_CP2, OPC_PUNPCKLHW = (24 << 21) | (0x03) | OPC_CP2, OPC_PUNPCKHHW = (25 << 21) | (0x03) | OPC_CP2, OPC_PUNPCKLBH = (26 << 21) | (0x03) | OPC_CP2, OPC_PUNPCKHBH = (27 << 21) | (0x03) | OPC_CP2, OPC_PINSRH_0 = (28 << 21) | (0x03) | OPC_CP2, OPC_PINSRH_1 = (29 << 21) | (0x03) | OPC_CP2, OPC_PINSRH_2 = (30 << 21) | (0x03) | OPC_CP2, OPC_PINSRH_3 = (31 << 21) | (0x03) | OPC_CP2, OPC_PAVGH = (24 << 21) | (0x08) | OPC_CP2, OPC_PAVGB = (25 << 21) | (0x08) | OPC_CP2, OPC_PMAXSH = (26 << 21) | (0x08) | OPC_CP2, OPC_PMINSH = (27 << 21) | (0x08) | OPC_CP2, OPC_PMAXUB = (28 << 21) | (0x08) | OPC_CP2, OPC_PMINUB = (29 << 21) | (0x08) | OPC_CP2, OPC_PCMPEQW = (24 << 21) | (0x09) | OPC_CP2, OPC_PCMPGTW = (25 << 21) | (0x09) | OPC_CP2, OPC_PCMPEQH = (26 << 21) | (0x09) | OPC_CP2, OPC_PCMPGTH = (27 << 21) | (0x09) | OPC_CP2, OPC_PCMPEQB = (28 << 21) | (0x09) | OPC_CP2, OPC_PCMPGTB = (29 << 21) | (0x09) | OPC_CP2, OPC_PSLLW = (24 << 21) | (0x0A) | OPC_CP2, OPC_PSLLH = (25 << 21) | (0x0A) | OPC_CP2, OPC_PMULLH = (26 << 21) | (0x0A) | OPC_CP2, OPC_PMULHH = (27 << 21) | (0x0A) | OPC_CP2, OPC_PMULUW = (28 << 21) | (0x0A) | OPC_CP2, OPC_PMULHUH = (29 << 21) | (0x0A) | OPC_CP2, OPC_PSRLW = (24 << 21) | (0x0B) | OPC_CP2, OPC_PSRLH = (25 << 21) | (0x0B) | OPC_CP2, OPC_PSRAW = (26 << 21) | (0x0B) | OPC_CP2, OPC_PSRAH = (27 << 21) | (0x0B) | OPC_CP2, OPC_PUNPCKLWD = (28 << 21) | (0x0B) | OPC_CP2, OPC_PUNPCKHWD = (29 << 21) | (0x0B) | OPC_CP2, OPC_ADDU_CP2 = (24 << 21) | (0x0C) | OPC_CP2, OPC_OR_CP2 = (25 << 21) | (0x0C) | OPC_CP2, OPC_ADD_CP2 = (26 << 21) | (0x0C) | OPC_CP2, OPC_DADD_CP2 = (27 << 21) | (0x0C) | OPC_CP2, OPC_SEQU_CP2 = (28 << 21) | (0x0C) | OPC_CP2, OPC_SEQ_CP2 = (29 << 21) | (0x0C) | OPC_CP2, OPC_SUBU_CP2 = (24 << 21) | (0x0D) | OPC_CP2, OPC_PASUBUB = (25 << 21) | (0x0D) | OPC_CP2, OPC_SUB_CP2 = (26 << 21) | (0x0D) | OPC_CP2, OPC_DSUB_CP2 = (27 << 21) | (0x0D) | OPC_CP2, OPC_SLTU_CP2 = (28 << 21) | (0x0D) | OPC_CP2, OPC_SLT_CP2 = (29 << 21) | (0x0D) | OPC_CP2, OPC_SLL_CP2 = (24 << 21) | (0x0E) | OPC_CP2, OPC_DSLL_CP2 = (25 << 21) | (0x0E) | OPC_CP2, OPC_PEXTRH = (26 << 21) | (0x0E) | OPC_CP2, OPC_PMADDHW = (27 << 21) | (0x0E) | OPC_CP2, OPC_SLEU_CP2 = (28 << 21) | (0x0E) | OPC_CP2, OPC_SLE_CP2 = (29 << 21) | (0x0E) | OPC_CP2, OPC_SRL_CP2 = (24 << 21) | (0x0F) | OPC_CP2, OPC_DSRL_CP2 = (25 << 21) | (0x0F) | OPC_CP2, OPC_SRA_CP2 = (26 << 21) | (0x0F) | OPC_CP2, OPC_DSRA_CP2 = (27 << 21) | (0x0F) | OPC_CP2, OPC_BIADD = (28 << 21) | (0x0F) | OPC_CP2, OPC_PMOVMSKB = (29 << 21) | (0x0F) | OPC_CP2, }; #define MASK_CP3(op) (MASK_OP_MAJOR(op) | (op & 0x3F)) enum { OPC_LWXC1 = 0x00 | OPC_CP3, OPC_LDXC1 = 0x01 | OPC_CP3, OPC_LUXC1 = 0x05 | OPC_CP3, OPC_SWXC1 = 0x08 | OPC_CP3, OPC_SDXC1 = 0x09 | OPC_CP3, OPC_SUXC1 = 0x0D | OPC_CP3, OPC_PREFX = 0x0F | OPC_CP3, OPC_ALNV_PS = 0x1E | OPC_CP3, OPC_MADD_S = 0x20 | OPC_CP3, OPC_MADD_D = 0x21 | OPC_CP3, OPC_MADD_PS = 0x26 | OPC_CP3, OPC_MSUB_S = 0x28 | OPC_CP3, OPC_MSUB_D = 0x29 | OPC_CP3, OPC_MSUB_PS = 0x2E | OPC_CP3, OPC_NMADD_S = 0x30 | OPC_CP3, OPC_NMADD_D = 0x31 | OPC_CP3, OPC_NMADD_PS = 0x36 | OPC_CP3, OPC_NMSUB_S = 0x38 | OPC_CP3, OPC_NMSUB_D = 0x39 | OPC_CP3, OPC_NMSUB_PS = 0x3E | OPC_CP3, }; /* * MMI (MultiMedia Instruction) encodings * ====================================== * * MMI instructions encoding table keys: * * * This code is reserved for future use. An attempt to execute it * causes a Reserved Instruction exception. * % This code indicates an instruction class. The instruction word * must be further decoded by examining additional tables that show * the values for other instruction fields. * # This code is reserved for the unsupported instructions DMULT, * DMULTU, DDIV, DDIVU, LL, LLD, SC, SCD, LWC2 and SWC2. An attempt * to execute it causes a Reserved Instruction exception. * * MMI instructions encoded by opcode field (MMI, LQ, SQ): * * 31 26 0 * +--------+----------------------------------------+ * | opcode | | * +--------+----------------------------------------+ * * opcode bits 28..26 * bits | 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 * 31..29 | 000 | 001 | 010 | 011 | 100 | 101 | 110 | 111 * -------+-------+-------+-------+-------+-------+-------+-------+------- * 0 000 |SPECIAL| REGIMM| J | JAL | BEQ | BNE | BLEZ | BGTZ * 1 001 | ADDI | ADDIU | SLTI | SLTIU | ANDI | ORI | XORI | LUI * 2 010 | COP0 | COP1 | * | * | BEQL | BNEL | BLEZL | BGTZL * 3 011 | DADDI | DADDIU| LDL | LDR | MMI% | * | LQ | SQ * 4 100 | LB | LH | LWL | LW | LBU | LHU | LWR | LWU * 5 101 | SB | SH | SWL | SW | SDL | SDR | SWR | CACHE * 6 110 | # | LWC1 | # | PREF | # | LDC1 | # | LD * 7 111 | # | SWC1 | # | * | # | SDC1 | # | SD */ enum { MMI_OPC_CLASS_MMI = 0x1C << 26, /* Same as OPC_SPECIAL2 */ MMI_OPC_SQ = 0x1F << 26, /* Same as OPC_SPECIAL3 */ }; /* * MMI instructions with opcode field = MMI: * * 31 26 5 0 * +--------+-------------------------------+--------+ * | MMI | |function| * +--------+-------------------------------+--------+ * * function bits 2..0 * bits | 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 * 5..3 | 000 | 001 | 010 | 011 | 100 | 101 | 110 | 111 * -------+-------+-------+-------+-------+-------+-------+-------+------- * 0 000 | MADD | MADDU | * | * | PLZCW | * | * | * * 1 001 | MMI0% | MMI2% | * | * | * | * | * | * * 2 010 | MFHI1 | MTHI1 | MFLO1 | MTLO1 | * | * | * | * * 3 011 | MULT1 | MULTU1| DIV1 | DIVU1 | * | * | * | * * 4 100 | MADD1 | MADDU1| * | * | * | * | * | * * 5 101 | MMI1% | MMI3% | * | * | * | * | * | * * 6 110 | PMFHL | PMTHL | * | * | PSLLH | * | PSRLH | PSRAH * 7 111 | * | * | * | * | PSLLW | * | PSRLW | PSRAW */ #define MASK_MMI(op) (MASK_OP_MAJOR(op) | ((op) & 0x3F)) enum { MMI_OPC_MADD = 0x00 | MMI_OPC_CLASS_MMI, /* Same as OPC_MADD */ MMI_OPC_MADDU = 0x01 | MMI_OPC_CLASS_MMI, /* Same as OPC_MADDU */ MMI_OPC_MULT1 = 0x18 | MMI_OPC_CLASS_MMI, /* Same minor as OPC_MULT */ MMI_OPC_MULTU1 = 0x19 | MMI_OPC_CLASS_MMI, /* Same min. as OPC_MULTU */ MMI_OPC_DIV1 = 0x1A | MMI_OPC_CLASS_MMI, /* Same minor as OPC_DIV */ MMI_OPC_DIVU1 = 0x1B | MMI_OPC_CLASS_MMI, /* Same minor as OPC_DIVU */ MMI_OPC_MADD1 = 0x20 | MMI_OPC_CLASS_MMI, MMI_OPC_MADDU1 = 0x21 | MMI_OPC_CLASS_MMI, }; /* global register indices */ TCGv cpu_gpr[32], cpu_PC; /* * For CPUs using 128-bit GPR registers, we put the lower halves in cpu_gpr[]) * and the upper halves in cpu_gpr_hi[]. */ TCGv_i64 cpu_gpr_hi[32]; TCGv cpu_HI[MIPS_DSP_ACC], cpu_LO[MIPS_DSP_ACC]; static TCGv cpu_dspctrl, btarget; TCGv bcond; static TCGv cpu_lladdr, cpu_llval; static TCGv_i32 hflags; TCGv_i32 fpu_fcr0, fpu_fcr31; TCGv_i64 fpu_f64[32]; static const char regnames_HI[][4] = { "HI0", "HI1", "HI2", "HI3", }; static const char regnames_LO[][4] = { "LO0", "LO1", "LO2", "LO3", }; /* General purpose registers moves. */ void gen_load_gpr(TCGv t, int reg) { assert(reg >= 0 && reg <= ARRAY_SIZE(cpu_gpr)); if (reg == 0) { tcg_gen_movi_tl(t, 0); } else { tcg_gen_mov_tl(t, cpu_gpr[reg]); } } void gen_store_gpr(TCGv t, int reg) { assert(reg >= 0 && reg <= ARRAY_SIZE(cpu_gpr)); if (reg != 0) { tcg_gen_mov_tl(cpu_gpr[reg], t); } } #if defined(TARGET_MIPS64) void gen_load_gpr_hi(TCGv_i64 t, int reg) { assert(reg >= 0 && reg <= ARRAY_SIZE(cpu_gpr_hi)); if (reg == 0) { tcg_gen_movi_i64(t, 0); } else { tcg_gen_mov_i64(t, cpu_gpr_hi[reg]); } } void gen_store_gpr_hi(TCGv_i64 t, int reg) { assert(reg >= 0 && reg <= ARRAY_SIZE(cpu_gpr_hi)); if (reg != 0) { tcg_gen_mov_i64(cpu_gpr_hi[reg], t); } } #endif /* TARGET_MIPS64 */ /* Moves to/from shadow registers. */ static inline void gen_load_srsgpr(int from, int to) { TCGv t0 = tcg_temp_new(); if (from == 0) { tcg_gen_movi_tl(t0, 0); } else { TCGv_i32 t2 = tcg_temp_new_i32(); TCGv_ptr addr = tcg_temp_new_ptr(); tcg_gen_ld_i32(t2, tcg_env, offsetof(CPUMIPSState, CP0_SRSCtl)); tcg_gen_shri_i32(t2, t2, CP0SRSCtl_PSS); tcg_gen_andi_i32(t2, t2, 0xf); tcg_gen_muli_i32(t2, t2, sizeof(target_ulong) * 32); tcg_gen_ext_i32_ptr(addr, t2); tcg_gen_add_ptr(addr, tcg_env, addr); tcg_gen_ld_tl(t0, addr, sizeof(target_ulong) * from); } gen_store_gpr(t0, to); } static inline void gen_store_srsgpr(int from, int to) { if (to != 0) { TCGv t0 = tcg_temp_new(); TCGv_i32 t2 = tcg_temp_new_i32(); TCGv_ptr addr = tcg_temp_new_ptr(); gen_load_gpr(t0, from); tcg_gen_ld_i32(t2, tcg_env, offsetof(CPUMIPSState, CP0_SRSCtl)); tcg_gen_shri_i32(t2, t2, CP0SRSCtl_PSS); tcg_gen_andi_i32(t2, t2, 0xf); tcg_gen_muli_i32(t2, t2, sizeof(target_ulong) * 32); tcg_gen_ext_i32_ptr(addr, t2); tcg_gen_add_ptr(addr, tcg_env, addr); tcg_gen_st_tl(t0, addr, sizeof(target_ulong) * to); } } /* Tests */ static inline void gen_save_pc(target_ulong pc) { tcg_gen_movi_tl(cpu_PC, pc); } static inline void save_cpu_state(DisasContext *ctx, int do_save_pc) { LOG_DISAS("hflags %08x saved %08x\n", ctx->hflags, ctx->saved_hflags); if (do_save_pc && ctx->base.pc_next != ctx->saved_pc) { gen_save_pc(ctx->base.pc_next); ctx->saved_pc = ctx->base.pc_next; } if (ctx->hflags != ctx->saved_hflags) { tcg_gen_movi_i32(hflags, ctx->hflags); ctx->saved_hflags = ctx->hflags; switch (ctx->hflags & MIPS_HFLAG_BMASK_BASE) { case MIPS_HFLAG_BR: break; case MIPS_HFLAG_BC: case MIPS_HFLAG_BL: case MIPS_HFLAG_B: tcg_gen_movi_tl(btarget, ctx->btarget); break; } } } static inline void restore_cpu_state(CPUMIPSState *env, DisasContext *ctx) { ctx->saved_hflags = ctx->hflags; switch (ctx->hflags & MIPS_HFLAG_BMASK_BASE) { case MIPS_HFLAG_BR: break; case MIPS_HFLAG_BC: case MIPS_HFLAG_BL: case MIPS_HFLAG_B: ctx->btarget = env->btarget; break; } } void generate_exception_err(DisasContext *ctx, int excp, int err) { save_cpu_state(ctx, 1); gen_helper_raise_exception_err(tcg_env, tcg_constant_i32(excp), tcg_constant_i32(err)); ctx->base.is_jmp = DISAS_NORETURN; } void generate_exception(DisasContext *ctx, int excp) { gen_helper_raise_exception(tcg_env, tcg_constant_i32(excp)); } void generate_exception_end(DisasContext *ctx, int excp) { generate_exception_err(ctx, excp, 0); } void generate_exception_break(DisasContext *ctx, int code) { #ifdef CONFIG_USER_ONLY /* Pass the break code along to cpu_loop. */ tcg_gen_st_i32(tcg_constant_i32(code), tcg_env, offsetof(CPUMIPSState, error_code)); #endif generate_exception_end(ctx, EXCP_BREAK); } void gen_reserved_instruction(DisasContext *ctx) { generate_exception_end(ctx, EXCP_RI); } /* Floating point register moves. */ void gen_load_fpr32(DisasContext *ctx, TCGv_i32 t, int reg) { if (ctx->hflags & MIPS_HFLAG_FRE) { generate_exception(ctx, EXCP_RI); } tcg_gen_extrl_i64_i32(t, fpu_f64[reg]); } void gen_store_fpr32(DisasContext *ctx, TCGv_i32 t, int reg) { TCGv_i64 t64; if (ctx->hflags & MIPS_HFLAG_FRE) { generate_exception(ctx, EXCP_RI); } t64 = tcg_temp_new_i64(); tcg_gen_extu_i32_i64(t64, t); tcg_gen_deposit_i64(fpu_f64[reg], fpu_f64[reg], t64, 0, 32); } static void gen_load_fpr32h(DisasContext *ctx, TCGv_i32 t, int reg) { if (ctx->hflags & MIPS_HFLAG_F64) { tcg_gen_extrh_i64_i32(t, fpu_f64[reg]); } else { gen_load_fpr32(ctx, t, reg | 1); } } static void gen_store_fpr32h(DisasContext *ctx, TCGv_i32 t, int reg) { if (ctx->hflags & MIPS_HFLAG_F64) { TCGv_i64 t64 = tcg_temp_new_i64(); tcg_gen_extu_i32_i64(t64, t); tcg_gen_deposit_i64(fpu_f64[reg], fpu_f64[reg], t64, 32, 32); } else { gen_store_fpr32(ctx, t, reg | 1); } } void gen_load_fpr64(DisasContext *ctx, TCGv_i64 t, int reg) { if (ctx->hflags & MIPS_HFLAG_F64) { tcg_gen_mov_i64(t, fpu_f64[reg]); } else { tcg_gen_concat32_i64(t, fpu_f64[reg & ~1], fpu_f64[reg | 1]); } } void gen_store_fpr64(DisasContext *ctx, TCGv_i64 t, int reg) { if (ctx->hflags & MIPS_HFLAG_F64) { tcg_gen_mov_i64(fpu_f64[reg], t); } else { TCGv_i64 t0; tcg_gen_deposit_i64(fpu_f64[reg & ~1], fpu_f64[reg & ~1], t, 0, 32); t0 = tcg_temp_new_i64(); tcg_gen_shri_i64(t0, t, 32); tcg_gen_deposit_i64(fpu_f64[reg | 1], fpu_f64[reg | 1], t0, 0, 32); } } int get_fp_bit(int cc) { if (cc) { return 24 + cc; } else { return 23; } } /* Addresses computation */ void gen_op_addr_add(DisasContext *ctx, TCGv ret, TCGv arg0, TCGv arg1) { tcg_gen_add_tl(ret, arg0, arg1); #if defined(TARGET_MIPS64) if (ctx->hflags & MIPS_HFLAG_AWRAP) { tcg_gen_ext32s_i64(ret, ret); } #endif } void gen_op_addr_addi(DisasContext *ctx, TCGv ret, TCGv base, target_long ofs) { tcg_gen_addi_tl(ret, base, ofs); #if defined(TARGET_MIPS64) if (ctx->hflags & MIPS_HFLAG_AWRAP) { tcg_gen_ext32s_i64(ret, ret); } #endif } /* Addresses computation (translation time) */ static target_long addr_add(DisasContext *ctx, target_long base, target_long offset) { target_long sum = base + offset; #if defined(TARGET_MIPS64) if (ctx->hflags & MIPS_HFLAG_AWRAP) { sum = (int32_t)sum; } #endif return sum; } /* Sign-extract the low 32-bits to a target_long. */ void gen_move_low32(TCGv ret, TCGv_i64 arg) { #if defined(TARGET_MIPS64) tcg_gen_ext32s_i64(ret, arg); #else tcg_gen_extrl_i64_i32(ret, arg); #endif } /* Sign-extract the high 32-bits to a target_long. */ void gen_move_high32(TCGv ret, TCGv_i64 arg) { #if defined(TARGET_MIPS64) tcg_gen_sari_i64(ret, arg, 32); #else tcg_gen_extrh_i64_i32(ret, arg); #endif } bool check_cp0_enabled(DisasContext *ctx) { if (unlikely(!(ctx->hflags & MIPS_HFLAG_CP0))) { generate_exception_end(ctx, EXCP_CpU); return false; } return true; } void check_cp1_enabled(DisasContext *ctx) { if (unlikely(!(ctx->hflags & MIPS_HFLAG_FPU))) { generate_exception_err(ctx, EXCP_CpU, 1); } } /* * Verify that the processor is running with COP1X instructions enabled. * This is associated with the nabla symbol in the MIPS32 and MIPS64 * opcode tables. */ void check_cop1x(DisasContext *ctx) { if (unlikely(!(ctx->hflags & MIPS_HFLAG_COP1X))) { gen_reserved_instruction(ctx); } } /* * Verify that the processor is running with 64-bit floating-point * operations enabled. */ void check_cp1_64bitmode(DisasContext *ctx) { if (unlikely(~ctx->hflags & MIPS_HFLAG_F64)) { gen_reserved_instruction(ctx); } } /* * Verify if floating point register is valid; an operation is not defined * if bit 0 of any register specification is set and the FR bit in the * Status register equals zero, since the register numbers specify an * even-odd pair of adjacent coprocessor general registers. When the FR bit * in the Status register equals one, both even and odd register numbers * are valid. This limitation exists only for 64 bit wide (d,l,ps) registers. * * Multiple 64 bit wide registers can be checked by calling * gen_op_cp1_registers(freg1 | freg2 | ... | fregN); */ void check_cp1_registers(DisasContext *ctx, int regs) { if (unlikely(!(ctx->hflags & MIPS_HFLAG_F64) && (regs & 1))) { gen_reserved_instruction(ctx); } } /* * Verify that the processor is running with DSP instructions enabled. * This is enabled by CP0 Status register MX(24) bit. */ static inline void check_dsp(DisasContext *ctx) { if (unlikely(!(ctx->hflags & MIPS_HFLAG_DSP))) { if (ctx->insn_flags & ASE_DSP) { generate_exception_end(ctx, EXCP_DSPDIS); } else { gen_reserved_instruction(ctx); } } } static inline void check_dsp_r2(DisasContext *ctx) { if (unlikely(!(ctx->hflags & MIPS_HFLAG_DSP_R2))) { if (ctx->insn_flags & ASE_DSP) { generate_exception_end(ctx, EXCP_DSPDIS); } else { gen_reserved_instruction(ctx); } } } static inline void check_dsp_r3(DisasContext *ctx) { if (unlikely(!(ctx->hflags & MIPS_HFLAG_DSP_R3))) { if (ctx->insn_flags & ASE_DSP) { generate_exception_end(ctx, EXCP_DSPDIS); } else { gen_reserved_instruction(ctx); } } } /* * This code generates a "reserved instruction" exception if the * CPU does not support the instruction set corresponding to flags. */ void check_insn(DisasContext *ctx, uint64_t flags) { if (unlikely(!(ctx->insn_flags & flags))) { gen_reserved_instruction(ctx); } } /* * This code generates a "reserved instruction" exception if the * CPU has corresponding flag set which indicates that the instruction * has been removed. */ static inline void check_insn_opc_removed(DisasContext *ctx, uint64_t flags) { if (unlikely(ctx->insn_flags & flags)) { gen_reserved_instruction(ctx); } } /* * The Linux kernel traps certain reserved instruction exceptions to * emulate the corresponding instructions. QEMU is the kernel in user * mode, so those traps are emulated by accepting the instructions. * * A reserved instruction exception is generated for flagged CPUs if * QEMU runs in system mode. */ static inline void check_insn_opc_user_only(DisasContext *ctx, uint64_t flags) { #ifndef CONFIG_USER_ONLY check_insn_opc_removed(ctx, flags); #endif } /* * This code generates a "reserved instruction" exception if the * CPU does not support 64-bit paired-single (PS) floating point data type. */ static inline void check_ps(DisasContext *ctx) { if (unlikely(!ctx->ps)) { generate_exception(ctx, EXCP_RI); } check_cp1_64bitmode(ctx); } /* * This code generates a "reserved instruction" exception if cpu is not * 64-bit or 64-bit instructions are not enabled. */ void check_mips_64(DisasContext *ctx) { if (unlikely((TARGET_LONG_BITS != 64) || !(ctx->hflags & MIPS_HFLAG_64))) { gen_reserved_instruction(ctx); } } #ifndef CONFIG_USER_ONLY static inline void check_mvh(DisasContext *ctx) { if (unlikely(!ctx->mvh)) { generate_exception(ctx, EXCP_RI); } } #endif /* * This code generates a "reserved instruction" exception if the * Config5 XNP bit is set. */ static inline void check_xnp(DisasContext *ctx) { if (unlikely(ctx->CP0_Config5 & (1 << CP0C5_XNP))) { gen_reserved_instruction(ctx); } } #ifndef CONFIG_USER_ONLY /* * This code generates a "reserved instruction" exception if the * Config3 PW bit is NOT set. */ static inline void check_pw(DisasContext *ctx) { if (unlikely(!(ctx->CP0_Config3 & (1 << CP0C3_PW)))) { gen_reserved_instruction(ctx); } } #endif /* * This code generates a "reserved instruction" exception if the * Config3 MT bit is NOT set. */ static inline void check_mt(DisasContext *ctx) { if (unlikely(!(ctx->CP0_Config3 & (1 << CP0C3_MT)))) { gen_reserved_instruction(ctx); } } #ifndef CONFIG_USER_ONLY /* * This code generates a "coprocessor unusable" exception if CP0 is not * available, and, if that is not the case, generates a "reserved instruction" * exception if the Config5 MT bit is NOT set. This is needed for availability * control of some of MT ASE instructions. */ static inline void check_cp0_mt(DisasContext *ctx) { if (unlikely(!(ctx->hflags & MIPS_HFLAG_CP0))) { generate_exception_end(ctx, EXCP_CpU); } else { if (unlikely(!(ctx->CP0_Config3 & (1 << CP0C3_MT)))) { gen_reserved_instruction(ctx); } } } #endif /* * This code generates a "reserved instruction" exception if the * Config5 NMS bit is set. */ static inline void check_nms(DisasContext *ctx) { if (unlikely(ctx->CP0_Config5 & (1 << CP0C5_NMS))) { gen_reserved_instruction(ctx); } } /* * This code generates a "reserved instruction" exception if the * Config5 NMS bit is set, and Config1 DL, Config1 IL, Config2 SL, * Config2 TL, and Config5 L2C are unset. */ static inline void check_nms_dl_il_sl_tl_l2c(DisasContext *ctx) { if (unlikely((ctx->CP0_Config5 & (1 << CP0C5_NMS)) && !(ctx->CP0_Config1 & (1 << CP0C1_DL)) && !(ctx->CP0_Config1 & (1 << CP0C1_IL)) && !(ctx->CP0_Config2 & (1 << CP0C2_SL)) && !(ctx->CP0_Config2 & (1 << CP0C2_TL)) && !(ctx->CP0_Config5 & (1 << CP0C5_L2C)))) { gen_reserved_instruction(ctx); } } /* * This code generates a "reserved instruction" exception if the * Config5 EVA bit is NOT set. */ static inline void check_eva(DisasContext *ctx) { if (unlikely(!(ctx->CP0_Config5 & (1 << CP0C5_EVA)))) { gen_reserved_instruction(ctx); } } /* * Define small wrappers for gen_load_fpr* so that we have a uniform * calling interface for 32 and 64-bit FPRs. No sense in changing * all callers for gen_load_fpr32 when we need the CTX parameter for * this one use. */ #define gen_ldcmp_fpr32(ctx, x, y) gen_load_fpr32(ctx, x, y) #define gen_ldcmp_fpr64(ctx, x, y) gen_load_fpr64(ctx, x, y) #define FOP_CONDS(type, abs, fmt, ifmt, bits) \ static inline void gen_cmp ## type ## _ ## fmt(DisasContext *ctx, int n, \ int ft, int fs, int cc) \ { \ TCGv_i##bits fp0 = tcg_temp_new_i##bits(); \ TCGv_i##bits fp1 = tcg_temp_new_i##bits(); \ switch (ifmt) { \ case FMT_PS: \ check_ps(ctx); \ break; \ case FMT_D: \ if (abs) { \ check_cop1x(ctx); \ } \ check_cp1_registers(ctx, fs | ft); \ break; \ case FMT_S: \ if (abs) { \ check_cop1x(ctx); \ } \ break; \ } \ gen_ldcmp_fpr##bits(ctx, fp0, fs); \ gen_ldcmp_fpr##bits(ctx, fp1, ft); \ switch (n) { \ case 0: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _f, fp0, fp1, cc); \ break; \ case 1: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _un, fp0, fp1, cc); \ break; \ case 2: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _eq, fp0, fp1, cc); \ break; \ case 3: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _ueq, fp0, fp1, cc); \ break; \ case 4: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _olt, fp0, fp1, cc); \ break; \ case 5: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _ult, fp0, fp1, cc); \ break; \ case 6: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _ole, fp0, fp1, cc); \ break; \ case 7: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _ule, fp0, fp1, cc); \ break; \ case 8: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _sf, fp0, fp1, cc); \ break; \ case 9: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _ngle, fp0, fp1, cc); \ break; \ case 10: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _seq, fp0, fp1, cc); \ break; \ case 11: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _ngl, fp0, fp1, cc); \ break; \ case 12: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _lt, fp0, fp1, cc); \ break; \ case 13: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _nge, fp0, fp1, cc); \ break; \ case 14: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _le, fp0, fp1, cc); \ break; \ case 15: \ gen_helper_0e2i(cmp ## type ## _ ## fmt ## _ngt, fp0, fp1, cc); \ break; \ default: \ abort(); \ } \ } FOP_CONDS(, 0, d, FMT_D, 64) FOP_CONDS(abs, 1, d, FMT_D, 64) FOP_CONDS(, 0, s, FMT_S, 32) FOP_CONDS(abs, 1, s, FMT_S, 32) FOP_CONDS(, 0, ps, FMT_PS, 64) FOP_CONDS(abs, 1, ps, FMT_PS, 64) #undef FOP_CONDS #define FOP_CONDNS(fmt, ifmt, bits, STORE) \ static inline void gen_r6_cmp_ ## fmt(DisasContext *ctx, int n, \ int ft, int fs, int fd) \ { \ TCGv_i ## bits fp0 = tcg_temp_new_i ## bits(); \ TCGv_i ## bits fp1 = tcg_temp_new_i ## bits(); \ if (ifmt == FMT_D) { \ check_cp1_registers(ctx, fs | ft | fd); \ } \ gen_ldcmp_fpr ## bits(ctx, fp0, fs); \ gen_ldcmp_fpr ## bits(ctx, fp1, ft); \ switch (n) { \ case 0: \ gen_helper_r6_cmp_ ## fmt ## _af(fp0, tcg_env, fp0, fp1); \ break; \ case 1: \ gen_helper_r6_cmp_ ## fmt ## _un(fp0, tcg_env, fp0, fp1); \ break; \ case 2: \ gen_helper_r6_cmp_ ## fmt ## _eq(fp0, tcg_env, fp0, fp1); \ break; \ case 3: \ gen_helper_r6_cmp_ ## fmt ## _ueq(fp0, tcg_env, fp0, fp1); \ break; \ case 4: \ gen_helper_r6_cmp_ ## fmt ## _lt(fp0, tcg_env, fp0, fp1); \ break; \ case 5: \ gen_helper_r6_cmp_ ## fmt ## _ult(fp0, tcg_env, fp0, fp1); \ break; \ case 6: \ gen_helper_r6_cmp_ ## fmt ## _le(fp0, tcg_env, fp0, fp1); \ break; \ case 7: \ gen_helper_r6_cmp_ ## fmt ## _ule(fp0, tcg_env, fp0, fp1); \ break; \ case 8: \ gen_helper_r6_cmp_ ## fmt ## _saf(fp0, tcg_env, fp0, fp1); \ break; \ case 9: \ gen_helper_r6_cmp_ ## fmt ## _sun(fp0, tcg_env, fp0, fp1); \ break; \ case 10: \ gen_helper_r6_cmp_ ## fmt ## _seq(fp0, tcg_env, fp0, fp1); \ break; \ case 11: \ gen_helper_r6_cmp_ ## fmt ## _sueq(fp0, tcg_env, fp0, fp1); \ break; \ case 12: \ gen_helper_r6_cmp_ ## fmt ## _slt(fp0, tcg_env, fp0, fp1); \ break; \ case 13: \ gen_helper_r6_cmp_ ## fmt ## _sult(fp0, tcg_env, fp0, fp1); \ break; \ case 14: \ gen_helper_r6_cmp_ ## fmt ## _sle(fp0, tcg_env, fp0, fp1); \ break; \ case 15: \ gen_helper_r6_cmp_ ## fmt ## _sule(fp0, tcg_env, fp0, fp1); \ break; \ case 17: \ gen_helper_r6_cmp_ ## fmt ## _or(fp0, tcg_env, fp0, fp1); \ break; \ case 18: \ gen_helper_r6_cmp_ ## fmt ## _une(fp0, tcg_env, fp0, fp1); \ break; \ case 19: \ gen_helper_r6_cmp_ ## fmt ## _ne(fp0, tcg_env, fp0, fp1); \ break; \ case 25: \ gen_helper_r6_cmp_ ## fmt ## _sor(fp0, tcg_env, fp0, fp1); \ break; \ case 26: \ gen_helper_r6_cmp_ ## fmt ## _sune(fp0, tcg_env, fp0, fp1); \ break; \ case 27: \ gen_helper_r6_cmp_ ## fmt ## _sne(fp0, tcg_env, fp0, fp1); \ break; \ default: \ abort(); \ } \ STORE; \ } FOP_CONDNS(d, FMT_D, 64, gen_store_fpr64(ctx, fp0, fd)) FOP_CONDNS(s, FMT_S, 32, gen_store_fpr32(ctx, fp0, fd)) #undef FOP_CONDNS #undef gen_ldcmp_fpr32 #undef gen_ldcmp_fpr64 /* load/store instructions. */ #ifdef CONFIG_USER_ONLY #define OP_LD_ATOMIC(insn, memop) \ static inline void op_ld_##insn(TCGv ret, TCGv arg1, int mem_idx, \ DisasContext *ctx) \ { \ TCGv t0 = tcg_temp_new(); \ tcg_gen_mov_tl(t0, arg1); \ tcg_gen_qemu_ld_tl(ret, arg1, ctx->mem_idx, memop); \ tcg_gen_st_tl(t0, tcg_env, offsetof(CPUMIPSState, lladdr)); \ tcg_gen_st_tl(ret, tcg_env, offsetof(CPUMIPSState, llval)); \ } #else #define OP_LD_ATOMIC(insn, ignored_memop) \ static inline void op_ld_##insn(TCGv ret, TCGv arg1, int mem_idx, \ DisasContext *ctx) \ { \ gen_helper_##insn(ret, tcg_env, arg1, tcg_constant_i32(mem_idx)); \ } #endif OP_LD_ATOMIC(ll, mo_endian(ctx) | MO_SL); #if defined(TARGET_MIPS64) OP_LD_ATOMIC(lld, mo_endian(ctx) | MO_UQ); #endif #undef OP_LD_ATOMIC void gen_base_offset_addr(DisasContext *ctx, TCGv addr, int base, int offset) { if (base == 0) { tcg_gen_movi_tl(addr, offset); } else if (offset == 0) { gen_load_gpr(addr, base); } else { tcg_gen_movi_tl(addr, offset); gen_op_addr_add(ctx, addr, cpu_gpr[base], addr); } } static target_ulong pc_relative_pc(DisasContext *ctx) { target_ulong pc = ctx->base.pc_next; if (ctx->hflags & MIPS_HFLAG_BMASK) { int branch_bytes = ctx->hflags & MIPS_HFLAG_BDS16 ? 2 : 4; pc -= branch_bytes; } pc &= ~(target_ulong)3; return pc; } /* LWL or LDL, depending on MemOp. */ static void gen_lxl(DisasContext *ctx, TCGv reg, TCGv addr, int mem_idx, MemOp mop) { int sizem1 = memop_size(mop) - 1; TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); /* * Do a byte access to possibly trigger a page * fault with the unaligned address. */ tcg_gen_qemu_ld_tl(t1, addr, mem_idx, MO_UB); tcg_gen_andi_tl(t1, addr, sizem1); if (!disas_is_bigendian(ctx)) { tcg_gen_xori_tl(t1, t1, sizem1); } tcg_gen_shli_tl(t1, t1, 3); tcg_gen_andi_tl(t0, addr, ~sizem1); tcg_gen_qemu_ld_tl(t0, t0, mem_idx, mop); tcg_gen_shl_tl(t0, t0, t1); tcg_gen_shl_tl(t1, tcg_constant_tl(-1), t1); tcg_gen_andc_tl(t1, reg, t1); tcg_gen_or_tl(reg, t0, t1); } /* LWR or LDR, depending on MemOp. */ static void gen_lxr(DisasContext *ctx, TCGv reg, TCGv addr, int mem_idx, MemOp mop) { int size = memop_size(mop); int sizem1 = size - 1; TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); /* * Do a byte access to possibly trigger a page * fault with the unaligned address. */ tcg_gen_qemu_ld_tl(t1, addr, mem_idx, MO_UB); tcg_gen_andi_tl(t1, addr, sizem1); if (disas_is_bigendian(ctx)) { tcg_gen_xori_tl(t1, t1, sizem1); } tcg_gen_shli_tl(t1, t1, 3); tcg_gen_andi_tl(t0, addr, ~sizem1); tcg_gen_qemu_ld_tl(t0, t0, mem_idx, mop); tcg_gen_shr_tl(t0, t0, t1); tcg_gen_xori_tl(t1, t1, size * 8 - 1); tcg_gen_shl_tl(t1, tcg_constant_tl(~1), t1); tcg_gen_and_tl(t1, reg, t1); tcg_gen_or_tl(reg, t0, t1); } /* Load */ static void gen_ld(DisasContext *ctx, uint32_t opc, int rt, int base, int offset) { TCGv t0, t1; int mem_idx = ctx->mem_idx; if (rt == 0 && ctx->insn_flags & (INSN_LOONGSON2E | INSN_LOONGSON2F | INSN_LOONGSON3A)) { /* * Loongson CPU uses a load to zero register for prefetch. * We emulate it as a NOP. On other CPU we must perform the * actual memory access. */ return; } t0 = tcg_temp_new(); gen_base_offset_addr(ctx, t0, base, offset); switch (opc) { #if defined(TARGET_MIPS64) case OPC_LWU: tcg_gen_qemu_ld_tl(t0, t0, mem_idx, mo_endian(ctx) | MO_UL | ctx->default_tcg_memop_mask); gen_store_gpr(t0, rt); break; case OPC_LD: tcg_gen_qemu_ld_tl(t0, t0, mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); gen_store_gpr(t0, rt); break; case OPC_LLD: case R6_OPC_LLD: op_ld_lld(t0, t0, mem_idx, ctx); gen_store_gpr(t0, rt); break; case OPC_LDL: t1 = tcg_temp_new(); gen_load_gpr(t1, rt); gen_lxl(ctx, t1, t0, mem_idx, mo_endian(ctx) | MO_UQ); gen_store_gpr(t1, rt); break; case OPC_LDR: t1 = tcg_temp_new(); gen_load_gpr(t1, rt); gen_lxr(ctx, t1, t0, mem_idx, mo_endian(ctx) | MO_UQ); gen_store_gpr(t1, rt); break; case OPC_LDPC: t1 = tcg_constant_tl(pc_relative_pc(ctx)); gen_op_addr_add(ctx, t0, t0, t1); tcg_gen_qemu_ld_tl(t0, t0, mem_idx, mo_endian(ctx) | MO_UQ); gen_store_gpr(t0, rt); break; #endif case OPC_LWPC: t1 = tcg_constant_tl(pc_relative_pc(ctx)); gen_op_addr_add(ctx, t0, t0, t1); tcg_gen_qemu_ld_tl(t0, t0, mem_idx, mo_endian(ctx) | MO_SL); gen_store_gpr(t0, rt); break; case OPC_LWE: mem_idx = MIPS_HFLAG_UM; /* fall through */ case OPC_LW: tcg_gen_qemu_ld_tl(t0, t0, mem_idx, mo_endian(ctx) | MO_SL | ctx->default_tcg_memop_mask); gen_store_gpr(t0, rt); break; case OPC_LHE: mem_idx = MIPS_HFLAG_UM; /* fall through */ case OPC_LH: tcg_gen_qemu_ld_tl(t0, t0, mem_idx, mo_endian(ctx) | MO_SW | ctx->default_tcg_memop_mask); gen_store_gpr(t0, rt); break; case OPC_LHUE: mem_idx = MIPS_HFLAG_UM; /* fall through */ case OPC_LHU: tcg_gen_qemu_ld_tl(t0, t0, mem_idx, mo_endian(ctx) | MO_UW | ctx->default_tcg_memop_mask); gen_store_gpr(t0, rt); break; case OPC_LBE: mem_idx = MIPS_HFLAG_UM; /* fall through */ case OPC_LB: tcg_gen_qemu_ld_tl(t0, t0, mem_idx, MO_SB); gen_store_gpr(t0, rt); break; case OPC_LBUE: mem_idx = MIPS_HFLAG_UM; /* fall through */ case OPC_LBU: tcg_gen_qemu_ld_tl(t0, t0, mem_idx, MO_UB); gen_store_gpr(t0, rt); break; case OPC_LWLE: mem_idx = MIPS_HFLAG_UM; /* fall through */ case OPC_LWL: t1 = tcg_temp_new(); gen_load_gpr(t1, rt); gen_lxl(ctx, t1, t0, mem_idx, mo_endian(ctx) | MO_UL); tcg_gen_ext32s_tl(t1, t1); gen_store_gpr(t1, rt); break; case OPC_LWRE: mem_idx = MIPS_HFLAG_UM; /* fall through */ case OPC_LWR: t1 = tcg_temp_new(); gen_load_gpr(t1, rt); gen_lxr(ctx, t1, t0, mem_idx, mo_endian(ctx) | MO_UL); tcg_gen_ext32s_tl(t1, t1); gen_store_gpr(t1, rt); break; case OPC_LLE: mem_idx = MIPS_HFLAG_UM; /* fall through */ case OPC_LL: case R6_OPC_LL: op_ld_ll(t0, t0, mem_idx, ctx); gen_store_gpr(t0, rt); break; } } /* Store */ static void gen_st(DisasContext *ctx, uint32_t opc, int rt, int base, int offset) { TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); int mem_idx = ctx->mem_idx; gen_base_offset_addr(ctx, t0, base, offset); gen_load_gpr(t1, rt); switch (opc) { #if defined(TARGET_MIPS64) case OPC_SD: tcg_gen_qemu_st_tl(t1, t0, mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); break; case OPC_SDL: gen_helper_0e2i(sdl, t1, t0, mem_idx); break; case OPC_SDR: gen_helper_0e2i(sdr, t1, t0, mem_idx); break; #endif case OPC_SWE: mem_idx = MIPS_HFLAG_UM; /* fall through */ case OPC_SW: tcg_gen_qemu_st_tl(t1, t0, mem_idx, mo_endian(ctx) | MO_UL | ctx->default_tcg_memop_mask); break; case OPC_SHE: mem_idx = MIPS_HFLAG_UM; /* fall through */ case OPC_SH: tcg_gen_qemu_st_tl(t1, t0, mem_idx, mo_endian(ctx) | MO_UW | ctx->default_tcg_memop_mask); break; case OPC_SBE: mem_idx = MIPS_HFLAG_UM; /* fall through */ case OPC_SB: tcg_gen_qemu_st_tl(t1, t0, mem_idx, MO_8); break; case OPC_SWLE: mem_idx = MIPS_HFLAG_UM; /* fall through */ case OPC_SWL: gen_helper_0e2i(swl, t1, t0, mem_idx); break; case OPC_SWRE: mem_idx = MIPS_HFLAG_UM; /* fall through */ case OPC_SWR: gen_helper_0e2i(swr, t1, t0, mem_idx); break; } } /* Store conditional */ static void gen_st_cond(DisasContext *ctx, int rt, int base, int offset, MemOp tcg_mo, bool eva) { TCGv addr, t0, val; TCGLabel *l1 = gen_new_label(); TCGLabel *done = gen_new_label(); t0 = tcg_temp_new(); addr = tcg_temp_new(); /* compare the address against that of the preceding LL */ gen_base_offset_addr(ctx, addr, base, offset); tcg_gen_brcond_tl(TCG_COND_EQ, addr, cpu_lladdr, l1); gen_store_gpr(tcg_constant_tl(0), rt); tcg_gen_br(done); gen_set_label(l1); /* generate cmpxchg */ val = tcg_temp_new(); gen_load_gpr(val, rt); tcg_gen_atomic_cmpxchg_tl(t0, cpu_lladdr, cpu_llval, val, eva ? MIPS_HFLAG_UM : ctx->mem_idx, tcg_mo); tcg_gen_setcond_tl(TCG_COND_EQ, t0, t0, cpu_llval); gen_store_gpr(t0, rt); gen_set_label(done); } /* Load and store */ static void gen_flt_ldst(DisasContext *ctx, uint32_t opc, int ft, TCGv t0) { /* * Don't do NOP if destination is zero: we must perform the actual * memory access. */ switch (opc) { case OPC_LWC1: { TCGv_i32 fp0 = tcg_temp_new_i32(); tcg_gen_qemu_ld_i32(fp0, t0, ctx->mem_idx, mo_endian(ctx) | MO_SL | ctx->default_tcg_memop_mask); gen_store_fpr32(ctx, fp0, ft); } break; case OPC_SWC1: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, ft); tcg_gen_qemu_st_i32(fp0, t0, ctx->mem_idx, mo_endian(ctx) | MO_UL | ctx->default_tcg_memop_mask); } break; case OPC_LDC1: { TCGv_i64 fp0 = tcg_temp_new_i64(); tcg_gen_qemu_ld_i64(fp0, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); gen_store_fpr64(ctx, fp0, ft); } break; case OPC_SDC1: { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, ft); tcg_gen_qemu_st_i64(fp0, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); } break; default: MIPS_INVAL("flt_ldst"); gen_reserved_instruction(ctx); break; } } static void gen_cop1_ldst(DisasContext *ctx, uint32_t op, int rt, int rs, int16_t imm) { TCGv t0 = tcg_temp_new(); if (ctx->CP0_Config1 & (1 << CP0C1_FP)) { check_cp1_enabled(ctx); switch (op) { case OPC_LDC1: case OPC_SDC1: check_insn(ctx, ISA_MIPS2); /* Fallthrough */ default: gen_base_offset_addr(ctx, t0, rs, imm); gen_flt_ldst(ctx, op, rt, t0); } } else { generate_exception_err(ctx, EXCP_CpU, 1); } } /* Arithmetic with immediate operand */ static void gen_arith_imm(DisasContext *ctx, uint32_t opc, int rt, int rs, int imm) { target_ulong uimm = (target_long)imm; /* Sign extend to 32/64 bits */ if (rt == 0 && opc != OPC_ADDI && opc != OPC_DADDI) { /* * If no destination, treat it as a NOP. * For addi, we must generate the overflow exception when needed. */ return; } switch (opc) { case OPC_ADDI: { TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); TCGv t2 = tcg_temp_new(); TCGLabel *l1 = gen_new_label(); gen_load_gpr(t1, rs); tcg_gen_addi_tl(t0, t1, uimm); tcg_gen_ext32s_tl(t0, t0); tcg_gen_xori_tl(t1, t1, ~uimm); tcg_gen_xori_tl(t2, t0, uimm); tcg_gen_and_tl(t1, t1, t2); tcg_gen_brcondi_tl(TCG_COND_GE, t1, 0, l1); /* operands of same sign, result different sign */ generate_exception(ctx, EXCP_OVERFLOW); gen_set_label(l1); tcg_gen_ext32s_tl(t0, t0); gen_store_gpr(t0, rt); } break; case OPC_ADDIU: if (rs != 0) { tcg_gen_addi_tl(cpu_gpr[rt], cpu_gpr[rs], uimm); tcg_gen_ext32s_tl(cpu_gpr[rt], cpu_gpr[rt]); } else { tcg_gen_movi_tl(cpu_gpr[rt], uimm); } break; #if defined(TARGET_MIPS64) case OPC_DADDI: { TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); TCGv t2 = tcg_temp_new(); TCGLabel *l1 = gen_new_label(); gen_load_gpr(t1, rs); tcg_gen_addi_tl(t0, t1, uimm); tcg_gen_xori_tl(t1, t1, ~uimm); tcg_gen_xori_tl(t2, t0, uimm); tcg_gen_and_tl(t1, t1, t2); tcg_gen_brcondi_tl(TCG_COND_GE, t1, 0, l1); /* operands of same sign, result different sign */ generate_exception(ctx, EXCP_OVERFLOW); gen_set_label(l1); gen_store_gpr(t0, rt); } break; case OPC_DADDIU: if (rs != 0) { tcg_gen_addi_tl(cpu_gpr[rt], cpu_gpr[rs], uimm); } else { tcg_gen_movi_tl(cpu_gpr[rt], uimm); } break; #endif } } /* Logic with immediate operand */ static void gen_logic_imm(DisasContext *ctx, uint32_t opc, int rt, int rs, int16_t imm) { target_ulong uimm; if (rt == 0) { /* If no destination, treat it as a NOP. */ return; } uimm = (uint16_t)imm; switch (opc) { case OPC_ANDI: if (likely(rs != 0)) { tcg_gen_andi_tl(cpu_gpr[rt], cpu_gpr[rs], uimm); } else { tcg_gen_movi_tl(cpu_gpr[rt], 0); } break; case OPC_ORI: if (rs != 0) { tcg_gen_ori_tl(cpu_gpr[rt], cpu_gpr[rs], uimm); } else { tcg_gen_movi_tl(cpu_gpr[rt], uimm); } break; case OPC_XORI: if (likely(rs != 0)) { tcg_gen_xori_tl(cpu_gpr[rt], cpu_gpr[rs], uimm); } else { tcg_gen_movi_tl(cpu_gpr[rt], uimm); } break; case OPC_LUI: if (rs != 0 && (ctx->insn_flags & ISA_MIPS_R6)) { /* OPC_AUI */ tcg_gen_addi_tl(cpu_gpr[rt], cpu_gpr[rs], imm << 16); tcg_gen_ext32s_tl(cpu_gpr[rt], cpu_gpr[rt]); } else { tcg_gen_movi_tl(cpu_gpr[rt], imm << 16); } break; default: break; } } /* Set on less than with immediate operand */ static void gen_slt_imm(DisasContext *ctx, uint32_t opc, int rt, int rs, int16_t imm) { target_ulong uimm = (target_long)imm; /* Sign extend to 32/64 bits */ TCGv t0; if (rt == 0) { /* If no destination, treat it as a NOP. */ return; } t0 = tcg_temp_new(); gen_load_gpr(t0, rs); switch (opc) { case OPC_SLTI: tcg_gen_setcondi_tl(TCG_COND_LT, cpu_gpr[rt], t0, uimm); break; case OPC_SLTIU: tcg_gen_setcondi_tl(TCG_COND_LTU, cpu_gpr[rt], t0, uimm); break; } } /* Shifts with immediate operand */ static void gen_shift_imm(DisasContext *ctx, uint32_t opc, int rt, int rs, int16_t imm) { target_ulong uimm = ((uint16_t)imm) & 0x1f; TCGv t0; if (rt == 0) { /* If no destination, treat it as a NOP. */ return; } t0 = tcg_temp_new(); gen_load_gpr(t0, rs); switch (opc) { case OPC_SLL: tcg_gen_shli_tl(t0, t0, uimm); tcg_gen_ext32s_tl(cpu_gpr[rt], t0); break; case OPC_SRA: tcg_gen_sari_tl(cpu_gpr[rt], t0, uimm); break; case OPC_SRL: if (uimm != 0) { tcg_gen_ext32u_tl(t0, t0); tcg_gen_shri_tl(cpu_gpr[rt], t0, uimm); } else { tcg_gen_ext32s_tl(cpu_gpr[rt], t0); } break; case OPC_ROTR: if (uimm != 0) { TCGv_i32 t1 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(t1, t0); tcg_gen_rotri_i32(t1, t1, uimm); tcg_gen_ext_i32_tl(cpu_gpr[rt], t1); } else { tcg_gen_ext32s_tl(cpu_gpr[rt], t0); } break; #if defined(TARGET_MIPS64) case OPC_DSLL: tcg_gen_shli_tl(cpu_gpr[rt], t0, uimm); break; case OPC_DSRA: tcg_gen_sari_tl(cpu_gpr[rt], t0, uimm); break; case OPC_DSRL: tcg_gen_shri_tl(cpu_gpr[rt], t0, uimm); break; case OPC_DROTR: if (uimm != 0) { tcg_gen_rotri_tl(cpu_gpr[rt], t0, uimm); } else { tcg_gen_mov_tl(cpu_gpr[rt], t0); } break; case OPC_DSLL32: tcg_gen_shli_tl(cpu_gpr[rt], t0, uimm + 32); break; case OPC_DSRA32: tcg_gen_sari_tl(cpu_gpr[rt], t0, uimm + 32); break; case OPC_DSRL32: tcg_gen_shri_tl(cpu_gpr[rt], t0, uimm + 32); break; case OPC_DROTR32: tcg_gen_rotri_tl(cpu_gpr[rt], t0, uimm + 32); break; #endif } } /* Arithmetic */ static void gen_arith(DisasContext *ctx, uint32_t opc, int rd, int rs, int rt) { if (rd == 0 && opc != OPC_ADD && opc != OPC_SUB && opc != OPC_DADD && opc != OPC_DSUB) { /* * If no destination, treat it as a NOP. * For add & sub, we must generate the overflow exception when needed. */ return; } switch (opc) { case OPC_ADD: { TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); TCGv t2 = tcg_temp_new(); TCGLabel *l1 = gen_new_label(); gen_load_gpr(t1, rs); gen_load_gpr(t2, rt); tcg_gen_add_tl(t0, t1, t2); tcg_gen_ext32s_tl(t0, t0); tcg_gen_xor_tl(t1, t1, t2); tcg_gen_xor_tl(t2, t0, t2); tcg_gen_andc_tl(t1, t2, t1); tcg_gen_brcondi_tl(TCG_COND_GE, t1, 0, l1); /* operands of same sign, result different sign */ generate_exception(ctx, EXCP_OVERFLOW); gen_set_label(l1); gen_store_gpr(t0, rd); } break; case OPC_ADDU: if (rs != 0 && rt != 0) { tcg_gen_add_tl(cpu_gpr[rd], cpu_gpr[rs], cpu_gpr[rt]); tcg_gen_ext32s_tl(cpu_gpr[rd], cpu_gpr[rd]); } else if (rs == 0 && rt != 0) { tcg_gen_mov_tl(cpu_gpr[rd], cpu_gpr[rt]); } else if (rs != 0 && rt == 0) { tcg_gen_mov_tl(cpu_gpr[rd], cpu_gpr[rs]); } else { tcg_gen_movi_tl(cpu_gpr[rd], 0); } break; case OPC_SUB: { TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); TCGv t2 = tcg_temp_new(); TCGLabel *l1 = gen_new_label(); gen_load_gpr(t1, rs); gen_load_gpr(t2, rt); tcg_gen_sub_tl(t0, t1, t2); tcg_gen_ext32s_tl(t0, t0); tcg_gen_xor_tl(t2, t1, t2); tcg_gen_xor_tl(t1, t0, t1); tcg_gen_and_tl(t1, t1, t2); tcg_gen_brcondi_tl(TCG_COND_GE, t1, 0, l1); /* * operands of different sign, first operand and the result * of different sign */ generate_exception(ctx, EXCP_OVERFLOW); gen_set_label(l1); gen_store_gpr(t0, rd); } break; case OPC_SUBU: if (rs != 0 && rt != 0) { tcg_gen_sub_tl(cpu_gpr[rd], cpu_gpr[rs], cpu_gpr[rt]); tcg_gen_ext32s_tl(cpu_gpr[rd], cpu_gpr[rd]); } else if (rs == 0 && rt != 0) { tcg_gen_neg_tl(cpu_gpr[rd], cpu_gpr[rt]); tcg_gen_ext32s_tl(cpu_gpr[rd], cpu_gpr[rd]); } else if (rs != 0 && rt == 0) { tcg_gen_mov_tl(cpu_gpr[rd], cpu_gpr[rs]); } else { tcg_gen_movi_tl(cpu_gpr[rd], 0); } break; #if defined(TARGET_MIPS64) case OPC_DADD: { TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); TCGv t2 = tcg_temp_new(); TCGLabel *l1 = gen_new_label(); gen_load_gpr(t1, rs); gen_load_gpr(t2, rt); tcg_gen_add_tl(t0, t1, t2); tcg_gen_xor_tl(t1, t1, t2); tcg_gen_xor_tl(t2, t0, t2); tcg_gen_andc_tl(t1, t2, t1); tcg_gen_brcondi_tl(TCG_COND_GE, t1, 0, l1); /* operands of same sign, result different sign */ generate_exception(ctx, EXCP_OVERFLOW); gen_set_label(l1); gen_store_gpr(t0, rd); } break; case OPC_DADDU: if (rs != 0 && rt != 0) { tcg_gen_add_tl(cpu_gpr[rd], cpu_gpr[rs], cpu_gpr[rt]); } else if (rs == 0 && rt != 0) { tcg_gen_mov_tl(cpu_gpr[rd], cpu_gpr[rt]); } else if (rs != 0 && rt == 0) { tcg_gen_mov_tl(cpu_gpr[rd], cpu_gpr[rs]); } else { tcg_gen_movi_tl(cpu_gpr[rd], 0); } break; case OPC_DSUB: { TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); TCGv t2 = tcg_temp_new(); TCGLabel *l1 = gen_new_label(); gen_load_gpr(t1, rs); gen_load_gpr(t2, rt); tcg_gen_sub_tl(t0, t1, t2); tcg_gen_xor_tl(t2, t1, t2); tcg_gen_xor_tl(t1, t0, t1); tcg_gen_and_tl(t1, t1, t2); tcg_gen_brcondi_tl(TCG_COND_GE, t1, 0, l1); /* * Operands of different sign, first operand and result different * sign. */ generate_exception(ctx, EXCP_OVERFLOW); gen_set_label(l1); gen_store_gpr(t0, rd); } break; case OPC_DSUBU: if (rs != 0 && rt != 0) { tcg_gen_sub_tl(cpu_gpr[rd], cpu_gpr[rs], cpu_gpr[rt]); } else if (rs == 0 && rt != 0) { tcg_gen_neg_tl(cpu_gpr[rd], cpu_gpr[rt]); } else if (rs != 0 && rt == 0) { tcg_gen_mov_tl(cpu_gpr[rd], cpu_gpr[rs]); } else { tcg_gen_movi_tl(cpu_gpr[rd], 0); } break; #endif case OPC_MUL: if (likely(rs != 0 && rt != 0)) { tcg_gen_mul_tl(cpu_gpr[rd], cpu_gpr[rs], cpu_gpr[rt]); tcg_gen_ext32s_tl(cpu_gpr[rd], cpu_gpr[rd]); } else { tcg_gen_movi_tl(cpu_gpr[rd], 0); } break; } } /* Conditional move */ static void gen_cond_move(DisasContext *ctx, uint32_t opc, int rd, int rs, int rt) { TCGv t0, t1, t2; if (rd == 0) { /* If no destination, treat it as a NOP. */ return; } t0 = tcg_temp_new(); gen_load_gpr(t0, rt); t1 = tcg_constant_tl(0); t2 = tcg_temp_new(); gen_load_gpr(t2, rs); switch (opc) { case OPC_MOVN: tcg_gen_movcond_tl(TCG_COND_NE, cpu_gpr[rd], t0, t1, t2, cpu_gpr[rd]); break; case OPC_MOVZ: tcg_gen_movcond_tl(TCG_COND_EQ, cpu_gpr[rd], t0, t1, t2, cpu_gpr[rd]); break; case OPC_SELNEZ: tcg_gen_movcond_tl(TCG_COND_NE, cpu_gpr[rd], t0, t1, t2, t1); break; case OPC_SELEQZ: tcg_gen_movcond_tl(TCG_COND_EQ, cpu_gpr[rd], t0, t1, t2, t1); break; } } /* Logic */ static void gen_logic(DisasContext *ctx, uint32_t opc, int rd, int rs, int rt) { if (rd == 0) { /* If no destination, treat it as a NOP. */ return; } switch (opc) { case OPC_AND: if (likely(rs != 0 && rt != 0)) { tcg_gen_and_tl(cpu_gpr[rd], cpu_gpr[rs], cpu_gpr[rt]); } else { tcg_gen_movi_tl(cpu_gpr[rd], 0); } break; case OPC_NOR: if (rs != 0 && rt != 0) { tcg_gen_nor_tl(cpu_gpr[rd], cpu_gpr[rs], cpu_gpr[rt]); } else if (rs == 0 && rt != 0) { tcg_gen_not_tl(cpu_gpr[rd], cpu_gpr[rt]); } else if (rs != 0 && rt == 0) { tcg_gen_not_tl(cpu_gpr[rd], cpu_gpr[rs]); } else { tcg_gen_movi_tl(cpu_gpr[rd], ~((target_ulong)0)); } break; case OPC_OR: if (likely(rs != 0 && rt != 0)) { tcg_gen_or_tl(cpu_gpr[rd], cpu_gpr[rs], cpu_gpr[rt]); } else if (rs == 0 && rt != 0) { tcg_gen_mov_tl(cpu_gpr[rd], cpu_gpr[rt]); } else if (rs != 0 && rt == 0) { tcg_gen_mov_tl(cpu_gpr[rd], cpu_gpr[rs]); } else { tcg_gen_movi_tl(cpu_gpr[rd], 0); } break; case OPC_XOR: if (likely(rs != 0 && rt != 0)) { tcg_gen_xor_tl(cpu_gpr[rd], cpu_gpr[rs], cpu_gpr[rt]); } else if (rs == 0 && rt != 0) { tcg_gen_mov_tl(cpu_gpr[rd], cpu_gpr[rt]); } else if (rs != 0 && rt == 0) { tcg_gen_mov_tl(cpu_gpr[rd], cpu_gpr[rs]); } else { tcg_gen_movi_tl(cpu_gpr[rd], 0); } break; } } /* Set on lower than */ static void gen_slt(DisasContext *ctx, uint32_t opc, int rd, int rs, int rt) { TCGv t0, t1; if (rd == 0) { /* If no destination, treat it as a NOP. */ return; } t0 = tcg_temp_new(); t1 = tcg_temp_new(); gen_load_gpr(t0, rs); gen_load_gpr(t1, rt); switch (opc) { case OPC_SLT: tcg_gen_setcond_tl(TCG_COND_LT, cpu_gpr[rd], t0, t1); break; case OPC_SLTU: tcg_gen_setcond_tl(TCG_COND_LTU, cpu_gpr[rd], t0, t1); break; } } /* Shifts */ static void gen_shift(DisasContext *ctx, uint32_t opc, int rd, int rs, int rt) { TCGv t0, t1; if (rd == 0) { /* * If no destination, treat it as a NOP. * For add & sub, we must generate the overflow exception when needed. */ return; } t0 = tcg_temp_new(); t1 = tcg_temp_new(); gen_load_gpr(t0, rs); gen_load_gpr(t1, rt); switch (opc) { case OPC_SLLV: tcg_gen_andi_tl(t0, t0, 0x1f); tcg_gen_shl_tl(t0, t1, t0); tcg_gen_ext32s_tl(cpu_gpr[rd], t0); break; case OPC_SRAV: tcg_gen_andi_tl(t0, t0, 0x1f); tcg_gen_sar_tl(cpu_gpr[rd], t1, t0); break; case OPC_SRLV: tcg_gen_ext32u_tl(t1, t1); tcg_gen_andi_tl(t0, t0, 0x1f); tcg_gen_shr_tl(t0, t1, t0); tcg_gen_ext32s_tl(cpu_gpr[rd], t0); break; case OPC_ROTRV: { TCGv_i32 t2 = tcg_temp_new_i32(); TCGv_i32 t3 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(t2, t0); tcg_gen_trunc_tl_i32(t3, t1); tcg_gen_andi_i32(t2, t2, 0x1f); tcg_gen_rotr_i32(t2, t3, t2); tcg_gen_ext_i32_tl(cpu_gpr[rd], t2); } break; #if defined(TARGET_MIPS64) case OPC_DSLLV: tcg_gen_andi_tl(t0, t0, 0x3f); tcg_gen_shl_tl(cpu_gpr[rd], t1, t0); break; case OPC_DSRAV: tcg_gen_andi_tl(t0, t0, 0x3f); tcg_gen_sar_tl(cpu_gpr[rd], t1, t0); break; case OPC_DSRLV: tcg_gen_andi_tl(t0, t0, 0x3f); tcg_gen_shr_tl(cpu_gpr[rd], t1, t0); break; case OPC_DROTRV: tcg_gen_andi_tl(t0, t0, 0x3f); tcg_gen_rotr_tl(cpu_gpr[rd], t1, t0); break; #endif } } /* Arithmetic on HI/LO registers */ static void gen_HILO(DisasContext *ctx, uint32_t opc, int acc, int reg) { if (reg == 0 && (opc == OPC_MFHI || opc == OPC_MFLO)) { /* Treat as NOP. */ return; } if (acc != 0) { check_dsp(ctx); } switch (opc) { case OPC_MFHI: #if defined(TARGET_MIPS64) if (acc != 0) { tcg_gen_ext32s_tl(cpu_gpr[reg], cpu_HI[acc]); } else #endif { tcg_gen_mov_tl(cpu_gpr[reg], cpu_HI[acc]); } break; case OPC_MFLO: #if defined(TARGET_MIPS64) if (acc != 0) { tcg_gen_ext32s_tl(cpu_gpr[reg], cpu_LO[acc]); } else #endif { tcg_gen_mov_tl(cpu_gpr[reg], cpu_LO[acc]); } break; case OPC_MTHI: if (reg != 0) { #if defined(TARGET_MIPS64) if (acc != 0) { tcg_gen_ext32s_tl(cpu_HI[acc], cpu_gpr[reg]); } else #endif { tcg_gen_mov_tl(cpu_HI[acc], cpu_gpr[reg]); } } else { tcg_gen_movi_tl(cpu_HI[acc], 0); } break; case OPC_MTLO: if (reg != 0) { #if defined(TARGET_MIPS64) if (acc != 0) { tcg_gen_ext32s_tl(cpu_LO[acc], cpu_gpr[reg]); } else #endif { tcg_gen_mov_tl(cpu_LO[acc], cpu_gpr[reg]); } } else { tcg_gen_movi_tl(cpu_LO[acc], 0); } break; } } static inline void gen_r6_ld(target_long addr, int reg, int memidx, MemOp memop) { TCGv t0 = tcg_temp_new(); tcg_gen_qemu_ld_tl(t0, tcg_constant_tl(addr), memidx, memop); gen_store_gpr(t0, reg); } static inline void gen_pcrel(DisasContext *ctx, int opc, target_ulong pc, int rs) { target_long offset; target_long addr; switch (MASK_OPC_PCREL_TOP2BITS(opc)) { case OPC_ADDIUPC: if (rs != 0) { offset = sextract32(ctx->opcode << 2, 0, 21); addr = addr_add(ctx, pc, offset); tcg_gen_movi_tl(cpu_gpr[rs], addr); } break; case R6_OPC_LWPC: offset = sextract32(ctx->opcode << 2, 0, 21); addr = addr_add(ctx, pc, offset); gen_r6_ld(addr, rs, ctx->mem_idx, mo_endian(ctx) | MO_SL); break; #if defined(TARGET_MIPS64) case OPC_LWUPC: check_mips_64(ctx); offset = sextract32(ctx->opcode << 2, 0, 21); addr = addr_add(ctx, pc, offset); gen_r6_ld(addr, rs, ctx->mem_idx, mo_endian(ctx) | MO_UL); break; #endif default: switch (MASK_OPC_PCREL_TOP5BITS(opc)) { case OPC_AUIPC: if (rs != 0) { offset = sextract32(ctx->opcode, 0, 16) << 16; addr = addr_add(ctx, pc, offset); tcg_gen_movi_tl(cpu_gpr[rs], addr); } break; case OPC_ALUIPC: if (rs != 0) { offset = sextract32(ctx->opcode, 0, 16) << 16; addr = ~0xFFFF & addr_add(ctx, pc, offset); tcg_gen_movi_tl(cpu_gpr[rs], addr); } break; #if defined(TARGET_MIPS64) case R6_OPC_LDPC: /* bits 16 and 17 are part of immediate */ case R6_OPC_LDPC + (1 << 16): case R6_OPC_LDPC + (2 << 16): case R6_OPC_LDPC + (3 << 16): check_mips_64(ctx); offset = sextract32(ctx->opcode << 3, 0, 21); addr = addr_add(ctx, (pc & ~0x7), offset); gen_r6_ld(addr, rs, ctx->mem_idx, mo_endian(ctx) | MO_UQ); break; #endif default: MIPS_INVAL("OPC_PCREL"); gen_reserved_instruction(ctx); break; } break; } } static void gen_r6_muldiv(DisasContext *ctx, int opc, int rd, int rs, int rt) { TCGv t0, t1; if (rd == 0) { /* Treat as NOP. */ return; } t0 = tcg_temp_new(); t1 = tcg_temp_new(); gen_load_gpr(t0, rs); gen_load_gpr(t1, rt); switch (opc) { case R6_OPC_DIV: { TCGv t2 = tcg_temp_new(); TCGv t3 = tcg_temp_new(); tcg_gen_ext32s_tl(t0, t0); tcg_gen_ext32s_tl(t1, t1); tcg_gen_setcondi_tl(TCG_COND_EQ, t2, t0, INT_MIN); tcg_gen_setcondi_tl(TCG_COND_EQ, t3, t1, -1); tcg_gen_and_tl(t2, t2, t3); tcg_gen_setcondi_tl(TCG_COND_EQ, t3, t1, 0); tcg_gen_or_tl(t2, t2, t3); tcg_gen_movcond_tl(TCG_COND_NE, t1, t2, tcg_constant_tl(0), t2, t1); tcg_gen_div_tl(cpu_gpr[rd], t0, t1); tcg_gen_ext32s_tl(cpu_gpr[rd], cpu_gpr[rd]); } break; case R6_OPC_MOD: { TCGv t2 = tcg_temp_new(); TCGv t3 = tcg_temp_new(); tcg_gen_ext32s_tl(t0, t0); tcg_gen_ext32s_tl(t1, t1); tcg_gen_setcondi_tl(TCG_COND_EQ, t2, t0, INT_MIN); tcg_gen_setcondi_tl(TCG_COND_EQ, t3, t1, -1); tcg_gen_and_tl(t2, t2, t3); tcg_gen_setcondi_tl(TCG_COND_EQ, t3, t1, 0); tcg_gen_or_tl(t2, t2, t3); tcg_gen_movcond_tl(TCG_COND_NE, t1, t2, tcg_constant_tl(0), t2, t1); tcg_gen_rem_tl(cpu_gpr[rd], t0, t1); tcg_gen_ext32s_tl(cpu_gpr[rd], cpu_gpr[rd]); } break; case R6_OPC_DIVU: { tcg_gen_ext32u_tl(t0, t0); tcg_gen_ext32u_tl(t1, t1); tcg_gen_movcond_tl(TCG_COND_EQ, t1, t1, tcg_constant_tl(0), tcg_constant_tl(1), t1); tcg_gen_divu_tl(cpu_gpr[rd], t0, t1); tcg_gen_ext32s_tl(cpu_gpr[rd], cpu_gpr[rd]); } break; case R6_OPC_MODU: { tcg_gen_ext32u_tl(t0, t0); tcg_gen_ext32u_tl(t1, t1); tcg_gen_movcond_tl(TCG_COND_EQ, t1, t1, tcg_constant_tl(0), tcg_constant_tl(1), t1); tcg_gen_remu_tl(cpu_gpr[rd], t0, t1); tcg_gen_ext32s_tl(cpu_gpr[rd], cpu_gpr[rd]); } break; case R6_OPC_MUL: { TCGv_i32 t2 = tcg_temp_new_i32(); TCGv_i32 t3 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(t2, t0); tcg_gen_trunc_tl_i32(t3, t1); tcg_gen_mul_i32(t2, t2, t3); tcg_gen_ext_i32_tl(cpu_gpr[rd], t2); } break; case R6_OPC_MUH: { TCGv_i32 t2 = tcg_temp_new_i32(); TCGv_i32 t3 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(t2, t0); tcg_gen_trunc_tl_i32(t3, t1); tcg_gen_muls2_i32(t2, t3, t2, t3); tcg_gen_ext_i32_tl(cpu_gpr[rd], t3); } break; case R6_OPC_MULU: { TCGv_i32 t2 = tcg_temp_new_i32(); TCGv_i32 t3 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(t2, t0); tcg_gen_trunc_tl_i32(t3, t1); tcg_gen_mul_i32(t2, t2, t3); tcg_gen_ext_i32_tl(cpu_gpr[rd], t2); } break; case R6_OPC_MUHU: { TCGv_i32 t2 = tcg_temp_new_i32(); TCGv_i32 t3 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(t2, t0); tcg_gen_trunc_tl_i32(t3, t1); tcg_gen_mulu2_i32(t2, t3, t2, t3); tcg_gen_ext_i32_tl(cpu_gpr[rd], t3); } break; #if defined(TARGET_MIPS64) case R6_OPC_DDIV: { TCGv t2 = tcg_temp_new(); TCGv t3 = tcg_temp_new(); tcg_gen_setcondi_tl(TCG_COND_EQ, t2, t0, -1LL << 63); tcg_gen_setcondi_tl(TCG_COND_EQ, t3, t1, -1LL); tcg_gen_and_tl(t2, t2, t3); tcg_gen_setcondi_tl(TCG_COND_EQ, t3, t1, 0); tcg_gen_or_tl(t2, t2, t3); tcg_gen_movcond_tl(TCG_COND_NE, t1, t2, tcg_constant_tl(0), t2, t1); tcg_gen_div_tl(cpu_gpr[rd], t0, t1); } break; case R6_OPC_DMOD: { TCGv t2 = tcg_temp_new(); TCGv t3 = tcg_temp_new(); tcg_gen_setcondi_tl(TCG_COND_EQ, t2, t0, -1LL << 63); tcg_gen_setcondi_tl(TCG_COND_EQ, t3, t1, -1LL); tcg_gen_and_tl(t2, t2, t3); tcg_gen_setcondi_tl(TCG_COND_EQ, t3, t1, 0); tcg_gen_or_tl(t2, t2, t3); tcg_gen_movcond_tl(TCG_COND_NE, t1, t2, tcg_constant_tl(0), t2, t1); tcg_gen_rem_tl(cpu_gpr[rd], t0, t1); } break; case R6_OPC_DDIVU: { tcg_gen_movcond_tl(TCG_COND_EQ, t1, t1, tcg_constant_tl(0), tcg_constant_tl(1), t1); tcg_gen_divu_i64(cpu_gpr[rd], t0, t1); } break; case R6_OPC_DMODU: { tcg_gen_movcond_tl(TCG_COND_EQ, t1, t1, tcg_constant_tl(0), tcg_constant_tl(1), t1); tcg_gen_remu_i64(cpu_gpr[rd], t0, t1); } break; case R6_OPC_DMUL: tcg_gen_mul_i64(cpu_gpr[rd], t0, t1); break; case R6_OPC_DMUH: { TCGv t2 = tcg_temp_new(); tcg_gen_muls2_i64(t2, cpu_gpr[rd], t0, t1); } break; case R6_OPC_DMULU: tcg_gen_mul_i64(cpu_gpr[rd], t0, t1); break; case R6_OPC_DMUHU: { TCGv t2 = tcg_temp_new(); tcg_gen_mulu2_i64(t2, cpu_gpr[rd], t0, t1); } break; #endif default: MIPS_INVAL("r6 mul/div"); gen_reserved_instruction(ctx); break; } } #if defined(TARGET_MIPS64) static void gen_div1_tx79(DisasContext *ctx, uint32_t opc, int rs, int rt) { TCGv t0, t1; t0 = tcg_temp_new(); t1 = tcg_temp_new(); gen_load_gpr(t0, rs); gen_load_gpr(t1, rt); switch (opc) { case MMI_OPC_DIV1: { TCGv t2 = tcg_temp_new(); TCGv t3 = tcg_temp_new(); tcg_gen_ext32s_tl(t0, t0); tcg_gen_ext32s_tl(t1, t1); tcg_gen_setcondi_tl(TCG_COND_EQ, t2, t0, INT_MIN); tcg_gen_setcondi_tl(TCG_COND_EQ, t3, t1, -1); tcg_gen_and_tl(t2, t2, t3); tcg_gen_setcondi_tl(TCG_COND_EQ, t3, t1, 0); tcg_gen_or_tl(t2, t2, t3); tcg_gen_movcond_tl(TCG_COND_NE, t1, t2, tcg_constant_tl(0), t2, t1); tcg_gen_div_tl(cpu_LO[1], t0, t1); tcg_gen_rem_tl(cpu_HI[1], t0, t1); tcg_gen_ext32s_tl(cpu_LO[1], cpu_LO[1]); tcg_gen_ext32s_tl(cpu_HI[1], cpu_HI[1]); } break; case MMI_OPC_DIVU1: { TCGv t2 = tcg_constant_tl(0); TCGv t3 = tcg_constant_tl(1); tcg_gen_ext32u_tl(t0, t0); tcg_gen_ext32u_tl(t1, t1); tcg_gen_movcond_tl(TCG_COND_EQ, t1, t1, t2, t3, t1); tcg_gen_divu_tl(cpu_LO[1], t0, t1); tcg_gen_remu_tl(cpu_HI[1], t0, t1); tcg_gen_ext32s_tl(cpu_LO[1], cpu_LO[1]); tcg_gen_ext32s_tl(cpu_HI[1], cpu_HI[1]); } break; default: MIPS_INVAL("div1 TX79"); gen_reserved_instruction(ctx); break; } } #endif static void gen_muldiv(DisasContext *ctx, uint32_t opc, int acc, int rs, int rt) { TCGv t0, t1; t0 = tcg_temp_new(); t1 = tcg_temp_new(); gen_load_gpr(t0, rs); gen_load_gpr(t1, rt); if (acc != 0) { check_dsp(ctx); } switch (opc) { case OPC_DIV: { TCGv t2 = tcg_temp_new(); TCGv t3 = tcg_temp_new(); tcg_gen_ext32s_tl(t0, t0); tcg_gen_ext32s_tl(t1, t1); tcg_gen_setcondi_tl(TCG_COND_EQ, t2, t0, INT_MIN); tcg_gen_setcondi_tl(TCG_COND_EQ, t3, t1, -1); tcg_gen_and_tl(t2, t2, t3); tcg_gen_setcondi_tl(TCG_COND_EQ, t3, t1, 0); tcg_gen_or_tl(t2, t2, t3); tcg_gen_movcond_tl(TCG_COND_NE, t1, t2, tcg_constant_tl(0), t2, t1); tcg_gen_div_tl(cpu_LO[acc], t0, t1); tcg_gen_rem_tl(cpu_HI[acc], t0, t1); tcg_gen_ext32s_tl(cpu_LO[acc], cpu_LO[acc]); tcg_gen_ext32s_tl(cpu_HI[acc], cpu_HI[acc]); } break; case OPC_DIVU: { TCGv t2 = tcg_constant_tl(0); TCGv t3 = tcg_constant_tl(1); tcg_gen_ext32u_tl(t0, t0); tcg_gen_ext32u_tl(t1, t1); tcg_gen_movcond_tl(TCG_COND_EQ, t1, t1, t2, t3, t1); tcg_gen_divu_tl(cpu_LO[acc], t0, t1); tcg_gen_remu_tl(cpu_HI[acc], t0, t1); tcg_gen_ext32s_tl(cpu_LO[acc], cpu_LO[acc]); tcg_gen_ext32s_tl(cpu_HI[acc], cpu_HI[acc]); } break; case OPC_MULT: { TCGv_i32 t2 = tcg_temp_new_i32(); TCGv_i32 t3 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(t2, t0); tcg_gen_trunc_tl_i32(t3, t1); tcg_gen_muls2_i32(t2, t3, t2, t3); tcg_gen_ext_i32_tl(cpu_LO[acc], t2); tcg_gen_ext_i32_tl(cpu_HI[acc], t3); } break; case OPC_MULTU: { TCGv_i32 t2 = tcg_temp_new_i32(); TCGv_i32 t3 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(t2, t0); tcg_gen_trunc_tl_i32(t3, t1); tcg_gen_mulu2_i32(t2, t3, t2, t3); tcg_gen_ext_i32_tl(cpu_LO[acc], t2); tcg_gen_ext_i32_tl(cpu_HI[acc], t3); } break; #if defined(TARGET_MIPS64) case OPC_DDIV: { TCGv t2 = tcg_temp_new(); TCGv t3 = tcg_temp_new(); tcg_gen_setcondi_tl(TCG_COND_EQ, t2, t0, -1LL << 63); tcg_gen_setcondi_tl(TCG_COND_EQ, t3, t1, -1LL); tcg_gen_and_tl(t2, t2, t3); tcg_gen_setcondi_tl(TCG_COND_EQ, t3, t1, 0); tcg_gen_or_tl(t2, t2, t3); tcg_gen_movcond_tl(TCG_COND_NE, t1, t2, tcg_constant_tl(0), t2, t1); tcg_gen_div_tl(cpu_LO[acc], t0, t1); tcg_gen_rem_tl(cpu_HI[acc], t0, t1); } break; case OPC_DDIVU: { tcg_gen_movcond_tl(TCG_COND_EQ, t1, t1, tcg_constant_tl(0), tcg_constant_tl(1), t1); tcg_gen_divu_i64(cpu_LO[acc], t0, t1); tcg_gen_remu_i64(cpu_HI[acc], t0, t1); } break; case OPC_DMULT: tcg_gen_muls2_i64(cpu_LO[acc], cpu_HI[acc], t0, t1); break; case OPC_DMULTU: tcg_gen_mulu2_i64(cpu_LO[acc], cpu_HI[acc], t0, t1); break; #endif case OPC_MADD: { TCGv_i64 t2 = tcg_temp_new_i64(); TCGv_i64 t3 = tcg_temp_new_i64(); tcg_gen_ext_tl_i64(t2, t0); tcg_gen_ext_tl_i64(t3, t1); tcg_gen_mul_i64(t2, t2, t3); tcg_gen_concat_tl_i64(t3, cpu_LO[acc], cpu_HI[acc]); tcg_gen_add_i64(t2, t2, t3); gen_move_low32(cpu_LO[acc], t2); gen_move_high32(cpu_HI[acc], t2); } break; case OPC_MADDU: { TCGv_i64 t2 = tcg_temp_new_i64(); TCGv_i64 t3 = tcg_temp_new_i64(); tcg_gen_ext32u_tl(t0, t0); tcg_gen_ext32u_tl(t1, t1); tcg_gen_extu_tl_i64(t2, t0); tcg_gen_extu_tl_i64(t3, t1); tcg_gen_mul_i64(t2, t2, t3); tcg_gen_concat_tl_i64(t3, cpu_LO[acc], cpu_HI[acc]); tcg_gen_add_i64(t2, t2, t3); gen_move_low32(cpu_LO[acc], t2); gen_move_high32(cpu_HI[acc], t2); } break; case OPC_MSUB: { TCGv_i64 t2 = tcg_temp_new_i64(); TCGv_i64 t3 = tcg_temp_new_i64(); tcg_gen_ext_tl_i64(t2, t0); tcg_gen_ext_tl_i64(t3, t1); tcg_gen_mul_i64(t2, t2, t3); tcg_gen_concat_tl_i64(t3, cpu_LO[acc], cpu_HI[acc]); tcg_gen_sub_i64(t2, t3, t2); gen_move_low32(cpu_LO[acc], t2); gen_move_high32(cpu_HI[acc], t2); } break; case OPC_MSUBU: { TCGv_i64 t2 = tcg_temp_new_i64(); TCGv_i64 t3 = tcg_temp_new_i64(); tcg_gen_ext32u_tl(t0, t0); tcg_gen_ext32u_tl(t1, t1); tcg_gen_extu_tl_i64(t2, t0); tcg_gen_extu_tl_i64(t3, t1); tcg_gen_mul_i64(t2, t2, t3); tcg_gen_concat_tl_i64(t3, cpu_LO[acc], cpu_HI[acc]); tcg_gen_sub_i64(t2, t3, t2); gen_move_low32(cpu_LO[acc], t2); gen_move_high32(cpu_HI[acc], t2); } break; default: MIPS_INVAL("mul/div"); gen_reserved_instruction(ctx); break; } } /* * These MULT[U] and MADD[U] instructions implemented in for example * the Toshiba/Sony R5900 and the Toshiba TX19, TX39 and TX79 core * architectures are special three-operand variants with the syntax * * MULT[U][1] rd, rs, rt * * such that * * (rd, LO, HI) <- rs * rt * * and * * MADD[U][1] rd, rs, rt * * such that * * (rd, LO, HI) <- (LO, HI) + rs * rt * * where the low-order 32-bits of the result is placed into both the * GPR rd and the special register LO. The high-order 32-bits of the * result is placed into the special register HI. * * If the GPR rd is omitted in assembly language, it is taken to be 0, * which is the zero register that always reads as 0. */ static void gen_mul_txx9(DisasContext *ctx, uint32_t opc, int rd, int rs, int rt) { TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); int acc = 0; gen_load_gpr(t0, rs); gen_load_gpr(t1, rt); switch (opc) { case MMI_OPC_MULT1: acc = 1; /* Fall through */ case OPC_MULT: { TCGv_i32 t2 = tcg_temp_new_i32(); TCGv_i32 t3 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(t2, t0); tcg_gen_trunc_tl_i32(t3, t1); tcg_gen_muls2_i32(t2, t3, t2, t3); if (rd) { tcg_gen_ext_i32_tl(cpu_gpr[rd], t2); } tcg_gen_ext_i32_tl(cpu_LO[acc], t2); tcg_gen_ext_i32_tl(cpu_HI[acc], t3); } break; case MMI_OPC_MULTU1: acc = 1; /* Fall through */ case OPC_MULTU: { TCGv_i32 t2 = tcg_temp_new_i32(); TCGv_i32 t3 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(t2, t0); tcg_gen_trunc_tl_i32(t3, t1); tcg_gen_mulu2_i32(t2, t3, t2, t3); if (rd) { tcg_gen_ext_i32_tl(cpu_gpr[rd], t2); } tcg_gen_ext_i32_tl(cpu_LO[acc], t2); tcg_gen_ext_i32_tl(cpu_HI[acc], t3); } break; case MMI_OPC_MADD1: acc = 1; /* Fall through */ case MMI_OPC_MADD: { TCGv_i64 t2 = tcg_temp_new_i64(); TCGv_i64 t3 = tcg_temp_new_i64(); tcg_gen_ext_tl_i64(t2, t0); tcg_gen_ext_tl_i64(t3, t1); tcg_gen_mul_i64(t2, t2, t3); tcg_gen_concat_tl_i64(t3, cpu_LO[acc], cpu_HI[acc]); tcg_gen_add_i64(t2, t2, t3); gen_move_low32(cpu_LO[acc], t2); gen_move_high32(cpu_HI[acc], t2); if (rd) { gen_move_low32(cpu_gpr[rd], t2); } } break; case MMI_OPC_MADDU1: acc = 1; /* Fall through */ case MMI_OPC_MADDU: { TCGv_i64 t2 = tcg_temp_new_i64(); TCGv_i64 t3 = tcg_temp_new_i64(); tcg_gen_ext32u_tl(t0, t0); tcg_gen_ext32u_tl(t1, t1); tcg_gen_extu_tl_i64(t2, t0); tcg_gen_extu_tl_i64(t3, t1); tcg_gen_mul_i64(t2, t2, t3); tcg_gen_concat_tl_i64(t3, cpu_LO[acc], cpu_HI[acc]); tcg_gen_add_i64(t2, t2, t3); gen_move_low32(cpu_LO[acc], t2); gen_move_high32(cpu_HI[acc], t2); if (rd) { gen_move_low32(cpu_gpr[rd], t2); } } break; default: MIPS_INVAL("mul/madd TXx9"); gen_reserved_instruction(ctx); break; } } static void gen_cl(DisasContext *ctx, uint32_t opc, int rd, int rs) { TCGv t0; if (rd == 0) { /* Treat as NOP. */ return; } t0 = cpu_gpr[rd]; gen_load_gpr(t0, rs); switch (opc) { case OPC_CLO: case R6_OPC_CLO: #if defined(TARGET_MIPS64) case OPC_DCLO: case R6_OPC_DCLO: #endif tcg_gen_not_tl(t0, t0); break; } switch (opc) { case OPC_CLO: case R6_OPC_CLO: case OPC_CLZ: case R6_OPC_CLZ: tcg_gen_ext32u_tl(t0, t0); tcg_gen_clzi_tl(t0, t0, TARGET_LONG_BITS); tcg_gen_subi_tl(t0, t0, TARGET_LONG_BITS - 32); break; #if defined(TARGET_MIPS64) case OPC_DCLO: case R6_OPC_DCLO: case OPC_DCLZ: case R6_OPC_DCLZ: tcg_gen_clzi_i64(t0, t0, 64); break; #endif } } /* Godson integer instructions */ static void gen_loongson_integer(DisasContext *ctx, uint32_t opc, int rd, int rs, int rt) { TCGv t0, t1; if (rd == 0) { /* Treat as NOP. */ return; } t0 = tcg_temp_new(); t1 = tcg_temp_new(); gen_load_gpr(t0, rs); gen_load_gpr(t1, rt); switch (opc) { case OPC_MULT_G_2E: case OPC_MULT_G_2F: tcg_gen_mul_tl(cpu_gpr[rd], t0, t1); tcg_gen_ext32s_tl(cpu_gpr[rd], cpu_gpr[rd]); break; case OPC_MULTU_G_2E: case OPC_MULTU_G_2F: tcg_gen_ext32u_tl(t0, t0); tcg_gen_ext32u_tl(t1, t1); tcg_gen_mul_tl(cpu_gpr[rd], t0, t1); tcg_gen_ext32s_tl(cpu_gpr[rd], cpu_gpr[rd]); break; case OPC_DIV_G_2E: case OPC_DIV_G_2F: { TCGLabel *l1 = gen_new_label(); TCGLabel *l2 = gen_new_label(); TCGLabel *l3 = gen_new_label(); tcg_gen_ext32s_tl(t0, t0); tcg_gen_ext32s_tl(t1, t1); tcg_gen_brcondi_tl(TCG_COND_NE, t1, 0, l1); tcg_gen_movi_tl(cpu_gpr[rd], 0); tcg_gen_br(l3); gen_set_label(l1); tcg_gen_brcondi_tl(TCG_COND_NE, t0, INT_MIN, l2); tcg_gen_brcondi_tl(TCG_COND_NE, t1, -1, l2); tcg_gen_mov_tl(cpu_gpr[rd], t0); tcg_gen_br(l3); gen_set_label(l2); tcg_gen_div_tl(cpu_gpr[rd], t0, t1); tcg_gen_ext32s_tl(cpu_gpr[rd], cpu_gpr[rd]); gen_set_label(l3); } break; case OPC_DIVU_G_2E: case OPC_DIVU_G_2F: { TCGLabel *l1 = gen_new_label(); TCGLabel *l2 = gen_new_label(); tcg_gen_ext32u_tl(t0, t0); tcg_gen_ext32u_tl(t1, t1); tcg_gen_brcondi_tl(TCG_COND_NE, t1, 0, l1); tcg_gen_movi_tl(cpu_gpr[rd], 0); tcg_gen_br(l2); gen_set_label(l1); tcg_gen_divu_tl(cpu_gpr[rd], t0, t1); tcg_gen_ext32s_tl(cpu_gpr[rd], cpu_gpr[rd]); gen_set_label(l2); } break; case OPC_MOD_G_2E: case OPC_MOD_G_2F: { TCGLabel *l1 = gen_new_label(); TCGLabel *l2 = gen_new_label(); TCGLabel *l3 = gen_new_label(); tcg_gen_ext32u_tl(t0, t0); tcg_gen_ext32u_tl(t1, t1); tcg_gen_brcondi_tl(TCG_COND_EQ, t1, 0, l1); tcg_gen_brcondi_tl(TCG_COND_NE, t0, INT_MIN, l2); tcg_gen_brcondi_tl(TCG_COND_NE, t1, -1, l2); gen_set_label(l1); tcg_gen_movi_tl(cpu_gpr[rd], 0); tcg_gen_br(l3); gen_set_label(l2); tcg_gen_rem_tl(cpu_gpr[rd], t0, t1); tcg_gen_ext32s_tl(cpu_gpr[rd], cpu_gpr[rd]); gen_set_label(l3); } break; case OPC_MODU_G_2E: case OPC_MODU_G_2F: { TCGLabel *l1 = gen_new_label(); TCGLabel *l2 = gen_new_label(); tcg_gen_ext32u_tl(t0, t0); tcg_gen_ext32u_tl(t1, t1); tcg_gen_brcondi_tl(TCG_COND_NE, t1, 0, l1); tcg_gen_movi_tl(cpu_gpr[rd], 0); tcg_gen_br(l2); gen_set_label(l1); tcg_gen_remu_tl(cpu_gpr[rd], t0, t1); tcg_gen_ext32s_tl(cpu_gpr[rd], cpu_gpr[rd]); gen_set_label(l2); } break; #if defined(TARGET_MIPS64) case OPC_DMULT_G_2E: case OPC_DMULT_G_2F: tcg_gen_mul_tl(cpu_gpr[rd], t0, t1); break; case OPC_DMULTU_G_2E: case OPC_DMULTU_G_2F: tcg_gen_mul_tl(cpu_gpr[rd], t0, t1); break; case OPC_DDIV_G_2E: case OPC_DDIV_G_2F: { TCGLabel *l1 = gen_new_label(); TCGLabel *l2 = gen_new_label(); TCGLabel *l3 = gen_new_label(); tcg_gen_brcondi_tl(TCG_COND_NE, t1, 0, l1); tcg_gen_movi_tl(cpu_gpr[rd], 0); tcg_gen_br(l3); gen_set_label(l1); tcg_gen_brcondi_tl(TCG_COND_NE, t0, -1LL << 63, l2); tcg_gen_brcondi_tl(TCG_COND_NE, t1, -1LL, l2); tcg_gen_mov_tl(cpu_gpr[rd], t0); tcg_gen_br(l3); gen_set_label(l2); tcg_gen_div_tl(cpu_gpr[rd], t0, t1); gen_set_label(l3); } break; case OPC_DDIVU_G_2E: case OPC_DDIVU_G_2F: { TCGLabel *l1 = gen_new_label(); TCGLabel *l2 = gen_new_label(); tcg_gen_brcondi_tl(TCG_COND_NE, t1, 0, l1); tcg_gen_movi_tl(cpu_gpr[rd], 0); tcg_gen_br(l2); gen_set_label(l1); tcg_gen_divu_tl(cpu_gpr[rd], t0, t1); gen_set_label(l2); } break; case OPC_DMOD_G_2E: case OPC_DMOD_G_2F: { TCGLabel *l1 = gen_new_label(); TCGLabel *l2 = gen_new_label(); TCGLabel *l3 = gen_new_label(); tcg_gen_brcondi_tl(TCG_COND_EQ, t1, 0, l1); tcg_gen_brcondi_tl(TCG_COND_NE, t0, -1LL << 63, l2); tcg_gen_brcondi_tl(TCG_COND_NE, t1, -1LL, l2); gen_set_label(l1); tcg_gen_movi_tl(cpu_gpr[rd], 0); tcg_gen_br(l3); gen_set_label(l2); tcg_gen_rem_tl(cpu_gpr[rd], t0, t1); gen_set_label(l3); } break; case OPC_DMODU_G_2E: case OPC_DMODU_G_2F: { TCGLabel *l1 = gen_new_label(); TCGLabel *l2 = gen_new_label(); tcg_gen_brcondi_tl(TCG_COND_NE, t1, 0, l1); tcg_gen_movi_tl(cpu_gpr[rd], 0); tcg_gen_br(l2); gen_set_label(l1); tcg_gen_remu_tl(cpu_gpr[rd], t0, t1); gen_set_label(l2); } break; #endif } } /* Loongson multimedia instructions */ static void gen_loongson_multimedia(DisasContext *ctx, int rd, int rs, int rt) { uint32_t opc, shift_max; TCGv_i64 t0, t1; TCGCond cond; opc = MASK_LMMI(ctx->opcode); check_cp1_enabled(ctx); t0 = tcg_temp_new_i64(); t1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, t0, rs); gen_load_fpr64(ctx, t1, rt); switch (opc) { case OPC_PADDSH: gen_helper_paddsh(t0, t0, t1); break; case OPC_PADDUSH: gen_helper_paddush(t0, t0, t1); break; case OPC_PADDH: gen_helper_paddh(t0, t0, t1); break; case OPC_PADDW: gen_helper_paddw(t0, t0, t1); break; case OPC_PADDSB: gen_helper_paddsb(t0, t0, t1); break; case OPC_PADDUSB: gen_helper_paddusb(t0, t0, t1); break; case OPC_PADDB: gen_helper_paddb(t0, t0, t1); break; case OPC_PSUBSH: gen_helper_psubsh(t0, t0, t1); break; case OPC_PSUBUSH: gen_helper_psubush(t0, t0, t1); break; case OPC_PSUBH: gen_helper_psubh(t0, t0, t1); break; case OPC_PSUBW: gen_helper_psubw(t0, t0, t1); break; case OPC_PSUBSB: gen_helper_psubsb(t0, t0, t1); break; case OPC_PSUBUSB: gen_helper_psubusb(t0, t0, t1); break; case OPC_PSUBB: gen_helper_psubb(t0, t0, t1); break; case OPC_PSHUFH: gen_helper_pshufh(t0, t0, t1); break; case OPC_PACKSSWH: gen_helper_packsswh(t0, t0, t1); break; case OPC_PACKSSHB: gen_helper_packsshb(t0, t0, t1); break; case OPC_PACKUSHB: gen_helper_packushb(t0, t0, t1); break; case OPC_PUNPCKLHW: gen_helper_punpcklhw(t0, t0, t1); break; case OPC_PUNPCKHHW: gen_helper_punpckhhw(t0, t0, t1); break; case OPC_PUNPCKLBH: gen_helper_punpcklbh(t0, t0, t1); break; case OPC_PUNPCKHBH: gen_helper_punpckhbh(t0, t0, t1); break; case OPC_PUNPCKLWD: gen_helper_punpcklwd(t0, t0, t1); break; case OPC_PUNPCKHWD: gen_helper_punpckhwd(t0, t0, t1); break; case OPC_PAVGH: gen_helper_pavgh(t0, t0, t1); break; case OPC_PAVGB: gen_helper_pavgb(t0, t0, t1); break; case OPC_PMAXSH: gen_helper_pmaxsh(t0, t0, t1); break; case OPC_PMINSH: gen_helper_pminsh(t0, t0, t1); break; case OPC_PMAXUB: gen_helper_pmaxub(t0, t0, t1); break; case OPC_PMINUB: gen_helper_pminub(t0, t0, t1); break; case OPC_PCMPEQW: gen_helper_pcmpeqw(t0, t0, t1); break; case OPC_PCMPGTW: gen_helper_pcmpgtw(t0, t0, t1); break; case OPC_PCMPEQH: gen_helper_pcmpeqh(t0, t0, t1); break; case OPC_PCMPGTH: gen_helper_pcmpgth(t0, t0, t1); break; case OPC_PCMPEQB: gen_helper_pcmpeqb(t0, t0, t1); break; case OPC_PCMPGTB: gen_helper_pcmpgtb(t0, t0, t1); break; case OPC_PSLLW: gen_helper_psllw(t0, t0, t1); break; case OPC_PSLLH: gen_helper_psllh(t0, t0, t1); break; case OPC_PSRLW: gen_helper_psrlw(t0, t0, t1); break; case OPC_PSRLH: gen_helper_psrlh(t0, t0, t1); break; case OPC_PSRAW: gen_helper_psraw(t0, t0, t1); break; case OPC_PSRAH: gen_helper_psrah(t0, t0, t1); break; case OPC_PMULLH: gen_helper_pmullh(t0, t0, t1); break; case OPC_PMULHH: gen_helper_pmulhh(t0, t0, t1); break; case OPC_PMULHUH: gen_helper_pmulhuh(t0, t0, t1); break; case OPC_PMADDHW: gen_helper_pmaddhw(t0, t0, t1); break; case OPC_PASUBUB: gen_helper_pasubub(t0, t0, t1); break; case OPC_BIADD: gen_helper_biadd(t0, t0); break; case OPC_PMOVMSKB: gen_helper_pmovmskb(t0, t0); break; case OPC_PADDD: tcg_gen_add_i64(t0, t0, t1); break; case OPC_PSUBD: tcg_gen_sub_i64(t0, t0, t1); break; case OPC_XOR_CP2: tcg_gen_xor_i64(t0, t0, t1); break; case OPC_NOR_CP2: tcg_gen_nor_i64(t0, t0, t1); break; case OPC_AND_CP2: tcg_gen_and_i64(t0, t0, t1); break; case OPC_OR_CP2: tcg_gen_or_i64(t0, t0, t1); break; case OPC_PANDN: tcg_gen_andc_i64(t0, t1, t0); break; case OPC_PINSRH_0: tcg_gen_deposit_i64(t0, t0, t1, 0, 16); break; case OPC_PINSRH_1: tcg_gen_deposit_i64(t0, t0, t1, 16, 16); break; case OPC_PINSRH_2: tcg_gen_deposit_i64(t0, t0, t1, 32, 16); break; case OPC_PINSRH_3: tcg_gen_deposit_i64(t0, t0, t1, 48, 16); break; case OPC_PEXTRH: tcg_gen_andi_i64(t1, t1, 3); tcg_gen_shli_i64(t1, t1, 4); tcg_gen_shr_i64(t0, t0, t1); tcg_gen_ext16u_i64(t0, t0); break; case OPC_ADDU_CP2: tcg_gen_add_i64(t0, t0, t1); tcg_gen_ext32s_i64(t0, t0); break; case OPC_SUBU_CP2: tcg_gen_sub_i64(t0, t0, t1); tcg_gen_ext32s_i64(t0, t0); break; case OPC_SLL_CP2: shift_max = 32; goto do_shift; case OPC_SRL_CP2: shift_max = 32; goto do_shift; case OPC_SRA_CP2: shift_max = 32; goto do_shift; case OPC_DSLL_CP2: shift_max = 64; goto do_shift; case OPC_DSRL_CP2: shift_max = 64; goto do_shift; case OPC_DSRA_CP2: shift_max = 64; goto do_shift; do_shift: /* Make sure shift count isn't TCG undefined behaviour. */ tcg_gen_andi_i64(t1, t1, shift_max - 1); switch (opc) { case OPC_SLL_CP2: case OPC_DSLL_CP2: tcg_gen_shl_i64(t0, t0, t1); break; case OPC_SRA_CP2: case OPC_DSRA_CP2: /* * Since SRA is UndefinedResult without sign-extended inputs, * we can treat SRA and DSRA the same. */ tcg_gen_sar_i64(t0, t0, t1); break; case OPC_SRL_CP2: /* We want to shift in zeros for SRL; zero-extend first. */ tcg_gen_ext32u_i64(t0, t0); /* FALLTHRU */ case OPC_DSRL_CP2: tcg_gen_shr_i64(t0, t0, t1); break; } if (shift_max == 32) { tcg_gen_ext32s_i64(t0, t0); } /* Shifts larger than MAX produce zero. */ tcg_gen_setcondi_i64(TCG_COND_LTU, t1, t1, shift_max); tcg_gen_neg_i64(t1, t1); tcg_gen_and_i64(t0, t0, t1); break; case OPC_ADD_CP2: case OPC_DADD_CP2: { TCGv_i64 t2 = tcg_temp_new_i64(); TCGLabel *lab = gen_new_label(); tcg_gen_mov_i64(t2, t0); tcg_gen_add_i64(t0, t1, t2); if (opc == OPC_ADD_CP2) { tcg_gen_ext32s_i64(t0, t0); } tcg_gen_xor_i64(t1, t1, t2); tcg_gen_xor_i64(t2, t2, t0); tcg_gen_andc_i64(t1, t2, t1); tcg_gen_brcondi_i64(TCG_COND_GE, t1, 0, lab); generate_exception(ctx, EXCP_OVERFLOW); gen_set_label(lab); break; } case OPC_SUB_CP2: case OPC_DSUB_CP2: { TCGv_i64 t2 = tcg_temp_new_i64(); TCGLabel *lab = gen_new_label(); tcg_gen_mov_i64(t2, t0); tcg_gen_sub_i64(t0, t1, t2); if (opc == OPC_SUB_CP2) { tcg_gen_ext32s_i64(t0, t0); } tcg_gen_xor_i64(t1, t1, t2); tcg_gen_xor_i64(t2, t2, t0); tcg_gen_and_i64(t1, t1, t2); tcg_gen_brcondi_i64(TCG_COND_GE, t1, 0, lab); generate_exception(ctx, EXCP_OVERFLOW); gen_set_label(lab); break; } case OPC_PMULUW: tcg_gen_ext32u_i64(t0, t0); tcg_gen_ext32u_i64(t1, t1); tcg_gen_mul_i64(t0, t0, t1); break; case OPC_SEQU_CP2: case OPC_SEQ_CP2: cond = TCG_COND_EQ; goto do_cc_cond; break; case OPC_SLTU_CP2: cond = TCG_COND_LTU; goto do_cc_cond; break; case OPC_SLT_CP2: cond = TCG_COND_LT; goto do_cc_cond; break; case OPC_SLEU_CP2: cond = TCG_COND_LEU; goto do_cc_cond; break; case OPC_SLE_CP2: cond = TCG_COND_LE; do_cc_cond: { int cc = (ctx->opcode >> 8) & 0x7; TCGv_i64 t64 = tcg_temp_new_i64(); TCGv_i32 t32 = tcg_temp_new_i32(); tcg_gen_setcond_i64(cond, t64, t0, t1); tcg_gen_extrl_i64_i32(t32, t64); tcg_gen_deposit_i32(fpu_fcr31, fpu_fcr31, t32, get_fp_bit(cc), 1); } return; default: MIPS_INVAL("loongson_cp2"); gen_reserved_instruction(ctx); return; } gen_store_fpr64(ctx, t0, rd); } static void gen_loongson_lswc2(DisasContext *ctx, int rt, int rs, int rd) { TCGv t0, t1; TCGv_i32 fp0; #if defined(TARGET_MIPS64) int lsq_rt1 = ctx->opcode & 0x1f; int lsq_offset = sextract32(ctx->opcode, 6, 9) << 4; #endif int shf_offset = sextract32(ctx->opcode, 6, 8); t0 = tcg_temp_new(); switch (MASK_LOONGSON_GSLSQ(ctx->opcode)) { #if defined(TARGET_MIPS64) case OPC_GSLQ: t1 = tcg_temp_new(); gen_base_offset_addr(ctx, t0, rs, lsq_offset); tcg_gen_qemu_ld_tl(t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); gen_base_offset_addr(ctx, t0, rs, lsq_offset + 8); tcg_gen_qemu_ld_tl(t0, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); gen_store_gpr(t1, rt); gen_store_gpr(t0, lsq_rt1); break; case OPC_GSLQC1: check_cp1_enabled(ctx); t1 = tcg_temp_new(); gen_base_offset_addr(ctx, t0, rs, lsq_offset); tcg_gen_qemu_ld_tl(t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); gen_base_offset_addr(ctx, t0, rs, lsq_offset + 8); tcg_gen_qemu_ld_tl(t0, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); gen_store_fpr64(ctx, t1, rt); gen_store_fpr64(ctx, t0, lsq_rt1); break; case OPC_GSSQ: t1 = tcg_temp_new(); gen_base_offset_addr(ctx, t0, rs, lsq_offset); gen_load_gpr(t1, rt); tcg_gen_qemu_st_tl(t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); gen_base_offset_addr(ctx, t0, rs, lsq_offset + 8); gen_load_gpr(t1, lsq_rt1); tcg_gen_qemu_st_tl(t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); break; case OPC_GSSQC1: check_cp1_enabled(ctx); t1 = tcg_temp_new(); gen_base_offset_addr(ctx, t0, rs, lsq_offset); gen_load_fpr64(ctx, t1, rt); tcg_gen_qemu_st_tl(t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); gen_base_offset_addr(ctx, t0, rs, lsq_offset + 8); gen_load_fpr64(ctx, t1, lsq_rt1); tcg_gen_qemu_st_tl(t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); break; #endif case OPC_GSSHFL: switch (MASK_LOONGSON_GSSHFLS(ctx->opcode)) { case OPC_GSLWLC1: check_cp1_enabled(ctx); gen_base_offset_addr(ctx, t0, rs, shf_offset); fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, rt); t1 = tcg_temp_new(); tcg_gen_ext_i32_tl(t1, fp0); gen_lxl(ctx, t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_UL); tcg_gen_trunc_tl_i32(fp0, t1); gen_store_fpr32(ctx, fp0, rt); break; case OPC_GSLWRC1: check_cp1_enabled(ctx); gen_base_offset_addr(ctx, t0, rs, shf_offset); fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, rt); t1 = tcg_temp_new(); tcg_gen_ext_i32_tl(t1, fp0); gen_lxr(ctx, t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_UL); tcg_gen_trunc_tl_i32(fp0, t1); gen_store_fpr32(ctx, fp0, rt); break; #if defined(TARGET_MIPS64) case OPC_GSLDLC1: check_cp1_enabled(ctx); gen_base_offset_addr(ctx, t0, rs, shf_offset); t1 = tcg_temp_new(); gen_load_fpr64(ctx, t1, rt); gen_lxl(ctx, t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ); gen_store_fpr64(ctx, t1, rt); break; case OPC_GSLDRC1: check_cp1_enabled(ctx); gen_base_offset_addr(ctx, t0, rs, shf_offset); t1 = tcg_temp_new(); gen_load_fpr64(ctx, t1, rt); gen_lxr(ctx, t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ); gen_store_fpr64(ctx, t1, rt); break; #endif default: MIPS_INVAL("loongson_gsshfl"); gen_reserved_instruction(ctx); break; } break; case OPC_GSSHFS: switch (MASK_LOONGSON_GSSHFLS(ctx->opcode)) { case OPC_GSSWLC1: check_cp1_enabled(ctx); t1 = tcg_temp_new(); gen_base_offset_addr(ctx, t0, rs, shf_offset); fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, rt); tcg_gen_ext_i32_tl(t1, fp0); gen_helper_0e2i(swl, t1, t0, ctx->mem_idx); break; case OPC_GSSWRC1: check_cp1_enabled(ctx); t1 = tcg_temp_new(); gen_base_offset_addr(ctx, t0, rs, shf_offset); fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, rt); tcg_gen_ext_i32_tl(t1, fp0); gen_helper_0e2i(swr, t1, t0, ctx->mem_idx); break; #if defined(TARGET_MIPS64) case OPC_GSSDLC1: check_cp1_enabled(ctx); t1 = tcg_temp_new(); gen_base_offset_addr(ctx, t0, rs, shf_offset); gen_load_fpr64(ctx, t1, rt); gen_helper_0e2i(sdl, t1, t0, ctx->mem_idx); break; case OPC_GSSDRC1: check_cp1_enabled(ctx); t1 = tcg_temp_new(); gen_base_offset_addr(ctx, t0, rs, shf_offset); gen_load_fpr64(ctx, t1, rt); gen_helper_0e2i(sdr, t1, t0, ctx->mem_idx); break; #endif default: MIPS_INVAL("loongson_gsshfs"); gen_reserved_instruction(ctx); break; } break; default: MIPS_INVAL("loongson_gslsq"); gen_reserved_instruction(ctx); break; } } /* Loongson EXT LDC2/SDC2 */ static void gen_loongson_lsdc2(DisasContext *ctx, int rt, int rs, int rd) { int offset = sextract32(ctx->opcode, 3, 8); uint32_t opc = MASK_LOONGSON_LSDC2(ctx->opcode); TCGv t0, t1; TCGv_i32 fp0; /* Pre-conditions */ switch (opc) { case OPC_GSLBX: case OPC_GSLHX: case OPC_GSLWX: case OPC_GSLDX: /* prefetch, implement as NOP */ if (rt == 0) { return; } break; case OPC_GSSBX: case OPC_GSSHX: case OPC_GSSWX: case OPC_GSSDX: break; case OPC_GSLWXC1: #if defined(TARGET_MIPS64) case OPC_GSLDXC1: #endif check_cp1_enabled(ctx); /* prefetch, implement as NOP */ if (rt == 0) { return; } break; case OPC_GSSWXC1: #if defined(TARGET_MIPS64) case OPC_GSSDXC1: #endif check_cp1_enabled(ctx); break; default: MIPS_INVAL("loongson_lsdc2"); gen_reserved_instruction(ctx); return; break; } t0 = tcg_temp_new(); gen_base_offset_addr(ctx, t0, rs, offset); gen_op_addr_add(ctx, t0, cpu_gpr[rd], t0); switch (opc) { case OPC_GSLBX: tcg_gen_qemu_ld_tl(t0, t0, ctx->mem_idx, MO_SB); gen_store_gpr(t0, rt); break; case OPC_GSLHX: tcg_gen_qemu_ld_tl(t0, t0, ctx->mem_idx, mo_endian(ctx) | MO_SW | ctx->default_tcg_memop_mask); gen_store_gpr(t0, rt); break; case OPC_GSLWX: gen_base_offset_addr(ctx, t0, rs, offset); if (rd) { gen_op_addr_add(ctx, t0, cpu_gpr[rd], t0); } tcg_gen_qemu_ld_tl(t0, t0, ctx->mem_idx, mo_endian(ctx) | MO_SL | ctx->default_tcg_memop_mask); gen_store_gpr(t0, rt); break; #if defined(TARGET_MIPS64) case OPC_GSLDX: gen_base_offset_addr(ctx, t0, rs, offset); if (rd) { gen_op_addr_add(ctx, t0, cpu_gpr[rd], t0); } tcg_gen_qemu_ld_tl(t0, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); gen_store_gpr(t0, rt); break; #endif case OPC_GSLWXC1: gen_base_offset_addr(ctx, t0, rs, offset); if (rd) { gen_op_addr_add(ctx, t0, cpu_gpr[rd], t0); } fp0 = tcg_temp_new_i32(); tcg_gen_qemu_ld_i32(fp0, t0, ctx->mem_idx, mo_endian(ctx) | MO_SL | ctx->default_tcg_memop_mask); gen_store_fpr32(ctx, fp0, rt); break; #if defined(TARGET_MIPS64) case OPC_GSLDXC1: gen_base_offset_addr(ctx, t0, rs, offset); if (rd) { gen_op_addr_add(ctx, t0, cpu_gpr[rd], t0); } tcg_gen_qemu_ld_tl(t0, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); gen_store_fpr64(ctx, t0, rt); break; #endif case OPC_GSSBX: t1 = tcg_temp_new(); gen_load_gpr(t1, rt); tcg_gen_qemu_st_tl(t1, t0, ctx->mem_idx, MO_SB); break; case OPC_GSSHX: t1 = tcg_temp_new(); gen_load_gpr(t1, rt); tcg_gen_qemu_st_tl(t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_UW | ctx->default_tcg_memop_mask); break; case OPC_GSSWX: t1 = tcg_temp_new(); gen_load_gpr(t1, rt); tcg_gen_qemu_st_tl(t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_UL | ctx->default_tcg_memop_mask); break; #if defined(TARGET_MIPS64) case OPC_GSSDX: t1 = tcg_temp_new(); gen_load_gpr(t1, rt); tcg_gen_qemu_st_tl(t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); break; #endif case OPC_GSSWXC1: fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, rt); tcg_gen_qemu_st_i32(fp0, t0, ctx->mem_idx, mo_endian(ctx) | MO_UL | ctx->default_tcg_memop_mask); break; #if defined(TARGET_MIPS64) case OPC_GSSDXC1: t1 = tcg_temp_new(); gen_load_fpr64(ctx, t1, rt); tcg_gen_qemu_st_i64(t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ | ctx->default_tcg_memop_mask); break; #endif default: break; } } /* Traps */ static void gen_trap(DisasContext *ctx, uint32_t opc, int rs, int rt, int16_t imm, int code) { int cond; TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); cond = 0; /* Load needed operands */ switch (opc) { case OPC_TEQ: case OPC_TGE: case OPC_TGEU: case OPC_TLT: case OPC_TLTU: case OPC_TNE: /* Compare two registers */ if (rs != rt) { gen_load_gpr(t0, rs); gen_load_gpr(t1, rt); cond = 1; } break; case OPC_TEQI: case OPC_TGEI: case OPC_TGEIU: case OPC_TLTI: case OPC_TLTIU: case OPC_TNEI: /* Compare register to immediate */ if (rs != 0 || imm != 0) { gen_load_gpr(t0, rs); tcg_gen_movi_tl(t1, (int32_t)imm); cond = 1; } break; } if (cond == 0) { switch (opc) { case OPC_TEQ: /* rs == rs */ case OPC_TEQI: /* r0 == 0 */ case OPC_TGE: /* rs >= rs */ case OPC_TGEI: /* r0 >= 0 */ case OPC_TGEU: /* rs >= rs unsigned */ case OPC_TGEIU: /* r0 >= 0 unsigned */ /* Always trap */ #ifdef CONFIG_USER_ONLY /* Pass the break code along to cpu_loop. */ tcg_gen_st_i32(tcg_constant_i32(code), tcg_env, offsetof(CPUMIPSState, error_code)); #endif generate_exception_end(ctx, EXCP_TRAP); break; case OPC_TLT: /* rs < rs */ case OPC_TLTI: /* r0 < 0 */ case OPC_TLTU: /* rs < rs unsigned */ case OPC_TLTIU: /* r0 < 0 unsigned */ case OPC_TNE: /* rs != rs */ case OPC_TNEI: /* r0 != 0 */ /* Never trap: treat as NOP. */ break; } } else { TCGLabel *l1 = gen_new_label(); switch (opc) { case OPC_TEQ: case OPC_TEQI: tcg_gen_brcond_tl(TCG_COND_NE, t0, t1, l1); break; case OPC_TGE: case OPC_TGEI: tcg_gen_brcond_tl(TCG_COND_LT, t0, t1, l1); break; case OPC_TGEU: case OPC_TGEIU: tcg_gen_brcond_tl(TCG_COND_LTU, t0, t1, l1); break; case OPC_TLT: case OPC_TLTI: tcg_gen_brcond_tl(TCG_COND_GE, t0, t1, l1); break; case OPC_TLTU: case OPC_TLTIU: tcg_gen_brcond_tl(TCG_COND_GEU, t0, t1, l1); break; case OPC_TNE: case OPC_TNEI: tcg_gen_brcond_tl(TCG_COND_EQ, t0, t1, l1); break; } #ifdef CONFIG_USER_ONLY /* Pass the break code along to cpu_loop. */ tcg_gen_st_i32(tcg_constant_i32(code), tcg_env, offsetof(CPUMIPSState, error_code)); #endif /* Like save_cpu_state, only don't update saved values. */ if (ctx->base.pc_next != ctx->saved_pc) { gen_save_pc(ctx->base.pc_next); } if (ctx->hflags != ctx->saved_hflags) { tcg_gen_movi_i32(hflags, ctx->hflags); } generate_exception(ctx, EXCP_TRAP); gen_set_label(l1); } } static void gen_goto_tb(DisasContext *ctx, int n, target_ulong dest) { if (translator_use_goto_tb(&ctx->base, dest)) { tcg_gen_goto_tb(n); gen_save_pc(dest); tcg_gen_exit_tb(ctx->base.tb, n); } else { gen_save_pc(dest); tcg_gen_lookup_and_goto_ptr(); } } /* Branches (before delay slot) */ static void gen_compute_branch(DisasContext *ctx, uint32_t opc, int insn_bytes, int rs, int rt, int32_t offset, int delayslot_size) { target_ulong btgt = -1; int blink = 0; int bcond_compute = 0; TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); if (ctx->hflags & MIPS_HFLAG_BMASK) { #ifdef MIPS_DEBUG_DISAS LOG_DISAS("Branch in delay / forbidden slot at PC 0x%016" VADDR_PRIx "\n", ctx->base.pc_next); #endif gen_reserved_instruction(ctx); goto out; } /* Load needed operands */ switch (opc) { case OPC_BEQ: case OPC_BEQL: case OPC_BNE: case OPC_BNEL: /* Compare two registers */ if (rs != rt) { gen_load_gpr(t0, rs); gen_load_gpr(t1, rt); bcond_compute = 1; } btgt = ctx->base.pc_next + insn_bytes + offset; break; case OPC_BGEZ: case OPC_BGEZAL: case OPC_BGEZALL: case OPC_BGEZL: case OPC_BGTZ: case OPC_BGTZL: case OPC_BLEZ: case OPC_BLEZL: case OPC_BLTZ: case OPC_BLTZAL: case OPC_BLTZALL: case OPC_BLTZL: /* Compare to zero */ if (rs != 0) { gen_load_gpr(t0, rs); bcond_compute = 1; } btgt = ctx->base.pc_next + insn_bytes + offset; break; case OPC_BPOSGE32: #if defined(TARGET_MIPS64) case OPC_BPOSGE64: tcg_gen_andi_tl(t0, cpu_dspctrl, 0x7F); #else tcg_gen_andi_tl(t0, cpu_dspctrl, 0x3F); #endif bcond_compute = 1; btgt = ctx->base.pc_next + insn_bytes + offset; break; case OPC_J: case OPC_JAL: { /* Jump to immediate */ int jal_mask = ctx->hflags & MIPS_HFLAG_M16 ? 0xF8000000 : 0xF0000000; btgt = ((ctx->base.pc_next + insn_bytes) & jal_mask) | (uint32_t)offset; break; } case OPC_JALX: /* Jump to immediate */ btgt = ((ctx->base.pc_next + insn_bytes) & (int32_t)0xF0000000) | (uint32_t)offset; break; case OPC_JR: case OPC_JALR: /* Jump to register */ if (offset != 0 && offset != 16) { /* * Hint = 0 is JR/JALR, hint 16 is JR.HB/JALR.HB, the * others are reserved. */ MIPS_INVAL("jump hint"); gen_reserved_instruction(ctx); goto out; } gen_load_gpr(btarget, rs); break; default: MIPS_INVAL("branch/jump"); gen_reserved_instruction(ctx); goto out; } if (bcond_compute == 0) { /* No condition to be computed */ switch (opc) { case OPC_BEQ: /* rx == rx */ case OPC_BEQL: /* rx == rx likely */ case OPC_BGEZ: /* 0 >= 0 */ case OPC_BGEZL: /* 0 >= 0 likely */ case OPC_BLEZ: /* 0 <= 0 */ case OPC_BLEZL: /* 0 <= 0 likely */ /* Always take */ ctx->hflags |= MIPS_HFLAG_B; break; case OPC_BGEZAL: /* 0 >= 0 */ case OPC_BGEZALL: /* 0 >= 0 likely */ /* Always take and link */ blink = 31; ctx->hflags |= MIPS_HFLAG_B; break; case OPC_BNE: /* rx != rx */ case OPC_BGTZ: /* 0 > 0 */ case OPC_BLTZ: /* 0 < 0 */ /* Treat as NOP. */ goto out; case OPC_BLTZAL: /* 0 < 0 */ /* * Handle as an unconditional branch to get correct delay * slot checking. */ blink = 31; btgt = ctx->base.pc_next + insn_bytes + delayslot_size; ctx->hflags |= MIPS_HFLAG_B; break; case OPC_BLTZALL: /* 0 < 0 likely */ tcg_gen_movi_tl(cpu_gpr[31], ctx->base.pc_next + 8); /* Skip the instruction in the delay slot */ ctx->base.pc_next += 4; goto out; case OPC_BNEL: /* rx != rx likely */ case OPC_BGTZL: /* 0 > 0 likely */ case OPC_BLTZL: /* 0 < 0 likely */ /* Skip the instruction in the delay slot */ ctx->base.pc_next += 4; goto out; case OPC_J: ctx->hflags |= MIPS_HFLAG_B; break; case OPC_JALX: ctx->hflags |= MIPS_HFLAG_BX; /* Fallthrough */ case OPC_JAL: blink = 31; ctx->hflags |= MIPS_HFLAG_B; break; case OPC_JR: ctx->hflags |= MIPS_HFLAG_BR; break; case OPC_JALR: blink = rt; ctx->hflags |= MIPS_HFLAG_BR; break; default: MIPS_INVAL("branch/jump"); gen_reserved_instruction(ctx); goto out; } } else { switch (opc) { case OPC_BEQ: tcg_gen_setcond_tl(TCG_COND_EQ, bcond, t0, t1); goto not_likely; case OPC_BEQL: tcg_gen_setcond_tl(TCG_COND_EQ, bcond, t0, t1); goto likely; case OPC_BNE: tcg_gen_setcond_tl(TCG_COND_NE, bcond, t0, t1); goto not_likely; case OPC_BNEL: tcg_gen_setcond_tl(TCG_COND_NE, bcond, t0, t1); goto likely; case OPC_BGEZ: tcg_gen_setcondi_tl(TCG_COND_GE, bcond, t0, 0); goto not_likely; case OPC_BGEZL: tcg_gen_setcondi_tl(TCG_COND_GE, bcond, t0, 0); goto likely; case OPC_BGEZAL: tcg_gen_setcondi_tl(TCG_COND_GE, bcond, t0, 0); blink = 31; goto not_likely; case OPC_BGEZALL: tcg_gen_setcondi_tl(TCG_COND_GE, bcond, t0, 0); blink = 31; goto likely; case OPC_BGTZ: tcg_gen_setcondi_tl(TCG_COND_GT, bcond, t0, 0); goto not_likely; case OPC_BGTZL: tcg_gen_setcondi_tl(TCG_COND_GT, bcond, t0, 0); goto likely; case OPC_BLEZ: tcg_gen_setcondi_tl(TCG_COND_LE, bcond, t0, 0); goto not_likely; case OPC_BLEZL: tcg_gen_setcondi_tl(TCG_COND_LE, bcond, t0, 0); goto likely; case OPC_BLTZ: tcg_gen_setcondi_tl(TCG_COND_LT, bcond, t0, 0); goto not_likely; case OPC_BLTZL: tcg_gen_setcondi_tl(TCG_COND_LT, bcond, t0, 0); goto likely; case OPC_BPOSGE32: tcg_gen_setcondi_tl(TCG_COND_GE, bcond, t0, 32); goto not_likely; #if defined(TARGET_MIPS64) case OPC_BPOSGE64: tcg_gen_setcondi_tl(TCG_COND_GE, bcond, t0, 64); goto not_likely; #endif case OPC_BLTZAL: tcg_gen_setcondi_tl(TCG_COND_LT, bcond, t0, 0); blink = 31; not_likely: ctx->hflags |= MIPS_HFLAG_BC; break; case OPC_BLTZALL: tcg_gen_setcondi_tl(TCG_COND_LT, bcond, t0, 0); blink = 31; likely: ctx->hflags |= MIPS_HFLAG_BL; break; default: MIPS_INVAL("conditional branch/jump"); gen_reserved_instruction(ctx); goto out; } } ctx->btarget = btgt; switch (delayslot_size) { case 2: ctx->hflags |= MIPS_HFLAG_BDS16; break; case 4: ctx->hflags |= MIPS_HFLAG_BDS32; break; } if (blink > 0) { int post_delay = insn_bytes + delayslot_size; int lowbit = !!(ctx->hflags & MIPS_HFLAG_M16); tcg_gen_movi_tl(cpu_gpr[blink], ctx->base.pc_next + post_delay + lowbit); } out: if (insn_bytes == 2) { ctx->hflags |= MIPS_HFLAG_B16; } } /* special3 bitfield operations */ static void gen_bitops(DisasContext *ctx, uint32_t opc, int rt, int rs, int lsb, int msb) { TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); gen_load_gpr(t1, rs); switch (opc) { case OPC_EXT: if (lsb + msb > 31) { goto fail; } if (msb != 31) { tcg_gen_extract_tl(t0, t1, lsb, msb + 1); } else { /* * The two checks together imply that lsb == 0, * so this is a simple sign-extension. */ tcg_gen_ext32s_tl(t0, t1); } break; #if defined(TARGET_MIPS64) case OPC_DEXTU: lsb += 32; goto do_dext; case OPC_DEXTM: msb += 32; goto do_dext; case OPC_DEXT: do_dext: if (lsb + msb > 63) { goto fail; } tcg_gen_extract_tl(t0, t1, lsb, msb + 1); break; #endif case OPC_INS: if (lsb > msb) { goto fail; } gen_load_gpr(t0, rt); tcg_gen_deposit_tl(t0, t0, t1, lsb, msb - lsb + 1); tcg_gen_ext32s_tl(t0, t0); break; #if defined(TARGET_MIPS64) case OPC_DINSU: lsb += 32; /* FALLTHRU */ case OPC_DINSM: msb += 32; /* FALLTHRU */ case OPC_DINS: if (lsb > msb) { goto fail; } gen_load_gpr(t0, rt); tcg_gen_deposit_tl(t0, t0, t1, lsb, msb - lsb + 1); break; #endif default: fail: MIPS_INVAL("bitops"); gen_reserved_instruction(ctx); return; } gen_store_gpr(t0, rt); } static void gen_bshfl(DisasContext *ctx, uint32_t op2, int rt, int rd) { TCGv t0; if (rd == 0) { /* If no destination, treat it as a NOP. */ return; } t0 = tcg_temp_new(); gen_load_gpr(t0, rt); switch (op2) { case OPC_WSBH: { TCGv t1 = tcg_temp_new(); TCGv t2 = tcg_constant_tl(0x00FF00FF); tcg_gen_shri_tl(t1, t0, 8); tcg_gen_and_tl(t1, t1, t2); tcg_gen_and_tl(t0, t0, t2); tcg_gen_shli_tl(t0, t0, 8); tcg_gen_or_tl(t0, t0, t1); tcg_gen_ext32s_tl(cpu_gpr[rd], t0); } break; case OPC_SEB: tcg_gen_ext8s_tl(cpu_gpr[rd], t0); break; case OPC_SEH: tcg_gen_ext16s_tl(cpu_gpr[rd], t0); break; #if defined(TARGET_MIPS64) case OPC_DSBH: { TCGv t1 = tcg_temp_new(); TCGv t2 = tcg_constant_tl(0x00FF00FF00FF00FFULL); tcg_gen_shri_tl(t1, t0, 8); tcg_gen_and_tl(t1, t1, t2); tcg_gen_and_tl(t0, t0, t2); tcg_gen_shli_tl(t0, t0, 8); tcg_gen_or_tl(cpu_gpr[rd], t0, t1); } break; case OPC_DSHD: { TCGv t1 = tcg_temp_new(); TCGv t2 = tcg_constant_tl(0x0000FFFF0000FFFFULL); tcg_gen_shri_tl(t1, t0, 16); tcg_gen_and_tl(t1, t1, t2); tcg_gen_and_tl(t0, t0, t2); tcg_gen_shli_tl(t0, t0, 16); tcg_gen_or_tl(t0, t0, t1); tcg_gen_shri_tl(t1, t0, 32); tcg_gen_shli_tl(t0, t0, 32); tcg_gen_or_tl(cpu_gpr[rd], t0, t1); } break; #endif default: MIPS_INVAL("bsfhl"); gen_reserved_instruction(ctx); return; } } static void gen_align_bits(DisasContext *ctx, int wordsz, int rd, int rs, int rt, int bits) { TCGv t0; if (rd == 0) { /* Treat as NOP. */ return; } t0 = tcg_temp_new(); if (bits == 0 || bits == wordsz) { if (bits == 0) { gen_load_gpr(t0, rt); } else { gen_load_gpr(t0, rs); } switch (wordsz) { case 32: tcg_gen_ext32s_tl(cpu_gpr[rd], t0); break; #if defined(TARGET_MIPS64) case 64: tcg_gen_mov_tl(cpu_gpr[rd], t0); break; #endif } } else { TCGv t1 = tcg_temp_new(); gen_load_gpr(t0, rt); gen_load_gpr(t1, rs); switch (wordsz) { case 32: { TCGv_i64 t2 = tcg_temp_new_i64(); tcg_gen_concat_tl_i64(t2, t1, t0); tcg_gen_shri_i64(t2, t2, 32 - bits); gen_move_low32(cpu_gpr[rd], t2); } break; #if defined(TARGET_MIPS64) case 64: tcg_gen_shli_tl(t0, t0, bits); tcg_gen_shri_tl(t1, t1, 64 - bits); tcg_gen_or_tl(cpu_gpr[rd], t1, t0); break; #endif } } } void gen_align(DisasContext *ctx, int wordsz, int rd, int rs, int rt, int bp) { gen_align_bits(ctx, wordsz, rd, rs, rt, bp * 8); } static void gen_bitswap(DisasContext *ctx, int opc, int rd, int rt) { TCGv t0; if (rd == 0) { /* Treat as NOP. */ return; } t0 = tcg_temp_new(); gen_load_gpr(t0, rt); switch (opc) { case OPC_BITSWAP: gen_helper_bitswap(cpu_gpr[rd], t0); break; #if defined(TARGET_MIPS64) case OPC_DBITSWAP: gen_helper_dbitswap(cpu_gpr[rd], t0); break; #endif } } #ifndef CONFIG_USER_ONLY /* CP0 (MMU and control) */ static inline void gen_mthc0_entrylo(TCGv arg, target_ulong off) { TCGv_i64 t0 = tcg_temp_new_i64(); TCGv_i64 t1 = tcg_temp_new_i64(); tcg_gen_ext_tl_i64(t0, arg); tcg_gen_ld_i64(t1, tcg_env, off); #if defined(TARGET_MIPS64) tcg_gen_deposit_i64(t1, t1, t0, 30, 32); #else tcg_gen_concat32_i64(t1, t1, t0); #endif tcg_gen_st_i64(t1, tcg_env, off); } static inline void gen_mthc0_store64(TCGv arg, target_ulong off) { TCGv_i64 t0 = tcg_temp_new_i64(); TCGv_i64 t1 = tcg_temp_new_i64(); tcg_gen_ext_tl_i64(t0, arg); tcg_gen_ld_i64(t1, tcg_env, off); tcg_gen_concat32_i64(t1, t1, t0); tcg_gen_st_i64(t1, tcg_env, off); } static inline void gen_mfhc0_entrylo(TCGv arg, target_ulong off) { TCGv_i64 t0 = tcg_temp_new_i64(); tcg_gen_ld_i64(t0, tcg_env, off); #if defined(TARGET_MIPS64) tcg_gen_shri_i64(t0, t0, 30); #else tcg_gen_shri_i64(t0, t0, 32); #endif gen_move_low32(arg, t0); } static inline void gen_mfhc0_load64(TCGv arg, target_ulong off, int shift) { TCGv_i64 t0 = tcg_temp_new_i64(); tcg_gen_ld_i64(t0, tcg_env, off); tcg_gen_shri_i64(t0, t0, 32 + shift); gen_move_low32(arg, t0); } static inline void gen_mfc0_load32(TCGv arg, target_ulong off) { TCGv_i32 t0 = tcg_temp_new_i32(); tcg_gen_ld_i32(t0, tcg_env, off); tcg_gen_ext_i32_tl(arg, t0); } static inline void gen_mfc0_load64(TCGv arg, target_ulong off) { tcg_gen_ld_tl(arg, tcg_env, off); tcg_gen_ext32s_tl(arg, arg); } static inline void gen_mtc0_store32(TCGv arg, target_ulong off) { TCGv_i32 t0 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(t0, arg); tcg_gen_st_i32(t0, tcg_env, off); } #define CP0_CHECK(c) \ do { \ if (!(c)) { \ goto cp0_unimplemented; \ } \ } while (0) static void gen_mfhc0(DisasContext *ctx, TCGv arg, int reg, int sel) { const char *register_name = "invalid"; switch (reg) { case CP0_REGISTER_02: switch (sel) { case 0: CP0_CHECK(ctx->hflags & MIPS_HFLAG_ELPA); gen_mfhc0_entrylo(arg, offsetof(CPUMIPSState, CP0_EntryLo0)); register_name = "EntryLo0"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_03: switch (sel) { case CP0_REG03__ENTRYLO1: CP0_CHECK(ctx->hflags & MIPS_HFLAG_ELPA); gen_mfhc0_entrylo(arg, offsetof(CPUMIPSState, CP0_EntryLo1)); register_name = "EntryLo1"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_17: switch (sel) { case CP0_REG17__LLADDR: gen_mfhc0_load64(arg, offsetof(CPUMIPSState, CP0_LLAddr), ctx->CP0_LLAddr_shift); register_name = "LLAddr"; break; case CP0_REG17__MAAR: CP0_CHECK(ctx->mrp); gen_helper_mfhc0_maar(arg, tcg_env); register_name = "MAAR"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_19: switch (sel) { case CP0_REG19__WATCHHI0: case CP0_REG19__WATCHHI1: case CP0_REG19__WATCHHI2: case CP0_REG19__WATCHHI3: case CP0_REG19__WATCHHI4: case CP0_REG19__WATCHHI5: case CP0_REG19__WATCHHI6: case CP0_REG19__WATCHHI7: /* upper 32 bits are only available when Config5MI != 0 */ CP0_CHECK(ctx->mi); gen_mfhc0_load64(arg, offsetof(CPUMIPSState, CP0_WatchHi[sel]), 0); register_name = "WatchHi"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_28: switch (sel) { case 0: case 2: case 4: case 6: gen_mfhc0_load64(arg, offsetof(CPUMIPSState, CP0_TagLo), 0); register_name = "TagLo"; break; default: goto cp0_unimplemented; } break; default: goto cp0_unimplemented; } trace_mips_translate_c0("mfhc0", register_name, reg, sel); return; cp0_unimplemented: qemu_log_mask(LOG_UNIMP, "mfhc0 %s (reg %d sel %d)\n", register_name, reg, sel); tcg_gen_movi_tl(arg, 0); } static void gen_mthc0(DisasContext *ctx, TCGv arg, int reg, int sel) { const char *register_name = "invalid"; uint64_t mask = ctx->PAMask >> 36; switch (reg) { case CP0_REGISTER_02: switch (sel) { case 0: CP0_CHECK(ctx->hflags & MIPS_HFLAG_ELPA); tcg_gen_andi_tl(arg, arg, mask); gen_mthc0_entrylo(arg, offsetof(CPUMIPSState, CP0_EntryLo0)); register_name = "EntryLo0"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_03: switch (sel) { case CP0_REG03__ENTRYLO1: CP0_CHECK(ctx->hflags & MIPS_HFLAG_ELPA); tcg_gen_andi_tl(arg, arg, mask); gen_mthc0_entrylo(arg, offsetof(CPUMIPSState, CP0_EntryLo1)); register_name = "EntryLo1"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_17: switch (sel) { case CP0_REG17__LLADDR: /* * LLAddr is read-only (the only exception is bit 0 if LLB is * supported); the CP0_LLAddr_rw_bitmask does not seem to be * relevant for modern MIPS cores supporting MTHC0, therefore * treating MTHC0 to LLAddr as NOP. */ register_name = "LLAddr"; break; case CP0_REG17__MAAR: CP0_CHECK(ctx->mrp); gen_helper_mthc0_maar(tcg_env, arg); register_name = "MAAR"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_19: switch (sel) { case CP0_REG19__WATCHHI0: case CP0_REG19__WATCHHI1: case CP0_REG19__WATCHHI2: case CP0_REG19__WATCHHI3: case CP0_REG19__WATCHHI4: case CP0_REG19__WATCHHI5: case CP0_REG19__WATCHHI6: case CP0_REG19__WATCHHI7: /* upper 32 bits are only available when Config5MI != 0 */ CP0_CHECK(ctx->mi); gen_helper_0e1i(mthc0_watchhi, arg, sel); register_name = "WatchHi"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_28: switch (sel) { case 0: case 2: case 4: case 6: tcg_gen_andi_tl(arg, arg, mask); gen_mthc0_store64(arg, offsetof(CPUMIPSState, CP0_TagLo)); register_name = "TagLo"; break; default: goto cp0_unimplemented; } break; default: goto cp0_unimplemented; } trace_mips_translate_c0("mthc0", register_name, reg, sel); return; cp0_unimplemented: qemu_log_mask(LOG_UNIMP, "mthc0 %s (reg %d sel %d)\n", register_name, reg, sel); } static inline void gen_mfc0_unimplemented(DisasContext *ctx, TCGv arg) { if (ctx->insn_flags & ISA_MIPS_R6) { tcg_gen_movi_tl(arg, 0); } else { tcg_gen_movi_tl(arg, ~0); } } static void gen_mfc0(DisasContext *ctx, TCGv arg, int reg, int sel) { const char *register_name = "invalid"; if (sel != 0) { check_insn(ctx, ISA_MIPS_R1); } switch (reg) { case CP0_REGISTER_00: switch (sel) { case CP0_REG00__INDEX: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Index)); register_name = "Index"; break; case CP0_REG00__MVPCONTROL: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_mvpcontrol(arg, tcg_env); register_name = "MVPControl"; break; case CP0_REG00__MVPCONF0: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_mvpconf0(arg, tcg_env); register_name = "MVPConf0"; break; case CP0_REG00__MVPCONF1: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_mvpconf1(arg, tcg_env); register_name = "MVPConf1"; break; case CP0_REG00__VPCONTROL: CP0_CHECK(ctx->vp); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_VPControl)); register_name = "VPControl"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_01: switch (sel) { case CP0_REG01__RANDOM: CP0_CHECK(!(ctx->insn_flags & ISA_MIPS_R6)); gen_helper_mfc0_random(arg, tcg_env); register_name = "Random"; break; case CP0_REG01__VPECONTROL: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_VPEControl)); register_name = "VPEControl"; break; case CP0_REG01__VPECONF0: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_VPEConf0)); register_name = "VPEConf0"; break; case CP0_REG01__VPECONF1: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_VPEConf1)); register_name = "VPEConf1"; break; case CP0_REG01__YQMASK: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_mfc0_load64(arg, offsetof(CPUMIPSState, CP0_YQMask)); register_name = "YQMask"; break; case CP0_REG01__VPESCHEDULE: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_mfc0_load64(arg, offsetof(CPUMIPSState, CP0_VPESchedule)); register_name = "VPESchedule"; break; case CP0_REG01__VPESCHEFBACK: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_mfc0_load64(arg, offsetof(CPUMIPSState, CP0_VPEScheFBack)); register_name = "VPEScheFBack"; break; case CP0_REG01__VPEOPT: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_VPEOpt)); register_name = "VPEOpt"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_02: switch (sel) { case CP0_REG02__ENTRYLO0: { TCGv_i64 tmp = tcg_temp_new_i64(); tcg_gen_ld_i64(tmp, tcg_env, offsetof(CPUMIPSState, CP0_EntryLo0)); #if defined(TARGET_MIPS64) if (ctx->rxi) { /* Move RI/XI fields to bits 31:30 */ tcg_gen_shri_tl(arg, tmp, CP0EnLo_XI); tcg_gen_deposit_tl(tmp, tmp, arg, 30, 2); } #endif gen_move_low32(arg, tmp); } register_name = "EntryLo0"; break; case CP0_REG02__TCSTATUS: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_tcstatus(arg, tcg_env); register_name = "TCStatus"; break; case CP0_REG02__TCBIND: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_tcbind(arg, tcg_env); register_name = "TCBind"; break; case CP0_REG02__TCRESTART: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_tcrestart(arg, tcg_env); register_name = "TCRestart"; break; case CP0_REG02__TCHALT: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_tchalt(arg, tcg_env); register_name = "TCHalt"; break; case CP0_REG02__TCCONTEXT: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_tccontext(arg, tcg_env); register_name = "TCContext"; break; case CP0_REG02__TCSCHEDULE: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_tcschedule(arg, tcg_env); register_name = "TCSchedule"; break; case CP0_REG02__TCSCHEFBACK: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_tcschefback(arg, tcg_env); register_name = "TCScheFBack"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_03: switch (sel) { case CP0_REG03__ENTRYLO1: { TCGv_i64 tmp = tcg_temp_new_i64(); tcg_gen_ld_i64(tmp, tcg_env, offsetof(CPUMIPSState, CP0_EntryLo1)); #if defined(TARGET_MIPS64) if (ctx->rxi) { /* Move RI/XI fields to bits 31:30 */ tcg_gen_shri_tl(arg, tmp, CP0EnLo_XI); tcg_gen_deposit_tl(tmp, tmp, arg, 30, 2); } #endif gen_move_low32(arg, tmp); } register_name = "EntryLo1"; break; case CP0_REG03__GLOBALNUM: CP0_CHECK(ctx->vp); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_GlobalNumber)); register_name = "GlobalNumber"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_04: switch (sel) { case CP0_REG04__CONTEXT: tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_Context)); tcg_gen_ext32s_tl(arg, arg); register_name = "Context"; break; case CP0_REG04__CONTEXTCONFIG: /* SmartMIPS ASE */ /* gen_helper_mfc0_contextconfig(arg); */ register_name = "ContextConfig"; goto cp0_unimplemented; case CP0_REG04__USERLOCAL: CP0_CHECK(ctx->ulri); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, active_tc.CP0_UserLocal)); tcg_gen_ext32s_tl(arg, arg); register_name = "UserLocal"; break; case CP0_REG04__MMID: CP0_CHECK(ctx->mi); gen_helper_mtc0_memorymapid(tcg_env, arg); register_name = "MMID"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_05: switch (sel) { case CP0_REG05__PAGEMASK: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_PageMask)); register_name = "PageMask"; break; case CP0_REG05__PAGEGRAIN: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_PageGrain)); register_name = "PageGrain"; break; case CP0_REG05__SEGCTL0: CP0_CHECK(ctx->sc); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_SegCtl0)); tcg_gen_ext32s_tl(arg, arg); register_name = "SegCtl0"; break; case CP0_REG05__SEGCTL1: CP0_CHECK(ctx->sc); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_SegCtl1)); tcg_gen_ext32s_tl(arg, arg); register_name = "SegCtl1"; break; case CP0_REG05__SEGCTL2: CP0_CHECK(ctx->sc); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_SegCtl2)); tcg_gen_ext32s_tl(arg, arg); register_name = "SegCtl2"; break; case CP0_REG05__PWBASE: check_pw(ctx); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_PWBase)); register_name = "PWBase"; break; case CP0_REG05__PWFIELD: check_pw(ctx); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_PWField)); register_name = "PWField"; break; case CP0_REG05__PWSIZE: check_pw(ctx); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_PWSize)); register_name = "PWSize"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_06: switch (sel) { case CP0_REG06__WIRED: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Wired)); register_name = "Wired"; break; case CP0_REG06__SRSCONF0: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_SRSConf0)); register_name = "SRSConf0"; break; case CP0_REG06__SRSCONF1: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_SRSConf1)); register_name = "SRSConf1"; break; case CP0_REG06__SRSCONF2: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_SRSConf2)); register_name = "SRSConf2"; break; case CP0_REG06__SRSCONF3: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_SRSConf3)); register_name = "SRSConf3"; break; case CP0_REG06__SRSCONF4: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_SRSConf4)); register_name = "SRSConf4"; break; case CP0_REG06__PWCTL: check_pw(ctx); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_PWCtl)); register_name = "PWCtl"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_07: switch (sel) { case CP0_REG07__HWRENA: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_HWREna)); register_name = "HWREna"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_08: switch (sel) { case CP0_REG08__BADVADDR: tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_BadVAddr)); tcg_gen_ext32s_tl(arg, arg); register_name = "BadVAddr"; break; case CP0_REG08__BADINSTR: CP0_CHECK(ctx->bi); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_BadInstr)); register_name = "BadInstr"; break; case CP0_REG08__BADINSTRP: CP0_CHECK(ctx->bp); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_BadInstrP)); register_name = "BadInstrP"; break; case CP0_REG08__BADINSTRX: CP0_CHECK(ctx->bi); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_BadInstrX)); tcg_gen_andi_tl(arg, arg, ~0xffff); register_name = "BadInstrX"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_09: switch (sel) { case CP0_REG09__COUNT: /* Mark as an IO operation because we read the time. */ translator_io_start(&ctx->base); gen_helper_mfc0_count(arg, tcg_env); /* * Break the TB to be able to take timer interrupts immediately * after reading count. DISAS_STOP isn't sufficient, we need to * ensure we break completely out of translated code. */ gen_save_pc(ctx->base.pc_next + 4); ctx->base.is_jmp = DISAS_EXIT; register_name = "Count"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_10: switch (sel) { case CP0_REG10__ENTRYHI: tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_EntryHi)); tcg_gen_ext32s_tl(arg, arg); register_name = "EntryHi"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_11: switch (sel) { case CP0_REG11__COMPARE: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Compare)); register_name = "Compare"; break; /* 6,7 are implementation dependent */ default: goto cp0_unimplemented; } break; case CP0_REGISTER_12: switch (sel) { case CP0_REG12__STATUS: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Status)); register_name = "Status"; break; case CP0_REG12__INTCTL: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_IntCtl)); register_name = "IntCtl"; break; case CP0_REG12__SRSCTL: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_SRSCtl)); register_name = "SRSCtl"; break; case CP0_REG12__SRSMAP: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_SRSMap)); register_name = "SRSMap"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_13: switch (sel) { case CP0_REG13__CAUSE: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Cause)); register_name = "Cause"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_14: switch (sel) { case CP0_REG14__EPC: tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_EPC)); tcg_gen_ext32s_tl(arg, arg); register_name = "EPC"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_15: switch (sel) { case CP0_REG15__PRID: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_PRid)); register_name = "PRid"; break; case CP0_REG15__EBASE: check_insn(ctx, ISA_MIPS_R2); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_EBase)); tcg_gen_ext32s_tl(arg, arg); register_name = "EBase"; break; case CP0_REG15__CMGCRBASE: check_insn(ctx, ISA_MIPS_R2); CP0_CHECK(ctx->cmgcr); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_CMGCRBase)); tcg_gen_ext32s_tl(arg, arg); register_name = "CMGCRBase"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_16: switch (sel) { case CP0_REG16__CONFIG: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config0)); register_name = "Config"; break; case CP0_REG16__CONFIG1: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config1)); register_name = "Config1"; break; case CP0_REG16__CONFIG2: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config2)); register_name = "Config2"; break; case CP0_REG16__CONFIG3: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config3)); register_name = "Config3"; break; case CP0_REG16__CONFIG4: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config4)); register_name = "Config4"; break; case CP0_REG16__CONFIG5: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config5)); register_name = "Config5"; break; /* 6,7 are implementation dependent */ case CP0_REG16__CONFIG6: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config6)); register_name = "Config6"; break; case CP0_REG16__CONFIG7: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config7)); register_name = "Config7"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_17: switch (sel) { case CP0_REG17__LLADDR: gen_helper_mfc0_lladdr(arg, tcg_env); register_name = "LLAddr"; break; case CP0_REG17__MAAR: CP0_CHECK(ctx->mrp); gen_helper_mfc0_maar(arg, tcg_env); register_name = "MAAR"; break; case CP0_REG17__MAARI: CP0_CHECK(ctx->mrp); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_MAARI)); register_name = "MAARI"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_18: switch (sel) { case CP0_REG18__WATCHLO0: case CP0_REG18__WATCHLO1: case CP0_REG18__WATCHLO2: case CP0_REG18__WATCHLO3: case CP0_REG18__WATCHLO4: case CP0_REG18__WATCHLO5: case CP0_REG18__WATCHLO6: case CP0_REG18__WATCHLO7: CP0_CHECK(ctx->CP0_Config1 & (1 << CP0C1_WR)); gen_helper_1e0i(mfc0_watchlo, arg, sel); register_name = "WatchLo"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_19: switch (sel) { case CP0_REG19__WATCHHI0: case CP0_REG19__WATCHHI1: case CP0_REG19__WATCHHI2: case CP0_REG19__WATCHHI3: case CP0_REG19__WATCHHI4: case CP0_REG19__WATCHHI5: case CP0_REG19__WATCHHI6: case CP0_REG19__WATCHHI7: CP0_CHECK(ctx->CP0_Config1 & (1 << CP0C1_WR)); gen_helper_1e0i(mfc0_watchhi, arg, sel); register_name = "WatchHi"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_20: switch (sel) { case CP0_REG20__XCONTEXT: #if defined(TARGET_MIPS64) check_insn(ctx, ISA_MIPS3); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_XContext)); tcg_gen_ext32s_tl(arg, arg); register_name = "XContext"; break; #endif default: goto cp0_unimplemented; } break; case CP0_REGISTER_21: /* Officially reserved, but sel 0 is used for R1x000 framemask */ CP0_CHECK(!(ctx->insn_flags & ISA_MIPS_R6)); switch (sel) { case 0: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Framemask)); register_name = "Framemask"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_22: tcg_gen_movi_tl(arg, 0); /* unimplemented */ register_name = "'Diagnostic"; /* implementation dependent */ break; case CP0_REGISTER_23: switch (sel) { case CP0_REG23__DEBUG: gen_helper_mfc0_debug(arg, tcg_env); /* EJTAG support */ register_name = "Debug"; break; case CP0_REG23__TRACECONTROL: /* PDtrace support */ /* gen_helper_mfc0_tracecontrol(arg); */ register_name = "TraceControl"; goto cp0_unimplemented; case CP0_REG23__TRACECONTROL2: /* PDtrace support */ /* gen_helper_mfc0_tracecontrol2(arg); */ register_name = "TraceControl2"; goto cp0_unimplemented; case CP0_REG23__USERTRACEDATA1: /* PDtrace support */ /* gen_helper_mfc0_usertracedata1(arg);*/ register_name = "UserTraceData1"; goto cp0_unimplemented; case CP0_REG23__TRACEIBPC: /* PDtrace support */ /* gen_helper_mfc0_traceibpc(arg); */ register_name = "TraceIBPC"; goto cp0_unimplemented; case CP0_REG23__TRACEDBPC: /* PDtrace support */ /* gen_helper_mfc0_tracedbpc(arg); */ register_name = "TraceDBPC"; goto cp0_unimplemented; default: goto cp0_unimplemented; } break; case CP0_REGISTER_24: switch (sel) { case CP0_REG24__DEPC: /* EJTAG support */ tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_DEPC)); tcg_gen_ext32s_tl(arg, arg); register_name = "DEPC"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_25: switch (sel) { case CP0_REG25__PERFCTL0: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Performance0)); register_name = "Performance0"; break; case CP0_REG25__PERFCNT0: /* gen_helper_mfc0_performance1(arg); */ register_name = "Performance1"; goto cp0_unimplemented; case CP0_REG25__PERFCTL1: /* gen_helper_mfc0_performance2(arg); */ register_name = "Performance2"; goto cp0_unimplemented; case CP0_REG25__PERFCNT1: /* gen_helper_mfc0_performance3(arg); */ register_name = "Performance3"; goto cp0_unimplemented; case CP0_REG25__PERFCTL2: /* gen_helper_mfc0_performance4(arg); */ register_name = "Performance4"; goto cp0_unimplemented; case CP0_REG25__PERFCNT2: /* gen_helper_mfc0_performance5(arg); */ register_name = "Performance5"; goto cp0_unimplemented; case CP0_REG25__PERFCTL3: /* gen_helper_mfc0_performance6(arg); */ register_name = "Performance6"; goto cp0_unimplemented; case CP0_REG25__PERFCNT3: /* gen_helper_mfc0_performance7(arg); */ register_name = "Performance7"; goto cp0_unimplemented; default: goto cp0_unimplemented; } break; case CP0_REGISTER_26: switch (sel) { case CP0_REG26__ERRCTL: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_ErrCtl)); register_name = "ErrCtl"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_27: switch (sel) { case CP0_REG27__CACHERR: tcg_gen_movi_tl(arg, 0); /* unimplemented */ register_name = "CacheErr"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_28: switch (sel) { case CP0_REG28__TAGLO: case CP0_REG28__TAGLO1: case CP0_REG28__TAGLO2: case CP0_REG28__TAGLO3: { TCGv_i64 tmp = tcg_temp_new_i64(); tcg_gen_ld_i64(tmp, tcg_env, offsetof(CPUMIPSState, CP0_TagLo)); gen_move_low32(arg, tmp); } register_name = "TagLo"; break; case CP0_REG28__DATALO: case CP0_REG28__DATALO1: case CP0_REG28__DATALO2: case CP0_REG28__DATALO3: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_DataLo)); register_name = "DataLo"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_29: switch (sel) { case CP0_REG29__TAGHI: case CP0_REG29__TAGHI1: case CP0_REG29__TAGHI2: case CP0_REG29__TAGHI3: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_TagHi)); register_name = "TagHi"; break; case CP0_REG29__DATAHI: case CP0_REG29__DATAHI1: case CP0_REG29__DATAHI2: case CP0_REG29__DATAHI3: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_DataHi)); register_name = "DataHi"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_30: switch (sel) { case CP0_REG30__ERROREPC: tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_ErrorEPC)); tcg_gen_ext32s_tl(arg, arg); register_name = "ErrorEPC"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_31: switch (sel) { case CP0_REG31__DESAVE: /* EJTAG support */ gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_DESAVE)); register_name = "DESAVE"; break; case CP0_REG31__KSCRATCH1: case CP0_REG31__KSCRATCH2: case CP0_REG31__KSCRATCH3: case CP0_REG31__KSCRATCH4: case CP0_REG31__KSCRATCH5: case CP0_REG31__KSCRATCH6: CP0_CHECK(ctx->kscrexist & (1 << sel)); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_KScratch[sel - 2])); tcg_gen_ext32s_tl(arg, arg); register_name = "KScratch"; break; default: goto cp0_unimplemented; } break; default: goto cp0_unimplemented; } trace_mips_translate_c0("mfc0", register_name, reg, sel); return; cp0_unimplemented: qemu_log_mask(LOG_UNIMP, "mfc0 %s (reg %d sel %d)\n", register_name, reg, sel); gen_mfc0_unimplemented(ctx, arg); } static void gen_mtc0(DisasContext *ctx, TCGv arg, int reg, int sel) { const char *register_name = "invalid"; bool icount; if (sel != 0) { check_insn(ctx, ISA_MIPS_R1); } icount = translator_io_start(&ctx->base); switch (reg) { case CP0_REGISTER_00: switch (sel) { case CP0_REG00__INDEX: gen_helper_mtc0_index(tcg_env, arg); register_name = "Index"; break; case CP0_REG00__MVPCONTROL: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_mvpcontrol(tcg_env, arg); register_name = "MVPControl"; break; case CP0_REG00__MVPCONF0: CP0_CHECK(ctx->insn_flags & ASE_MT); /* ignored */ register_name = "MVPConf0"; break; case CP0_REG00__MVPCONF1: CP0_CHECK(ctx->insn_flags & ASE_MT); /* ignored */ register_name = "MVPConf1"; break; case CP0_REG00__VPCONTROL: CP0_CHECK(ctx->vp); /* ignored */ register_name = "VPControl"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_01: switch (sel) { case CP0_REG01__RANDOM: /* ignored */ register_name = "Random"; break; case CP0_REG01__VPECONTROL: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_vpecontrol(tcg_env, arg); register_name = "VPEControl"; break; case CP0_REG01__VPECONF0: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_vpeconf0(tcg_env, arg); register_name = "VPEConf0"; break; case CP0_REG01__VPECONF1: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_vpeconf1(tcg_env, arg); register_name = "VPEConf1"; break; case CP0_REG01__YQMASK: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_yqmask(tcg_env, arg); register_name = "YQMask"; break; case CP0_REG01__VPESCHEDULE: CP0_CHECK(ctx->insn_flags & ASE_MT); tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_VPESchedule)); register_name = "VPESchedule"; break; case CP0_REG01__VPESCHEFBACK: CP0_CHECK(ctx->insn_flags & ASE_MT); tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_VPEScheFBack)); register_name = "VPEScheFBack"; break; case CP0_REG01__VPEOPT: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_vpeopt(tcg_env, arg); register_name = "VPEOpt"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_02: switch (sel) { case CP0_REG02__ENTRYLO0: gen_helper_mtc0_entrylo0(tcg_env, arg); register_name = "EntryLo0"; break; case CP0_REG02__TCSTATUS: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_tcstatus(tcg_env, arg); register_name = "TCStatus"; break; case CP0_REG02__TCBIND: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_tcbind(tcg_env, arg); register_name = "TCBind"; break; case CP0_REG02__TCRESTART: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_tcrestart(tcg_env, arg); register_name = "TCRestart"; break; case CP0_REG02__TCHALT: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_tchalt(tcg_env, arg); register_name = "TCHalt"; break; case CP0_REG02__TCCONTEXT: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_tccontext(tcg_env, arg); register_name = "TCContext"; break; case CP0_REG02__TCSCHEDULE: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_tcschedule(tcg_env, arg); register_name = "TCSchedule"; break; case CP0_REG02__TCSCHEFBACK: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_tcschefback(tcg_env, arg); register_name = "TCScheFBack"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_03: switch (sel) { case CP0_REG03__ENTRYLO1: gen_helper_mtc0_entrylo1(tcg_env, arg); register_name = "EntryLo1"; break; case CP0_REG03__GLOBALNUM: CP0_CHECK(ctx->vp); /* ignored */ register_name = "GlobalNumber"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_04: switch (sel) { case CP0_REG04__CONTEXT: gen_helper_mtc0_context(tcg_env, arg); register_name = "Context"; break; case CP0_REG04__CONTEXTCONFIG: /* SmartMIPS ASE */ /* gen_helper_mtc0_contextconfig(arg); */ register_name = "ContextConfig"; goto cp0_unimplemented; case CP0_REG04__USERLOCAL: CP0_CHECK(ctx->ulri); tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, active_tc.CP0_UserLocal)); register_name = "UserLocal"; break; case CP0_REG04__MMID: CP0_CHECK(ctx->mi); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_MemoryMapID)); register_name = "MMID"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_05: switch (sel) { case CP0_REG05__PAGEMASK: gen_helper_mtc0_pagemask(tcg_env, arg); register_name = "PageMask"; break; case CP0_REG05__PAGEGRAIN: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_pagegrain(tcg_env, arg); register_name = "PageGrain"; ctx->base.is_jmp = DISAS_STOP; break; case CP0_REG05__SEGCTL0: CP0_CHECK(ctx->sc); gen_helper_mtc0_segctl0(tcg_env, arg); register_name = "SegCtl0"; break; case CP0_REG05__SEGCTL1: CP0_CHECK(ctx->sc); gen_helper_mtc0_segctl1(tcg_env, arg); register_name = "SegCtl1"; break; case CP0_REG05__SEGCTL2: CP0_CHECK(ctx->sc); gen_helper_mtc0_segctl2(tcg_env, arg); register_name = "SegCtl2"; break; case CP0_REG05__PWBASE: check_pw(ctx); gen_mtc0_store32(arg, offsetof(CPUMIPSState, CP0_PWBase)); register_name = "PWBase"; break; case CP0_REG05__PWFIELD: check_pw(ctx); gen_helper_mtc0_pwfield(tcg_env, arg); register_name = "PWField"; break; case CP0_REG05__PWSIZE: check_pw(ctx); gen_helper_mtc0_pwsize(tcg_env, arg); register_name = "PWSize"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_06: switch (sel) { case CP0_REG06__WIRED: gen_helper_mtc0_wired(tcg_env, arg); register_name = "Wired"; break; case CP0_REG06__SRSCONF0: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_srsconf0(tcg_env, arg); register_name = "SRSConf0"; break; case CP0_REG06__SRSCONF1: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_srsconf1(tcg_env, arg); register_name = "SRSConf1"; break; case CP0_REG06__SRSCONF2: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_srsconf2(tcg_env, arg); register_name = "SRSConf2"; break; case CP0_REG06__SRSCONF3: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_srsconf3(tcg_env, arg); register_name = "SRSConf3"; break; case CP0_REG06__SRSCONF4: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_srsconf4(tcg_env, arg); register_name = "SRSConf4"; break; case CP0_REG06__PWCTL: check_pw(ctx); gen_helper_mtc0_pwctl(tcg_env, arg); register_name = "PWCtl"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_07: switch (sel) { case CP0_REG07__HWRENA: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_hwrena(tcg_env, arg); ctx->base.is_jmp = DISAS_STOP; register_name = "HWREna"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_08: switch (sel) { case CP0_REG08__BADVADDR: /* ignored */ register_name = "BadVAddr"; break; case CP0_REG08__BADINSTR: /* ignored */ register_name = "BadInstr"; break; case CP0_REG08__BADINSTRP: /* ignored */ register_name = "BadInstrP"; break; case CP0_REG08__BADINSTRX: /* ignored */ register_name = "BadInstrX"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_09: switch (sel) { case CP0_REG09__COUNT: gen_helper_mtc0_count(tcg_env, arg); register_name = "Count"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_10: switch (sel) { case CP0_REG10__ENTRYHI: gen_helper_mtc0_entryhi(tcg_env, arg); register_name = "EntryHi"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_11: switch (sel) { case CP0_REG11__COMPARE: gen_helper_mtc0_compare(tcg_env, arg); register_name = "Compare"; break; /* 6,7 are implementation dependent */ default: goto cp0_unimplemented; } break; case CP0_REGISTER_12: switch (sel) { case CP0_REG12__STATUS: save_cpu_state(ctx, 1); gen_helper_mtc0_status(tcg_env, arg); /* DISAS_STOP isn't good enough here, hflags may have changed. */ gen_save_pc(ctx->base.pc_next + 4); ctx->base.is_jmp = DISAS_EXIT; register_name = "Status"; break; case CP0_REG12__INTCTL: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_intctl(tcg_env, arg); /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; register_name = "IntCtl"; break; case CP0_REG12__SRSCTL: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_srsctl(tcg_env, arg); /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; register_name = "SRSCtl"; break; case CP0_REG12__SRSMAP: check_insn(ctx, ISA_MIPS_R2); gen_mtc0_store32(arg, offsetof(CPUMIPSState, CP0_SRSMap)); /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; register_name = "SRSMap"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_13: switch (sel) { case CP0_REG13__CAUSE: save_cpu_state(ctx, 1); gen_helper_mtc0_cause(tcg_env, arg); /* * Stop translation as we may have triggered an interrupt. * DISAS_STOP isn't sufficient, we need to ensure we break out of * translated code to check for pending interrupts. */ gen_save_pc(ctx->base.pc_next + 4); ctx->base.is_jmp = DISAS_EXIT; register_name = "Cause"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_14: switch (sel) { case CP0_REG14__EPC: tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_EPC)); register_name = "EPC"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_15: switch (sel) { case CP0_REG15__PRID: /* ignored */ register_name = "PRid"; break; case CP0_REG15__EBASE: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_ebase(tcg_env, arg); register_name = "EBase"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_16: switch (sel) { case CP0_REG16__CONFIG: gen_helper_mtc0_config0(tcg_env, arg); register_name = "Config"; /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; break; case CP0_REG16__CONFIG1: /* ignored, read only */ register_name = "Config1"; break; case CP0_REG16__CONFIG2: gen_helper_mtc0_config2(tcg_env, arg); register_name = "Config2"; /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; break; case CP0_REG16__CONFIG3: gen_helper_mtc0_config3(tcg_env, arg); register_name = "Config3"; /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; break; case CP0_REG16__CONFIG4: gen_helper_mtc0_config4(tcg_env, arg); register_name = "Config4"; ctx->base.is_jmp = DISAS_STOP; break; case CP0_REG16__CONFIG5: gen_helper_mtc0_config5(tcg_env, arg); register_name = "Config5"; /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; break; /* 6,7 are implementation dependent */ case CP0_REG16__CONFIG6: /* ignored */ register_name = "Config6"; break; case CP0_REG16__CONFIG7: /* ignored */ register_name = "Config7"; break; default: register_name = "Invalid config selector"; goto cp0_unimplemented; } break; case CP0_REGISTER_17: switch (sel) { case CP0_REG17__LLADDR: gen_helper_mtc0_lladdr(tcg_env, arg); register_name = "LLAddr"; break; case CP0_REG17__MAAR: CP0_CHECK(ctx->mrp); gen_helper_mtc0_maar(tcg_env, arg); register_name = "MAAR"; break; case CP0_REG17__MAARI: CP0_CHECK(ctx->mrp); gen_helper_mtc0_maari(tcg_env, arg); register_name = "MAARI"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_18: switch (sel) { case CP0_REG18__WATCHLO0: case CP0_REG18__WATCHLO1: case CP0_REG18__WATCHLO2: case CP0_REG18__WATCHLO3: case CP0_REG18__WATCHLO4: case CP0_REG18__WATCHLO5: case CP0_REG18__WATCHLO6: case CP0_REG18__WATCHLO7: CP0_CHECK(ctx->CP0_Config1 & (1 << CP0C1_WR)); gen_helper_0e1i(mtc0_watchlo, arg, sel); register_name = "WatchLo"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_19: switch (sel) { case CP0_REG19__WATCHHI0: case CP0_REG19__WATCHHI1: case CP0_REG19__WATCHHI2: case CP0_REG19__WATCHHI3: case CP0_REG19__WATCHHI4: case CP0_REG19__WATCHHI5: case CP0_REG19__WATCHHI6: case CP0_REG19__WATCHHI7: CP0_CHECK(ctx->CP0_Config1 & (1 << CP0C1_WR)); gen_helper_0e1i(mtc0_watchhi, arg, sel); register_name = "WatchHi"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_20: switch (sel) { case CP0_REG20__XCONTEXT: #if defined(TARGET_MIPS64) check_insn(ctx, ISA_MIPS3); gen_helper_mtc0_xcontext(tcg_env, arg); register_name = "XContext"; break; #endif default: goto cp0_unimplemented; } break; case CP0_REGISTER_21: /* Officially reserved, but sel 0 is used for R1x000 framemask */ CP0_CHECK(!(ctx->insn_flags & ISA_MIPS_R6)); switch (sel) { case 0: gen_helper_mtc0_framemask(tcg_env, arg); register_name = "Framemask"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_22: /* ignored */ register_name = "Diagnostic"; /* implementation dependent */ break; case CP0_REGISTER_23: switch (sel) { case CP0_REG23__DEBUG: gen_helper_mtc0_debug(tcg_env, arg); /* EJTAG support */ /* DISAS_STOP isn't good enough here, hflags may have changed. */ gen_save_pc(ctx->base.pc_next + 4); ctx->base.is_jmp = DISAS_EXIT; register_name = "Debug"; break; case CP0_REG23__TRACECONTROL: /* PDtrace support */ /* gen_helper_mtc0_tracecontrol(tcg_env, arg); */ register_name = "TraceControl"; /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; goto cp0_unimplemented; case CP0_REG23__TRACECONTROL2: /* PDtrace support */ /* gen_helper_mtc0_tracecontrol2(tcg_env, arg); */ register_name = "TraceControl2"; /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; goto cp0_unimplemented; case CP0_REG23__USERTRACEDATA1: /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; /* PDtrace support */ /* gen_helper_mtc0_usertracedata1(tcg_env, arg);*/ register_name = "UserTraceData"; /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; goto cp0_unimplemented; case CP0_REG23__TRACEIBPC: /* PDtrace support */ /* gen_helper_mtc0_traceibpc(tcg_env, arg); */ /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; register_name = "TraceIBPC"; goto cp0_unimplemented; case CP0_REG23__TRACEDBPC: /* PDtrace support */ /* gen_helper_mtc0_tracedbpc(tcg_env, arg); */ /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; register_name = "TraceDBPC"; goto cp0_unimplemented; default: goto cp0_unimplemented; } break; case CP0_REGISTER_24: switch (sel) { case CP0_REG24__DEPC: /* EJTAG support */ tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_DEPC)); register_name = "DEPC"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_25: switch (sel) { case CP0_REG25__PERFCTL0: gen_helper_mtc0_performance0(tcg_env, arg); register_name = "Performance0"; break; case CP0_REG25__PERFCNT0: /* gen_helper_mtc0_performance1(arg); */ register_name = "Performance1"; goto cp0_unimplemented; case CP0_REG25__PERFCTL1: /* gen_helper_mtc0_performance2(arg); */ register_name = "Performance2"; goto cp0_unimplemented; case CP0_REG25__PERFCNT1: /* gen_helper_mtc0_performance3(arg); */ register_name = "Performance3"; goto cp0_unimplemented; case CP0_REG25__PERFCTL2: /* gen_helper_mtc0_performance4(arg); */ register_name = "Performance4"; goto cp0_unimplemented; case CP0_REG25__PERFCNT2: /* gen_helper_mtc0_performance5(arg); */ register_name = "Performance5"; goto cp0_unimplemented; case CP0_REG25__PERFCTL3: /* gen_helper_mtc0_performance6(arg); */ register_name = "Performance6"; goto cp0_unimplemented; case CP0_REG25__PERFCNT3: /* gen_helper_mtc0_performance7(arg); */ register_name = "Performance7"; goto cp0_unimplemented; default: goto cp0_unimplemented; } break; case CP0_REGISTER_26: switch (sel) { case CP0_REG26__ERRCTL: gen_helper_mtc0_errctl(tcg_env, arg); ctx->base.is_jmp = DISAS_STOP; register_name = "ErrCtl"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_27: switch (sel) { case CP0_REG27__CACHERR: /* ignored */ register_name = "CacheErr"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_28: switch (sel) { case CP0_REG28__TAGLO: case CP0_REG28__TAGLO1: case CP0_REG28__TAGLO2: case CP0_REG28__TAGLO3: gen_helper_mtc0_taglo(tcg_env, arg); register_name = "TagLo"; break; case CP0_REG28__DATALO: case CP0_REG28__DATALO1: case CP0_REG28__DATALO2: case CP0_REG28__DATALO3: gen_helper_mtc0_datalo(tcg_env, arg); register_name = "DataLo"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_29: switch (sel) { case CP0_REG29__TAGHI: case CP0_REG29__TAGHI1: case CP0_REG29__TAGHI2: case CP0_REG29__TAGHI3: gen_helper_mtc0_taghi(tcg_env, arg); register_name = "TagHi"; break; case CP0_REG29__DATAHI: case CP0_REG29__DATAHI1: case CP0_REG29__DATAHI2: case CP0_REG29__DATAHI3: gen_helper_mtc0_datahi(tcg_env, arg); register_name = "DataHi"; break; default: register_name = "invalid sel"; goto cp0_unimplemented; } break; case CP0_REGISTER_30: switch (sel) { case CP0_REG30__ERROREPC: tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_ErrorEPC)); register_name = "ErrorEPC"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_31: switch (sel) { case CP0_REG31__DESAVE: /* EJTAG support */ gen_mtc0_store32(arg, offsetof(CPUMIPSState, CP0_DESAVE)); register_name = "DESAVE"; break; case CP0_REG31__KSCRATCH1: case CP0_REG31__KSCRATCH2: case CP0_REG31__KSCRATCH3: case CP0_REG31__KSCRATCH4: case CP0_REG31__KSCRATCH5: case CP0_REG31__KSCRATCH6: CP0_CHECK(ctx->kscrexist & (1 << sel)); tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_KScratch[sel - 2])); register_name = "KScratch"; break; default: goto cp0_unimplemented; } break; default: goto cp0_unimplemented; } trace_mips_translate_c0("mtc0", register_name, reg, sel); /* For simplicity assume that all writes can cause interrupts. */ if (icount) { /* * DISAS_STOP isn't sufficient, we need to ensure we break out of * translated code to check for pending interrupts. */ gen_save_pc(ctx->base.pc_next + 4); ctx->base.is_jmp = DISAS_EXIT; } return; cp0_unimplemented: qemu_log_mask(LOG_UNIMP, "mtc0 %s (reg %d sel %d)\n", register_name, reg, sel); } #if defined(TARGET_MIPS64) static void gen_dmfc0(DisasContext *ctx, TCGv arg, int reg, int sel) { const char *register_name = "invalid"; if (sel != 0) { check_insn(ctx, ISA_MIPS_R1); } switch (reg) { case CP0_REGISTER_00: switch (sel) { case CP0_REG00__INDEX: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Index)); register_name = "Index"; break; case CP0_REG00__MVPCONTROL: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_mvpcontrol(arg, tcg_env); register_name = "MVPControl"; break; case CP0_REG00__MVPCONF0: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_mvpconf0(arg, tcg_env); register_name = "MVPConf0"; break; case CP0_REG00__MVPCONF1: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_mvpconf1(arg, tcg_env); register_name = "MVPConf1"; break; case CP0_REG00__VPCONTROL: CP0_CHECK(ctx->vp); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_VPControl)); register_name = "VPControl"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_01: switch (sel) { case CP0_REG01__RANDOM: CP0_CHECK(!(ctx->insn_flags & ISA_MIPS_R6)); gen_helper_mfc0_random(arg, tcg_env); register_name = "Random"; break; case CP0_REG01__VPECONTROL: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_VPEControl)); register_name = "VPEControl"; break; case CP0_REG01__VPECONF0: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_VPEConf0)); register_name = "VPEConf0"; break; case CP0_REG01__VPECONF1: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_VPEConf1)); register_name = "VPEConf1"; break; case CP0_REG01__YQMASK: CP0_CHECK(ctx->insn_flags & ASE_MT); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_YQMask)); register_name = "YQMask"; break; case CP0_REG01__VPESCHEDULE: CP0_CHECK(ctx->insn_flags & ASE_MT); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_VPESchedule)); register_name = "VPESchedule"; break; case CP0_REG01__VPESCHEFBACK: CP0_CHECK(ctx->insn_flags & ASE_MT); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_VPEScheFBack)); register_name = "VPEScheFBack"; break; case CP0_REG01__VPEOPT: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_VPEOpt)); register_name = "VPEOpt"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_02: switch (sel) { case CP0_REG02__ENTRYLO0: tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_EntryLo0)); register_name = "EntryLo0"; break; case CP0_REG02__TCSTATUS: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_tcstatus(arg, tcg_env); register_name = "TCStatus"; break; case CP0_REG02__TCBIND: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mfc0_tcbind(arg, tcg_env); register_name = "TCBind"; break; case CP0_REG02__TCRESTART: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_dmfc0_tcrestart(arg, tcg_env); register_name = "TCRestart"; break; case CP0_REG02__TCHALT: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_dmfc0_tchalt(arg, tcg_env); register_name = "TCHalt"; break; case CP0_REG02__TCCONTEXT: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_dmfc0_tccontext(arg, tcg_env); register_name = "TCContext"; break; case CP0_REG02__TCSCHEDULE: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_dmfc0_tcschedule(arg, tcg_env); register_name = "TCSchedule"; break; case CP0_REG02__TCSCHEFBACK: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_dmfc0_tcschefback(arg, tcg_env); register_name = "TCScheFBack"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_03: switch (sel) { case CP0_REG03__ENTRYLO1: tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_EntryLo1)); register_name = "EntryLo1"; break; case CP0_REG03__GLOBALNUM: CP0_CHECK(ctx->vp); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_GlobalNumber)); register_name = "GlobalNumber"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_04: switch (sel) { case CP0_REG04__CONTEXT: tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_Context)); register_name = "Context"; break; case CP0_REG04__CONTEXTCONFIG: /* SmartMIPS ASE */ /* gen_helper_dmfc0_contextconfig(arg); */ register_name = "ContextConfig"; goto cp0_unimplemented; case CP0_REG04__USERLOCAL: CP0_CHECK(ctx->ulri); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, active_tc.CP0_UserLocal)); register_name = "UserLocal"; break; case CP0_REG04__MMID: CP0_CHECK(ctx->mi); gen_helper_mtc0_memorymapid(tcg_env, arg); register_name = "MMID"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_05: switch (sel) { case CP0_REG05__PAGEMASK: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_PageMask)); register_name = "PageMask"; break; case CP0_REG05__PAGEGRAIN: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_PageGrain)); register_name = "PageGrain"; break; case CP0_REG05__SEGCTL0: CP0_CHECK(ctx->sc); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_SegCtl0)); register_name = "SegCtl0"; break; case CP0_REG05__SEGCTL1: CP0_CHECK(ctx->sc); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_SegCtl1)); register_name = "SegCtl1"; break; case CP0_REG05__SEGCTL2: CP0_CHECK(ctx->sc); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_SegCtl2)); register_name = "SegCtl2"; break; case CP0_REG05__PWBASE: check_pw(ctx); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_PWBase)); register_name = "PWBase"; break; case CP0_REG05__PWFIELD: check_pw(ctx); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_PWField)); register_name = "PWField"; break; case CP0_REG05__PWSIZE: check_pw(ctx); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_PWSize)); register_name = "PWSize"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_06: switch (sel) { case CP0_REG06__WIRED: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Wired)); register_name = "Wired"; break; case CP0_REG06__SRSCONF0: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_SRSConf0)); register_name = "SRSConf0"; break; case CP0_REG06__SRSCONF1: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_SRSConf1)); register_name = "SRSConf1"; break; case CP0_REG06__SRSCONF2: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_SRSConf2)); register_name = "SRSConf2"; break; case CP0_REG06__SRSCONF3: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_SRSConf3)); register_name = "SRSConf3"; break; case CP0_REG06__SRSCONF4: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_SRSConf4)); register_name = "SRSConf4"; break; case CP0_REG06__PWCTL: check_pw(ctx); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_PWCtl)); register_name = "PWCtl"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_07: switch (sel) { case CP0_REG07__HWRENA: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_HWREna)); register_name = "HWREna"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_08: switch (sel) { case CP0_REG08__BADVADDR: tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_BadVAddr)); register_name = "BadVAddr"; break; case CP0_REG08__BADINSTR: CP0_CHECK(ctx->bi); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_BadInstr)); register_name = "BadInstr"; break; case CP0_REG08__BADINSTRP: CP0_CHECK(ctx->bp); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_BadInstrP)); register_name = "BadInstrP"; break; case CP0_REG08__BADINSTRX: CP0_CHECK(ctx->bi); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_BadInstrX)); tcg_gen_andi_tl(arg, arg, ~0xffff); register_name = "BadInstrX"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_09: switch (sel) { case CP0_REG09__COUNT: /* Mark as an IO operation because we read the time. */ translator_io_start(&ctx->base); gen_helper_mfc0_count(arg, tcg_env); /* * Break the TB to be able to take timer interrupts immediately * after reading count. DISAS_STOP isn't sufficient, we need to * ensure we break completely out of translated code. */ gen_save_pc(ctx->base.pc_next + 4); ctx->base.is_jmp = DISAS_EXIT; register_name = "Count"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_10: switch (sel) { case CP0_REG10__ENTRYHI: tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_EntryHi)); register_name = "EntryHi"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_11: switch (sel) { case CP0_REG11__COMPARE: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Compare)); register_name = "Compare"; break; /* 6,7 are implementation dependent */ default: goto cp0_unimplemented; } break; case CP0_REGISTER_12: switch (sel) { case CP0_REG12__STATUS: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Status)); register_name = "Status"; break; case CP0_REG12__INTCTL: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_IntCtl)); register_name = "IntCtl"; break; case CP0_REG12__SRSCTL: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_SRSCtl)); register_name = "SRSCtl"; break; case CP0_REG12__SRSMAP: check_insn(ctx, ISA_MIPS_R2); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_SRSMap)); register_name = "SRSMap"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_13: switch (sel) { case CP0_REG13__CAUSE: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Cause)); register_name = "Cause"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_14: switch (sel) { case CP0_REG14__EPC: tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_EPC)); register_name = "EPC"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_15: switch (sel) { case CP0_REG15__PRID: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_PRid)); register_name = "PRid"; break; case CP0_REG15__EBASE: check_insn(ctx, ISA_MIPS_R2); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_EBase)); register_name = "EBase"; break; case CP0_REG15__CMGCRBASE: check_insn(ctx, ISA_MIPS_R2); CP0_CHECK(ctx->cmgcr); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_CMGCRBase)); register_name = "CMGCRBase"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_16: switch (sel) { case CP0_REG16__CONFIG: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config0)); register_name = "Config"; break; case CP0_REG16__CONFIG1: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config1)); register_name = "Config1"; break; case CP0_REG16__CONFIG2: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config2)); register_name = "Config2"; break; case CP0_REG16__CONFIG3: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config3)); register_name = "Config3"; break; case CP0_REG16__CONFIG4: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config4)); register_name = "Config4"; break; case CP0_REG16__CONFIG5: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config5)); register_name = "Config5"; break; /* 6,7 are implementation dependent */ case CP0_REG16__CONFIG6: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config6)); register_name = "Config6"; break; case CP0_REG16__CONFIG7: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Config7)); register_name = "Config7"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_17: switch (sel) { case CP0_REG17__LLADDR: gen_helper_dmfc0_lladdr(arg, tcg_env); register_name = "LLAddr"; break; case CP0_REG17__MAAR: CP0_CHECK(ctx->mrp); gen_helper_dmfc0_maar(arg, tcg_env); register_name = "MAAR"; break; case CP0_REG17__MAARI: CP0_CHECK(ctx->mrp); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_MAARI)); register_name = "MAARI"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_18: switch (sel) { case CP0_REG18__WATCHLO0: case CP0_REG18__WATCHLO1: case CP0_REG18__WATCHLO2: case CP0_REG18__WATCHLO3: case CP0_REG18__WATCHLO4: case CP0_REG18__WATCHLO5: case CP0_REG18__WATCHLO6: case CP0_REG18__WATCHLO7: CP0_CHECK(ctx->CP0_Config1 & (1 << CP0C1_WR)); gen_helper_1e0i(dmfc0_watchlo, arg, sel); register_name = "WatchLo"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_19: switch (sel) { case CP0_REG19__WATCHHI0: case CP0_REG19__WATCHHI1: case CP0_REG19__WATCHHI2: case CP0_REG19__WATCHHI3: case CP0_REG19__WATCHHI4: case CP0_REG19__WATCHHI5: case CP0_REG19__WATCHHI6: case CP0_REG19__WATCHHI7: CP0_CHECK(ctx->CP0_Config1 & (1 << CP0C1_WR)); gen_helper_1e0i(dmfc0_watchhi, arg, sel); register_name = "WatchHi"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_20: switch (sel) { case CP0_REG20__XCONTEXT: check_insn(ctx, ISA_MIPS3); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_XContext)); register_name = "XContext"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_21: /* Officially reserved, but sel 0 is used for R1x000 framemask */ CP0_CHECK(!(ctx->insn_flags & ISA_MIPS_R6)); switch (sel) { case 0: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Framemask)); register_name = "Framemask"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_22: tcg_gen_movi_tl(arg, 0); /* unimplemented */ register_name = "'Diagnostic"; /* implementation dependent */ break; case CP0_REGISTER_23: switch (sel) { case CP0_REG23__DEBUG: gen_helper_mfc0_debug(arg, tcg_env); /* EJTAG support */ register_name = "Debug"; break; case CP0_REG23__TRACECONTROL: /* PDtrace support */ /* gen_helper_dmfc0_tracecontrol(arg, tcg_env); */ register_name = "TraceControl"; goto cp0_unimplemented; case CP0_REG23__TRACECONTROL2: /* PDtrace support */ /* gen_helper_dmfc0_tracecontrol2(arg, tcg_env); */ register_name = "TraceControl2"; goto cp0_unimplemented; case CP0_REG23__USERTRACEDATA1: /* PDtrace support */ /* gen_helper_dmfc0_usertracedata1(arg, tcg_env);*/ register_name = "UserTraceData1"; goto cp0_unimplemented; case CP0_REG23__TRACEIBPC: /* PDtrace support */ /* gen_helper_dmfc0_traceibpc(arg, tcg_env); */ register_name = "TraceIBPC"; goto cp0_unimplemented; case CP0_REG23__TRACEDBPC: /* PDtrace support */ /* gen_helper_dmfc0_tracedbpc(arg, tcg_env); */ register_name = "TraceDBPC"; goto cp0_unimplemented; default: goto cp0_unimplemented; } break; case CP0_REGISTER_24: switch (sel) { case CP0_REG24__DEPC: /* EJTAG support */ tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_DEPC)); register_name = "DEPC"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_25: switch (sel) { case CP0_REG25__PERFCTL0: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_Performance0)); register_name = "Performance0"; break; case CP0_REG25__PERFCNT0: /* gen_helper_dmfc0_performance1(arg); */ register_name = "Performance1"; goto cp0_unimplemented; case CP0_REG25__PERFCTL1: /* gen_helper_dmfc0_performance2(arg); */ register_name = "Performance2"; goto cp0_unimplemented; case CP0_REG25__PERFCNT1: /* gen_helper_dmfc0_performance3(arg); */ register_name = "Performance3"; goto cp0_unimplemented; case CP0_REG25__PERFCTL2: /* gen_helper_dmfc0_performance4(arg); */ register_name = "Performance4"; goto cp0_unimplemented; case CP0_REG25__PERFCNT2: /* gen_helper_dmfc0_performance5(arg); */ register_name = "Performance5"; goto cp0_unimplemented; case CP0_REG25__PERFCTL3: /* gen_helper_dmfc0_performance6(arg); */ register_name = "Performance6"; goto cp0_unimplemented; case CP0_REG25__PERFCNT3: /* gen_helper_dmfc0_performance7(arg); */ register_name = "Performance7"; goto cp0_unimplemented; default: goto cp0_unimplemented; } break; case CP0_REGISTER_26: switch (sel) { case CP0_REG26__ERRCTL: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_ErrCtl)); register_name = "ErrCtl"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_27: switch (sel) { /* ignored */ case CP0_REG27__CACHERR: tcg_gen_movi_tl(arg, 0); /* unimplemented */ register_name = "CacheErr"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_28: switch (sel) { case CP0_REG28__TAGLO: case CP0_REG28__TAGLO1: case CP0_REG28__TAGLO2: case CP0_REG28__TAGLO3: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_TagLo)); register_name = "TagLo"; break; case CP0_REG28__DATALO: case CP0_REG28__DATALO1: case CP0_REG28__DATALO2: case CP0_REG28__DATALO3: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_DataLo)); register_name = "DataLo"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_29: switch (sel) { case CP0_REG29__TAGHI: case CP0_REG29__TAGHI1: case CP0_REG29__TAGHI2: case CP0_REG29__TAGHI3: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_TagHi)); register_name = "TagHi"; break; case CP0_REG29__DATAHI: case CP0_REG29__DATAHI1: case CP0_REG29__DATAHI2: case CP0_REG29__DATAHI3: gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_DataHi)); register_name = "DataHi"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_30: switch (sel) { case CP0_REG30__ERROREPC: tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_ErrorEPC)); register_name = "ErrorEPC"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_31: switch (sel) { case CP0_REG31__DESAVE: /* EJTAG support */ gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_DESAVE)); register_name = "DESAVE"; break; case CP0_REG31__KSCRATCH1: case CP0_REG31__KSCRATCH2: case CP0_REG31__KSCRATCH3: case CP0_REG31__KSCRATCH4: case CP0_REG31__KSCRATCH5: case CP0_REG31__KSCRATCH6: CP0_CHECK(ctx->kscrexist & (1 << sel)); tcg_gen_ld_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_KScratch[sel - 2])); register_name = "KScratch"; break; default: goto cp0_unimplemented; } break; default: goto cp0_unimplemented; } trace_mips_translate_c0("dmfc0", register_name, reg, sel); return; cp0_unimplemented: qemu_log_mask(LOG_UNIMP, "dmfc0 %s (reg %d sel %d)\n", register_name, reg, sel); gen_mfc0_unimplemented(ctx, arg); } static void gen_dmtc0(DisasContext *ctx, TCGv arg, int reg, int sel) { const char *register_name = "invalid"; bool icount; if (sel != 0) { check_insn(ctx, ISA_MIPS_R1); } icount = translator_io_start(&ctx->base); switch (reg) { case CP0_REGISTER_00: switch (sel) { case CP0_REG00__INDEX: gen_helper_mtc0_index(tcg_env, arg); register_name = "Index"; break; case CP0_REG00__MVPCONTROL: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_mvpcontrol(tcg_env, arg); register_name = "MVPControl"; break; case CP0_REG00__MVPCONF0: CP0_CHECK(ctx->insn_flags & ASE_MT); /* ignored */ register_name = "MVPConf0"; break; case CP0_REG00__MVPCONF1: CP0_CHECK(ctx->insn_flags & ASE_MT); /* ignored */ register_name = "MVPConf1"; break; case CP0_REG00__VPCONTROL: CP0_CHECK(ctx->vp); /* ignored */ register_name = "VPControl"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_01: switch (sel) { case CP0_REG01__RANDOM: /* ignored */ register_name = "Random"; break; case CP0_REG01__VPECONTROL: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_vpecontrol(tcg_env, arg); register_name = "VPEControl"; break; case CP0_REG01__VPECONF0: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_vpeconf0(tcg_env, arg); register_name = "VPEConf0"; break; case CP0_REG01__VPECONF1: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_vpeconf1(tcg_env, arg); register_name = "VPEConf1"; break; case CP0_REG01__YQMASK: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_yqmask(tcg_env, arg); register_name = "YQMask"; break; case CP0_REG01__VPESCHEDULE: CP0_CHECK(ctx->insn_flags & ASE_MT); tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_VPESchedule)); register_name = "VPESchedule"; break; case CP0_REG01__VPESCHEFBACK: CP0_CHECK(ctx->insn_flags & ASE_MT); tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_VPEScheFBack)); register_name = "VPEScheFBack"; break; case CP0_REG01__VPEOPT: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_vpeopt(tcg_env, arg); register_name = "VPEOpt"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_02: switch (sel) { case CP0_REG02__ENTRYLO0: gen_helper_dmtc0_entrylo0(tcg_env, arg); register_name = "EntryLo0"; break; case CP0_REG02__TCSTATUS: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_tcstatus(tcg_env, arg); register_name = "TCStatus"; break; case CP0_REG02__TCBIND: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_tcbind(tcg_env, arg); register_name = "TCBind"; break; case CP0_REG02__TCRESTART: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_tcrestart(tcg_env, arg); register_name = "TCRestart"; break; case CP0_REG02__TCHALT: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_tchalt(tcg_env, arg); register_name = "TCHalt"; break; case CP0_REG02__TCCONTEXT: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_tccontext(tcg_env, arg); register_name = "TCContext"; break; case CP0_REG02__TCSCHEDULE: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_tcschedule(tcg_env, arg); register_name = "TCSchedule"; break; case CP0_REG02__TCSCHEFBACK: CP0_CHECK(ctx->insn_flags & ASE_MT); gen_helper_mtc0_tcschefback(tcg_env, arg); register_name = "TCScheFBack"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_03: switch (sel) { case CP0_REG03__ENTRYLO1: gen_helper_dmtc0_entrylo1(tcg_env, arg); register_name = "EntryLo1"; break; case CP0_REG03__GLOBALNUM: CP0_CHECK(ctx->vp); /* ignored */ register_name = "GlobalNumber"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_04: switch (sel) { case CP0_REG04__CONTEXT: gen_helper_mtc0_context(tcg_env, arg); register_name = "Context"; break; case CP0_REG04__CONTEXTCONFIG: /* SmartMIPS ASE */ /* gen_helper_dmtc0_contextconfig(arg); */ register_name = "ContextConfig"; goto cp0_unimplemented; case CP0_REG04__USERLOCAL: CP0_CHECK(ctx->ulri); tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, active_tc.CP0_UserLocal)); register_name = "UserLocal"; break; case CP0_REG04__MMID: CP0_CHECK(ctx->mi); gen_mfc0_load32(arg, offsetof(CPUMIPSState, CP0_MemoryMapID)); register_name = "MMID"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_05: switch (sel) { case CP0_REG05__PAGEMASK: gen_helper_mtc0_pagemask(tcg_env, arg); register_name = "PageMask"; break; case CP0_REG05__PAGEGRAIN: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_pagegrain(tcg_env, arg); register_name = "PageGrain"; break; case CP0_REG05__SEGCTL0: CP0_CHECK(ctx->sc); gen_helper_mtc0_segctl0(tcg_env, arg); register_name = "SegCtl0"; break; case CP0_REG05__SEGCTL1: CP0_CHECK(ctx->sc); gen_helper_mtc0_segctl1(tcg_env, arg); register_name = "SegCtl1"; break; case CP0_REG05__SEGCTL2: CP0_CHECK(ctx->sc); gen_helper_mtc0_segctl2(tcg_env, arg); register_name = "SegCtl2"; break; case CP0_REG05__PWBASE: check_pw(ctx); tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_PWBase)); register_name = "PWBase"; break; case CP0_REG05__PWFIELD: check_pw(ctx); gen_helper_mtc0_pwfield(tcg_env, arg); register_name = "PWField"; break; case CP0_REG05__PWSIZE: check_pw(ctx); gen_helper_mtc0_pwsize(tcg_env, arg); register_name = "PWSize"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_06: switch (sel) { case CP0_REG06__WIRED: gen_helper_mtc0_wired(tcg_env, arg); register_name = "Wired"; break; case CP0_REG06__SRSCONF0: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_srsconf0(tcg_env, arg); register_name = "SRSConf0"; break; case CP0_REG06__SRSCONF1: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_srsconf1(tcg_env, arg); register_name = "SRSConf1"; break; case CP0_REG06__SRSCONF2: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_srsconf2(tcg_env, arg); register_name = "SRSConf2"; break; case CP0_REG06__SRSCONF3: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_srsconf3(tcg_env, arg); register_name = "SRSConf3"; break; case CP0_REG06__SRSCONF4: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_srsconf4(tcg_env, arg); register_name = "SRSConf4"; break; case CP0_REG06__PWCTL: check_pw(ctx); gen_helper_mtc0_pwctl(tcg_env, arg); register_name = "PWCtl"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_07: switch (sel) { case CP0_REG07__HWRENA: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_hwrena(tcg_env, arg); ctx->base.is_jmp = DISAS_STOP; register_name = "HWREna"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_08: switch (sel) { case CP0_REG08__BADVADDR: /* ignored */ register_name = "BadVAddr"; break; case CP0_REG08__BADINSTR: /* ignored */ register_name = "BadInstr"; break; case CP0_REG08__BADINSTRP: /* ignored */ register_name = "BadInstrP"; break; case CP0_REG08__BADINSTRX: /* ignored */ register_name = "BadInstrX"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_09: switch (sel) { case CP0_REG09__COUNT: gen_helper_mtc0_count(tcg_env, arg); register_name = "Count"; break; default: goto cp0_unimplemented; } /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; break; case CP0_REGISTER_10: switch (sel) { case CP0_REG10__ENTRYHI: gen_helper_mtc0_entryhi(tcg_env, arg); register_name = "EntryHi"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_11: switch (sel) { case CP0_REG11__COMPARE: gen_helper_mtc0_compare(tcg_env, arg); register_name = "Compare"; break; /* 6,7 are implementation dependent */ default: goto cp0_unimplemented; } /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; break; case CP0_REGISTER_12: switch (sel) { case CP0_REG12__STATUS: save_cpu_state(ctx, 1); gen_helper_mtc0_status(tcg_env, arg); /* DISAS_STOP isn't good enough here, hflags may have changed. */ gen_save_pc(ctx->base.pc_next + 4); ctx->base.is_jmp = DISAS_EXIT; register_name = "Status"; break; case CP0_REG12__INTCTL: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_intctl(tcg_env, arg); /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; register_name = "IntCtl"; break; case CP0_REG12__SRSCTL: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_srsctl(tcg_env, arg); /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; register_name = "SRSCtl"; break; case CP0_REG12__SRSMAP: check_insn(ctx, ISA_MIPS_R2); gen_mtc0_store32(arg, offsetof(CPUMIPSState, CP0_SRSMap)); /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; register_name = "SRSMap"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_13: switch (sel) { case CP0_REG13__CAUSE: save_cpu_state(ctx, 1); gen_helper_mtc0_cause(tcg_env, arg); /* * Stop translation as we may have triggered an interrupt. * DISAS_STOP isn't sufficient, we need to ensure we break out of * translated code to check for pending interrupts. */ gen_save_pc(ctx->base.pc_next + 4); ctx->base.is_jmp = DISAS_EXIT; register_name = "Cause"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_14: switch (sel) { case CP0_REG14__EPC: tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_EPC)); register_name = "EPC"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_15: switch (sel) { case CP0_REG15__PRID: /* ignored */ register_name = "PRid"; break; case CP0_REG15__EBASE: check_insn(ctx, ISA_MIPS_R2); gen_helper_mtc0_ebase(tcg_env, arg); register_name = "EBase"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_16: switch (sel) { case CP0_REG16__CONFIG: gen_helper_mtc0_config0(tcg_env, arg); register_name = "Config"; /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; break; case CP0_REG16__CONFIG1: /* ignored, read only */ register_name = "Config1"; break; case CP0_REG16__CONFIG2: gen_helper_mtc0_config2(tcg_env, arg); register_name = "Config2"; /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; break; case CP0_REG16__CONFIG3: gen_helper_mtc0_config3(tcg_env, arg); register_name = "Config3"; /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; break; case CP0_REG16__CONFIG4: /* currently ignored */ register_name = "Config4"; break; case CP0_REG16__CONFIG5: gen_helper_mtc0_config5(tcg_env, arg); register_name = "Config5"; /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; break; /* 6,7 are implementation dependent */ default: register_name = "Invalid config selector"; goto cp0_unimplemented; } break; case CP0_REGISTER_17: switch (sel) { case CP0_REG17__LLADDR: gen_helper_mtc0_lladdr(tcg_env, arg); register_name = "LLAddr"; break; case CP0_REG17__MAAR: CP0_CHECK(ctx->mrp); gen_helper_mtc0_maar(tcg_env, arg); register_name = "MAAR"; break; case CP0_REG17__MAARI: CP0_CHECK(ctx->mrp); gen_helper_mtc0_maari(tcg_env, arg); register_name = "MAARI"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_18: switch (sel) { case CP0_REG18__WATCHLO0: case CP0_REG18__WATCHLO1: case CP0_REG18__WATCHLO2: case CP0_REG18__WATCHLO3: case CP0_REG18__WATCHLO4: case CP0_REG18__WATCHLO5: case CP0_REG18__WATCHLO6: case CP0_REG18__WATCHLO7: CP0_CHECK(ctx->CP0_Config1 & (1 << CP0C1_WR)); gen_helper_0e1i(mtc0_watchlo, arg, sel); register_name = "WatchLo"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_19: switch (sel) { case CP0_REG19__WATCHHI0: case CP0_REG19__WATCHHI1: case CP0_REG19__WATCHHI2: case CP0_REG19__WATCHHI3: case CP0_REG19__WATCHHI4: case CP0_REG19__WATCHHI5: case CP0_REG19__WATCHHI6: case CP0_REG19__WATCHHI7: CP0_CHECK(ctx->CP0_Config1 & (1 << CP0C1_WR)); gen_helper_0e1i(mtc0_watchhi, arg, sel); register_name = "WatchHi"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_20: switch (sel) { case CP0_REG20__XCONTEXT: check_insn(ctx, ISA_MIPS3); gen_helper_mtc0_xcontext(tcg_env, arg); register_name = "XContext"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_21: /* Officially reserved, but sel 0 is used for R1x000 framemask */ CP0_CHECK(!(ctx->insn_flags & ISA_MIPS_R6)); switch (sel) { case 0: gen_helper_mtc0_framemask(tcg_env, arg); register_name = "Framemask"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_22: /* ignored */ register_name = "Diagnostic"; /* implementation dependent */ break; case CP0_REGISTER_23: switch (sel) { case CP0_REG23__DEBUG: gen_helper_mtc0_debug(tcg_env, arg); /* EJTAG support */ /* DISAS_STOP isn't good enough here, hflags may have changed. */ gen_save_pc(ctx->base.pc_next + 4); ctx->base.is_jmp = DISAS_EXIT; register_name = "Debug"; break; case CP0_REG23__TRACECONTROL: /* PDtrace support */ /* gen_helper_mtc0_tracecontrol(tcg_env, arg); */ /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; register_name = "TraceControl"; goto cp0_unimplemented; case CP0_REG23__TRACECONTROL2: /* PDtrace support */ /* gen_helper_mtc0_tracecontrol2(tcg_env, arg); */ /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; register_name = "TraceControl2"; goto cp0_unimplemented; case CP0_REG23__USERTRACEDATA1: /* PDtrace support */ /* gen_helper_mtc0_usertracedata1(tcg_env, arg);*/ /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; register_name = "UserTraceData1"; goto cp0_unimplemented; case CP0_REG23__TRACEIBPC: /* PDtrace support */ /* gen_helper_mtc0_traceibpc(tcg_env, arg); */ /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; register_name = "TraceIBPC"; goto cp0_unimplemented; case CP0_REG23__TRACEDBPC: /* PDtrace support */ /* gen_helper_mtc0_tracedbpc(tcg_env, arg); */ /* Stop translation as we may have switched the execution mode */ ctx->base.is_jmp = DISAS_STOP; register_name = "TraceDBPC"; goto cp0_unimplemented; default: goto cp0_unimplemented; } break; case CP0_REGISTER_24: switch (sel) { case CP0_REG24__DEPC: /* EJTAG support */ tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_DEPC)); register_name = "DEPC"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_25: switch (sel) { case CP0_REG25__PERFCTL0: gen_helper_mtc0_performance0(tcg_env, arg); register_name = "Performance0"; break; case CP0_REG25__PERFCNT0: /* gen_helper_mtc0_performance1(tcg_env, arg); */ register_name = "Performance1"; goto cp0_unimplemented; case CP0_REG25__PERFCTL1: /* gen_helper_mtc0_performance2(tcg_env, arg); */ register_name = "Performance2"; goto cp0_unimplemented; case CP0_REG25__PERFCNT1: /* gen_helper_mtc0_performance3(tcg_env, arg); */ register_name = "Performance3"; goto cp0_unimplemented; case CP0_REG25__PERFCTL2: /* gen_helper_mtc0_performance4(tcg_env, arg); */ register_name = "Performance4"; goto cp0_unimplemented; case CP0_REG25__PERFCNT2: /* gen_helper_mtc0_performance5(tcg_env, arg); */ register_name = "Performance5"; goto cp0_unimplemented; case CP0_REG25__PERFCTL3: /* gen_helper_mtc0_performance6(tcg_env, arg); */ register_name = "Performance6"; goto cp0_unimplemented; case CP0_REG25__PERFCNT3: /* gen_helper_mtc0_performance7(tcg_env, arg); */ register_name = "Performance7"; goto cp0_unimplemented; default: goto cp0_unimplemented; } break; case CP0_REGISTER_26: switch (sel) { case CP0_REG26__ERRCTL: gen_helper_mtc0_errctl(tcg_env, arg); ctx->base.is_jmp = DISAS_STOP; register_name = "ErrCtl"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_27: switch (sel) { case CP0_REG27__CACHERR: /* ignored */ register_name = "CacheErr"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_28: switch (sel) { case CP0_REG28__TAGLO: case CP0_REG28__TAGLO1: case CP0_REG28__TAGLO2: case CP0_REG28__TAGLO3: gen_helper_mtc0_taglo(tcg_env, arg); register_name = "TagLo"; break; case CP0_REG28__DATALO: case CP0_REG28__DATALO1: case CP0_REG28__DATALO2: case CP0_REG28__DATALO3: gen_helper_mtc0_datalo(tcg_env, arg); register_name = "DataLo"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_29: switch (sel) { case CP0_REG29__TAGHI: case CP0_REG29__TAGHI1: case CP0_REG29__TAGHI2: case CP0_REG29__TAGHI3: gen_helper_mtc0_taghi(tcg_env, arg); register_name = "TagHi"; break; case CP0_REG29__DATAHI: case CP0_REG29__DATAHI1: case CP0_REG29__DATAHI2: case CP0_REG29__DATAHI3: gen_helper_mtc0_datahi(tcg_env, arg); register_name = "DataHi"; break; default: register_name = "invalid sel"; goto cp0_unimplemented; } break; case CP0_REGISTER_30: switch (sel) { case CP0_REG30__ERROREPC: tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_ErrorEPC)); register_name = "ErrorEPC"; break; default: goto cp0_unimplemented; } break; case CP0_REGISTER_31: switch (sel) { case CP0_REG31__DESAVE: /* EJTAG support */ gen_mtc0_store32(arg, offsetof(CPUMIPSState, CP0_DESAVE)); register_name = "DESAVE"; break; case CP0_REG31__KSCRATCH1: case CP0_REG31__KSCRATCH2: case CP0_REG31__KSCRATCH3: case CP0_REG31__KSCRATCH4: case CP0_REG31__KSCRATCH5: case CP0_REG31__KSCRATCH6: CP0_CHECK(ctx->kscrexist & (1 << sel)); tcg_gen_st_tl(arg, tcg_env, offsetof(CPUMIPSState, CP0_KScratch[sel - 2])); register_name = "KScratch"; break; default: goto cp0_unimplemented; } break; default: goto cp0_unimplemented; } trace_mips_translate_c0("dmtc0", register_name, reg, sel); /* For simplicity assume that all writes can cause interrupts. */ if (icount) { /* * DISAS_STOP isn't sufficient, we need to ensure we break out of * translated code to check for pending interrupts. */ gen_save_pc(ctx->base.pc_next + 4); ctx->base.is_jmp = DISAS_EXIT; } return; cp0_unimplemented: qemu_log_mask(LOG_UNIMP, "dmtc0 %s (reg %d sel %d)\n", register_name, reg, sel); } #endif /* TARGET_MIPS64 */ static void gen_mftr(CPUMIPSState *env, DisasContext *ctx, int rt, int rd, int u, int sel, int h) { int other_tc = env->CP0_VPEControl & (0xff << CP0VPECo_TargTC); TCGv t0 = tcg_temp_new(); if ((env->CP0_VPEConf0 & (1 << CP0VPEC0_MVP)) == 0 && ((env->tcs[other_tc].CP0_TCBind & (0xf << CP0TCBd_CurVPE)) != (env->active_tc.CP0_TCBind & (0xf << CP0TCBd_CurVPE)))) { tcg_gen_movi_tl(t0, -1); } else if ((env->CP0_VPEControl & (0xff << CP0VPECo_TargTC)) > (env->mvp->CP0_MVPConf0 & (0xff << CP0MVPC0_PTC))) { tcg_gen_movi_tl(t0, -1); } else if (u == 0) { switch (rt) { case 1: switch (sel) { case 1: gen_helper_mftc0_vpecontrol(t0, tcg_env); break; case 2: gen_helper_mftc0_vpeconf0(t0, tcg_env); break; default: goto die; break; } break; case 2: switch (sel) { case 1: gen_helper_mftc0_tcstatus(t0, tcg_env); break; case 2: gen_helper_mftc0_tcbind(t0, tcg_env); break; case 3: gen_helper_mftc0_tcrestart(t0, tcg_env); break; case 4: gen_helper_mftc0_tchalt(t0, tcg_env); break; case 5: gen_helper_mftc0_tccontext(t0, tcg_env); break; case 6: gen_helper_mftc0_tcschedule(t0, tcg_env); break; case 7: gen_helper_mftc0_tcschefback(t0, tcg_env); break; default: gen_mfc0(ctx, t0, rt, sel); break; } break; case 10: switch (sel) { case 0: gen_helper_mftc0_entryhi(t0, tcg_env); break; default: gen_mfc0(ctx, t0, rt, sel); break; } break; case 12: switch (sel) { case 0: gen_helper_mftc0_status(t0, tcg_env); break; default: gen_mfc0(ctx, t0, rt, sel); break; } break; case 13: switch (sel) { case 0: gen_helper_mftc0_cause(t0, tcg_env); break; default: goto die; break; } break; case 14: switch (sel) { case 0: gen_helper_mftc0_epc(t0, tcg_env); break; default: goto die; break; } break; case 15: switch (sel) { case 1: gen_helper_mftc0_ebase(t0, tcg_env); break; default: goto die; break; } break; case 16: switch (sel) { case 0: case 1: case 2: case 3: case 4: case 5: case 6: case 7: gen_helper_mftc0_configx(t0, tcg_env, tcg_constant_tl(sel)); break; default: goto die; break; } break; case 23: switch (sel) { case 0: gen_helper_mftc0_debug(t0, tcg_env); break; default: gen_mfc0(ctx, t0, rt, sel); break; } break; default: gen_mfc0(ctx, t0, rt, sel); } } else { switch (sel) { /* GPR registers. */ case 0: gen_helper_1e0i(mftgpr, t0, rt); break; /* Auxiliary CPU registers */ case 1: switch (rt) { case 0: gen_helper_1e0i(mftlo, t0, 0); break; case 1: gen_helper_1e0i(mfthi, t0, 0); break; case 2: gen_helper_1e0i(mftacx, t0, 0); break; case 4: gen_helper_1e0i(mftlo, t0, 1); break; case 5: gen_helper_1e0i(mfthi, t0, 1); break; case 6: gen_helper_1e0i(mftacx, t0, 1); break; case 8: gen_helper_1e0i(mftlo, t0, 2); break; case 9: gen_helper_1e0i(mfthi, t0, 2); break; case 10: gen_helper_1e0i(mftacx, t0, 2); break; case 12: gen_helper_1e0i(mftlo, t0, 3); break; case 13: gen_helper_1e0i(mfthi, t0, 3); break; case 14: gen_helper_1e0i(mftacx, t0, 3); break; case 16: gen_helper_mftdsp(t0, tcg_env); break; default: goto die; } break; /* Floating point (COP1). */ case 2: /* XXX: For now we support only a single FPU context. */ if (h == 0) { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, rt); tcg_gen_ext_i32_tl(t0, fp0); } else { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32h(ctx, fp0, rt); tcg_gen_ext_i32_tl(t0, fp0); } break; case 3: /* XXX: For now we support only a single FPU context. */ gen_helper_1e0i(cfc1, t0, rt); break; /* COP2: Not implemented. */ case 4: case 5: /* fall through */ default: goto die; } } trace_mips_translate_tr("mftr", rt, u, sel, h); gen_store_gpr(t0, rd); return; die: LOG_DISAS("mftr (reg %d u %d sel %d h %d)\n", rt, u, sel, h); gen_reserved_instruction(ctx); } static void gen_mttr(CPUMIPSState *env, DisasContext *ctx, int rd, int rt, int u, int sel, int h) { int other_tc = env->CP0_VPEControl & (0xff << CP0VPECo_TargTC); TCGv t0 = tcg_temp_new(); gen_load_gpr(t0, rt); if ((env->CP0_VPEConf0 & (1 << CP0VPEC0_MVP)) == 0 && ((env->tcs[other_tc].CP0_TCBind & (0xf << CP0TCBd_CurVPE)) != (env->active_tc.CP0_TCBind & (0xf << CP0TCBd_CurVPE)))) { /* NOP */ ; } else if ((env->CP0_VPEControl & (0xff << CP0VPECo_TargTC)) > (env->mvp->CP0_MVPConf0 & (0xff << CP0MVPC0_PTC))) { /* NOP */ ; } else if (u == 0) { switch (rd) { case 1: switch (sel) { case 1: gen_helper_mttc0_vpecontrol(tcg_env, t0); break; case 2: gen_helper_mttc0_vpeconf0(tcg_env, t0); break; default: goto die; break; } break; case 2: switch (sel) { case 1: gen_helper_mttc0_tcstatus(tcg_env, t0); break; case 2: gen_helper_mttc0_tcbind(tcg_env, t0); break; case 3: gen_helper_mttc0_tcrestart(tcg_env, t0); break; case 4: gen_helper_mttc0_tchalt(tcg_env, t0); break; case 5: gen_helper_mttc0_tccontext(tcg_env, t0); break; case 6: gen_helper_mttc0_tcschedule(tcg_env, t0); break; case 7: gen_helper_mttc0_tcschefback(tcg_env, t0); break; default: gen_mtc0(ctx, t0, rd, sel); break; } break; case 10: switch (sel) { case 0: gen_helper_mttc0_entryhi(tcg_env, t0); break; default: gen_mtc0(ctx, t0, rd, sel); break; } break; case 12: switch (sel) { case 0: gen_helper_mttc0_status(tcg_env, t0); break; default: gen_mtc0(ctx, t0, rd, sel); break; } break; case 13: switch (sel) { case 0: gen_helper_mttc0_cause(tcg_env, t0); break; default: goto die; break; } break; case 15: switch (sel) { case 1: gen_helper_mttc0_ebase(tcg_env, t0); break; default: goto die; break; } break; case 23: switch (sel) { case 0: gen_helper_mttc0_debug(tcg_env, t0); break; default: gen_mtc0(ctx, t0, rd, sel); break; } break; default: gen_mtc0(ctx, t0, rd, sel); } } else { switch (sel) { /* GPR registers. */ case 0: gen_helper_0e1i(mttgpr, t0, rd); break; /* Auxiliary CPU registers */ case 1: switch (rd) { case 0: gen_helper_0e1i(mttlo, t0, 0); break; case 1: gen_helper_0e1i(mtthi, t0, 0); break; case 2: gen_helper_0e1i(mttacx, t0, 0); break; case 4: gen_helper_0e1i(mttlo, t0, 1); break; case 5: gen_helper_0e1i(mtthi, t0, 1); break; case 6: gen_helper_0e1i(mttacx, t0, 1); break; case 8: gen_helper_0e1i(mttlo, t0, 2); break; case 9: gen_helper_0e1i(mtthi, t0, 2); break; case 10: gen_helper_0e1i(mttacx, t0, 2); break; case 12: gen_helper_0e1i(mttlo, t0, 3); break; case 13: gen_helper_0e1i(mtthi, t0, 3); break; case 14: gen_helper_0e1i(mttacx, t0, 3); break; case 16: gen_helper_mttdsp(tcg_env, t0); break; default: goto die; } break; /* Floating point (COP1). */ case 2: /* XXX: For now we support only a single FPU context. */ if (h == 0) { TCGv_i32 fp0 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(fp0, t0); gen_store_fpr32(ctx, fp0, rd); } else { TCGv_i32 fp0 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(fp0, t0); gen_store_fpr32h(ctx, fp0, rd); } break; case 3: /* XXX: For now we support only a single FPU context. */ gen_helper_0e2i(ctc1, t0, tcg_constant_i32(rd), rt); /* Stop translation as we may have changed hflags */ ctx->base.is_jmp = DISAS_STOP; break; /* COP2: Not implemented. */ case 4: case 5: /* fall through */ default: goto die; } } trace_mips_translate_tr("mttr", rd, u, sel, h); return; die: LOG_DISAS("mttr (reg %d u %d sel %d h %d)\n", rd, u, sel, h); gen_reserved_instruction(ctx); } static void gen_cp0(CPUMIPSState *env, DisasContext *ctx, uint32_t opc, int rt, int rd) { const char *opn = "ldst"; check_cp0_enabled(ctx); switch (opc) { case OPC_MFC0: if (rt == 0) { /* Treat as NOP. */ return; } gen_mfc0(ctx, cpu_gpr[rt], rd, ctx->opcode & 0x7); opn = "mfc0"; break; case OPC_MTC0: { TCGv t0 = tcg_temp_new(); gen_load_gpr(t0, rt); gen_mtc0(ctx, t0, rd, ctx->opcode & 0x7); } opn = "mtc0"; break; #if defined(TARGET_MIPS64) case OPC_DMFC0: check_insn(ctx, ISA_MIPS3); if (rt == 0) { /* Treat as NOP. */ return; } gen_dmfc0(ctx, cpu_gpr[rt], rd, ctx->opcode & 0x7); opn = "dmfc0"; break; case OPC_DMTC0: check_insn(ctx, ISA_MIPS3); { TCGv t0 = tcg_temp_new(); gen_load_gpr(t0, rt); gen_dmtc0(ctx, t0, rd, ctx->opcode & 0x7); } opn = "dmtc0"; break; #endif case OPC_MFHC0: check_mvh(ctx); if (rt == 0) { /* Treat as NOP. */ return; } gen_mfhc0(ctx, cpu_gpr[rt], rd, ctx->opcode & 0x7); opn = "mfhc0"; break; case OPC_MTHC0: check_mvh(ctx); { TCGv t0 = tcg_temp_new(); gen_load_gpr(t0, rt); gen_mthc0(ctx, t0, rd, ctx->opcode & 0x7); } opn = "mthc0"; break; case OPC_MFTR: check_cp0_enabled(ctx); if (rd == 0) { /* Treat as NOP. */ return; } gen_mftr(env, ctx, rt, rd, (ctx->opcode >> 5) & 1, ctx->opcode & 0x7, (ctx->opcode >> 4) & 1); opn = "mftr"; break; case OPC_MTTR: check_cp0_enabled(ctx); gen_mttr(env, ctx, rd, rt, (ctx->opcode >> 5) & 1, ctx->opcode & 0x7, (ctx->opcode >> 4) & 1); opn = "mttr"; break; case OPC_TLBWI: opn = "tlbwi"; if (!env->tlb->helper_tlbwi) { goto die; } gen_helper_tlbwi(tcg_env); break; case OPC_TLBINV: opn = "tlbinv"; if (ctx->ie >= 2) { if (!env->tlb->helper_tlbinv) { goto die; } gen_helper_tlbinv(tcg_env); } /* treat as nop if TLBINV not supported */ break; case OPC_TLBINVF: opn = "tlbinvf"; if (ctx->ie >= 2) { if (!env->tlb->helper_tlbinvf) { goto die; } gen_helper_tlbinvf(tcg_env); } /* treat as nop if TLBINV not supported */ break; case OPC_TLBWR: opn = "tlbwr"; if (!env->tlb->helper_tlbwr) { goto die; } gen_helper_tlbwr(tcg_env); break; case OPC_TLBP: opn = "tlbp"; if (!env->tlb->helper_tlbp) { goto die; } gen_helper_tlbp(tcg_env); break; case OPC_TLBR: opn = "tlbr"; if (!env->tlb->helper_tlbr) { goto die; } gen_helper_tlbr(tcg_env); break; case OPC_ERET: /* OPC_ERETNC */ if ((ctx->insn_flags & ISA_MIPS_R6) && (ctx->hflags & MIPS_HFLAG_BMASK)) { goto die; } else { int bit_shift = (ctx->hflags & MIPS_HFLAG_M16) ? 16 : 6; if (ctx->opcode & (1 << bit_shift)) { /* OPC_ERETNC */ opn = "eretnc"; check_insn(ctx, ISA_MIPS_R5); gen_helper_eretnc(tcg_env); } else { /* OPC_ERET */ opn = "eret"; check_insn(ctx, ISA_MIPS2); gen_helper_eret(tcg_env); } ctx->base.is_jmp = DISAS_EXIT; } break; case OPC_DERET: opn = "deret"; check_insn(ctx, ISA_MIPS_R1); if ((ctx->insn_flags & ISA_MIPS_R6) && (ctx->hflags & MIPS_HFLAG_BMASK)) { goto die; } if (!(ctx->hflags & MIPS_HFLAG_DM)) { MIPS_INVAL(opn); gen_reserved_instruction(ctx); } else { gen_helper_deret(tcg_env); ctx->base.is_jmp = DISAS_EXIT; } break; case OPC_WAIT: opn = "wait"; check_insn(ctx, ISA_MIPS3 | ISA_MIPS_R1); if ((ctx->insn_flags & ISA_MIPS_R6) && (ctx->hflags & MIPS_HFLAG_BMASK)) { goto die; } /* If we get an exception, we want to restart at next instruction */ ctx->base.pc_next += 4; save_cpu_state(ctx, 1); ctx->base.pc_next -= 4; gen_helper_wait(tcg_env); ctx->base.is_jmp = DISAS_NORETURN; break; default: die: MIPS_INVAL(opn); gen_reserved_instruction(ctx); return; } (void)opn; /* avoid a compiler warning */ } #endif /* !CONFIG_USER_ONLY */ /* CP1 Branches (before delay slot) */ static void gen_compute_branch1(DisasContext *ctx, uint32_t op, int32_t cc, int32_t offset) { target_ulong btarget; TCGv_i32 t0 = tcg_temp_new_i32(); if ((ctx->insn_flags & ISA_MIPS_R6) && (ctx->hflags & MIPS_HFLAG_BMASK)) { gen_reserved_instruction(ctx); return; } if (cc != 0) { check_insn(ctx, ISA_MIPS4 | ISA_MIPS_R1); } btarget = ctx->base.pc_next + 4 + offset; switch (op) { case OPC_BC1F: tcg_gen_shri_i32(t0, fpu_fcr31, get_fp_bit(cc)); tcg_gen_not_i32(t0, t0); tcg_gen_andi_i32(t0, t0, 1); tcg_gen_extu_i32_tl(bcond, t0); goto not_likely; case OPC_BC1FL: tcg_gen_shri_i32(t0, fpu_fcr31, get_fp_bit(cc)); tcg_gen_not_i32(t0, t0); tcg_gen_andi_i32(t0, t0, 1); tcg_gen_extu_i32_tl(bcond, t0); goto likely; case OPC_BC1T: tcg_gen_shri_i32(t0, fpu_fcr31, get_fp_bit(cc)); tcg_gen_andi_i32(t0, t0, 1); tcg_gen_extu_i32_tl(bcond, t0); goto not_likely; case OPC_BC1TL: tcg_gen_shri_i32(t0, fpu_fcr31, get_fp_bit(cc)); tcg_gen_andi_i32(t0, t0, 1); tcg_gen_extu_i32_tl(bcond, t0); likely: ctx->hflags |= MIPS_HFLAG_BL; break; case OPC_BC1FANY2: { TCGv_i32 t1 = tcg_temp_new_i32(); tcg_gen_shri_i32(t0, fpu_fcr31, get_fp_bit(cc)); tcg_gen_shri_i32(t1, fpu_fcr31, get_fp_bit(cc + 1)); tcg_gen_nand_i32(t0, t0, t1); tcg_gen_andi_i32(t0, t0, 1); tcg_gen_extu_i32_tl(bcond, t0); } goto not_likely; case OPC_BC1TANY2: { TCGv_i32 t1 = tcg_temp_new_i32(); tcg_gen_shri_i32(t0, fpu_fcr31, get_fp_bit(cc)); tcg_gen_shri_i32(t1, fpu_fcr31, get_fp_bit(cc + 1)); tcg_gen_or_i32(t0, t0, t1); tcg_gen_andi_i32(t0, t0, 1); tcg_gen_extu_i32_tl(bcond, t0); } goto not_likely; case OPC_BC1FANY4: { TCGv_i32 t1 = tcg_temp_new_i32(); tcg_gen_shri_i32(t0, fpu_fcr31, get_fp_bit(cc)); tcg_gen_shri_i32(t1, fpu_fcr31, get_fp_bit(cc + 1)); tcg_gen_and_i32(t0, t0, t1); tcg_gen_shri_i32(t1, fpu_fcr31, get_fp_bit(cc + 2)); tcg_gen_and_i32(t0, t0, t1); tcg_gen_shri_i32(t1, fpu_fcr31, get_fp_bit(cc + 3)); tcg_gen_nand_i32(t0, t0, t1); tcg_gen_andi_i32(t0, t0, 1); tcg_gen_extu_i32_tl(bcond, t0); } goto not_likely; case OPC_BC1TANY4: { TCGv_i32 t1 = tcg_temp_new_i32(); tcg_gen_shri_i32(t0, fpu_fcr31, get_fp_bit(cc)); tcg_gen_shri_i32(t1, fpu_fcr31, get_fp_bit(cc + 1)); tcg_gen_or_i32(t0, t0, t1); tcg_gen_shri_i32(t1, fpu_fcr31, get_fp_bit(cc + 2)); tcg_gen_or_i32(t0, t0, t1); tcg_gen_shri_i32(t1, fpu_fcr31, get_fp_bit(cc + 3)); tcg_gen_or_i32(t0, t0, t1); tcg_gen_andi_i32(t0, t0, 1); tcg_gen_extu_i32_tl(bcond, t0); } not_likely: ctx->hflags |= MIPS_HFLAG_BC; break; default: MIPS_INVAL("cp1 cond branch"); gen_reserved_instruction(ctx); return; } ctx->btarget = btarget; ctx->hflags |= MIPS_HFLAG_BDS32; } /* R6 CP1 Branches */ static void gen_compute_branch1_r6(DisasContext *ctx, uint32_t op, int32_t ft, int32_t offset, int delayslot_size) { target_ulong btarget; TCGv_i64 t0 = tcg_temp_new_i64(); if (ctx->hflags & MIPS_HFLAG_BMASK) { #ifdef MIPS_DEBUG_DISAS LOG_DISAS("Branch in delay / forbidden slot at PC 0x%016" VADDR_PRIx "\n", ctx->base.pc_next); #endif gen_reserved_instruction(ctx); return; } gen_load_fpr64(ctx, t0, ft); tcg_gen_andi_i64(t0, t0, 1); btarget = addr_add(ctx, ctx->base.pc_next + 4, offset); switch (op) { case OPC_BC1EQZ: tcg_gen_xori_i64(t0, t0, 1); ctx->hflags |= MIPS_HFLAG_BC; break; case OPC_BC1NEZ: /* t0 already set */ ctx->hflags |= MIPS_HFLAG_BC; break; default: MIPS_INVAL("cp1 cond branch"); gen_reserved_instruction(ctx); return; } tcg_gen_trunc_i64_tl(bcond, t0); ctx->btarget = btarget; switch (delayslot_size) { case 2: ctx->hflags |= MIPS_HFLAG_BDS16; break; case 4: ctx->hflags |= MIPS_HFLAG_BDS32; break; } } /* Coprocessor 1 (FPU) */ #define FOP(func, fmt) (((fmt) << 21) | (func)) enum fopcode { OPC_ADD_S = FOP(0, FMT_S), OPC_SUB_S = FOP(1, FMT_S), OPC_MUL_S = FOP(2, FMT_S), OPC_DIV_S = FOP(3, FMT_S), OPC_SQRT_S = FOP(4, FMT_S), OPC_ABS_S = FOP(5, FMT_S), OPC_MOV_S = FOP(6, FMT_S), OPC_NEG_S = FOP(7, FMT_S), OPC_ROUND_L_S = FOP(8, FMT_S), OPC_TRUNC_L_S = FOP(9, FMT_S), OPC_CEIL_L_S = FOP(10, FMT_S), OPC_FLOOR_L_S = FOP(11, FMT_S), OPC_ROUND_W_S = FOP(12, FMT_S), OPC_TRUNC_W_S = FOP(13, FMT_S), OPC_CEIL_W_S = FOP(14, FMT_S), OPC_FLOOR_W_S = FOP(15, FMT_S), OPC_SEL_S = FOP(16, FMT_S), OPC_MOVCF_S = FOP(17, FMT_S), OPC_MOVZ_S = FOP(18, FMT_S), OPC_MOVN_S = FOP(19, FMT_S), OPC_SELEQZ_S = FOP(20, FMT_S), OPC_RECIP_S = FOP(21, FMT_S), OPC_RSQRT_S = FOP(22, FMT_S), OPC_SELNEZ_S = FOP(23, FMT_S), OPC_MADDF_S = FOP(24, FMT_S), OPC_MSUBF_S = FOP(25, FMT_S), OPC_RINT_S = FOP(26, FMT_S), OPC_CLASS_S = FOP(27, FMT_S), OPC_MIN_S = FOP(28, FMT_S), OPC_RECIP2_S = FOP(28, FMT_S), OPC_MINA_S = FOP(29, FMT_S), OPC_RECIP1_S = FOP(29, FMT_S), OPC_MAX_S = FOP(30, FMT_S), OPC_RSQRT1_S = FOP(30, FMT_S), OPC_MAXA_S = FOP(31, FMT_S), OPC_RSQRT2_S = FOP(31, FMT_S), OPC_CVT_D_S = FOP(33, FMT_S), OPC_CVT_W_S = FOP(36, FMT_S), OPC_CVT_L_S = FOP(37, FMT_S), OPC_CVT_PS_S = FOP(38, FMT_S), OPC_CMP_F_S = FOP(48, FMT_S), OPC_CMP_UN_S = FOP(49, FMT_S), OPC_CMP_EQ_S = FOP(50, FMT_S), OPC_CMP_UEQ_S = FOP(51, FMT_S), OPC_CMP_OLT_S = FOP(52, FMT_S), OPC_CMP_ULT_S = FOP(53, FMT_S), OPC_CMP_OLE_S = FOP(54, FMT_S), OPC_CMP_ULE_S = FOP(55, FMT_S), OPC_CMP_SF_S = FOP(56, FMT_S), OPC_CMP_NGLE_S = FOP(57, FMT_S), OPC_CMP_SEQ_S = FOP(58, FMT_S), OPC_CMP_NGL_S = FOP(59, FMT_S), OPC_CMP_LT_S = FOP(60, FMT_S), OPC_CMP_NGE_S = FOP(61, FMT_S), OPC_CMP_LE_S = FOP(62, FMT_S), OPC_CMP_NGT_S = FOP(63, FMT_S), OPC_ADD_D = FOP(0, FMT_D), OPC_SUB_D = FOP(1, FMT_D), OPC_MUL_D = FOP(2, FMT_D), OPC_DIV_D = FOP(3, FMT_D), OPC_SQRT_D = FOP(4, FMT_D), OPC_ABS_D = FOP(5, FMT_D), OPC_MOV_D = FOP(6, FMT_D), OPC_NEG_D = FOP(7, FMT_D), OPC_ROUND_L_D = FOP(8, FMT_D), OPC_TRUNC_L_D = FOP(9, FMT_D), OPC_CEIL_L_D = FOP(10, FMT_D), OPC_FLOOR_L_D = FOP(11, FMT_D), OPC_ROUND_W_D = FOP(12, FMT_D), OPC_TRUNC_W_D = FOP(13, FMT_D), OPC_CEIL_W_D = FOP(14, FMT_D), OPC_FLOOR_W_D = FOP(15, FMT_D), OPC_SEL_D = FOP(16, FMT_D), OPC_MOVCF_D = FOP(17, FMT_D), OPC_MOVZ_D = FOP(18, FMT_D), OPC_MOVN_D = FOP(19, FMT_D), OPC_SELEQZ_D = FOP(20, FMT_D), OPC_RECIP_D = FOP(21, FMT_D), OPC_RSQRT_D = FOP(22, FMT_D), OPC_SELNEZ_D = FOP(23, FMT_D), OPC_MADDF_D = FOP(24, FMT_D), OPC_MSUBF_D = FOP(25, FMT_D), OPC_RINT_D = FOP(26, FMT_D), OPC_CLASS_D = FOP(27, FMT_D), OPC_MIN_D = FOP(28, FMT_D), OPC_RECIP2_D = FOP(28, FMT_D), OPC_MINA_D = FOP(29, FMT_D), OPC_RECIP1_D = FOP(29, FMT_D), OPC_MAX_D = FOP(30, FMT_D), OPC_RSQRT1_D = FOP(30, FMT_D), OPC_MAXA_D = FOP(31, FMT_D), OPC_RSQRT2_D = FOP(31, FMT_D), OPC_CVT_S_D = FOP(32, FMT_D), OPC_CVT_W_D = FOP(36, FMT_D), OPC_CVT_L_D = FOP(37, FMT_D), OPC_CMP_F_D = FOP(48, FMT_D), OPC_CMP_UN_D = FOP(49, FMT_D), OPC_CMP_EQ_D = FOP(50, FMT_D), OPC_CMP_UEQ_D = FOP(51, FMT_D), OPC_CMP_OLT_D = FOP(52, FMT_D), OPC_CMP_ULT_D = FOP(53, FMT_D), OPC_CMP_OLE_D = FOP(54, FMT_D), OPC_CMP_ULE_D = FOP(55, FMT_D), OPC_CMP_SF_D = FOP(56, FMT_D), OPC_CMP_NGLE_D = FOP(57, FMT_D), OPC_CMP_SEQ_D = FOP(58, FMT_D), OPC_CMP_NGL_D = FOP(59, FMT_D), OPC_CMP_LT_D = FOP(60, FMT_D), OPC_CMP_NGE_D = FOP(61, FMT_D), OPC_CMP_LE_D = FOP(62, FMT_D), OPC_CMP_NGT_D = FOP(63, FMT_D), OPC_CVT_S_W = FOP(32, FMT_W), OPC_CVT_D_W = FOP(33, FMT_W), OPC_CVT_S_L = FOP(32, FMT_L), OPC_CVT_D_L = FOP(33, FMT_L), OPC_CVT_PS_PW = FOP(38, FMT_W), OPC_ADD_PS = FOP(0, FMT_PS), OPC_SUB_PS = FOP(1, FMT_PS), OPC_MUL_PS = FOP(2, FMT_PS), OPC_DIV_PS = FOP(3, FMT_PS), OPC_ABS_PS = FOP(5, FMT_PS), OPC_MOV_PS = FOP(6, FMT_PS), OPC_NEG_PS = FOP(7, FMT_PS), OPC_MOVCF_PS = FOP(17, FMT_PS), OPC_MOVZ_PS = FOP(18, FMT_PS), OPC_MOVN_PS = FOP(19, FMT_PS), OPC_ADDR_PS = FOP(24, FMT_PS), OPC_MULR_PS = FOP(26, FMT_PS), OPC_RECIP2_PS = FOP(28, FMT_PS), OPC_RECIP1_PS = FOP(29, FMT_PS), OPC_RSQRT1_PS = FOP(30, FMT_PS), OPC_RSQRT2_PS = FOP(31, FMT_PS), OPC_CVT_S_PU = FOP(32, FMT_PS), OPC_CVT_PW_PS = FOP(36, FMT_PS), OPC_CVT_S_PL = FOP(40, FMT_PS), OPC_PLL_PS = FOP(44, FMT_PS), OPC_PLU_PS = FOP(45, FMT_PS), OPC_PUL_PS = FOP(46, FMT_PS), OPC_PUU_PS = FOP(47, FMT_PS), OPC_CMP_F_PS = FOP(48, FMT_PS), OPC_CMP_UN_PS = FOP(49, FMT_PS), OPC_CMP_EQ_PS = FOP(50, FMT_PS), OPC_CMP_UEQ_PS = FOP(51, FMT_PS), OPC_CMP_OLT_PS = FOP(52, FMT_PS), OPC_CMP_ULT_PS = FOP(53, FMT_PS), OPC_CMP_OLE_PS = FOP(54, FMT_PS), OPC_CMP_ULE_PS = FOP(55, FMT_PS), OPC_CMP_SF_PS = FOP(56, FMT_PS), OPC_CMP_NGLE_PS = FOP(57, FMT_PS), OPC_CMP_SEQ_PS = FOP(58, FMT_PS), OPC_CMP_NGL_PS = FOP(59, FMT_PS), OPC_CMP_LT_PS = FOP(60, FMT_PS), OPC_CMP_NGE_PS = FOP(61, FMT_PS), OPC_CMP_LE_PS = FOP(62, FMT_PS), OPC_CMP_NGT_PS = FOP(63, FMT_PS), }; enum r6_f_cmp_op { R6_OPC_CMP_AF_S = FOP(0, FMT_W), R6_OPC_CMP_UN_S = FOP(1, FMT_W), R6_OPC_CMP_EQ_S = FOP(2, FMT_W), R6_OPC_CMP_UEQ_S = FOP(3, FMT_W), R6_OPC_CMP_LT_S = FOP(4, FMT_W), R6_OPC_CMP_ULT_S = FOP(5, FMT_W), R6_OPC_CMP_LE_S = FOP(6, FMT_W), R6_OPC_CMP_ULE_S = FOP(7, FMT_W), R6_OPC_CMP_SAF_S = FOP(8, FMT_W), R6_OPC_CMP_SUN_S = FOP(9, FMT_W), R6_OPC_CMP_SEQ_S = FOP(10, FMT_W), R6_OPC_CMP_SEUQ_S = FOP(11, FMT_W), R6_OPC_CMP_SLT_S = FOP(12, FMT_W), R6_OPC_CMP_SULT_S = FOP(13, FMT_W), R6_OPC_CMP_SLE_S = FOP(14, FMT_W), R6_OPC_CMP_SULE_S = FOP(15, FMT_W), R6_OPC_CMP_OR_S = FOP(17, FMT_W), R6_OPC_CMP_UNE_S = FOP(18, FMT_W), R6_OPC_CMP_NE_S = FOP(19, FMT_W), R6_OPC_CMP_SOR_S = FOP(25, FMT_W), R6_OPC_CMP_SUNE_S = FOP(26, FMT_W), R6_OPC_CMP_SNE_S = FOP(27, FMT_W), R6_OPC_CMP_AF_D = FOP(0, FMT_L), R6_OPC_CMP_UN_D = FOP(1, FMT_L), R6_OPC_CMP_EQ_D = FOP(2, FMT_L), R6_OPC_CMP_UEQ_D = FOP(3, FMT_L), R6_OPC_CMP_LT_D = FOP(4, FMT_L), R6_OPC_CMP_ULT_D = FOP(5, FMT_L), R6_OPC_CMP_LE_D = FOP(6, FMT_L), R6_OPC_CMP_ULE_D = FOP(7, FMT_L), R6_OPC_CMP_SAF_D = FOP(8, FMT_L), R6_OPC_CMP_SUN_D = FOP(9, FMT_L), R6_OPC_CMP_SEQ_D = FOP(10, FMT_L), R6_OPC_CMP_SEUQ_D = FOP(11, FMT_L), R6_OPC_CMP_SLT_D = FOP(12, FMT_L), R6_OPC_CMP_SULT_D = FOP(13, FMT_L), R6_OPC_CMP_SLE_D = FOP(14, FMT_L), R6_OPC_CMP_SULE_D = FOP(15, FMT_L), R6_OPC_CMP_OR_D = FOP(17, FMT_L), R6_OPC_CMP_UNE_D = FOP(18, FMT_L), R6_OPC_CMP_NE_D = FOP(19, FMT_L), R6_OPC_CMP_SOR_D = FOP(25, FMT_L), R6_OPC_CMP_SUNE_D = FOP(26, FMT_L), R6_OPC_CMP_SNE_D = FOP(27, FMT_L), }; static void gen_cp1(DisasContext *ctx, uint32_t opc, int rt, int fs) { TCGv t0 = tcg_temp_new(); switch (opc) { case OPC_MFC1: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); tcg_gen_ext_i32_tl(t0, fp0); } gen_store_gpr(t0, rt); break; case OPC_MTC1: gen_load_gpr(t0, rt); { TCGv_i32 fp0 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(fp0, t0); gen_store_fpr32(ctx, fp0, fs); } break; case OPC_CFC1: gen_helper_1e0i(cfc1, t0, fs); gen_store_gpr(t0, rt); break; case OPC_CTC1: gen_load_gpr(t0, rt); save_cpu_state(ctx, 0); gen_helper_0e2i(ctc1, t0, tcg_constant_i32(fs), rt); /* Stop translation as we may have changed hflags */ ctx->base.is_jmp = DISAS_STOP; break; #if defined(TARGET_MIPS64) case OPC_DMFC1: gen_load_fpr64(ctx, t0, fs); gen_store_gpr(t0, rt); break; case OPC_DMTC1: gen_load_gpr(t0, rt); gen_store_fpr64(ctx, t0, fs); break; #endif case OPC_MFHC1: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32h(ctx, fp0, fs); tcg_gen_ext_i32_tl(t0, fp0); } gen_store_gpr(t0, rt); break; case OPC_MTHC1: gen_load_gpr(t0, rt); { TCGv_i32 fp0 = tcg_temp_new_i32(); tcg_gen_trunc_tl_i32(fp0, t0); gen_store_fpr32h(ctx, fp0, fs); } break; default: MIPS_INVAL("cp1 move"); gen_reserved_instruction(ctx); return; } } static void gen_movci(DisasContext *ctx, int rd, int rs, int cc, int tf) { TCGLabel *l1; TCGCond cond; TCGv_i32 t0; if (rd == 0) { /* Treat as NOP. */ return; } if (tf) { cond = TCG_COND_EQ; } else { cond = TCG_COND_NE; } l1 = gen_new_label(); t0 = tcg_temp_new_i32(); tcg_gen_andi_i32(t0, fpu_fcr31, 1 << get_fp_bit(cc)); tcg_gen_brcondi_i32(cond, t0, 0, l1); gen_load_gpr(cpu_gpr[rd], rs); gen_set_label(l1); } static inline void gen_movcf_s(DisasContext *ctx, int fs, int fd, int cc, int tf) { int cond; TCGv_i32 t0 = tcg_temp_new_i32(); TCGLabel *l1 = gen_new_label(); if (tf) { cond = TCG_COND_EQ; } else { cond = TCG_COND_NE; } tcg_gen_andi_i32(t0, fpu_fcr31, 1 << get_fp_bit(cc)); tcg_gen_brcondi_i32(cond, t0, 0, l1); gen_load_fpr32(ctx, t0, fs); gen_store_fpr32(ctx, t0, fd); gen_set_label(l1); } static inline void gen_movcf_d(DisasContext *ctx, int fs, int fd, int cc, int tf) { int cond; TCGv_i32 t0 = tcg_temp_new_i32(); TCGv_i64 fp0; TCGLabel *l1 = gen_new_label(); if (tf) { cond = TCG_COND_EQ; } else { cond = TCG_COND_NE; } tcg_gen_andi_i32(t0, fpu_fcr31, 1 << get_fp_bit(cc)); tcg_gen_brcondi_i32(cond, t0, 0, l1); fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_store_fpr64(ctx, fp0, fd); gen_set_label(l1); } static inline void gen_movcf_ps(DisasContext *ctx, int fs, int fd, int cc, int tf) { int cond; TCGv_i32 t0 = tcg_temp_new_i32(); TCGLabel *l1 = gen_new_label(); TCGLabel *l2 = gen_new_label(); if (tf) { cond = TCG_COND_EQ; } else { cond = TCG_COND_NE; } tcg_gen_andi_i32(t0, fpu_fcr31, 1 << get_fp_bit(cc)); tcg_gen_brcondi_i32(cond, t0, 0, l1); gen_load_fpr32(ctx, t0, fs); gen_store_fpr32(ctx, t0, fd); gen_set_label(l1); tcg_gen_andi_i32(t0, fpu_fcr31, 1 << get_fp_bit(cc + 1)); tcg_gen_brcondi_i32(cond, t0, 0, l2); gen_load_fpr32h(ctx, t0, fs); gen_store_fpr32h(ctx, t0, fd); gen_set_label(l2); } static void gen_sel_s(DisasContext *ctx, enum fopcode op1, int fd, int ft, int fs) { TCGv_i32 t1 = tcg_constant_i32(0); TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); TCGv_i32 fp2 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fd); gen_load_fpr32(ctx, fp1, ft); gen_load_fpr32(ctx, fp2, fs); switch (op1) { case OPC_SEL_S: tcg_gen_andi_i32(fp0, fp0, 1); tcg_gen_movcond_i32(TCG_COND_NE, fp0, fp0, t1, fp1, fp2); break; case OPC_SELEQZ_S: tcg_gen_andi_i32(fp1, fp1, 1); tcg_gen_movcond_i32(TCG_COND_EQ, fp0, fp1, t1, fp2, t1); break; case OPC_SELNEZ_S: tcg_gen_andi_i32(fp1, fp1, 1); tcg_gen_movcond_i32(TCG_COND_NE, fp0, fp1, t1, fp2, t1); break; default: MIPS_INVAL("gen_sel_s"); gen_reserved_instruction(ctx); break; } gen_store_fpr32(ctx, fp0, fd); } static void gen_sel_d(DisasContext *ctx, enum fopcode op1, int fd, int ft, int fs) { TCGv_i64 t1 = tcg_constant_i64(0); TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); TCGv_i64 fp2 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fd); gen_load_fpr64(ctx, fp1, ft); gen_load_fpr64(ctx, fp2, fs); switch (op1) { case OPC_SEL_D: tcg_gen_andi_i64(fp0, fp0, 1); tcg_gen_movcond_i64(TCG_COND_NE, fp0, fp0, t1, fp1, fp2); break; case OPC_SELEQZ_D: tcg_gen_andi_i64(fp1, fp1, 1); tcg_gen_movcond_i64(TCG_COND_EQ, fp0, fp1, t1, fp2, t1); break; case OPC_SELNEZ_D: tcg_gen_andi_i64(fp1, fp1, 1); tcg_gen_movcond_i64(TCG_COND_NE, fp0, fp1, t1, fp2, t1); break; default: MIPS_INVAL("gen_sel_d"); gen_reserved_instruction(ctx); break; } gen_store_fpr64(ctx, fp0, fd); } static void gen_farith(DisasContext *ctx, enum fopcode op1, int ft, int fs, int fd, int cc) { uint32_t func = ctx->opcode & 0x3f; switch (op1) { case OPC_ADD_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_helper_float_add_s(fp0, tcg_env, fp0, fp1); gen_store_fpr32(ctx, fp0, fd); } break; case OPC_SUB_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_helper_float_sub_s(fp0, tcg_env, fp0, fp1); gen_store_fpr32(ctx, fp0, fd); } break; case OPC_MUL_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_helper_float_mul_s(fp0, tcg_env, fp0, fp1); gen_store_fpr32(ctx, fp0, fd); } break; case OPC_DIV_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_helper_float_div_s(fp0, tcg_env, fp0, fp1); gen_store_fpr32(ctx, fp0, fd); } break; case OPC_SQRT_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_helper_float_sqrt_s(fp0, tcg_env, fp0); gen_store_fpr32(ctx, fp0, fd); } break; case OPC_ABS_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); if (ctx->abs2008) { tcg_gen_andi_i32(fp0, fp0, 0x7fffffffUL); } else { gen_helper_float_abs_s(fp0, fp0); } gen_store_fpr32(ctx, fp0, fd); } break; case OPC_MOV_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_store_fpr32(ctx, fp0, fd); } break; case OPC_NEG_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); if (ctx->abs2008) { tcg_gen_xori_i32(fp0, fp0, 1UL << 31); } else { gen_helper_float_chs_s(fp0, fp0); } gen_store_fpr32(ctx, fp0, fd); } break; case OPC_ROUND_L_S: check_cp1_64bitmode(ctx); { TCGv_i32 fp32 = tcg_temp_new_i32(); TCGv_i64 fp64 = tcg_temp_new_i64(); gen_load_fpr32(ctx, fp32, fs); if (ctx->nan2008) { gen_helper_float_round_2008_l_s(fp64, tcg_env, fp32); } else { gen_helper_float_round_l_s(fp64, tcg_env, fp32); } gen_store_fpr64(ctx, fp64, fd); } break; case OPC_TRUNC_L_S: check_cp1_64bitmode(ctx); { TCGv_i32 fp32 = tcg_temp_new_i32(); TCGv_i64 fp64 = tcg_temp_new_i64(); gen_load_fpr32(ctx, fp32, fs); if (ctx->nan2008) { gen_helper_float_trunc_2008_l_s(fp64, tcg_env, fp32); } else { gen_helper_float_trunc_l_s(fp64, tcg_env, fp32); } gen_store_fpr64(ctx, fp64, fd); } break; case OPC_CEIL_L_S: check_cp1_64bitmode(ctx); { TCGv_i32 fp32 = tcg_temp_new_i32(); TCGv_i64 fp64 = tcg_temp_new_i64(); gen_load_fpr32(ctx, fp32, fs); if (ctx->nan2008) { gen_helper_float_ceil_2008_l_s(fp64, tcg_env, fp32); } else { gen_helper_float_ceil_l_s(fp64, tcg_env, fp32); } gen_store_fpr64(ctx, fp64, fd); } break; case OPC_FLOOR_L_S: check_cp1_64bitmode(ctx); { TCGv_i32 fp32 = tcg_temp_new_i32(); TCGv_i64 fp64 = tcg_temp_new_i64(); gen_load_fpr32(ctx, fp32, fs); if (ctx->nan2008) { gen_helper_float_floor_2008_l_s(fp64, tcg_env, fp32); } else { gen_helper_float_floor_l_s(fp64, tcg_env, fp32); } gen_store_fpr64(ctx, fp64, fd); } break; case OPC_ROUND_W_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); if (ctx->nan2008) { gen_helper_float_round_2008_w_s(fp0, tcg_env, fp0); } else { gen_helper_float_round_w_s(fp0, tcg_env, fp0); } gen_store_fpr32(ctx, fp0, fd); } break; case OPC_TRUNC_W_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); if (ctx->nan2008) { gen_helper_float_trunc_2008_w_s(fp0, tcg_env, fp0); } else { gen_helper_float_trunc_w_s(fp0, tcg_env, fp0); } gen_store_fpr32(ctx, fp0, fd); } break; case OPC_CEIL_W_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); if (ctx->nan2008) { gen_helper_float_ceil_2008_w_s(fp0, tcg_env, fp0); } else { gen_helper_float_ceil_w_s(fp0, tcg_env, fp0); } gen_store_fpr32(ctx, fp0, fd); } break; case OPC_FLOOR_W_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); if (ctx->nan2008) { gen_helper_float_floor_2008_w_s(fp0, tcg_env, fp0); } else { gen_helper_float_floor_w_s(fp0, tcg_env, fp0); } gen_store_fpr32(ctx, fp0, fd); } break; case OPC_SEL_S: check_insn(ctx, ISA_MIPS_R6); gen_sel_s(ctx, op1, fd, ft, fs); break; case OPC_SELEQZ_S: check_insn(ctx, ISA_MIPS_R6); gen_sel_s(ctx, op1, fd, ft, fs); break; case OPC_SELNEZ_S: check_insn(ctx, ISA_MIPS_R6); gen_sel_s(ctx, op1, fd, ft, fs); break; case OPC_MOVCF_S: check_insn_opc_removed(ctx, ISA_MIPS_R6); gen_movcf_s(ctx, fs, fd, (ft >> 2) & 0x7, ft & 0x1); break; case OPC_MOVZ_S: check_insn_opc_removed(ctx, ISA_MIPS_R6); { TCGLabel *l1 = gen_new_label(); TCGv_i32 fp0; if (ft != 0) { tcg_gen_brcondi_tl(TCG_COND_NE, cpu_gpr[ft], 0, l1); } fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_store_fpr32(ctx, fp0, fd); gen_set_label(l1); } break; case OPC_MOVN_S: check_insn_opc_removed(ctx, ISA_MIPS_R6); { TCGLabel *l1 = gen_new_label(); TCGv_i32 fp0; if (ft != 0) { tcg_gen_brcondi_tl(TCG_COND_EQ, cpu_gpr[ft], 0, l1); fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_store_fpr32(ctx, fp0, fd); gen_set_label(l1); } } break; case OPC_RECIP_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_helper_float_recip_s(fp0, tcg_env, fp0); gen_store_fpr32(ctx, fp0, fd); } break; case OPC_RSQRT_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_helper_float_rsqrt_s(fp0, tcg_env, fp0); gen_store_fpr32(ctx, fp0, fd); } break; case OPC_MADDF_S: check_insn(ctx, ISA_MIPS_R6); { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); TCGv_i32 fp2 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_load_fpr32(ctx, fp2, fd); gen_helper_float_maddf_s(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr32(ctx, fp2, fd); } break; case OPC_MSUBF_S: check_insn(ctx, ISA_MIPS_R6); { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); TCGv_i32 fp2 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_load_fpr32(ctx, fp2, fd); gen_helper_float_msubf_s(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr32(ctx, fp2, fd); } break; case OPC_RINT_S: check_insn(ctx, ISA_MIPS_R6); { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_helper_float_rint_s(fp0, tcg_env, fp0); gen_store_fpr32(ctx, fp0, fd); } break; case OPC_CLASS_S: check_insn(ctx, ISA_MIPS_R6); { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_helper_float_class_s(fp0, tcg_env, fp0); gen_store_fpr32(ctx, fp0, fd); } break; case OPC_MIN_S: /* OPC_RECIP2_S */ if (ctx->insn_flags & ISA_MIPS_R6) { /* OPC_MIN_S */ TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); TCGv_i32 fp2 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_helper_float_min_s(fp2, tcg_env, fp0, fp1); gen_store_fpr32(ctx, fp2, fd); } else { /* OPC_RECIP2_S */ check_cp1_64bitmode(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_helper_float_recip2_s(fp0, tcg_env, fp0, fp1); gen_store_fpr32(ctx, fp0, fd); } } break; case OPC_MINA_S: /* OPC_RECIP1_S */ if (ctx->insn_flags & ISA_MIPS_R6) { /* OPC_MINA_S */ TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); TCGv_i32 fp2 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_helper_float_mina_s(fp2, tcg_env, fp0, fp1); gen_store_fpr32(ctx, fp2, fd); } else { /* OPC_RECIP1_S */ check_cp1_64bitmode(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_helper_float_recip1_s(fp0, tcg_env, fp0); gen_store_fpr32(ctx, fp0, fd); } } break; case OPC_MAX_S: /* OPC_RSQRT1_S */ if (ctx->insn_flags & ISA_MIPS_R6) { /* OPC_MAX_S */ TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_helper_float_max_s(fp1, tcg_env, fp0, fp1); gen_store_fpr32(ctx, fp1, fd); } else { /* OPC_RSQRT1_S */ check_cp1_64bitmode(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_helper_float_rsqrt1_s(fp0, tcg_env, fp0); gen_store_fpr32(ctx, fp0, fd); } } break; case OPC_MAXA_S: /* OPC_RSQRT2_S */ if (ctx->insn_flags & ISA_MIPS_R6) { /* OPC_MAXA_S */ TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_helper_float_maxa_s(fp1, tcg_env, fp0, fp1); gen_store_fpr32(ctx, fp1, fd); } else { /* OPC_RSQRT2_S */ check_cp1_64bitmode(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_helper_float_rsqrt2_s(fp0, tcg_env, fp0, fp1); gen_store_fpr32(ctx, fp0, fd); } } break; case OPC_CVT_D_S: check_cp1_registers(ctx, fd); { TCGv_i32 fp32 = tcg_temp_new_i32(); TCGv_i64 fp64 = tcg_temp_new_i64(); gen_load_fpr32(ctx, fp32, fs); gen_helper_float_cvtd_s(fp64, tcg_env, fp32); gen_store_fpr64(ctx, fp64, fd); } break; case OPC_CVT_W_S: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); if (ctx->nan2008) { gen_helper_float_cvt_2008_w_s(fp0, tcg_env, fp0); } else { gen_helper_float_cvt_w_s(fp0, tcg_env, fp0); } gen_store_fpr32(ctx, fp0, fd); } break; case OPC_CVT_L_S: check_cp1_64bitmode(ctx); { TCGv_i32 fp32 = tcg_temp_new_i32(); TCGv_i64 fp64 = tcg_temp_new_i64(); gen_load_fpr32(ctx, fp32, fs); if (ctx->nan2008) { gen_helper_float_cvt_2008_l_s(fp64, tcg_env, fp32); } else { gen_helper_float_cvt_l_s(fp64, tcg_env, fp32); } gen_store_fpr64(ctx, fp64, fd); } break; case OPC_CVT_PS_S: check_ps(ctx); { TCGv_i64 fp64 = tcg_temp_new_i64(); TCGv_i32 fp32_0 = tcg_temp_new_i32(); TCGv_i32 fp32_1 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp32_0, fs); gen_load_fpr32(ctx, fp32_1, ft); tcg_gen_concat_i32_i64(fp64, fp32_1, fp32_0); gen_store_fpr64(ctx, fp64, fd); } break; case OPC_CMP_F_S: case OPC_CMP_UN_S: case OPC_CMP_EQ_S: case OPC_CMP_UEQ_S: case OPC_CMP_OLT_S: case OPC_CMP_ULT_S: case OPC_CMP_OLE_S: case OPC_CMP_ULE_S: case OPC_CMP_SF_S: case OPC_CMP_NGLE_S: case OPC_CMP_SEQ_S: case OPC_CMP_NGL_S: case OPC_CMP_LT_S: case OPC_CMP_NGE_S: case OPC_CMP_LE_S: case OPC_CMP_NGT_S: check_insn_opc_removed(ctx, ISA_MIPS_R6); if (ctx->opcode & (1 << 6)) { gen_cmpabs_s(ctx, func - 48, ft, fs, cc); } else { gen_cmp_s(ctx, func - 48, ft, fs, cc); } break; case OPC_ADD_D: check_cp1_registers(ctx, fs | ft | fd); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_add_d(fp0, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_SUB_D: check_cp1_registers(ctx, fs | ft | fd); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_sub_d(fp0, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_MUL_D: check_cp1_registers(ctx, fs | ft | fd); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_mul_d(fp0, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_DIV_D: check_cp1_registers(ctx, fs | ft | fd); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_div_d(fp0, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_SQRT_D: check_cp1_registers(ctx, fs | fd); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_helper_float_sqrt_d(fp0, tcg_env, fp0); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_ABS_D: check_cp1_registers(ctx, fs | fd); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); if (ctx->abs2008) { tcg_gen_andi_i64(fp0, fp0, 0x7fffffffffffffffULL); } else { gen_helper_float_abs_d(fp0, fp0); } gen_store_fpr64(ctx, fp0, fd); } break; case OPC_MOV_D: check_cp1_registers(ctx, fs | fd); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_NEG_D: check_cp1_registers(ctx, fs | fd); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); if (ctx->abs2008) { tcg_gen_xori_i64(fp0, fp0, 1ULL << 63); } else { gen_helper_float_chs_d(fp0, fp0); } gen_store_fpr64(ctx, fp0, fd); } break; case OPC_ROUND_L_D: check_cp1_64bitmode(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); if (ctx->nan2008) { gen_helper_float_round_2008_l_d(fp0, tcg_env, fp0); } else { gen_helper_float_round_l_d(fp0, tcg_env, fp0); } gen_store_fpr64(ctx, fp0, fd); } break; case OPC_TRUNC_L_D: check_cp1_64bitmode(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); if (ctx->nan2008) { gen_helper_float_trunc_2008_l_d(fp0, tcg_env, fp0); } else { gen_helper_float_trunc_l_d(fp0, tcg_env, fp0); } gen_store_fpr64(ctx, fp0, fd); } break; case OPC_CEIL_L_D: check_cp1_64bitmode(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); if (ctx->nan2008) { gen_helper_float_ceil_2008_l_d(fp0, tcg_env, fp0); } else { gen_helper_float_ceil_l_d(fp0, tcg_env, fp0); } gen_store_fpr64(ctx, fp0, fd); } break; case OPC_FLOOR_L_D: check_cp1_64bitmode(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); if (ctx->nan2008) { gen_helper_float_floor_2008_l_d(fp0, tcg_env, fp0); } else { gen_helper_float_floor_l_d(fp0, tcg_env, fp0); } gen_store_fpr64(ctx, fp0, fd); } break; case OPC_ROUND_W_D: check_cp1_registers(ctx, fs); { TCGv_i32 fp32 = tcg_temp_new_i32(); TCGv_i64 fp64 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp64, fs); if (ctx->nan2008) { gen_helper_float_round_2008_w_d(fp32, tcg_env, fp64); } else { gen_helper_float_round_w_d(fp32, tcg_env, fp64); } gen_store_fpr32(ctx, fp32, fd); } break; case OPC_TRUNC_W_D: check_cp1_registers(ctx, fs); { TCGv_i32 fp32 = tcg_temp_new_i32(); TCGv_i64 fp64 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp64, fs); if (ctx->nan2008) { gen_helper_float_trunc_2008_w_d(fp32, tcg_env, fp64); } else { gen_helper_float_trunc_w_d(fp32, tcg_env, fp64); } gen_store_fpr32(ctx, fp32, fd); } break; case OPC_CEIL_W_D: check_cp1_registers(ctx, fs); { TCGv_i32 fp32 = tcg_temp_new_i32(); TCGv_i64 fp64 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp64, fs); if (ctx->nan2008) { gen_helper_float_ceil_2008_w_d(fp32, tcg_env, fp64); } else { gen_helper_float_ceil_w_d(fp32, tcg_env, fp64); } gen_store_fpr32(ctx, fp32, fd); } break; case OPC_FLOOR_W_D: check_cp1_registers(ctx, fs); { TCGv_i32 fp32 = tcg_temp_new_i32(); TCGv_i64 fp64 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp64, fs); if (ctx->nan2008) { gen_helper_float_floor_2008_w_d(fp32, tcg_env, fp64); } else { gen_helper_float_floor_w_d(fp32, tcg_env, fp64); } gen_store_fpr32(ctx, fp32, fd); } break; case OPC_SEL_D: check_insn(ctx, ISA_MIPS_R6); gen_sel_d(ctx, op1, fd, ft, fs); break; case OPC_SELEQZ_D: check_insn(ctx, ISA_MIPS_R6); gen_sel_d(ctx, op1, fd, ft, fs); break; case OPC_SELNEZ_D: check_insn(ctx, ISA_MIPS_R6); gen_sel_d(ctx, op1, fd, ft, fs); break; case OPC_MOVCF_D: check_insn_opc_removed(ctx, ISA_MIPS_R6); gen_movcf_d(ctx, fs, fd, (ft >> 2) & 0x7, ft & 0x1); break; case OPC_MOVZ_D: check_insn_opc_removed(ctx, ISA_MIPS_R6); { TCGLabel *l1 = gen_new_label(); TCGv_i64 fp0; if (ft != 0) { tcg_gen_brcondi_tl(TCG_COND_NE, cpu_gpr[ft], 0, l1); } fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_store_fpr64(ctx, fp0, fd); gen_set_label(l1); } break; case OPC_MOVN_D: check_insn_opc_removed(ctx, ISA_MIPS_R6); { TCGLabel *l1 = gen_new_label(); TCGv_i64 fp0; if (ft != 0) { tcg_gen_brcondi_tl(TCG_COND_EQ, cpu_gpr[ft], 0, l1); fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_store_fpr64(ctx, fp0, fd); gen_set_label(l1); } } break; case OPC_RECIP_D: check_cp1_registers(ctx, fs | fd); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_helper_float_recip_d(fp0, tcg_env, fp0); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_RSQRT_D: check_cp1_registers(ctx, fs | fd); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_helper_float_rsqrt_d(fp0, tcg_env, fp0); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_MADDF_D: check_insn(ctx, ISA_MIPS_R6); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); TCGv_i64 fp2 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_load_fpr64(ctx, fp2, fd); gen_helper_float_maddf_d(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr64(ctx, fp2, fd); } break; case OPC_MSUBF_D: check_insn(ctx, ISA_MIPS_R6); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); TCGv_i64 fp2 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_load_fpr64(ctx, fp2, fd); gen_helper_float_msubf_d(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr64(ctx, fp2, fd); } break; case OPC_RINT_D: check_insn(ctx, ISA_MIPS_R6); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_helper_float_rint_d(fp0, tcg_env, fp0); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_CLASS_D: check_insn(ctx, ISA_MIPS_R6); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_helper_float_class_d(fp0, tcg_env, fp0); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_MIN_D: /* OPC_RECIP2_D */ if (ctx->insn_flags & ISA_MIPS_R6) { /* OPC_MIN_D */ TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_min_d(fp1, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp1, fd); } else { /* OPC_RECIP2_D */ check_cp1_64bitmode(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_recip2_d(fp0, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp0, fd); } } break; case OPC_MINA_D: /* OPC_RECIP1_D */ if (ctx->insn_flags & ISA_MIPS_R6) { /* OPC_MINA_D */ TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_mina_d(fp1, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp1, fd); } else { /* OPC_RECIP1_D */ check_cp1_64bitmode(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_helper_float_recip1_d(fp0, tcg_env, fp0); gen_store_fpr64(ctx, fp0, fd); } } break; case OPC_MAX_D: /* OPC_RSQRT1_D */ if (ctx->insn_flags & ISA_MIPS_R6) { /* OPC_MAX_D */ TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_max_d(fp1, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp1, fd); } else { /* OPC_RSQRT1_D */ check_cp1_64bitmode(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_helper_float_rsqrt1_d(fp0, tcg_env, fp0); gen_store_fpr64(ctx, fp0, fd); } } break; case OPC_MAXA_D: /* OPC_RSQRT2_D */ if (ctx->insn_flags & ISA_MIPS_R6) { /* OPC_MAXA_D */ TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_maxa_d(fp1, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp1, fd); } else { /* OPC_RSQRT2_D */ check_cp1_64bitmode(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_rsqrt2_d(fp0, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp0, fd); } } break; case OPC_CMP_F_D: case OPC_CMP_UN_D: case OPC_CMP_EQ_D: case OPC_CMP_UEQ_D: case OPC_CMP_OLT_D: case OPC_CMP_ULT_D: case OPC_CMP_OLE_D: case OPC_CMP_ULE_D: case OPC_CMP_SF_D: case OPC_CMP_NGLE_D: case OPC_CMP_SEQ_D: case OPC_CMP_NGL_D: case OPC_CMP_LT_D: case OPC_CMP_NGE_D: case OPC_CMP_LE_D: case OPC_CMP_NGT_D: check_insn_opc_removed(ctx, ISA_MIPS_R6); if (ctx->opcode & (1 << 6)) { gen_cmpabs_d(ctx, func - 48, ft, fs, cc); } else { gen_cmp_d(ctx, func - 48, ft, fs, cc); } break; case OPC_CVT_S_D: check_cp1_registers(ctx, fs); { TCGv_i32 fp32 = tcg_temp_new_i32(); TCGv_i64 fp64 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp64, fs); gen_helper_float_cvts_d(fp32, tcg_env, fp64); gen_store_fpr32(ctx, fp32, fd); } break; case OPC_CVT_W_D: check_cp1_registers(ctx, fs); { TCGv_i32 fp32 = tcg_temp_new_i32(); TCGv_i64 fp64 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp64, fs); if (ctx->nan2008) { gen_helper_float_cvt_2008_w_d(fp32, tcg_env, fp64); } else { gen_helper_float_cvt_w_d(fp32, tcg_env, fp64); } gen_store_fpr32(ctx, fp32, fd); } break; case OPC_CVT_L_D: check_cp1_64bitmode(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); if (ctx->nan2008) { gen_helper_float_cvt_2008_l_d(fp0, tcg_env, fp0); } else { gen_helper_float_cvt_l_d(fp0, tcg_env, fp0); } gen_store_fpr64(ctx, fp0, fd); } break; case OPC_CVT_S_W: { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_helper_float_cvts_w(fp0, tcg_env, fp0); gen_store_fpr32(ctx, fp0, fd); } break; case OPC_CVT_D_W: check_cp1_registers(ctx, fd); { TCGv_i32 fp32 = tcg_temp_new_i32(); TCGv_i64 fp64 = tcg_temp_new_i64(); gen_load_fpr32(ctx, fp32, fs); gen_helper_float_cvtd_w(fp64, tcg_env, fp32); gen_store_fpr64(ctx, fp64, fd); } break; case OPC_CVT_S_L: check_cp1_64bitmode(ctx); { TCGv_i32 fp32 = tcg_temp_new_i32(); TCGv_i64 fp64 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp64, fs); gen_helper_float_cvts_l(fp32, tcg_env, fp64); gen_store_fpr32(ctx, fp32, fd); } break; case OPC_CVT_D_L: check_cp1_64bitmode(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_helper_float_cvtd_l(fp0, tcg_env, fp0); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_CVT_PS_PW: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_helper_float_cvtps_pw(fp0, tcg_env, fp0); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_ADD_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_add_ps(fp0, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_SUB_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_sub_ps(fp0, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_MUL_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_mul_ps(fp0, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_ABS_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_helper_float_abs_ps(fp0, fp0); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_MOV_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_NEG_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_helper_float_chs_ps(fp0, fp0); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_MOVCF_PS: check_ps(ctx); gen_movcf_ps(ctx, fs, fd, (ft >> 2) & 0x7, ft & 0x1); break; case OPC_MOVZ_PS: check_ps(ctx); { TCGLabel *l1 = gen_new_label(); TCGv_i64 fp0; if (ft != 0) { tcg_gen_brcondi_tl(TCG_COND_NE, cpu_gpr[ft], 0, l1); } fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_store_fpr64(ctx, fp0, fd); gen_set_label(l1); } break; case OPC_MOVN_PS: check_ps(ctx); { TCGLabel *l1 = gen_new_label(); TCGv_i64 fp0; if (ft != 0) { tcg_gen_brcondi_tl(TCG_COND_EQ, cpu_gpr[ft], 0, l1); fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_store_fpr64(ctx, fp0, fd); gen_set_label(l1); } } break; case OPC_ADDR_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, ft); gen_load_fpr64(ctx, fp1, fs); gen_helper_float_addr_ps(fp0, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_MULR_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, ft); gen_load_fpr64(ctx, fp1, fs); gen_helper_float_mulr_ps(fp0, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_RECIP2_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_recip2_ps(fp0, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_RECIP1_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_helper_float_recip1_ps(fp0, tcg_env, fp0); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_RSQRT1_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_helper_float_rsqrt1_ps(fp0, tcg_env, fp0); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_RSQRT2_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_helper_float_rsqrt2_ps(fp0, tcg_env, fp0, fp1); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_CVT_S_PU: check_cp1_64bitmode(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32h(ctx, fp0, fs); gen_helper_float_cvts_pu(fp0, tcg_env, fp0); gen_store_fpr32(ctx, fp0, fd); } break; case OPC_CVT_PW_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_helper_float_cvtpw_ps(fp0, tcg_env, fp0); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_CVT_S_PL: check_cp1_64bitmode(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_helper_float_cvts_pl(fp0, tcg_env, fp0); gen_store_fpr32(ctx, fp0, fd); } break; case OPC_PLL_PS: check_ps(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_store_fpr32h(ctx, fp0, fd); gen_store_fpr32(ctx, fp1, fd); } break; case OPC_PLU_PS: check_ps(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32h(ctx, fp1, ft); gen_store_fpr32(ctx, fp1, fd); gen_store_fpr32h(ctx, fp0, fd); } break; case OPC_PUL_PS: check_ps(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); gen_load_fpr32h(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_store_fpr32(ctx, fp1, fd); gen_store_fpr32h(ctx, fp0, fd); } break; case OPC_PUU_PS: check_ps(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); gen_load_fpr32h(ctx, fp0, fs); gen_load_fpr32h(ctx, fp1, ft); gen_store_fpr32(ctx, fp1, fd); gen_store_fpr32h(ctx, fp0, fd); } break; case OPC_CMP_F_PS: case OPC_CMP_UN_PS: case OPC_CMP_EQ_PS: case OPC_CMP_UEQ_PS: case OPC_CMP_OLT_PS: case OPC_CMP_ULT_PS: case OPC_CMP_OLE_PS: case OPC_CMP_ULE_PS: case OPC_CMP_SF_PS: case OPC_CMP_NGLE_PS: case OPC_CMP_SEQ_PS: case OPC_CMP_NGL_PS: case OPC_CMP_LT_PS: case OPC_CMP_NGE_PS: case OPC_CMP_LE_PS: case OPC_CMP_NGT_PS: if (ctx->opcode & (1 << 6)) { gen_cmpabs_ps(ctx, func - 48, ft, fs, cc); } else { gen_cmp_ps(ctx, func - 48, ft, fs, cc); } break; default: MIPS_INVAL("farith"); gen_reserved_instruction(ctx); return; } } /* Coprocessor 3 (FPU) */ static void gen_flt3_ldst(DisasContext *ctx, uint32_t opc, int fd, int fs, int base, int index) { TCGv t0 = tcg_temp_new(); if (base == 0) { gen_load_gpr(t0, index); } else if (index == 0) { gen_load_gpr(t0, base); } else { gen_op_addr_add(ctx, t0, cpu_gpr[base], cpu_gpr[index]); } /* * Don't do NOP if destination is zero: we must perform the actual * memory access. */ switch (opc) { case OPC_LWXC1: check_cop1x(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); tcg_gen_qemu_ld_tl(t0, t0, ctx->mem_idx, mo_endian(ctx) | MO_SL); tcg_gen_trunc_tl_i32(fp0, t0); gen_store_fpr32(ctx, fp0, fd); } break; case OPC_LDXC1: check_cop1x(ctx); check_cp1_registers(ctx, fd); { TCGv_i64 fp0 = tcg_temp_new_i64(); tcg_gen_qemu_ld_i64(fp0, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_LUXC1: check_cp1_64bitmode(ctx); tcg_gen_andi_tl(t0, t0, ~0x7); { TCGv_i64 fp0 = tcg_temp_new_i64(); tcg_gen_qemu_ld_i64(fp0, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ); gen_store_fpr64(ctx, fp0, fd); } break; case OPC_SWXC1: check_cop1x(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); tcg_gen_qemu_st_i32(fp0, t0, ctx->mem_idx, mo_endian(ctx) | MO_UL); } break; case OPC_SDXC1: check_cop1x(ctx); check_cp1_registers(ctx, fs); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); tcg_gen_qemu_st_i64(fp0, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ); } break; case OPC_SUXC1: check_cp1_64bitmode(ctx); tcg_gen_andi_tl(t0, t0, ~0x7); { TCGv_i64 fp0 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); tcg_gen_qemu_st_i64(fp0, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ); } break; } } static void gen_flt3_arith(DisasContext *ctx, uint32_t opc, int fd, int fr, int fs, int ft) { switch (opc) { case OPC_ALNV_PS: check_ps(ctx); { TCGv t0 = tcg_temp_new(); TCGv_i32 fp = tcg_temp_new_i32(); TCGv_i32 fph = tcg_temp_new_i32(); TCGLabel *l1 = gen_new_label(); TCGLabel *l2 = gen_new_label(); gen_load_gpr(t0, fr); tcg_gen_andi_tl(t0, t0, 0x7); tcg_gen_brcondi_tl(TCG_COND_NE, t0, 0, l1); gen_load_fpr32(ctx, fp, fs); gen_load_fpr32h(ctx, fph, fs); gen_store_fpr32(ctx, fp, fd); gen_store_fpr32h(ctx, fph, fd); tcg_gen_br(l2); gen_set_label(l1); tcg_gen_brcondi_tl(TCG_COND_NE, t0, 4, l2); if (disas_is_bigendian(ctx)) { gen_load_fpr32(ctx, fp, fs); gen_load_fpr32h(ctx, fph, ft); gen_store_fpr32h(ctx, fp, fd); gen_store_fpr32(ctx, fph, fd); } else { gen_load_fpr32h(ctx, fph, fs); gen_load_fpr32(ctx, fp, ft); gen_store_fpr32(ctx, fph, fd); gen_store_fpr32h(ctx, fp, fd); } gen_set_label(l2); } break; case OPC_MADD_S: check_cop1x(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); TCGv_i32 fp2 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_load_fpr32(ctx, fp2, fr); gen_helper_float_madd_s(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr32(ctx, fp2, fd); } break; case OPC_MADD_D: check_cop1x(ctx); check_cp1_registers(ctx, fd | fs | ft | fr); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); TCGv_i64 fp2 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_load_fpr64(ctx, fp2, fr); gen_helper_float_madd_d(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr64(ctx, fp2, fd); } break; case OPC_MADD_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); TCGv_i64 fp2 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_load_fpr64(ctx, fp2, fr); gen_helper_float_madd_ps(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr64(ctx, fp2, fd); } break; case OPC_MSUB_S: check_cop1x(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); TCGv_i32 fp2 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_load_fpr32(ctx, fp2, fr); gen_helper_float_msub_s(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr32(ctx, fp2, fd); } break; case OPC_MSUB_D: check_cop1x(ctx); check_cp1_registers(ctx, fd | fs | ft | fr); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); TCGv_i64 fp2 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_load_fpr64(ctx, fp2, fr); gen_helper_float_msub_d(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr64(ctx, fp2, fd); } break; case OPC_MSUB_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); TCGv_i64 fp2 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_load_fpr64(ctx, fp2, fr); gen_helper_float_msub_ps(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr64(ctx, fp2, fd); } break; case OPC_NMADD_S: check_cop1x(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); TCGv_i32 fp2 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_load_fpr32(ctx, fp2, fr); gen_helper_float_nmadd_s(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr32(ctx, fp2, fd); } break; case OPC_NMADD_D: check_cop1x(ctx); check_cp1_registers(ctx, fd | fs | ft | fr); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); TCGv_i64 fp2 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_load_fpr64(ctx, fp2, fr); gen_helper_float_nmadd_d(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr64(ctx, fp2, fd); } break; case OPC_NMADD_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); TCGv_i64 fp2 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_load_fpr64(ctx, fp2, fr); gen_helper_float_nmadd_ps(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr64(ctx, fp2, fd); } break; case OPC_NMSUB_S: check_cop1x(ctx); { TCGv_i32 fp0 = tcg_temp_new_i32(); TCGv_i32 fp1 = tcg_temp_new_i32(); TCGv_i32 fp2 = tcg_temp_new_i32(); gen_load_fpr32(ctx, fp0, fs); gen_load_fpr32(ctx, fp1, ft); gen_load_fpr32(ctx, fp2, fr); gen_helper_float_nmsub_s(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr32(ctx, fp2, fd); } break; case OPC_NMSUB_D: check_cop1x(ctx); check_cp1_registers(ctx, fd | fs | ft | fr); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); TCGv_i64 fp2 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_load_fpr64(ctx, fp2, fr); gen_helper_float_nmsub_d(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr64(ctx, fp2, fd); } break; case OPC_NMSUB_PS: check_ps(ctx); { TCGv_i64 fp0 = tcg_temp_new_i64(); TCGv_i64 fp1 = tcg_temp_new_i64(); TCGv_i64 fp2 = tcg_temp_new_i64(); gen_load_fpr64(ctx, fp0, fs); gen_load_fpr64(ctx, fp1, ft); gen_load_fpr64(ctx, fp2, fr); gen_helper_float_nmsub_ps(fp2, tcg_env, fp0, fp1, fp2); gen_store_fpr64(ctx, fp2, fd); } break; default: MIPS_INVAL("flt3_arith"); gen_reserved_instruction(ctx); return; } } void gen_rdhwr(DisasContext *ctx, int rt, int rd, int sel) { TCGv t0; #if !defined(CONFIG_USER_ONLY) /* * The Linux kernel will emulate rdhwr if it's not supported natively. * Therefore only check the ISA in system mode. */ check_insn(ctx, ISA_MIPS_R2); #endif t0 = tcg_temp_new(); switch (rd) { case 0: gen_helper_rdhwr_cpunum(t0, tcg_env); gen_store_gpr(t0, rt); break; case 1: gen_helper_rdhwr_synci_step(t0, tcg_env); gen_store_gpr(t0, rt); break; case 2: translator_io_start(&ctx->base); gen_helper_rdhwr_cc(t0, tcg_env); gen_store_gpr(t0, rt); /* * Break the TB to be able to take timer interrupts immediately * after reading count. DISAS_STOP isn't sufficient, we need to ensure * we break completely out of translated code. */ gen_save_pc(ctx->base.pc_next + 4); ctx->base.is_jmp = DISAS_EXIT; break; case 3: gen_helper_rdhwr_ccres(t0, tcg_env); gen_store_gpr(t0, rt); break; case 4: check_insn(ctx, ISA_MIPS_R6); if (sel != 0) { /* * Performance counter registers are not implemented other than * control register 0. */ generate_exception(ctx, EXCP_RI); } gen_helper_rdhwr_performance(t0, tcg_env); gen_store_gpr(t0, rt); break; case 5: check_insn(ctx, ISA_MIPS_R6); gen_helper_rdhwr_xnp(t0, tcg_env); gen_store_gpr(t0, rt); break; case 29: #if defined(CONFIG_USER_ONLY) tcg_gen_ld_tl(t0, tcg_env, offsetof(CPUMIPSState, active_tc.CP0_UserLocal)); gen_store_gpr(t0, rt); break; #else if ((ctx->hflags & MIPS_HFLAG_CP0) || (ctx->hflags & MIPS_HFLAG_HWRENA_ULR)) { tcg_gen_ld_tl(t0, tcg_env, offsetof(CPUMIPSState, active_tc.CP0_UserLocal)); gen_store_gpr(t0, rt); } else { gen_reserved_instruction(ctx); } break; #endif default: /* Invalid */ MIPS_INVAL("rdhwr"); gen_reserved_instruction(ctx); break; } } static inline void clear_branch_hflags(DisasContext *ctx) { ctx->hflags &= ~MIPS_HFLAG_BMASK; if (ctx->base.is_jmp == DISAS_NEXT) { save_cpu_state(ctx, 0); } else { /* * It is not safe to save ctx->hflags as hflags may be changed * in execution time by the instruction in delay / forbidden slot. */ tcg_gen_andi_i32(hflags, hflags, ~MIPS_HFLAG_BMASK); } } static void gen_branch(DisasContext *ctx, int insn_bytes) { if (ctx->hflags & MIPS_HFLAG_BMASK) { int proc_hflags = ctx->hflags & MIPS_HFLAG_BMASK; /* Branches completion */ clear_branch_hflags(ctx); ctx->base.is_jmp = DISAS_NORETURN; switch (proc_hflags & MIPS_HFLAG_BMASK_BASE) { case MIPS_HFLAG_FBNSLOT: gen_goto_tb(ctx, 0, ctx->base.pc_next + insn_bytes); break; case MIPS_HFLAG_B: /* unconditional branch */ if (proc_hflags & MIPS_HFLAG_BX) { tcg_gen_xori_i32(hflags, hflags, MIPS_HFLAG_M16); } gen_goto_tb(ctx, 0, ctx->btarget); break; case MIPS_HFLAG_BL: /* blikely taken case */ gen_goto_tb(ctx, 0, ctx->btarget); break; case MIPS_HFLAG_BC: /* Conditional branch */ { TCGLabel *l1 = gen_new_label(); tcg_gen_brcondi_tl(TCG_COND_NE, bcond, 0, l1); gen_goto_tb(ctx, 1, ctx->base.pc_next + insn_bytes); gen_set_label(l1); gen_goto_tb(ctx, 0, ctx->btarget); } break; case MIPS_HFLAG_BR: /* unconditional branch to register */ if (ctx->insn_flags & (ASE_MIPS16 | ASE_MICROMIPS)) { TCGv t0 = tcg_temp_new(); TCGv_i32 t1 = tcg_temp_new_i32(); tcg_gen_andi_tl(t0, btarget, 0x1); tcg_gen_trunc_tl_i32(t1, t0); tcg_gen_andi_i32(hflags, hflags, ~(uint32_t)MIPS_HFLAG_M16); tcg_gen_shli_i32(t1, t1, MIPS_HFLAG_M16_SHIFT); tcg_gen_or_i32(hflags, hflags, t1); tcg_gen_andi_tl(cpu_PC, btarget, ~(target_ulong)0x1); } else { tcg_gen_mov_tl(cpu_PC, btarget); } tcg_gen_lookup_and_goto_ptr(); break; default: LOG_DISAS("unknown branch 0x%x\n", proc_hflags); gen_reserved_instruction(ctx); } } } /* Compact Branches */ static void gen_compute_compact_branch(DisasContext *ctx, uint32_t opc, int rs, int rt, int32_t offset) { int bcond_compute = 0; TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); int m16_lowbit = (ctx->hflags & MIPS_HFLAG_M16) != 0; if (ctx->hflags & MIPS_HFLAG_BMASK) { #ifdef MIPS_DEBUG_DISAS LOG_DISAS("Branch in delay / forbidden slot at PC 0x%016" VADDR_PRIx "\n", ctx->base.pc_next); #endif gen_reserved_instruction(ctx); return; } /* Load needed operands and calculate btarget */ switch (opc) { /* compact branch */ case OPC_BOVC: /* OPC_BEQZALC, OPC_BEQC */ case OPC_BNVC: /* OPC_BNEZALC, OPC_BNEC */ gen_load_gpr(t0, rs); gen_load_gpr(t1, rt); bcond_compute = 1; ctx->btarget = addr_add(ctx, ctx->base.pc_next + 4, offset); if (rs <= rt && rs == 0) { /* OPC_BEQZALC, OPC_BNEZALC */ tcg_gen_movi_tl(cpu_gpr[31], ctx->base.pc_next + 4 + m16_lowbit); } break; case OPC_BLEZC: /* OPC_BGEZC, OPC_BGEC */ case OPC_BGTZC: /* OPC_BLTZC, OPC_BLTC */ gen_load_gpr(t0, rs); gen_load_gpr(t1, rt); bcond_compute = 1; ctx->btarget = addr_add(ctx, ctx->base.pc_next + 4, offset); break; case OPC_BLEZALC: /* OPC_BGEZALC, OPC_BGEUC */ case OPC_BGTZALC: /* OPC_BLTZALC, OPC_BLTUC */ if (rs == 0 || rs == rt) { /* OPC_BLEZALC, OPC_BGEZALC */ /* OPC_BGTZALC, OPC_BLTZALC */ tcg_gen_movi_tl(cpu_gpr[31], ctx->base.pc_next + 4 + m16_lowbit); } gen_load_gpr(t0, rs); gen_load_gpr(t1, rt); bcond_compute = 1; ctx->btarget = addr_add(ctx, ctx->base.pc_next + 4, offset); break; case OPC_BC: case OPC_BALC: ctx->btarget = addr_add(ctx, ctx->base.pc_next + 4, offset); break; case OPC_BEQZC: case OPC_BNEZC: if (rs != 0) { /* OPC_BEQZC, OPC_BNEZC */ gen_load_gpr(t0, rs); bcond_compute = 1; ctx->btarget = addr_add(ctx, ctx->base.pc_next + 4, offset); } else { /* OPC_JIC, OPC_JIALC */ TCGv tbase = tcg_temp_new(); gen_load_gpr(tbase, rt); gen_op_addr_addi(ctx, btarget, tbase, offset); } break; default: MIPS_INVAL("Compact branch/jump"); gen_reserved_instruction(ctx); return; } if (bcond_compute == 0) { /* Unconditional compact branch */ switch (opc) { case OPC_JIALC: tcg_gen_movi_tl(cpu_gpr[31], ctx->base.pc_next + 4 + m16_lowbit); /* Fallthrough */ case OPC_JIC: ctx->hflags |= MIPS_HFLAG_BR; break; case OPC_BALC: tcg_gen_movi_tl(cpu_gpr[31], ctx->base.pc_next + 4 + m16_lowbit); /* Fallthrough */ case OPC_BC: ctx->hflags |= MIPS_HFLAG_B; break; default: MIPS_INVAL("Compact branch/jump"); gen_reserved_instruction(ctx); return; } /* Generating branch here as compact branches don't have delay slot */ gen_branch(ctx, 4); } else { /* Conditional compact branch */ TCGLabel *fs = gen_new_label(); save_cpu_state(ctx, 0); switch (opc) { case OPC_BLEZALC: /* OPC_BGEZALC, OPC_BGEUC */ if (rs == 0 && rt != 0) { /* OPC_BLEZALC */ tcg_gen_brcondi_tl(tcg_invert_cond(TCG_COND_LE), t1, 0, fs); } else if (rs != 0 && rt != 0 && rs == rt) { /* OPC_BGEZALC */ tcg_gen_brcondi_tl(tcg_invert_cond(TCG_COND_GE), t1, 0, fs); } else { /* OPC_BGEUC */ tcg_gen_brcond_tl(tcg_invert_cond(TCG_COND_GEU), t0, t1, fs); } break; case OPC_BGTZALC: /* OPC_BLTZALC, OPC_BLTUC */ if (rs == 0 && rt != 0) { /* OPC_BGTZALC */ tcg_gen_brcondi_tl(tcg_invert_cond(TCG_COND_GT), t1, 0, fs); } else if (rs != 0 && rt != 0 && rs == rt) { /* OPC_BLTZALC */ tcg_gen_brcondi_tl(tcg_invert_cond(TCG_COND_LT), t1, 0, fs); } else { /* OPC_BLTUC */ tcg_gen_brcond_tl(tcg_invert_cond(TCG_COND_LTU), t0, t1, fs); } break; case OPC_BLEZC: /* OPC_BGEZC, OPC_BGEC */ if (rs == 0 && rt != 0) { /* OPC_BLEZC */ tcg_gen_brcondi_tl(tcg_invert_cond(TCG_COND_LE), t1, 0, fs); } else if (rs != 0 && rt != 0 && rs == rt) { /* OPC_BGEZC */ tcg_gen_brcondi_tl(tcg_invert_cond(TCG_COND_GE), t1, 0, fs); } else { /* OPC_BGEC */ tcg_gen_brcond_tl(tcg_invert_cond(TCG_COND_GE), t0, t1, fs); } break; case OPC_BGTZC: /* OPC_BLTZC, OPC_BLTC */ if (rs == 0 && rt != 0) { /* OPC_BGTZC */ tcg_gen_brcondi_tl(tcg_invert_cond(TCG_COND_GT), t1, 0, fs); } else if (rs != 0 && rt != 0 && rs == rt) { /* OPC_BLTZC */ tcg_gen_brcondi_tl(tcg_invert_cond(TCG_COND_LT), t1, 0, fs); } else { /* OPC_BLTC */ tcg_gen_brcond_tl(tcg_invert_cond(TCG_COND_LT), t0, t1, fs); } break; case OPC_BOVC: /* OPC_BEQZALC, OPC_BEQC */ case OPC_BNVC: /* OPC_BNEZALC, OPC_BNEC */ if (rs >= rt) { /* OPC_BOVC, OPC_BNVC */ TCGv t2 = tcg_temp_new(); TCGv t3 = tcg_temp_new(); TCGv t4 = tcg_temp_new(); TCGv input_overflow = tcg_temp_new(); gen_load_gpr(t0, rs); gen_load_gpr(t1, rt); tcg_gen_ext32s_tl(t2, t0); tcg_gen_setcond_tl(TCG_COND_NE, input_overflow, t2, t0); tcg_gen_ext32s_tl(t3, t1); tcg_gen_setcond_tl(TCG_COND_NE, t4, t3, t1); tcg_gen_or_tl(input_overflow, input_overflow, t4); tcg_gen_add_tl(t4, t2, t3); tcg_gen_ext32s_tl(t4, t4); tcg_gen_xor_tl(t2, t2, t3); tcg_gen_xor_tl(t3, t4, t3); tcg_gen_andc_tl(t2, t3, t2); tcg_gen_setcondi_tl(TCG_COND_LT, t4, t2, 0); tcg_gen_or_tl(t4, t4, input_overflow); if (opc == OPC_BOVC) { /* OPC_BOVC */ tcg_gen_brcondi_tl(tcg_invert_cond(TCG_COND_NE), t4, 0, fs); } else { /* OPC_BNVC */ tcg_gen_brcondi_tl(tcg_invert_cond(TCG_COND_EQ), t4, 0, fs); } } else if (rs < rt && rs == 0) { /* OPC_BEQZALC, OPC_BNEZALC */ if (opc == OPC_BEQZALC) { /* OPC_BEQZALC */ tcg_gen_brcondi_tl(tcg_invert_cond(TCG_COND_EQ), t1, 0, fs); } else { /* OPC_BNEZALC */ tcg_gen_brcondi_tl(tcg_invert_cond(TCG_COND_NE), t1, 0, fs); } } else { /* OPC_BEQC, OPC_BNEC */ if (opc == OPC_BEQC) { /* OPC_BEQC */ tcg_gen_brcond_tl(tcg_invert_cond(TCG_COND_EQ), t0, t1, fs); } else { /* OPC_BNEC */ tcg_gen_brcond_tl(tcg_invert_cond(TCG_COND_NE), t0, t1, fs); } } break; case OPC_BEQZC: tcg_gen_brcondi_tl(tcg_invert_cond(TCG_COND_EQ), t0, 0, fs); break; case OPC_BNEZC: tcg_gen_brcondi_tl(tcg_invert_cond(TCG_COND_NE), t0, 0, fs); break; default: MIPS_INVAL("Compact conditional branch/jump"); gen_reserved_instruction(ctx); return; } /* Generating branch here as compact branches don't have delay slot */ gen_goto_tb(ctx, 1, ctx->btarget); gen_set_label(fs); ctx->hflags |= MIPS_HFLAG_FBNSLOT; } } void gen_addiupc(DisasContext *ctx, int rx, int imm, int is_64_bit, int extended) { target_ulong npc; if (extended && (ctx->hflags & MIPS_HFLAG_BMASK)) { gen_reserved_instruction(ctx); return; } npc = pc_relative_pc(ctx) + imm; if (!is_64_bit) { npc = (int32_t)npc; } tcg_gen_movi_tl(cpu_gpr[rx], npc); } static void gen_cache_operation(DisasContext *ctx, uint32_t op, int base, int16_t offset) { TCGv_i32 t0 = tcg_constant_i32(op); TCGv t1 = tcg_temp_new(); gen_base_offset_addr(ctx, t1, base, offset); gen_helper_cache(tcg_env, t1, t0); } static inline bool is_uhi(DisasContext *ctx, int sdbbp_code) { #ifdef CONFIG_USER_ONLY return false; #else bool is_user = (ctx->hflags & MIPS_HFLAG_KSU) == MIPS_HFLAG_UM; return semihosting_enabled(is_user) && sdbbp_code == 1; #endif } void gen_ldxs(DisasContext *ctx, int base, int index, int rd) { TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); gen_load_gpr(t0, base); if (index != 0) { gen_load_gpr(t1, index); tcg_gen_shli_tl(t1, t1, 2); gen_op_addr_add(ctx, t0, t1, t0); } tcg_gen_qemu_ld_tl(t1, t0, ctx->mem_idx, mo_endian(ctx) | MO_SL); gen_store_gpr(t1, rd); } static void gen_sync(int stype) { TCGBar tcg_mo = TCG_BAR_SC; switch (stype) { case 0x4: /* SYNC_WMB */ tcg_mo |= TCG_MO_ST_ST; break; case 0x10: /* SYNC_MB */ tcg_mo |= TCG_MO_ALL; break; case 0x11: /* SYNC_ACQUIRE */ tcg_mo |= TCG_MO_LD_LD | TCG_MO_LD_ST; break; case 0x12: /* SYNC_RELEASE */ tcg_mo |= TCG_MO_ST_ST | TCG_MO_LD_ST; break; case 0x13: /* SYNC_RMB */ tcg_mo |= TCG_MO_LD_LD; break; default: tcg_mo |= TCG_MO_ALL; break; } tcg_gen_mb(tcg_mo); } /* ISA extensions (ASEs) */ /* MIPS16 extension to MIPS32 */ #include "mips16e_translate.c.inc" /* microMIPS extension to MIPS32/MIPS64 */ /* * Values for microMIPS fmt field. Variable-width, depending on which * formats the instruction supports. */ enum { FMT_SD_S = 0, FMT_SD_D = 1, FMT_SDPS_S = 0, FMT_SDPS_D = 1, FMT_SDPS_PS = 2, FMT_SWL_S = 0, FMT_SWL_W = 1, FMT_SWL_L = 2, FMT_DWL_D = 0, FMT_DWL_W = 1, FMT_DWL_L = 2 }; #include "micromips_translate.c.inc" #include "nanomips_translate.c.inc" /* MIPSDSP functions. */ /* Indexed load is not for DSP only */ static void gen_mips_lx(DisasContext *ctx, uint32_t opc, int rd, int base, int offset) { TCGv t0; if (!(ctx->insn_flags & INSN_OCTEON)) { check_dsp(ctx); } t0 = tcg_temp_new(); if (base == 0) { gen_load_gpr(t0, offset); } else if (offset == 0) { gen_load_gpr(t0, base); } else { gen_op_addr_add(ctx, t0, cpu_gpr[base], cpu_gpr[offset]); } switch (opc) { case OPC_LBUX: tcg_gen_qemu_ld_tl(t0, t0, ctx->mem_idx, MO_UB); gen_store_gpr(t0, rd); break; case OPC_LHX: tcg_gen_qemu_ld_tl(t0, t0, ctx->mem_idx, mo_endian(ctx) | MO_SW); gen_store_gpr(t0, rd); break; case OPC_LWX: tcg_gen_qemu_ld_tl(t0, t0, ctx->mem_idx, mo_endian(ctx) | MO_SL); gen_store_gpr(t0, rd); break; #if defined(TARGET_MIPS64) case OPC_LDX: tcg_gen_qemu_ld_tl(t0, t0, ctx->mem_idx, mo_endian(ctx) | MO_UQ); gen_store_gpr(t0, rd); break; #endif } } static void gen_mipsdsp_arith(DisasContext *ctx, uint32_t op1, uint32_t op2, int ret, int v1, int v2) { TCGv v1_t; TCGv v2_t; if (ret == 0) { /* Treat as NOP. */ return; } v1_t = tcg_temp_new(); v2_t = tcg_temp_new(); gen_load_gpr(v1_t, v1); gen_load_gpr(v2_t, v2); switch (op1) { /* OPC_MULT_G_2E is equal OPC_ADDUH_QB_DSP */ case OPC_MULT_G_2E: check_dsp_r2(ctx); switch (op2) { case OPC_ADDUH_QB: gen_helper_adduh_qb(cpu_gpr[ret], v1_t, v2_t); break; case OPC_ADDUH_R_QB: gen_helper_adduh_r_qb(cpu_gpr[ret], v1_t, v2_t); break; case OPC_ADDQH_PH: gen_helper_addqh_ph(cpu_gpr[ret], v1_t, v2_t); break; case OPC_ADDQH_R_PH: gen_helper_addqh_r_ph(cpu_gpr[ret], v1_t, v2_t); break; case OPC_ADDQH_W: gen_helper_addqh_w(cpu_gpr[ret], v1_t, v2_t); break; case OPC_ADDQH_R_W: gen_helper_addqh_r_w(cpu_gpr[ret], v1_t, v2_t); break; case OPC_SUBUH_QB: gen_helper_subuh_qb(cpu_gpr[ret], v1_t, v2_t); break; case OPC_SUBUH_R_QB: gen_helper_subuh_r_qb(cpu_gpr[ret], v1_t, v2_t); break; case OPC_SUBQH_PH: gen_helper_subqh_ph(cpu_gpr[ret], v1_t, v2_t); break; case OPC_SUBQH_R_PH: gen_helper_subqh_r_ph(cpu_gpr[ret], v1_t, v2_t); break; case OPC_SUBQH_W: gen_helper_subqh_w(cpu_gpr[ret], v1_t, v2_t); break; case OPC_SUBQH_R_W: gen_helper_subqh_r_w(cpu_gpr[ret], v1_t, v2_t); break; } break; case OPC_ABSQ_S_PH_DSP: switch (op2) { case OPC_ABSQ_S_QB: check_dsp_r2(ctx); gen_helper_absq_s_qb(cpu_gpr[ret], v2_t, tcg_env); break; case OPC_ABSQ_S_PH: check_dsp(ctx); gen_helper_absq_s_ph(cpu_gpr[ret], v2_t, tcg_env); break; case OPC_ABSQ_S_W: check_dsp(ctx); gen_helper_absq_s_w(cpu_gpr[ret], v2_t, tcg_env); break; case OPC_PRECEQ_W_PHL: check_dsp(ctx); tcg_gen_andi_tl(cpu_gpr[ret], v2_t, 0xFFFF0000); tcg_gen_ext32s_tl(cpu_gpr[ret], cpu_gpr[ret]); break; case OPC_PRECEQ_W_PHR: check_dsp(ctx); tcg_gen_andi_tl(cpu_gpr[ret], v2_t, 0x0000FFFF); tcg_gen_shli_tl(cpu_gpr[ret], cpu_gpr[ret], 16); tcg_gen_ext32s_tl(cpu_gpr[ret], cpu_gpr[ret]); break; case OPC_PRECEQU_PH_QBL: check_dsp(ctx); gen_helper_precequ_ph_qbl(cpu_gpr[ret], v2_t); break; case OPC_PRECEQU_PH_QBR: check_dsp(ctx); gen_helper_precequ_ph_qbr(cpu_gpr[ret], v2_t); break; case OPC_PRECEQU_PH_QBLA: check_dsp(ctx); gen_helper_precequ_ph_qbla(cpu_gpr[ret], v2_t); break; case OPC_PRECEQU_PH_QBRA: check_dsp(ctx); gen_helper_precequ_ph_qbra(cpu_gpr[ret], v2_t); break; case OPC_PRECEU_PH_QBL: check_dsp(ctx); gen_helper_preceu_ph_qbl(cpu_gpr[ret], v2_t); break; case OPC_PRECEU_PH_QBR: check_dsp(ctx); gen_helper_preceu_ph_qbr(cpu_gpr[ret], v2_t); break; case OPC_PRECEU_PH_QBLA: check_dsp(ctx); gen_helper_preceu_ph_qbla(cpu_gpr[ret], v2_t); break; case OPC_PRECEU_PH_QBRA: check_dsp(ctx); gen_helper_preceu_ph_qbra(cpu_gpr[ret], v2_t); break; } break; case OPC_ADDU_QB_DSP: switch (op2) { case OPC_ADDQ_PH: check_dsp(ctx); gen_helper_addq_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDQ_S_PH: check_dsp(ctx); gen_helper_addq_s_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDQ_S_W: check_dsp(ctx); gen_helper_addq_s_w(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDU_QB: check_dsp(ctx); gen_helper_addu_qb(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDU_S_QB: check_dsp(ctx); gen_helper_addu_s_qb(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDU_PH: check_dsp_r2(ctx); gen_helper_addu_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDU_S_PH: check_dsp_r2(ctx); gen_helper_addu_s_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBQ_PH: check_dsp(ctx); gen_helper_subq_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBQ_S_PH: check_dsp(ctx); gen_helper_subq_s_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBQ_S_W: check_dsp(ctx); gen_helper_subq_s_w(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBU_QB: check_dsp(ctx); gen_helper_subu_qb(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBU_S_QB: check_dsp(ctx); gen_helper_subu_s_qb(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBU_PH: check_dsp_r2(ctx); gen_helper_subu_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBU_S_PH: check_dsp_r2(ctx); gen_helper_subu_s_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDSC: check_dsp(ctx); gen_helper_addsc(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDWC: check_dsp(ctx); gen_helper_addwc(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_MODSUB: check_dsp(ctx); gen_helper_modsub(cpu_gpr[ret], v1_t, v2_t); break; case OPC_RADDU_W_QB: check_dsp(ctx); gen_helper_raddu_w_qb(cpu_gpr[ret], v1_t); break; } break; case OPC_CMPU_EQ_QB_DSP: switch (op2) { case OPC_PRECR_QB_PH: check_dsp_r2(ctx); gen_helper_precr_qb_ph(cpu_gpr[ret], v1_t, v2_t); break; case OPC_PRECRQ_QB_PH: check_dsp(ctx); gen_helper_precrq_qb_ph(cpu_gpr[ret], v1_t, v2_t); break; case OPC_PRECR_SRA_PH_W: check_dsp_r2(ctx); { TCGv_i32 sa_t = tcg_constant_i32(v2); gen_helper_precr_sra_ph_w(cpu_gpr[ret], sa_t, v1_t, cpu_gpr[ret]); break; } case OPC_PRECR_SRA_R_PH_W: check_dsp_r2(ctx); { TCGv_i32 sa_t = tcg_constant_i32(v2); gen_helper_precr_sra_r_ph_w(cpu_gpr[ret], sa_t, v1_t, cpu_gpr[ret]); break; } case OPC_PRECRQ_PH_W: check_dsp(ctx); gen_helper_precrq_ph_w(cpu_gpr[ret], v1_t, v2_t); break; case OPC_PRECRQ_RS_PH_W: check_dsp(ctx); gen_helper_precrq_rs_ph_w(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_PRECRQU_S_QB_PH: check_dsp(ctx); gen_helper_precrqu_s_qb_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; } break; #ifdef TARGET_MIPS64 case OPC_ABSQ_S_QH_DSP: switch (op2) { case OPC_PRECEQ_L_PWL: check_dsp(ctx); tcg_gen_andi_tl(cpu_gpr[ret], v2_t, 0xFFFFFFFF00000000ull); break; case OPC_PRECEQ_L_PWR: check_dsp(ctx); tcg_gen_shli_tl(cpu_gpr[ret], v2_t, 32); break; case OPC_PRECEQ_PW_QHL: check_dsp(ctx); gen_helper_preceq_pw_qhl(cpu_gpr[ret], v2_t); break; case OPC_PRECEQ_PW_QHR: check_dsp(ctx); gen_helper_preceq_pw_qhr(cpu_gpr[ret], v2_t); break; case OPC_PRECEQ_PW_QHLA: check_dsp(ctx); gen_helper_preceq_pw_qhla(cpu_gpr[ret], v2_t); break; case OPC_PRECEQ_PW_QHRA: check_dsp(ctx); gen_helper_preceq_pw_qhra(cpu_gpr[ret], v2_t); break; case OPC_PRECEQU_QH_OBL: check_dsp(ctx); gen_helper_precequ_qh_obl(cpu_gpr[ret], v2_t); break; case OPC_PRECEQU_QH_OBR: check_dsp(ctx); gen_helper_precequ_qh_obr(cpu_gpr[ret], v2_t); break; case OPC_PRECEQU_QH_OBLA: check_dsp(ctx); gen_helper_precequ_qh_obla(cpu_gpr[ret], v2_t); break; case OPC_PRECEQU_QH_OBRA: check_dsp(ctx); gen_helper_precequ_qh_obra(cpu_gpr[ret], v2_t); break; case OPC_PRECEU_QH_OBL: check_dsp(ctx); gen_helper_preceu_qh_obl(cpu_gpr[ret], v2_t); break; case OPC_PRECEU_QH_OBR: check_dsp(ctx); gen_helper_preceu_qh_obr(cpu_gpr[ret], v2_t); break; case OPC_PRECEU_QH_OBLA: check_dsp(ctx); gen_helper_preceu_qh_obla(cpu_gpr[ret], v2_t); break; case OPC_PRECEU_QH_OBRA: check_dsp(ctx); gen_helper_preceu_qh_obra(cpu_gpr[ret], v2_t); break; case OPC_ABSQ_S_OB: check_dsp_r2(ctx); gen_helper_absq_s_ob(cpu_gpr[ret], v2_t, tcg_env); break; case OPC_ABSQ_S_PW: check_dsp(ctx); gen_helper_absq_s_pw(cpu_gpr[ret], v2_t, tcg_env); break; case OPC_ABSQ_S_QH: check_dsp(ctx); gen_helper_absq_s_qh(cpu_gpr[ret], v2_t, tcg_env); break; } break; case OPC_ADDU_OB_DSP: switch (op2) { case OPC_RADDU_L_OB: check_dsp(ctx); gen_helper_raddu_l_ob(cpu_gpr[ret], v1_t); break; case OPC_SUBQ_PW: check_dsp(ctx); gen_helper_subq_pw(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBQ_S_PW: check_dsp(ctx); gen_helper_subq_s_pw(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBQ_QH: check_dsp(ctx); gen_helper_subq_qh(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBQ_S_QH: check_dsp(ctx); gen_helper_subq_s_qh(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBU_OB: check_dsp(ctx); gen_helper_subu_ob(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBU_S_OB: check_dsp(ctx); gen_helper_subu_s_ob(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBU_QH: check_dsp_r2(ctx); gen_helper_subu_qh(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBU_S_QH: check_dsp_r2(ctx); gen_helper_subu_s_qh(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SUBUH_OB: check_dsp_r2(ctx); gen_helper_subuh_ob(cpu_gpr[ret], v1_t, v2_t); break; case OPC_SUBUH_R_OB: check_dsp_r2(ctx); gen_helper_subuh_r_ob(cpu_gpr[ret], v1_t, v2_t); break; case OPC_ADDQ_PW: check_dsp(ctx); gen_helper_addq_pw(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDQ_S_PW: check_dsp(ctx); gen_helper_addq_s_pw(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDQ_QH: check_dsp(ctx); gen_helper_addq_qh(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDQ_S_QH: check_dsp(ctx); gen_helper_addq_s_qh(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDU_OB: check_dsp(ctx); gen_helper_addu_ob(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDU_S_OB: check_dsp(ctx); gen_helper_addu_s_ob(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDU_QH: check_dsp_r2(ctx); gen_helper_addu_qh(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDU_S_QH: check_dsp_r2(ctx); gen_helper_addu_s_qh(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_ADDUH_OB: check_dsp_r2(ctx); gen_helper_adduh_ob(cpu_gpr[ret], v1_t, v2_t); break; case OPC_ADDUH_R_OB: check_dsp_r2(ctx); gen_helper_adduh_r_ob(cpu_gpr[ret], v1_t, v2_t); break; } break; case OPC_CMPU_EQ_OB_DSP: switch (op2) { case OPC_PRECR_OB_QH: check_dsp_r2(ctx); gen_helper_precr_ob_qh(cpu_gpr[ret], v1_t, v2_t); break; case OPC_PRECR_SRA_QH_PW: check_dsp_r2(ctx); { TCGv_i32 ret_t = tcg_constant_i32(ret); gen_helper_precr_sra_qh_pw(v2_t, v1_t, v2_t, ret_t); break; } case OPC_PRECR_SRA_R_QH_PW: check_dsp_r2(ctx); { TCGv_i32 sa_v = tcg_constant_i32(ret); gen_helper_precr_sra_r_qh_pw(v2_t, v1_t, v2_t, sa_v); break; } case OPC_PRECRQ_OB_QH: check_dsp(ctx); gen_helper_precrq_ob_qh(cpu_gpr[ret], v1_t, v2_t); break; case OPC_PRECRQ_PW_L: check_dsp(ctx); gen_helper_precrq_pw_l(cpu_gpr[ret], v1_t, v2_t); break; case OPC_PRECRQ_QH_PW: check_dsp(ctx); gen_helper_precrq_qh_pw(cpu_gpr[ret], v1_t, v2_t); break; case OPC_PRECRQ_RS_QH_PW: check_dsp(ctx); gen_helper_precrq_rs_qh_pw(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_PRECRQU_S_OB_QH: check_dsp(ctx); gen_helper_precrqu_s_ob_qh(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; } break; #endif } } static void gen_mipsdsp_shift(DisasContext *ctx, uint32_t opc, int ret, int v1, int v2) { uint32_t op2; TCGv t0; TCGv v1_t; TCGv v2_t; if (ret == 0) { /* Treat as NOP. */ return; } t0 = tcg_temp_new(); v1_t = tcg_temp_new(); v2_t = tcg_temp_new(); tcg_gen_movi_tl(t0, v1); gen_load_gpr(v1_t, v1); gen_load_gpr(v2_t, v2); switch (opc) { case OPC_SHLL_QB_DSP: { op2 = MASK_SHLL_QB(ctx->opcode); switch (op2) { case OPC_SHLL_QB: check_dsp(ctx); gen_helper_shll_qb(cpu_gpr[ret], t0, v2_t, tcg_env); break; case OPC_SHLLV_QB: check_dsp(ctx); gen_helper_shll_qb(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SHLL_PH: check_dsp(ctx); gen_helper_shll_ph(cpu_gpr[ret], t0, v2_t, tcg_env); break; case OPC_SHLLV_PH: check_dsp(ctx); gen_helper_shll_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SHLL_S_PH: check_dsp(ctx); gen_helper_shll_s_ph(cpu_gpr[ret], t0, v2_t, tcg_env); break; case OPC_SHLLV_S_PH: check_dsp(ctx); gen_helper_shll_s_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SHLL_S_W: check_dsp(ctx); gen_helper_shll_s_w(cpu_gpr[ret], t0, v2_t, tcg_env); break; case OPC_SHLLV_S_W: check_dsp(ctx); gen_helper_shll_s_w(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_SHRL_QB: check_dsp(ctx); gen_helper_shrl_qb(cpu_gpr[ret], t0, v2_t); break; case OPC_SHRLV_QB: check_dsp(ctx); gen_helper_shrl_qb(cpu_gpr[ret], v1_t, v2_t); break; case OPC_SHRL_PH: check_dsp_r2(ctx); gen_helper_shrl_ph(cpu_gpr[ret], t0, v2_t); break; case OPC_SHRLV_PH: check_dsp_r2(ctx); gen_helper_shrl_ph(cpu_gpr[ret], v1_t, v2_t); break; case OPC_SHRA_QB: check_dsp_r2(ctx); gen_helper_shra_qb(cpu_gpr[ret], t0, v2_t); break; case OPC_SHRA_R_QB: check_dsp_r2(ctx); gen_helper_shra_r_qb(cpu_gpr[ret], t0, v2_t); break; case OPC_SHRAV_QB: check_dsp_r2(ctx); gen_helper_shra_qb(cpu_gpr[ret], v1_t, v2_t); break; case OPC_SHRAV_R_QB: check_dsp_r2(ctx); gen_helper_shra_r_qb(cpu_gpr[ret], v1_t, v2_t); break; case OPC_SHRA_PH: check_dsp(ctx); gen_helper_shra_ph(cpu_gpr[ret], t0, v2_t); break; case OPC_SHRA_R_PH: check_dsp(ctx); gen_helper_shra_r_ph(cpu_gpr[ret], t0, v2_t); break; case OPC_SHRAV_PH: check_dsp(ctx); gen_helper_shra_ph(cpu_gpr[ret], v1_t, v2_t); break; case OPC_SHRAV_R_PH: check_dsp(ctx); gen_helper_shra_r_ph(cpu_gpr[ret], v1_t, v2_t); break; case OPC_SHRA_R_W: check_dsp(ctx); gen_helper_shra_r_w(cpu_gpr[ret], t0, v2_t); break; case OPC_SHRAV_R_W: check_dsp(ctx); gen_helper_shra_r_w(cpu_gpr[ret], v1_t, v2_t); break; default: /* Invalid */ MIPS_INVAL("MASK SHLL.QB"); gen_reserved_instruction(ctx); break; } break; } #ifdef TARGET_MIPS64 case OPC_SHLL_OB_DSP: op2 = MASK_SHLL_OB(ctx->opcode); switch (op2) { case OPC_SHLL_PW: check_dsp(ctx); gen_helper_shll_pw(cpu_gpr[ret], v2_t, t0, tcg_env); break; case OPC_SHLLV_PW: check_dsp(ctx); gen_helper_shll_pw(cpu_gpr[ret], v2_t, v1_t, tcg_env); break; case OPC_SHLL_S_PW: check_dsp(ctx); gen_helper_shll_s_pw(cpu_gpr[ret], v2_t, t0, tcg_env); break; case OPC_SHLLV_S_PW: check_dsp(ctx); gen_helper_shll_s_pw(cpu_gpr[ret], v2_t, v1_t, tcg_env); break; case OPC_SHLL_OB: check_dsp(ctx); gen_helper_shll_ob(cpu_gpr[ret], v2_t, t0, tcg_env); break; case OPC_SHLLV_OB: check_dsp(ctx); gen_helper_shll_ob(cpu_gpr[ret], v2_t, v1_t, tcg_env); break; case OPC_SHLL_QH: check_dsp(ctx); gen_helper_shll_qh(cpu_gpr[ret], v2_t, t0, tcg_env); break; case OPC_SHLLV_QH: check_dsp(ctx); gen_helper_shll_qh(cpu_gpr[ret], v2_t, v1_t, tcg_env); break; case OPC_SHLL_S_QH: check_dsp(ctx); gen_helper_shll_s_qh(cpu_gpr[ret], v2_t, t0, tcg_env); break; case OPC_SHLLV_S_QH: check_dsp(ctx); gen_helper_shll_s_qh(cpu_gpr[ret], v2_t, v1_t, tcg_env); break; case OPC_SHRA_OB: check_dsp_r2(ctx); gen_helper_shra_ob(cpu_gpr[ret], v2_t, t0); break; case OPC_SHRAV_OB: check_dsp_r2(ctx); gen_helper_shra_ob(cpu_gpr[ret], v2_t, v1_t); break; case OPC_SHRA_R_OB: check_dsp_r2(ctx); gen_helper_shra_r_ob(cpu_gpr[ret], v2_t, t0); break; case OPC_SHRAV_R_OB: check_dsp_r2(ctx); gen_helper_shra_r_ob(cpu_gpr[ret], v2_t, v1_t); break; case OPC_SHRA_PW: check_dsp(ctx); gen_helper_shra_pw(cpu_gpr[ret], v2_t, t0); break; case OPC_SHRAV_PW: check_dsp(ctx); gen_helper_shra_pw(cpu_gpr[ret], v2_t, v1_t); break; case OPC_SHRA_R_PW: check_dsp(ctx); gen_helper_shra_r_pw(cpu_gpr[ret], v2_t, t0); break; case OPC_SHRAV_R_PW: check_dsp(ctx); gen_helper_shra_r_pw(cpu_gpr[ret], v2_t, v1_t); break; case OPC_SHRA_QH: check_dsp(ctx); gen_helper_shra_qh(cpu_gpr[ret], v2_t, t0); break; case OPC_SHRAV_QH: check_dsp(ctx); gen_helper_shra_qh(cpu_gpr[ret], v2_t, v1_t); break; case OPC_SHRA_R_QH: check_dsp(ctx); gen_helper_shra_r_qh(cpu_gpr[ret], v2_t, t0); break; case OPC_SHRAV_R_QH: check_dsp(ctx); gen_helper_shra_r_qh(cpu_gpr[ret], v2_t, v1_t); break; case OPC_SHRL_OB: check_dsp(ctx); gen_helper_shrl_ob(cpu_gpr[ret], v2_t, t0); break; case OPC_SHRLV_OB: check_dsp(ctx); gen_helper_shrl_ob(cpu_gpr[ret], v2_t, v1_t); break; case OPC_SHRL_QH: check_dsp_r2(ctx); gen_helper_shrl_qh(cpu_gpr[ret], v2_t, t0); break; case OPC_SHRLV_QH: check_dsp_r2(ctx); gen_helper_shrl_qh(cpu_gpr[ret], v2_t, v1_t); break; default: /* Invalid */ MIPS_INVAL("MASK SHLL.OB"); gen_reserved_instruction(ctx); break; } break; #endif } } static void gen_mipsdsp_multiply(DisasContext *ctx, uint32_t op1, uint32_t op2, int ret, int v1, int v2, int check_ret) { TCGv_i32 t0; TCGv v1_t; TCGv v2_t; if ((ret == 0) && (check_ret == 1)) { /* Treat as NOP. */ return; } t0 = tcg_temp_new_i32(); v1_t = tcg_temp_new(); v2_t = tcg_temp_new(); tcg_gen_movi_i32(t0, ret); gen_load_gpr(v1_t, v1); gen_load_gpr(v2_t, v2); switch (op1) { /* * OPC_MULT_G_2E, OPC_ADDUH_QB_DSP, OPC_MUL_PH_DSP have * the same mask and op1. */ case OPC_MULT_G_2E: check_dsp_r2(ctx); switch (op2) { case OPC_MUL_PH: gen_helper_mul_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_MUL_S_PH: gen_helper_mul_s_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_MULQ_S_W: gen_helper_mulq_s_w(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_MULQ_RS_W: gen_helper_mulq_rs_w(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; } break; case OPC_DPA_W_PH_DSP: switch (op2) { case OPC_DPAU_H_QBL: check_dsp(ctx); gen_helper_dpau_h_qbl(t0, v1_t, v2_t, tcg_env); break; case OPC_DPAU_H_QBR: check_dsp(ctx); gen_helper_dpau_h_qbr(t0, v1_t, v2_t, tcg_env); break; case OPC_DPSU_H_QBL: check_dsp(ctx); gen_helper_dpsu_h_qbl(t0, v1_t, v2_t, tcg_env); break; case OPC_DPSU_H_QBR: check_dsp(ctx); gen_helper_dpsu_h_qbr(t0, v1_t, v2_t, tcg_env); break; case OPC_DPA_W_PH: check_dsp_r2(ctx); gen_helper_dpa_w_ph(t0, v1_t, v2_t, tcg_env); break; case OPC_DPAX_W_PH: check_dsp_r2(ctx); gen_helper_dpax_w_ph(t0, v1_t, v2_t, tcg_env); break; case OPC_DPAQ_S_W_PH: check_dsp(ctx); gen_helper_dpaq_s_w_ph(t0, v1_t, v2_t, tcg_env); break; case OPC_DPAQX_S_W_PH: check_dsp_r2(ctx); gen_helper_dpaqx_s_w_ph(t0, v1_t, v2_t, tcg_env); break; case OPC_DPAQX_SA_W_PH: check_dsp_r2(ctx); gen_helper_dpaqx_sa_w_ph(t0, v1_t, v2_t, tcg_env); break; case OPC_DPS_W_PH: check_dsp_r2(ctx); gen_helper_dps_w_ph(t0, v1_t, v2_t, tcg_env); break; case OPC_DPSX_W_PH: check_dsp_r2(ctx); gen_helper_dpsx_w_ph(t0, v1_t, v2_t, tcg_env); break; case OPC_DPSQ_S_W_PH: check_dsp(ctx); gen_helper_dpsq_s_w_ph(t0, v1_t, v2_t, tcg_env); break; case OPC_DPSQX_S_W_PH: check_dsp_r2(ctx); gen_helper_dpsqx_s_w_ph(t0, v1_t, v2_t, tcg_env); break; case OPC_DPSQX_SA_W_PH: check_dsp_r2(ctx); gen_helper_dpsqx_sa_w_ph(t0, v1_t, v2_t, tcg_env); break; case OPC_MULSAQ_S_W_PH: check_dsp(ctx); gen_helper_mulsaq_s_w_ph(t0, v1_t, v2_t, tcg_env); break; case OPC_DPAQ_SA_L_W: check_dsp(ctx); gen_helper_dpaq_sa_l_w(t0, v1_t, v2_t, tcg_env); break; case OPC_DPSQ_SA_L_W: check_dsp(ctx); gen_helper_dpsq_sa_l_w(t0, v1_t, v2_t, tcg_env); break; case OPC_MAQ_S_W_PHL: check_dsp(ctx); gen_helper_maq_s_w_phl(t0, v1_t, v2_t, tcg_env); break; case OPC_MAQ_S_W_PHR: check_dsp(ctx); gen_helper_maq_s_w_phr(t0, v1_t, v2_t, tcg_env); break; case OPC_MAQ_SA_W_PHL: check_dsp(ctx); gen_helper_maq_sa_w_phl(t0, v1_t, v2_t, tcg_env); break; case OPC_MAQ_SA_W_PHR: check_dsp(ctx); gen_helper_maq_sa_w_phr(t0, v1_t, v2_t, tcg_env); break; case OPC_MULSA_W_PH: check_dsp_r2(ctx); gen_helper_mulsa_w_ph(t0, v1_t, v2_t, tcg_env); break; } break; #ifdef TARGET_MIPS64 case OPC_DPAQ_W_QH_DSP: { int ac = ret & 0x03; tcg_gen_movi_i32(t0, ac); switch (op2) { case OPC_DMADD: check_dsp(ctx); gen_helper_dmadd(v1_t, v2_t, t0, tcg_env); break; case OPC_DMADDU: check_dsp(ctx); gen_helper_dmaddu(v1_t, v2_t, t0, tcg_env); break; case OPC_DMSUB: check_dsp(ctx); gen_helper_dmsub(v1_t, v2_t, t0, tcg_env); break; case OPC_DMSUBU: check_dsp(ctx); gen_helper_dmsubu(v1_t, v2_t, t0, tcg_env); break; case OPC_DPA_W_QH: check_dsp_r2(ctx); gen_helper_dpa_w_qh(v1_t, v2_t, t0, tcg_env); break; case OPC_DPAQ_S_W_QH: check_dsp(ctx); gen_helper_dpaq_s_w_qh(v1_t, v2_t, t0, tcg_env); break; case OPC_DPAQ_SA_L_PW: check_dsp(ctx); gen_helper_dpaq_sa_l_pw(v1_t, v2_t, t0, tcg_env); break; case OPC_DPAU_H_OBL: check_dsp(ctx); gen_helper_dpau_h_obl(v1_t, v2_t, t0, tcg_env); break; case OPC_DPAU_H_OBR: check_dsp(ctx); gen_helper_dpau_h_obr(v1_t, v2_t, t0, tcg_env); break; case OPC_DPS_W_QH: check_dsp_r2(ctx); gen_helper_dps_w_qh(v1_t, v2_t, t0, tcg_env); break; case OPC_DPSQ_S_W_QH: check_dsp(ctx); gen_helper_dpsq_s_w_qh(v1_t, v2_t, t0, tcg_env); break; case OPC_DPSQ_SA_L_PW: check_dsp(ctx); gen_helper_dpsq_sa_l_pw(v1_t, v2_t, t0, tcg_env); break; case OPC_DPSU_H_OBL: check_dsp(ctx); gen_helper_dpsu_h_obl(v1_t, v2_t, t0, tcg_env); break; case OPC_DPSU_H_OBR: check_dsp(ctx); gen_helper_dpsu_h_obr(v1_t, v2_t, t0, tcg_env); break; case OPC_MAQ_S_L_PWL: check_dsp(ctx); gen_helper_maq_s_l_pwl(v1_t, v2_t, t0, tcg_env); break; case OPC_MAQ_S_L_PWR: check_dsp(ctx); gen_helper_maq_s_l_pwr(v1_t, v2_t, t0, tcg_env); break; case OPC_MAQ_S_W_QHLL: check_dsp(ctx); gen_helper_maq_s_w_qhll(v1_t, v2_t, t0, tcg_env); break; case OPC_MAQ_SA_W_QHLL: check_dsp(ctx); gen_helper_maq_sa_w_qhll(v1_t, v2_t, t0, tcg_env); break; case OPC_MAQ_S_W_QHLR: check_dsp(ctx); gen_helper_maq_s_w_qhlr(v1_t, v2_t, t0, tcg_env); break; case OPC_MAQ_SA_W_QHLR: check_dsp(ctx); gen_helper_maq_sa_w_qhlr(v1_t, v2_t, t0, tcg_env); break; case OPC_MAQ_S_W_QHRL: check_dsp(ctx); gen_helper_maq_s_w_qhrl(v1_t, v2_t, t0, tcg_env); break; case OPC_MAQ_SA_W_QHRL: check_dsp(ctx); gen_helper_maq_sa_w_qhrl(v1_t, v2_t, t0, tcg_env); break; case OPC_MAQ_S_W_QHRR: check_dsp(ctx); gen_helper_maq_s_w_qhrr(v1_t, v2_t, t0, tcg_env); break; case OPC_MAQ_SA_W_QHRR: check_dsp(ctx); gen_helper_maq_sa_w_qhrr(v1_t, v2_t, t0, tcg_env); break; case OPC_MULSAQ_S_L_PW: check_dsp(ctx); gen_helper_mulsaq_s_l_pw(v1_t, v2_t, t0, tcg_env); break; case OPC_MULSAQ_S_W_QH: check_dsp(ctx); gen_helper_mulsaq_s_w_qh(v1_t, v2_t, t0, tcg_env); break; } } break; #endif case OPC_ADDU_QB_DSP: switch (op2) { case OPC_MULEU_S_PH_QBL: check_dsp(ctx); gen_helper_muleu_s_ph_qbl(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_MULEU_S_PH_QBR: check_dsp(ctx); gen_helper_muleu_s_ph_qbr(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_MULQ_RS_PH: check_dsp(ctx); gen_helper_mulq_rs_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_MULEQ_S_W_PHL: check_dsp(ctx); gen_helper_muleq_s_w_phl(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_MULEQ_S_W_PHR: check_dsp(ctx); gen_helper_muleq_s_w_phr(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_MULQ_S_PH: check_dsp_r2(ctx); gen_helper_mulq_s_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; } break; #ifdef TARGET_MIPS64 case OPC_ADDU_OB_DSP: switch (op2) { case OPC_MULEQ_S_PW_QHL: check_dsp(ctx); gen_helper_muleq_s_pw_qhl(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_MULEQ_S_PW_QHR: check_dsp(ctx); gen_helper_muleq_s_pw_qhr(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_MULEU_S_QH_OBL: check_dsp(ctx); gen_helper_muleu_s_qh_obl(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_MULEU_S_QH_OBR: check_dsp(ctx); gen_helper_muleu_s_qh_obr(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_MULQ_RS_QH: check_dsp(ctx); gen_helper_mulq_rs_qh(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; } break; #endif } } static void gen_mipsdsp_bitinsn(DisasContext *ctx, uint32_t op1, uint32_t op2, int ret, int val) { int16_t imm; TCGv t0; TCGv val_t; if (ret == 0) { /* Treat as NOP. */ return; } t0 = tcg_temp_new(); val_t = tcg_temp_new(); gen_load_gpr(val_t, val); switch (op1) { case OPC_ABSQ_S_PH_DSP: switch (op2) { case OPC_BITREV: check_dsp(ctx); gen_helper_bitrev(cpu_gpr[ret], val_t); break; case OPC_REPL_QB: check_dsp(ctx); { target_long result; imm = (ctx->opcode >> 16) & 0xFF; result = (uint32_t)imm << 24 | (uint32_t)imm << 16 | (uint32_t)imm << 8 | (uint32_t)imm; result = (int32_t)result; tcg_gen_movi_tl(cpu_gpr[ret], result); } break; case OPC_REPLV_QB: check_dsp(ctx); tcg_gen_ext8u_tl(cpu_gpr[ret], val_t); tcg_gen_shli_tl(t0, cpu_gpr[ret], 8); tcg_gen_or_tl(cpu_gpr[ret], cpu_gpr[ret], t0); tcg_gen_shli_tl(t0, cpu_gpr[ret], 16); tcg_gen_or_tl(cpu_gpr[ret], cpu_gpr[ret], t0); tcg_gen_ext32s_tl(cpu_gpr[ret], cpu_gpr[ret]); break; case OPC_REPL_PH: check_dsp(ctx); { imm = (ctx->opcode >> 16) & 0x03FF; imm = (int16_t)(imm << 6) >> 6; tcg_gen_movi_tl(cpu_gpr[ret], \ (target_long)((int32_t)imm << 16 | \ (uint16_t)imm)); } break; case OPC_REPLV_PH: check_dsp(ctx); tcg_gen_ext16u_tl(cpu_gpr[ret], val_t); tcg_gen_shli_tl(t0, cpu_gpr[ret], 16); tcg_gen_or_tl(cpu_gpr[ret], cpu_gpr[ret], t0); tcg_gen_ext32s_tl(cpu_gpr[ret], cpu_gpr[ret]); break; } break; #ifdef TARGET_MIPS64 case OPC_ABSQ_S_QH_DSP: switch (op2) { case OPC_REPL_OB: check_dsp(ctx); { target_long temp; imm = (ctx->opcode >> 16) & 0xFF; temp = ((uint64_t)imm << 8) | (uint64_t)imm; temp = (temp << 16) | temp; temp = (temp << 32) | temp; tcg_gen_movi_tl(cpu_gpr[ret], temp); break; } case OPC_REPL_PW: check_dsp(ctx); { target_long temp; imm = (ctx->opcode >> 16) & 0x03FF; imm = (int16_t)(imm << 6) >> 6; temp = ((target_long)imm << 32) \ | ((target_long)imm & 0xFFFFFFFF); tcg_gen_movi_tl(cpu_gpr[ret], temp); break; } case OPC_REPL_QH: check_dsp(ctx); { target_long temp; imm = (ctx->opcode >> 16) & 0x03FF; imm = (int16_t)(imm << 6) >> 6; temp = ((uint64_t)(uint16_t)imm << 48) | ((uint64_t)(uint16_t)imm << 32) | ((uint64_t)(uint16_t)imm << 16) | (uint64_t)(uint16_t)imm; tcg_gen_movi_tl(cpu_gpr[ret], temp); break; } case OPC_REPLV_OB: check_dsp(ctx); tcg_gen_ext8u_tl(cpu_gpr[ret], val_t); tcg_gen_shli_tl(t0, cpu_gpr[ret], 8); tcg_gen_or_tl(cpu_gpr[ret], cpu_gpr[ret], t0); tcg_gen_shli_tl(t0, cpu_gpr[ret], 16); tcg_gen_or_tl(cpu_gpr[ret], cpu_gpr[ret], t0); tcg_gen_shli_tl(t0, cpu_gpr[ret], 32); tcg_gen_or_tl(cpu_gpr[ret], cpu_gpr[ret], t0); break; case OPC_REPLV_PW: check_dsp(ctx); tcg_gen_ext32u_i64(cpu_gpr[ret], val_t); tcg_gen_shli_tl(t0, cpu_gpr[ret], 32); tcg_gen_or_tl(cpu_gpr[ret], cpu_gpr[ret], t0); break; case OPC_REPLV_QH: check_dsp(ctx); tcg_gen_ext16u_tl(cpu_gpr[ret], val_t); tcg_gen_shli_tl(t0, cpu_gpr[ret], 16); tcg_gen_or_tl(cpu_gpr[ret], cpu_gpr[ret], t0); tcg_gen_shli_tl(t0, cpu_gpr[ret], 32); tcg_gen_or_tl(cpu_gpr[ret], cpu_gpr[ret], t0); break; } break; #endif } } static void gen_mipsdsp_add_cmp_pick(DisasContext *ctx, uint32_t op1, uint32_t op2, int ret, int v1, int v2, int check_ret) { TCGv t1; TCGv v1_t; TCGv v2_t; if ((ret == 0) && (check_ret == 1)) { /* Treat as NOP. */ return; } t1 = tcg_temp_new(); v1_t = tcg_temp_new(); v2_t = tcg_temp_new(); gen_load_gpr(v1_t, v1); gen_load_gpr(v2_t, v2); switch (op1) { case OPC_CMPU_EQ_QB_DSP: switch (op2) { case OPC_CMPU_EQ_QB: check_dsp(ctx); gen_helper_cmpu_eq_qb(v1_t, v2_t, tcg_env); break; case OPC_CMPU_LT_QB: check_dsp(ctx); gen_helper_cmpu_lt_qb(v1_t, v2_t, tcg_env); break; case OPC_CMPU_LE_QB: check_dsp(ctx); gen_helper_cmpu_le_qb(v1_t, v2_t, tcg_env); break; case OPC_CMPGU_EQ_QB: check_dsp(ctx); gen_helper_cmpgu_eq_qb(cpu_gpr[ret], v1_t, v2_t); break; case OPC_CMPGU_LT_QB: check_dsp(ctx); gen_helper_cmpgu_lt_qb(cpu_gpr[ret], v1_t, v2_t); break; case OPC_CMPGU_LE_QB: check_dsp(ctx); gen_helper_cmpgu_le_qb(cpu_gpr[ret], v1_t, v2_t); break; case OPC_CMPGDU_EQ_QB: check_dsp_r2(ctx); gen_helper_cmpgu_eq_qb(t1, v1_t, v2_t); tcg_gen_mov_tl(cpu_gpr[ret], t1); tcg_gen_andi_tl(cpu_dspctrl, cpu_dspctrl, 0xF0FFFFFF); tcg_gen_shli_tl(t1, t1, 24); tcg_gen_or_tl(cpu_dspctrl, cpu_dspctrl, t1); break; case OPC_CMPGDU_LT_QB: check_dsp_r2(ctx); gen_helper_cmpgu_lt_qb(t1, v1_t, v2_t); tcg_gen_mov_tl(cpu_gpr[ret], t1); tcg_gen_andi_tl(cpu_dspctrl, cpu_dspctrl, 0xF0FFFFFF); tcg_gen_shli_tl(t1, t1, 24); tcg_gen_or_tl(cpu_dspctrl, cpu_dspctrl, t1); break; case OPC_CMPGDU_LE_QB: check_dsp_r2(ctx); gen_helper_cmpgu_le_qb(t1, v1_t, v2_t); tcg_gen_mov_tl(cpu_gpr[ret], t1); tcg_gen_andi_tl(cpu_dspctrl, cpu_dspctrl, 0xF0FFFFFF); tcg_gen_shli_tl(t1, t1, 24); tcg_gen_or_tl(cpu_dspctrl, cpu_dspctrl, t1); break; case OPC_CMP_EQ_PH: check_dsp(ctx); gen_helper_cmp_eq_ph(v1_t, v2_t, tcg_env); break; case OPC_CMP_LT_PH: check_dsp(ctx); gen_helper_cmp_lt_ph(v1_t, v2_t, tcg_env); break; case OPC_CMP_LE_PH: check_dsp(ctx); gen_helper_cmp_le_ph(v1_t, v2_t, tcg_env); break; case OPC_PICK_QB: check_dsp(ctx); gen_helper_pick_qb(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_PICK_PH: check_dsp(ctx); gen_helper_pick_ph(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_PACKRL_PH: check_dsp(ctx); gen_helper_packrl_ph(cpu_gpr[ret], v1_t, v2_t); break; } break; #ifdef TARGET_MIPS64 case OPC_CMPU_EQ_OB_DSP: switch (op2) { case OPC_CMP_EQ_PW: check_dsp(ctx); gen_helper_cmp_eq_pw(v1_t, v2_t, tcg_env); break; case OPC_CMP_LT_PW: check_dsp(ctx); gen_helper_cmp_lt_pw(v1_t, v2_t, tcg_env); break; case OPC_CMP_LE_PW: check_dsp(ctx); gen_helper_cmp_le_pw(v1_t, v2_t, tcg_env); break; case OPC_CMP_EQ_QH: check_dsp(ctx); gen_helper_cmp_eq_qh(v1_t, v2_t, tcg_env); break; case OPC_CMP_LT_QH: check_dsp(ctx); gen_helper_cmp_lt_qh(v1_t, v2_t, tcg_env); break; case OPC_CMP_LE_QH: check_dsp(ctx); gen_helper_cmp_le_qh(v1_t, v2_t, tcg_env); break; case OPC_CMPGDU_EQ_OB: check_dsp_r2(ctx); gen_helper_cmpgdu_eq_ob(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_CMPGDU_LT_OB: check_dsp_r2(ctx); gen_helper_cmpgdu_lt_ob(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_CMPGDU_LE_OB: check_dsp_r2(ctx); gen_helper_cmpgdu_le_ob(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_CMPGU_EQ_OB: check_dsp(ctx); gen_helper_cmpgu_eq_ob(cpu_gpr[ret], v1_t, v2_t); break; case OPC_CMPGU_LT_OB: check_dsp(ctx); gen_helper_cmpgu_lt_ob(cpu_gpr[ret], v1_t, v2_t); break; case OPC_CMPGU_LE_OB: check_dsp(ctx); gen_helper_cmpgu_le_ob(cpu_gpr[ret], v1_t, v2_t); break; case OPC_CMPU_EQ_OB: check_dsp(ctx); gen_helper_cmpu_eq_ob(v1_t, v2_t, tcg_env); break; case OPC_CMPU_LT_OB: check_dsp(ctx); gen_helper_cmpu_lt_ob(v1_t, v2_t, tcg_env); break; case OPC_CMPU_LE_OB: check_dsp(ctx); gen_helper_cmpu_le_ob(v1_t, v2_t, tcg_env); break; case OPC_PACKRL_PW: check_dsp(ctx); gen_helper_packrl_pw(cpu_gpr[ret], v1_t, v2_t); break; case OPC_PICK_OB: check_dsp(ctx); gen_helper_pick_ob(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_PICK_PW: check_dsp(ctx); gen_helper_pick_pw(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; case OPC_PICK_QH: check_dsp(ctx); gen_helper_pick_qh(cpu_gpr[ret], v1_t, v2_t, tcg_env); break; } break; #endif } } static void gen_mipsdsp_append(CPUMIPSState *env, DisasContext *ctx, uint32_t op1, int rt, int rs, int sa) { TCGv t0; check_dsp_r2(ctx); if (rt == 0) { /* Treat as NOP. */ return; } t0 = tcg_temp_new(); gen_load_gpr(t0, rs); switch (op1) { case OPC_APPEND_DSP: switch (MASK_APPEND(ctx->opcode)) { case OPC_APPEND: if (sa != 0) { tcg_gen_deposit_tl(cpu_gpr[rt], t0, cpu_gpr[rt], sa, 32 - sa); } tcg_gen_ext32s_tl(cpu_gpr[rt], cpu_gpr[rt]); break; case OPC_PREPEND: if (sa != 0) { tcg_gen_ext32u_tl(cpu_gpr[rt], cpu_gpr[rt]); tcg_gen_shri_tl(cpu_gpr[rt], cpu_gpr[rt], sa); tcg_gen_shli_tl(t0, t0, 32 - sa); tcg_gen_or_tl(cpu_gpr[rt], cpu_gpr[rt], t0); } tcg_gen_ext32s_tl(cpu_gpr[rt], cpu_gpr[rt]); break; case OPC_BALIGN: sa &= 3; if (sa != 0 && sa != 2) { tcg_gen_shli_tl(cpu_gpr[rt], cpu_gpr[rt], 8 * sa); tcg_gen_ext32u_tl(t0, t0); tcg_gen_shri_tl(t0, t0, 8 * (4 - sa)); tcg_gen_or_tl(cpu_gpr[rt], cpu_gpr[rt], t0); } tcg_gen_ext32s_tl(cpu_gpr[rt], cpu_gpr[rt]); break; default: /* Invalid */ MIPS_INVAL("MASK APPEND"); gen_reserved_instruction(ctx); break; } break; #ifdef TARGET_MIPS64 case OPC_DAPPEND_DSP: switch (MASK_DAPPEND(ctx->opcode)) { case OPC_DAPPEND: if (sa != 0) { tcg_gen_deposit_tl(cpu_gpr[rt], t0, cpu_gpr[rt], sa, 64 - sa); } break; case OPC_PREPENDD: tcg_gen_shri_tl(cpu_gpr[rt], cpu_gpr[rt], 0x20 | sa); tcg_gen_shli_tl(t0, t0, 64 - (0x20 | sa)); tcg_gen_or_tl(cpu_gpr[rt], t0, t0); break; case OPC_PREPENDW: if (sa != 0) { tcg_gen_shri_tl(cpu_gpr[rt], cpu_gpr[rt], sa); tcg_gen_shli_tl(t0, t0, 64 - sa); tcg_gen_or_tl(cpu_gpr[rt], cpu_gpr[rt], t0); } break; case OPC_DBALIGN: sa &= 7; if (sa != 0 && sa != 2 && sa != 4) { tcg_gen_shli_tl(cpu_gpr[rt], cpu_gpr[rt], 8 * sa); tcg_gen_shri_tl(t0, t0, 8 * (8 - sa)); tcg_gen_or_tl(cpu_gpr[rt], cpu_gpr[rt], t0); } break; default: /* Invalid */ MIPS_INVAL("MASK DAPPEND"); gen_reserved_instruction(ctx); break; } break; #endif } } static void gen_mipsdsp_accinsn(DisasContext *ctx, uint32_t op1, uint32_t op2, int ret, int v1, int v2, int check_ret) { TCGv t0; TCGv t1; TCGv v1_t; int16_t imm; if ((ret == 0) && (check_ret == 1)) { /* Treat as NOP. */ return; } t0 = tcg_temp_new(); t1 = tcg_temp_new(); v1_t = tcg_temp_new(); gen_load_gpr(v1_t, v1); switch (op1) { case OPC_EXTR_W_DSP: check_dsp(ctx); switch (op2) { case OPC_EXTR_W: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_extr_w(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_EXTR_R_W: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_extr_r_w(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_EXTR_RS_W: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_extr_rs_w(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_EXTR_S_H: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_extr_s_h(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_EXTRV_S_H: tcg_gen_movi_tl(t0, v2); gen_helper_extr_s_h(cpu_gpr[ret], t0, v1_t, tcg_env); break; case OPC_EXTRV_W: tcg_gen_movi_tl(t0, v2); gen_helper_extr_w(cpu_gpr[ret], t0, v1_t, tcg_env); break; case OPC_EXTRV_R_W: tcg_gen_movi_tl(t0, v2); gen_helper_extr_r_w(cpu_gpr[ret], t0, v1_t, tcg_env); break; case OPC_EXTRV_RS_W: tcg_gen_movi_tl(t0, v2); gen_helper_extr_rs_w(cpu_gpr[ret], t0, v1_t, tcg_env); break; case OPC_EXTP: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_extp(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_EXTPV: tcg_gen_movi_tl(t0, v2); gen_helper_extp(cpu_gpr[ret], t0, v1_t, tcg_env); break; case OPC_EXTPDP: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_extpdp(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_EXTPDPV: tcg_gen_movi_tl(t0, v2); gen_helper_extpdp(cpu_gpr[ret], t0, v1_t, tcg_env); break; case OPC_SHILO: imm = (ctx->opcode >> 20) & 0x3F; tcg_gen_movi_tl(t0, ret); tcg_gen_movi_tl(t1, imm); gen_helper_shilo(t0, t1, tcg_env); break; case OPC_SHILOV: tcg_gen_movi_tl(t0, ret); gen_helper_shilo(t0, v1_t, tcg_env); break; case OPC_MTHLIP: tcg_gen_movi_tl(t0, ret); gen_helper_mthlip(t0, v1_t, tcg_env); break; case OPC_WRDSP: imm = (ctx->opcode >> 11) & 0x3FF; tcg_gen_movi_tl(t0, imm); gen_helper_wrdsp(v1_t, t0, tcg_env); break; case OPC_RDDSP: imm = (ctx->opcode >> 16) & 0x03FF; tcg_gen_movi_tl(t0, imm); gen_helper_rddsp(cpu_gpr[ret], t0, tcg_env); break; } break; #ifdef TARGET_MIPS64 case OPC_DEXTR_W_DSP: check_dsp(ctx); switch (op2) { case OPC_DMTHLIP: tcg_gen_movi_tl(t0, ret); gen_helper_dmthlip(v1_t, t0, tcg_env); break; case OPC_DSHILO: { int shift = (ctx->opcode >> 19) & 0x7F; int ac = (ctx->opcode >> 11) & 0x03; tcg_gen_movi_tl(t0, shift); tcg_gen_movi_tl(t1, ac); gen_helper_dshilo(t0, t1, tcg_env); break; } case OPC_DSHILOV: { int ac = (ctx->opcode >> 11) & 0x03; tcg_gen_movi_tl(t0, ac); gen_helper_dshilo(v1_t, t0, tcg_env); break; } case OPC_DEXTP: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_dextp(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_DEXTPV: tcg_gen_movi_tl(t0, v2); gen_helper_dextp(cpu_gpr[ret], t0, v1_t, tcg_env); break; case OPC_DEXTPDP: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_dextpdp(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_DEXTPDPV: tcg_gen_movi_tl(t0, v2); gen_helper_dextpdp(cpu_gpr[ret], t0, v1_t, tcg_env); break; case OPC_DEXTR_L: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_dextr_l(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_DEXTR_R_L: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_dextr_r_l(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_DEXTR_RS_L: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_dextr_rs_l(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_DEXTR_W: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_dextr_w(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_DEXTR_R_W: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_dextr_r_w(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_DEXTR_RS_W: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_dextr_rs_w(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_DEXTR_S_H: tcg_gen_movi_tl(t0, v2); tcg_gen_movi_tl(t1, v1); gen_helper_dextr_s_h(cpu_gpr[ret], t0, t1, tcg_env); break; case OPC_DEXTRV_S_H: tcg_gen_movi_tl(t0, v2); gen_helper_dextr_s_h(cpu_gpr[ret], t0, v1_t, tcg_env); break; case OPC_DEXTRV_L: tcg_gen_movi_tl(t0, v2); gen_helper_dextr_l(cpu_gpr[ret], t0, v1_t, tcg_env); break; case OPC_DEXTRV_R_L: tcg_gen_movi_tl(t0, v2); gen_helper_dextr_r_l(cpu_gpr[ret], t0, v1_t, tcg_env); break; case OPC_DEXTRV_RS_L: tcg_gen_movi_tl(t0, v2); gen_helper_dextr_rs_l(cpu_gpr[ret], t0, v1_t, tcg_env); break; case OPC_DEXTRV_W: tcg_gen_movi_tl(t0, v2); gen_helper_dextr_w(cpu_gpr[ret], t0, v1_t, tcg_env); break; case OPC_DEXTRV_R_W: tcg_gen_movi_tl(t0, v2); gen_helper_dextr_r_w(cpu_gpr[ret], t0, v1_t, tcg_env); break; case OPC_DEXTRV_RS_W: tcg_gen_movi_tl(t0, v2); gen_helper_dextr_rs_w(cpu_gpr[ret], t0, v1_t, tcg_env); break; } break; #endif } } /* End MIPSDSP functions. */ static void decode_opc_special_r6(CPUMIPSState *env, DisasContext *ctx) { int rs, rt, rd, sa; uint32_t op1, op2; rs = (ctx->opcode >> 21) & 0x1f; rt = (ctx->opcode >> 16) & 0x1f; rd = (ctx->opcode >> 11) & 0x1f; sa = (ctx->opcode >> 6) & 0x1f; op1 = MASK_SPECIAL(ctx->opcode); switch (op1) { case OPC_MULT: case OPC_MULTU: case OPC_DIV: case OPC_DIVU: op2 = MASK_R6_MULDIV(ctx->opcode); switch (op2) { case R6_OPC_MUL: case R6_OPC_MUH: case R6_OPC_MULU: case R6_OPC_MUHU: case R6_OPC_DIV: case R6_OPC_MOD: case R6_OPC_DIVU: case R6_OPC_MODU: gen_r6_muldiv(ctx, op2, rd, rs, rt); break; default: MIPS_INVAL("special_r6 muldiv"); gen_reserved_instruction(ctx); break; } break; case OPC_SELEQZ: case OPC_SELNEZ: gen_cond_move(ctx, op1, rd, rs, rt); break; case R6_OPC_CLO: case R6_OPC_CLZ: if (rt == 0 && sa == 1) { /* * Major opcode and function field is shared with preR6 MFHI/MTHI. * We need additionally to check other fields. */ gen_cl(ctx, op1, rd, rs); } else { gen_reserved_instruction(ctx); } break; case R6_OPC_SDBBP: if (is_uhi(ctx, extract32(ctx->opcode, 6, 20))) { ctx->base.is_jmp = DISAS_SEMIHOST; } else { if (ctx->hflags & MIPS_HFLAG_SBRI) { gen_reserved_instruction(ctx); } else { generate_exception_end(ctx, EXCP_DBp); } } break; #if defined(TARGET_MIPS64) case R6_OPC_DCLO: case R6_OPC_DCLZ: if (rt == 0 && sa == 1) { /* * Major opcode and function field is shared with preR6 MFHI/MTHI. * We need additionally to check other fields. */ check_mips_64(ctx); gen_cl(ctx, op1, rd, rs); } else { gen_reserved_instruction(ctx); } break; case OPC_DMULT: case OPC_DMULTU: case OPC_DDIV: case OPC_DDIVU: op2 = MASK_R6_MULDIV(ctx->opcode); switch (op2) { case R6_OPC_DMUL: case R6_OPC_DMUH: case R6_OPC_DMULU: case R6_OPC_DMUHU: case R6_OPC_DDIV: case R6_OPC_DMOD: case R6_OPC_DDIVU: case R6_OPC_DMODU: check_mips_64(ctx); gen_r6_muldiv(ctx, op2, rd, rs, rt); break; default: MIPS_INVAL("special_r6 muldiv"); gen_reserved_instruction(ctx); break; } break; #endif default: /* Invalid */ MIPS_INVAL("special_r6"); gen_reserved_instruction(ctx); break; } } static void decode_opc_special_tx79(CPUMIPSState *env, DisasContext *ctx) { int rs = extract32(ctx->opcode, 21, 5); int rt = extract32(ctx->opcode, 16, 5); int rd = extract32(ctx->opcode, 11, 5); uint32_t op1 = MASK_SPECIAL(ctx->opcode); switch (op1) { case OPC_MOVN: /* Conditional move */ case OPC_MOVZ: gen_cond_move(ctx, op1, rd, rs, rt); break; case OPC_MFHI: /* Move from HI/LO */ case OPC_MFLO: gen_HILO(ctx, op1, 0, rd); break; case OPC_MTHI: case OPC_MTLO: /* Move to HI/LO */ gen_HILO(ctx, op1, 0, rs); break; case OPC_MULT: case OPC_MULTU: gen_mul_txx9(ctx, op1, rd, rs, rt); break; case OPC_DIV: case OPC_DIVU: gen_muldiv(ctx, op1, 0, rs, rt); break; #if defined(TARGET_MIPS64) case OPC_DMULT: case OPC_DMULTU: case OPC_DDIV: case OPC_DDIVU: check_insn_opc_user_only(ctx, INSN_R5900); gen_muldiv(ctx, op1, 0, rs, rt); break; #endif case OPC_JR: gen_compute_branch(ctx, op1, 4, rs, 0, 0, 4); break; default: /* Invalid */ MIPS_INVAL("special_tx79"); gen_reserved_instruction(ctx); break; } } static void decode_opc_special_legacy(CPUMIPSState *env, DisasContext *ctx) { int rs, rt, rd; uint32_t op1; rs = (ctx->opcode >> 21) & 0x1f; rt = (ctx->opcode >> 16) & 0x1f; rd = (ctx->opcode >> 11) & 0x1f; op1 = MASK_SPECIAL(ctx->opcode); switch (op1) { case OPC_MOVN: /* Conditional move */ case OPC_MOVZ: check_insn(ctx, ISA_MIPS4 | ISA_MIPS_R1 | INSN_LOONGSON2E | INSN_LOONGSON2F); gen_cond_move(ctx, op1, rd, rs, rt); break; case OPC_MFHI: /* Move from HI/LO */ case OPC_MFLO: gen_HILO(ctx, op1, rs & 3, rd); break; case OPC_MTHI: case OPC_MTLO: /* Move to HI/LO */ gen_HILO(ctx, op1, rd & 3, rs); break; case OPC_MOVCI: check_insn(ctx, ISA_MIPS4 | ISA_MIPS_R1); if (env->CP0_Config1 & (1 << CP0C1_FP)) { check_cp1_enabled(ctx); gen_movci(ctx, rd, rs, (ctx->opcode >> 18) & 0x7, (ctx->opcode >> 16) & 1); } else { generate_exception_err(ctx, EXCP_CpU, 1); } break; case OPC_MULT: case OPC_MULTU: gen_muldiv(ctx, op1, rd & 3, rs, rt); break; case OPC_DIV: case OPC_DIVU: gen_muldiv(ctx, op1, 0, rs, rt); break; #if defined(TARGET_MIPS64) case OPC_DMULT: case OPC_DMULTU: case OPC_DDIV: case OPC_DDIVU: check_insn(ctx, ISA_MIPS3); check_mips_64(ctx); gen_muldiv(ctx, op1, 0, rs, rt); break; #endif case OPC_JR: gen_compute_branch(ctx, op1, 4, rs, 0, 0, 4); break; case OPC_SPIM: #ifdef MIPS_STRICT_STANDARD MIPS_INVAL("SPIM"); gen_reserved_instruction(ctx); #else /* Implemented as RI exception for now. */ MIPS_INVAL("spim (unofficial)"); gen_reserved_instruction(ctx); #endif break; default: /* Invalid */ MIPS_INVAL("special_legacy"); gen_reserved_instruction(ctx); break; } } static void decode_opc_special(CPUMIPSState *env, DisasContext *ctx) { int rs, rt, rd, sa; uint32_t op1; rs = (ctx->opcode >> 21) & 0x1f; rt = (ctx->opcode >> 16) & 0x1f; rd = (ctx->opcode >> 11) & 0x1f; sa = (ctx->opcode >> 6) & 0x1f; op1 = MASK_SPECIAL(ctx->opcode); switch (op1) { case OPC_SLL: /* Shift with immediate */ if (sa == 5 && rd == 0 && rs == 0 && rt == 0) { /* PAUSE */ if ((ctx->insn_flags & ISA_MIPS_R6) && (ctx->hflags & MIPS_HFLAG_BMASK)) { gen_reserved_instruction(ctx); break; } } /* Fallthrough */ case OPC_SRA: gen_shift_imm(ctx, op1, rd, rt, sa); break; case OPC_SRL: switch ((ctx->opcode >> 21) & 0x1f) { case 1: /* rotr is decoded as srl on non-R2 CPUs */ if (ctx->insn_flags & ISA_MIPS_R2) { op1 = OPC_ROTR; } /* Fallthrough */ case 0: gen_shift_imm(ctx, op1, rd, rt, sa); break; default: gen_reserved_instruction(ctx); break; } break; case OPC_ADD: case OPC_ADDU: case OPC_SUB: case OPC_SUBU: gen_arith(ctx, op1, rd, rs, rt); break; case OPC_SLLV: /* Shifts */ case OPC_SRAV: gen_shift(ctx, op1, rd, rs, rt); break; case OPC_SRLV: switch ((ctx->opcode >> 6) & 0x1f) { case 1: /* rotrv is decoded as srlv on non-R2 CPUs */ if (ctx->insn_flags & ISA_MIPS_R2) { op1 = OPC_ROTRV; } /* Fallthrough */ case 0: gen_shift(ctx, op1, rd, rs, rt); break; default: gen_reserved_instruction(ctx); break; } break; case OPC_SLT: /* Set on less than */ case OPC_SLTU: gen_slt(ctx, op1, rd, rs, rt); break; case OPC_AND: /* Logic*/ case OPC_OR: case OPC_NOR: case OPC_XOR: gen_logic(ctx, op1, rd, rs, rt); break; case OPC_JALR: gen_compute_branch(ctx, op1, 4, rs, rd, sa, 4); break; case OPC_TGE: /* Traps */ case OPC_TGEU: case OPC_TLT: case OPC_TLTU: case OPC_TEQ: case OPC_TNE: check_insn(ctx, ISA_MIPS2); gen_trap(ctx, op1, rs, rt, -1, extract32(ctx->opcode, 6, 10)); break; case OPC_PMON: /* Pmon entry point, also R4010 selsl */ #ifdef MIPS_STRICT_STANDARD MIPS_INVAL("PMON / selsl"); gen_reserved_instruction(ctx); #else gen_helper_pmon(tcg_env, tcg_constant_i32(sa)); #endif break; case OPC_SYSCALL: generate_exception_end(ctx, EXCP_SYSCALL); break; case OPC_BREAK: generate_exception_break(ctx, extract32(ctx->opcode, 6, 20)); break; case OPC_SYNC: check_insn(ctx, ISA_MIPS2); gen_sync(extract32(ctx->opcode, 6, 5)); break; #if defined(TARGET_MIPS64) /* MIPS64 specific opcodes */ case OPC_DSLL: case OPC_DSRA: case OPC_DSLL32: case OPC_DSRA32: check_insn(ctx, ISA_MIPS3); check_mips_64(ctx); gen_shift_imm(ctx, op1, rd, rt, sa); break; case OPC_DSRL: switch ((ctx->opcode >> 21) & 0x1f) { case 1: /* drotr is decoded as dsrl on non-R2 CPUs */ if (ctx->insn_flags & ISA_MIPS_R2) { op1 = OPC_DROTR; } /* Fallthrough */ case 0: check_insn(ctx, ISA_MIPS3); check_mips_64(ctx); gen_shift_imm(ctx, op1, rd, rt, sa); break; default: gen_reserved_instruction(ctx); break; } break; case OPC_DSRL32: switch ((ctx->opcode >> 21) & 0x1f) { case 1: /* drotr32 is decoded as dsrl32 on non-R2 CPUs */ if (ctx->insn_flags & ISA_MIPS_R2) { op1 = OPC_DROTR32; } /* Fallthrough */ case 0: check_insn(ctx, ISA_MIPS3); check_mips_64(ctx); gen_shift_imm(ctx, op1, rd, rt, sa); break; default: gen_reserved_instruction(ctx); break; } break; case OPC_DADD: case OPC_DADDU: case OPC_DSUB: case OPC_DSUBU: check_insn(ctx, ISA_MIPS3); check_mips_64(ctx); gen_arith(ctx, op1, rd, rs, rt); break; case OPC_DSLLV: case OPC_DSRAV: check_insn(ctx, ISA_MIPS3); check_mips_64(ctx); gen_shift(ctx, op1, rd, rs, rt); break; case OPC_DSRLV: switch ((ctx->opcode >> 6) & 0x1f) { case 1: /* drotrv is decoded as dsrlv on non-R2 CPUs */ if (ctx->insn_flags & ISA_MIPS_R2) { op1 = OPC_DROTRV; } /* Fallthrough */ case 0: check_insn(ctx, ISA_MIPS3); check_mips_64(ctx); gen_shift(ctx, op1, rd, rs, rt); break; default: gen_reserved_instruction(ctx); break; } break; #endif default: if (ctx->insn_flags & ISA_MIPS_R6) { decode_opc_special_r6(env, ctx); } else if (ctx->insn_flags & INSN_R5900) { decode_opc_special_tx79(env, ctx); } else { decode_opc_special_legacy(env, ctx); } } } static void decode_opc_special2_legacy(CPUMIPSState *env, DisasContext *ctx) { int rs, rt, rd; uint32_t op1; rs = (ctx->opcode >> 21) & 0x1f; rt = (ctx->opcode >> 16) & 0x1f; rd = (ctx->opcode >> 11) & 0x1f; op1 = MASK_SPECIAL2(ctx->opcode); switch (op1) { case OPC_MADD: /* Multiply and add/sub */ case OPC_MADDU: case OPC_MSUB: case OPC_MSUBU: check_insn(ctx, ISA_MIPS_R1); gen_muldiv(ctx, op1, rd & 3, rs, rt); break; case OPC_MUL: gen_arith(ctx, op1, rd, rs, rt); break; case OPC_DIV_G_2F: case OPC_DIVU_G_2F: case OPC_MULT_G_2F: case OPC_MULTU_G_2F: case OPC_MOD_G_2F: case OPC_MODU_G_2F: check_insn(ctx, INSN_LOONGSON2F | ASE_LEXT); gen_loongson_integer(ctx, op1, rd, rs, rt); break; case OPC_CLO: case OPC_CLZ: check_insn(ctx, ISA_MIPS_R1); gen_cl(ctx, op1, rd, rs); break; case OPC_SDBBP: if (is_uhi(ctx, extract32(ctx->opcode, 6, 20))) { ctx->base.is_jmp = DISAS_SEMIHOST; } else { /* * XXX: not clear which exception should be raised * when in debug mode... */ check_insn(ctx, ISA_MIPS_R1); generate_exception_end(ctx, EXCP_DBp); } break; #if defined(TARGET_MIPS64) case OPC_DCLO: case OPC_DCLZ: check_insn(ctx, ISA_MIPS_R1); check_mips_64(ctx); gen_cl(ctx, op1, rd, rs); break; case OPC_DMULT_G_2F: case OPC_DMULTU_G_2F: case OPC_DDIV_G_2F: case OPC_DDIVU_G_2F: case OPC_DMOD_G_2F: case OPC_DMODU_G_2F: check_insn(ctx, INSN_LOONGSON2F | ASE_LEXT); gen_loongson_integer(ctx, op1, rd, rs, rt); break; #endif default: /* Invalid */ MIPS_INVAL("special2_legacy"); gen_reserved_instruction(ctx); break; } } static void decode_opc_special3_r6(CPUMIPSState *env, DisasContext *ctx) { int rs, rt, rd, sa; uint32_t op1, op2; int16_t imm; rs = (ctx->opcode >> 21) & 0x1f; rt = (ctx->opcode >> 16) & 0x1f; rd = (ctx->opcode >> 11) & 0x1f; sa = (ctx->opcode >> 6) & 0x1f; imm = (int16_t)ctx->opcode >> 7; op1 = MASK_SPECIAL3(ctx->opcode); switch (op1) { case R6_OPC_PREF: if (rt >= 24) { /* hint codes 24-31 are reserved and signal RI */ gen_reserved_instruction(ctx); } /* Treat as NOP. */ break; case R6_OPC_CACHE: check_cp0_enabled(ctx); if (ctx->hflags & MIPS_HFLAG_ITC_CACHE) { gen_cache_operation(ctx, rt, rs, imm); } break; case R6_OPC_SC: gen_st_cond(ctx, rt, rs, imm, mo_endian(ctx) | MO_SL, false); break; case R6_OPC_LL: gen_ld(ctx, op1, rt, rs, imm); break; case OPC_BSHFL: { if (rd == 0) { /* Treat as NOP. */ break; } op2 = MASK_BSHFL(ctx->opcode); switch (op2) { case OPC_ALIGN: case OPC_ALIGN_1: case OPC_ALIGN_2: case OPC_ALIGN_3: gen_align(ctx, 32, rd, rs, rt, sa & 3); break; case OPC_BITSWAP: gen_bitswap(ctx, op2, rd, rt); break; } } break; #ifndef CONFIG_USER_ONLY case OPC_GINV: if (unlikely(ctx->gi <= 1)) { gen_reserved_instruction(ctx); } check_cp0_enabled(ctx); switch ((ctx->opcode >> 6) & 3) { case 0: /* GINVI */ /* Treat as NOP. */ break; case 2: /* GINVT */ gen_helper_0e1i(ginvt, cpu_gpr[rs], extract32(ctx->opcode, 8, 2)); break; default: gen_reserved_instruction(ctx); break; } break; #endif #if defined(TARGET_MIPS64) case R6_OPC_SCD: gen_st_cond(ctx, rt, rs, imm, mo_endian(ctx) | MO_UQ, false); break; case R6_OPC_LLD: gen_ld(ctx, op1, rt, rs, imm); break; case OPC_DBSHFL: check_mips_64(ctx); { if (rd == 0) { /* Treat as NOP. */ break; } op2 = MASK_DBSHFL(ctx->opcode); switch (op2) { case OPC_DALIGN: case OPC_DALIGN_1: case OPC_DALIGN_2: case OPC_DALIGN_3: case OPC_DALIGN_4: case OPC_DALIGN_5: case OPC_DALIGN_6: case OPC_DALIGN_7: gen_align(ctx, 64, rd, rs, rt, sa & 7); break; case OPC_DBITSWAP: gen_bitswap(ctx, op2, rd, rt); break; } } break; #endif default: /* Invalid */ MIPS_INVAL("special3_r6"); gen_reserved_instruction(ctx); break; } } static void decode_opc_special3_legacy(CPUMIPSState *env, DisasContext *ctx) { int rs, rt, rd; uint32_t op1, op2; rs = (ctx->opcode >> 21) & 0x1f; rt = (ctx->opcode >> 16) & 0x1f; rd = (ctx->opcode >> 11) & 0x1f; op1 = MASK_SPECIAL3(ctx->opcode); switch (op1) { case OPC_DIV_G_2E: case OPC_DIVU_G_2E: case OPC_MOD_G_2E: case OPC_MODU_G_2E: case OPC_MULT_G_2E: case OPC_MULTU_G_2E: /* * OPC_MULT_G_2E, OPC_ADDUH_QB_DSP, OPC_MUL_PH_DSP have * the same mask and op1. */ if ((ctx->insn_flags & ASE_DSP_R2) && (op1 == OPC_MULT_G_2E)) { op2 = MASK_ADDUH_QB(ctx->opcode); switch (op2) { case OPC_ADDUH_QB: case OPC_ADDUH_R_QB: case OPC_ADDQH_PH: case OPC_ADDQH_R_PH: case OPC_ADDQH_W: case OPC_ADDQH_R_W: case OPC_SUBUH_QB: case OPC_SUBUH_R_QB: case OPC_SUBQH_PH: case OPC_SUBQH_R_PH: case OPC_SUBQH_W: case OPC_SUBQH_R_W: gen_mipsdsp_arith(ctx, op1, op2, rd, rs, rt); break; case OPC_MUL_PH: case OPC_MUL_S_PH: case OPC_MULQ_S_W: case OPC_MULQ_RS_W: gen_mipsdsp_multiply(ctx, op1, op2, rd, rs, rt, 1); break; default: MIPS_INVAL("MASK ADDUH.QB"); gen_reserved_instruction(ctx); break; } } else if (ctx->insn_flags & INSN_LOONGSON2E) { gen_loongson_integer(ctx, op1, rd, rs, rt); } else { gen_reserved_instruction(ctx); } break; case OPC_LX_DSP: op2 = MASK_LX(ctx->opcode); switch (op2) { #if defined(TARGET_MIPS64) case OPC_LDX: #endif case OPC_LBUX: case OPC_LHX: case OPC_LWX: gen_mips_lx(ctx, op2, rd, rs, rt); break; default: /* Invalid */ MIPS_INVAL("MASK LX"); gen_reserved_instruction(ctx); break; } break; case OPC_ABSQ_S_PH_DSP: op2 = MASK_ABSQ_S_PH(ctx->opcode); switch (op2) { case OPC_ABSQ_S_QB: case OPC_ABSQ_S_PH: case OPC_ABSQ_S_W: case OPC_PRECEQ_W_PHL: case OPC_PRECEQ_W_PHR: case OPC_PRECEQU_PH_QBL: case OPC_PRECEQU_PH_QBR: case OPC_PRECEQU_PH_QBLA: case OPC_PRECEQU_PH_QBRA: case OPC_PRECEU_PH_QBL: case OPC_PRECEU_PH_QBR: case OPC_PRECEU_PH_QBLA: case OPC_PRECEU_PH_QBRA: gen_mipsdsp_arith(ctx, op1, op2, rd, rs, rt); break; case OPC_BITREV: case OPC_REPL_QB: case OPC_REPLV_QB: case OPC_REPL_PH: case OPC_REPLV_PH: gen_mipsdsp_bitinsn(ctx, op1, op2, rd, rt); break; default: MIPS_INVAL("MASK ABSQ_S.PH"); gen_reserved_instruction(ctx); break; } break; case OPC_ADDU_QB_DSP: op2 = MASK_ADDU_QB(ctx->opcode); switch (op2) { case OPC_ADDQ_PH: case OPC_ADDQ_S_PH: case OPC_ADDQ_S_W: case OPC_ADDU_QB: case OPC_ADDU_S_QB: case OPC_ADDU_PH: case OPC_ADDU_S_PH: case OPC_SUBQ_PH: case OPC_SUBQ_S_PH: case OPC_SUBQ_S_W: case OPC_SUBU_QB: case OPC_SUBU_S_QB: case OPC_SUBU_PH: case OPC_SUBU_S_PH: case OPC_ADDSC: case OPC_ADDWC: case OPC_MODSUB: case OPC_RADDU_W_QB: gen_mipsdsp_arith(ctx, op1, op2, rd, rs, rt); break; case OPC_MULEU_S_PH_QBL: case OPC_MULEU_S_PH_QBR: case OPC_MULQ_RS_PH: case OPC_MULEQ_S_W_PHL: case OPC_MULEQ_S_W_PHR: case OPC_MULQ_S_PH: gen_mipsdsp_multiply(ctx, op1, op2, rd, rs, rt, 1); break; default: /* Invalid */ MIPS_INVAL("MASK ADDU.QB"); gen_reserved_instruction(ctx); break; } break; case OPC_CMPU_EQ_QB_DSP: op2 = MASK_CMPU_EQ_QB(ctx->opcode); switch (op2) { case OPC_PRECR_SRA_PH_W: case OPC_PRECR_SRA_R_PH_W: gen_mipsdsp_arith(ctx, op1, op2, rt, rs, rd); break; case OPC_PRECR_QB_PH: case OPC_PRECRQ_QB_PH: case OPC_PRECRQ_PH_W: case OPC_PRECRQ_RS_PH_W: case OPC_PRECRQU_S_QB_PH: gen_mipsdsp_arith(ctx, op1, op2, rd, rs, rt); break; case OPC_CMPU_EQ_QB: case OPC_CMPU_LT_QB: case OPC_CMPU_LE_QB: case OPC_CMP_EQ_PH: case OPC_CMP_LT_PH: case OPC_CMP_LE_PH: gen_mipsdsp_add_cmp_pick(ctx, op1, op2, rd, rs, rt, 0); break; case OPC_CMPGU_EQ_QB: case OPC_CMPGU_LT_QB: case OPC_CMPGU_LE_QB: case OPC_CMPGDU_EQ_QB: case OPC_CMPGDU_LT_QB: case OPC_CMPGDU_LE_QB: case OPC_PICK_QB: case OPC_PICK_PH: case OPC_PACKRL_PH: gen_mipsdsp_add_cmp_pick(ctx, op1, op2, rd, rs, rt, 1); break; default: /* Invalid */ MIPS_INVAL("MASK CMPU.EQ.QB"); gen_reserved_instruction(ctx); break; } break; case OPC_SHLL_QB_DSP: gen_mipsdsp_shift(ctx, op1, rd, rs, rt); break; case OPC_DPA_W_PH_DSP: op2 = MASK_DPA_W_PH(ctx->opcode); switch (op2) { case OPC_DPAU_H_QBL: case OPC_DPAU_H_QBR: case OPC_DPSU_H_QBL: case OPC_DPSU_H_QBR: case OPC_DPA_W_PH: case OPC_DPAX_W_PH: case OPC_DPAQ_S_W_PH: case OPC_DPAQX_S_W_PH: case OPC_DPAQX_SA_W_PH: case OPC_DPS_W_PH: case OPC_DPSX_W_PH: case OPC_DPSQ_S_W_PH: case OPC_DPSQX_S_W_PH: case OPC_DPSQX_SA_W_PH: case OPC_MULSAQ_S_W_PH: case OPC_DPAQ_SA_L_W: case OPC_DPSQ_SA_L_W: case OPC_MAQ_S_W_PHL: case OPC_MAQ_S_W_PHR: case OPC_MAQ_SA_W_PHL: case OPC_MAQ_SA_W_PHR: case OPC_MULSA_W_PH: gen_mipsdsp_multiply(ctx, op1, op2, rd, rs, rt, 0); break; default: /* Invalid */ MIPS_INVAL("MASK DPAW.PH"); gen_reserved_instruction(ctx); break; } break; case OPC_INSV_DSP: op2 = MASK_INSV(ctx->opcode); switch (op2) { case OPC_INSV: check_dsp(ctx); { TCGv t0, t1; if (rt == 0) { break; } t0 = tcg_temp_new(); t1 = tcg_temp_new(); gen_load_gpr(t0, rt); gen_load_gpr(t1, rs); gen_helper_insv(cpu_gpr[rt], tcg_env, t1, t0); break; } default: /* Invalid */ MIPS_INVAL("MASK INSV"); gen_reserved_instruction(ctx); break; } break; case OPC_APPEND_DSP: gen_mipsdsp_append(env, ctx, op1, rt, rs, rd); break; case OPC_EXTR_W_DSP: op2 = MASK_EXTR_W(ctx->opcode); switch (op2) { case OPC_EXTR_W: case OPC_EXTR_R_W: case OPC_EXTR_RS_W: case OPC_EXTR_S_H: case OPC_EXTRV_S_H: case OPC_EXTRV_W: case OPC_EXTRV_R_W: case OPC_EXTRV_RS_W: case OPC_EXTP: case OPC_EXTPV: case OPC_EXTPDP: case OPC_EXTPDPV: gen_mipsdsp_accinsn(ctx, op1, op2, rt, rs, rd, 1); break; case OPC_RDDSP: gen_mipsdsp_accinsn(ctx, op1, op2, rd, rs, rt, 1); break; case OPC_SHILO: case OPC_SHILOV: case OPC_MTHLIP: case OPC_WRDSP: gen_mipsdsp_accinsn(ctx, op1, op2, rd, rs, rt, 0); break; default: /* Invalid */ MIPS_INVAL("MASK EXTR.W"); gen_reserved_instruction(ctx); break; } break; #if defined(TARGET_MIPS64) case OPC_DDIV_G_2E: case OPC_DDIVU_G_2E: case OPC_DMULT_G_2E: case OPC_DMULTU_G_2E: case OPC_DMOD_G_2E: case OPC_DMODU_G_2E: check_insn(ctx, INSN_LOONGSON2E); gen_loongson_integer(ctx, op1, rd, rs, rt); break; case OPC_ABSQ_S_QH_DSP: op2 = MASK_ABSQ_S_QH(ctx->opcode); switch (op2) { case OPC_PRECEQ_L_PWL: case OPC_PRECEQ_L_PWR: case OPC_PRECEQ_PW_QHL: case OPC_PRECEQ_PW_QHR: case OPC_PRECEQ_PW_QHLA: case OPC_PRECEQ_PW_QHRA: case OPC_PRECEQU_QH_OBL: case OPC_PRECEQU_QH_OBR: case OPC_PRECEQU_QH_OBLA: case OPC_PRECEQU_QH_OBRA: case OPC_PRECEU_QH_OBL: case OPC_PRECEU_QH_OBR: case OPC_PRECEU_QH_OBLA: case OPC_PRECEU_QH_OBRA: case OPC_ABSQ_S_OB: case OPC_ABSQ_S_PW: case OPC_ABSQ_S_QH: gen_mipsdsp_arith(ctx, op1, op2, rd, rs, rt); break; case OPC_REPL_OB: case OPC_REPL_PW: case OPC_REPL_QH: case OPC_REPLV_OB: case OPC_REPLV_PW: case OPC_REPLV_QH: gen_mipsdsp_bitinsn(ctx, op1, op2, rd, rt); break; default: /* Invalid */ MIPS_INVAL("MASK ABSQ_S.QH"); gen_reserved_instruction(ctx); break; } break; case OPC_ADDU_OB_DSP: op2 = MASK_ADDU_OB(ctx->opcode); switch (op2) { case OPC_RADDU_L_OB: case OPC_SUBQ_PW: case OPC_SUBQ_S_PW: case OPC_SUBQ_QH: case OPC_SUBQ_S_QH: case OPC_SUBU_OB: case OPC_SUBU_S_OB: case OPC_SUBU_QH: case OPC_SUBU_S_QH: case OPC_SUBUH_OB: case OPC_SUBUH_R_OB: case OPC_ADDQ_PW: case OPC_ADDQ_S_PW: case OPC_ADDQ_QH: case OPC_ADDQ_S_QH: case OPC_ADDU_OB: case OPC_ADDU_S_OB: case OPC_ADDU_QH: case OPC_ADDU_S_QH: case OPC_ADDUH_OB: case OPC_ADDUH_R_OB: gen_mipsdsp_arith(ctx, op1, op2, rd, rs, rt); break; case OPC_MULEQ_S_PW_QHL: case OPC_MULEQ_S_PW_QHR: case OPC_MULEU_S_QH_OBL: case OPC_MULEU_S_QH_OBR: case OPC_MULQ_RS_QH: gen_mipsdsp_multiply(ctx, op1, op2, rd, rs, rt, 1); break; default: /* Invalid */ MIPS_INVAL("MASK ADDU.OB"); gen_reserved_instruction(ctx); break; } break; case OPC_CMPU_EQ_OB_DSP: op2 = MASK_CMPU_EQ_OB(ctx->opcode); switch (op2) { case OPC_PRECR_SRA_QH_PW: case OPC_PRECR_SRA_R_QH_PW: /* Return value is rt. */ gen_mipsdsp_arith(ctx, op1, op2, rt, rs, rd); break; case OPC_PRECR_OB_QH: case OPC_PRECRQ_OB_QH: case OPC_PRECRQ_PW_L: case OPC_PRECRQ_QH_PW: case OPC_PRECRQ_RS_QH_PW: case OPC_PRECRQU_S_OB_QH: gen_mipsdsp_arith(ctx, op1, op2, rd, rs, rt); break; case OPC_CMPU_EQ_OB: case OPC_CMPU_LT_OB: case OPC_CMPU_LE_OB: case OPC_CMP_EQ_QH: case OPC_CMP_LT_QH: case OPC_CMP_LE_QH: case OPC_CMP_EQ_PW: case OPC_CMP_LT_PW: case OPC_CMP_LE_PW: gen_mipsdsp_add_cmp_pick(ctx, op1, op2, rd, rs, rt, 0); break; case OPC_CMPGDU_EQ_OB: case OPC_CMPGDU_LT_OB: case OPC_CMPGDU_LE_OB: case OPC_CMPGU_EQ_OB: case OPC_CMPGU_LT_OB: case OPC_CMPGU_LE_OB: case OPC_PACKRL_PW: case OPC_PICK_OB: case OPC_PICK_PW: case OPC_PICK_QH: gen_mipsdsp_add_cmp_pick(ctx, op1, op2, rd, rs, rt, 1); break; default: /* Invalid */ MIPS_INVAL("MASK CMPU_EQ.OB"); gen_reserved_instruction(ctx); break; } break; case OPC_DAPPEND_DSP: gen_mipsdsp_append(env, ctx, op1, rt, rs, rd); break; case OPC_DEXTR_W_DSP: op2 = MASK_DEXTR_W(ctx->opcode); switch (op2) { case OPC_DEXTP: case OPC_DEXTPDP: case OPC_DEXTPDPV: case OPC_DEXTPV: case OPC_DEXTR_L: case OPC_DEXTR_R_L: case OPC_DEXTR_RS_L: case OPC_DEXTR_W: case OPC_DEXTR_R_W: case OPC_DEXTR_RS_W: case OPC_DEXTR_S_H: case OPC_DEXTRV_L: case OPC_DEXTRV_R_L: case OPC_DEXTRV_RS_L: case OPC_DEXTRV_S_H: case OPC_DEXTRV_W: case OPC_DEXTRV_R_W: case OPC_DEXTRV_RS_W: gen_mipsdsp_accinsn(ctx, op1, op2, rt, rs, rd, 1); break; case OPC_DMTHLIP: case OPC_DSHILO: case OPC_DSHILOV: gen_mipsdsp_accinsn(ctx, op1, op2, rd, rs, rt, 0); break; default: /* Invalid */ MIPS_INVAL("MASK EXTR.W"); gen_reserved_instruction(ctx); break; } break; case OPC_DPAQ_W_QH_DSP: op2 = MASK_DPAQ_W_QH(ctx->opcode); switch (op2) { case OPC_DPAU_H_OBL: case OPC_DPAU_H_OBR: case OPC_DPSU_H_OBL: case OPC_DPSU_H_OBR: case OPC_DPA_W_QH: case OPC_DPAQ_S_W_QH: case OPC_DPS_W_QH: case OPC_DPSQ_S_W_QH: case OPC_MULSAQ_S_W_QH: case OPC_DPAQ_SA_L_PW: case OPC_DPSQ_SA_L_PW: case OPC_MULSAQ_S_L_PW: gen_mipsdsp_multiply(ctx, op1, op2, rd, rs, rt, 0); break; case OPC_MAQ_S_W_QHLL: case OPC_MAQ_S_W_QHLR: case OPC_MAQ_S_W_QHRL: case OPC_MAQ_S_W_QHRR: case OPC_MAQ_SA_W_QHLL: case OPC_MAQ_SA_W_QHLR: case OPC_MAQ_SA_W_QHRL: case OPC_MAQ_SA_W_QHRR: case OPC_MAQ_S_L_PWL: case OPC_MAQ_S_L_PWR: case OPC_DMADD: case OPC_DMADDU: case OPC_DMSUB: case OPC_DMSUBU: gen_mipsdsp_multiply(ctx, op1, op2, rd, rs, rt, 0); break; default: /* Invalid */ MIPS_INVAL("MASK DPAQ.W.QH"); gen_reserved_instruction(ctx); break; } break; case OPC_DINSV_DSP: op2 = MASK_INSV(ctx->opcode); switch (op2) { case OPC_DINSV: { TCGv t0, t1; check_dsp(ctx); if (rt == 0) { break; } t0 = tcg_temp_new(); t1 = tcg_temp_new(); gen_load_gpr(t0, rt); gen_load_gpr(t1, rs); gen_helper_dinsv(cpu_gpr[rt], tcg_env, t1, t0); break; } default: /* Invalid */ MIPS_INVAL("MASK DINSV"); gen_reserved_instruction(ctx); break; } break; case OPC_SHLL_OB_DSP: gen_mipsdsp_shift(ctx, op1, rd, rs, rt); break; #endif default: /* Invalid */ MIPS_INVAL("special3_legacy"); gen_reserved_instruction(ctx); break; } } #if defined(TARGET_MIPS64) static void decode_mmi(CPUMIPSState *env, DisasContext *ctx) { uint32_t opc = MASK_MMI(ctx->opcode); int rs = extract32(ctx->opcode, 21, 5); int rt = extract32(ctx->opcode, 16, 5); int rd = extract32(ctx->opcode, 11, 5); switch (opc) { case MMI_OPC_MULT1: case MMI_OPC_MULTU1: case MMI_OPC_MADD: case MMI_OPC_MADDU: case MMI_OPC_MADD1: case MMI_OPC_MADDU1: gen_mul_txx9(ctx, opc, rd, rs, rt); break; case MMI_OPC_DIV1: case MMI_OPC_DIVU1: gen_div1_tx79(ctx, opc, rs, rt); break; default: MIPS_INVAL("TX79 MMI class"); gen_reserved_instruction(ctx); break; } } static void gen_mmi_sq(DisasContext *ctx, int base, int rt, int offset) { gen_reserved_instruction(ctx); /* TODO: MMI_OPC_SQ */ } /* * The TX79-specific instruction Store Quadword * * +--------+-------+-------+------------------------+ * | 011111 | base | rt | offset | SQ * +--------+-------+-------+------------------------+ * 6 5 5 16 * * has the same opcode as the Read Hardware Register instruction * * +--------+-------+-------+-------+-------+--------+ * | 011111 | 00000 | rt | rd | 00000 | 111011 | RDHWR * +--------+-------+-------+-------+-------+--------+ * 6 5 5 5 5 6 * * that is required, trapped and emulated by the Linux kernel. However, all * RDHWR encodings yield address error exceptions on the TX79 since the SQ * offset is odd. Therefore all valid SQ instructions can execute normally. * In user mode, QEMU must verify the upper and lower 11 bits to distinguish * between SQ and RDHWR, as the Linux kernel does. */ static void decode_mmi_sq(CPUMIPSState *env, DisasContext *ctx) { int base = extract32(ctx->opcode, 21, 5); int rt = extract32(ctx->opcode, 16, 5); int offset = extract32(ctx->opcode, 0, 16); #ifdef CONFIG_USER_ONLY uint32_t op1 = MASK_SPECIAL3(ctx->opcode); uint32_t op2 = extract32(ctx->opcode, 6, 5); if (base == 0 && op2 == 0 && op1 == OPC_RDHWR) { int rd = extract32(ctx->opcode, 11, 5); gen_rdhwr(ctx, rt, rd, 0); return; } #endif gen_mmi_sq(ctx, base, rt, offset); } #endif static void decode_opc_special3(CPUMIPSState *env, DisasContext *ctx) { int rs, rt, rd, sa; uint32_t op1, op2; int16_t imm; rs = (ctx->opcode >> 21) & 0x1f; rt = (ctx->opcode >> 16) & 0x1f; rd = (ctx->opcode >> 11) & 0x1f; sa = (ctx->opcode >> 6) & 0x1f; imm = sextract32(ctx->opcode, 7, 9); op1 = MASK_SPECIAL3(ctx->opcode); /* * EVA loads and stores overlap Loongson 2E instructions decoded by * decode_opc_special3_legacy(), so be careful to allow their decoding when * EVA is absent. */ if (ctx->eva) { switch (op1) { case OPC_LWLE: case OPC_LWRE: case OPC_LBUE: case OPC_LHUE: case OPC_LBE: case OPC_LHE: case OPC_LLE: case OPC_LWE: check_cp0_enabled(ctx); gen_ld(ctx, op1, rt, rs, imm); return; case OPC_SWLE: case OPC_SWRE: case OPC_SBE: case OPC_SHE: case OPC_SWE: check_cp0_enabled(ctx); gen_st(ctx, op1, rt, rs, imm); return; case OPC_SCE: check_cp0_enabled(ctx); gen_st_cond(ctx, rt, rs, imm, mo_endian(ctx) | MO_SL, true); return; case OPC_CACHEE: check_eva(ctx); check_cp0_enabled(ctx); if (ctx->hflags & MIPS_HFLAG_ITC_CACHE) { gen_cache_operation(ctx, rt, rs, imm); } return; case OPC_PREFE: check_cp0_enabled(ctx); /* Treat as NOP. */ return; } } switch (op1) { case OPC_EXT: case OPC_INS: check_insn(ctx, ISA_MIPS_R2); gen_bitops(ctx, op1, rt, rs, sa, rd); break; case OPC_BSHFL: op2 = MASK_BSHFL(ctx->opcode); switch (op2) { case OPC_ALIGN: case OPC_ALIGN_1: case OPC_ALIGN_2: case OPC_ALIGN_3: case OPC_BITSWAP: check_insn(ctx, ISA_MIPS_R6); decode_opc_special3_r6(env, ctx); break; default: check_insn(ctx, ISA_MIPS_R2); gen_bshfl(ctx, op2, rt, rd); break; } break; #if defined(TARGET_MIPS64) case OPC_DEXTM: case OPC_DEXTU: case OPC_DEXT: case OPC_DINSM: case OPC_DINSU: case OPC_DINS: check_insn(ctx, ISA_MIPS_R2); check_mips_64(ctx); gen_bitops(ctx, op1, rt, rs, sa, rd); break; case OPC_DBSHFL: op2 = MASK_DBSHFL(ctx->opcode); switch (op2) { case OPC_DALIGN: case OPC_DALIGN_1: case OPC_DALIGN_2: case OPC_DALIGN_3: case OPC_DALIGN_4: case OPC_DALIGN_5: case OPC_DALIGN_6: case OPC_DALIGN_7: case OPC_DBITSWAP: check_insn(ctx, ISA_MIPS_R6); decode_opc_special3_r6(env, ctx); break; default: check_insn(ctx, ISA_MIPS_R2); check_mips_64(ctx); op2 = MASK_DBSHFL(ctx->opcode); gen_bshfl(ctx, op2, rt, rd); break; } break; #endif case OPC_RDHWR: gen_rdhwr(ctx, rt, rd, extract32(ctx->opcode, 6, 3)); break; case OPC_FORK: check_mt(ctx); { TCGv t0 = tcg_temp_new(); TCGv t1 = tcg_temp_new(); gen_load_gpr(t0, rt); gen_load_gpr(t1, rs); gen_helper_fork(t0, t1); } break; case OPC_YIELD: check_mt(ctx); { TCGv t0 = tcg_temp_new(); gen_load_gpr(t0, rs); gen_helper_yield(t0, tcg_env, t0); gen_store_gpr(t0, rd); } break; default: if (ctx->insn_flags & ISA_MIPS_R6) { decode_opc_special3_r6(env, ctx); } else { decode_opc_special3_legacy(env, ctx); } } } static bool decode_opc_legacy(CPUMIPSState *env, DisasContext *ctx) { int32_t offset; int rs, rt, rd, sa; uint32_t op, op1; int16_t imm; op = MASK_OP_MAJOR(ctx->opcode); rs = (ctx->opcode >> 21) & 0x1f; rt = (ctx->opcode >> 16) & 0x1f; rd = (ctx->opcode >> 11) & 0x1f; sa = (ctx->opcode >> 6) & 0x1f; imm = (int16_t)ctx->opcode; switch (op) { case OPC_SPECIAL: decode_opc_special(env, ctx); break; case OPC_SPECIAL2: #if defined(TARGET_MIPS64) if ((ctx->insn_flags & INSN_R5900) && (ctx->insn_flags & ASE_MMI)) { decode_mmi(env, ctx); break; } #endif if (TARGET_LONG_BITS == 32 && (ctx->insn_flags & ASE_MXU)) { if (decode_ase_mxu(ctx, ctx->opcode)) { break; } } decode_opc_special2_legacy(env, ctx); break; case OPC_SPECIAL3: #if defined(TARGET_MIPS64) if (ctx->insn_flags & INSN_R5900) { decode_mmi_sq(env, ctx); /* MMI_OPC_SQ */ } else { decode_opc_special3(env, ctx); } #else decode_opc_special3(env, ctx); #endif break; case OPC_REGIMM: op1 = MASK_REGIMM(ctx->opcode); switch (op1) { case OPC_BLTZL: /* REGIMM branches */ case OPC_BGEZL: case OPC_BLTZALL: case OPC_BGEZALL: check_insn(ctx, ISA_MIPS2); check_insn_opc_removed(ctx, ISA_MIPS_R6); /* Fallthrough */ case OPC_BLTZ: case OPC_BGEZ: gen_compute_branch(ctx, op1, 4, rs, -1, imm << 2, 4); break; case OPC_BLTZAL: case OPC_BGEZAL: if (ctx->insn_flags & ISA_MIPS_R6) { if (rs == 0) { /* OPC_NAL, OPC_BAL */ gen_compute_branch(ctx, op1, 4, 0, -1, imm << 2, 4); } else { gen_reserved_instruction(ctx); } } else { gen_compute_branch(ctx, op1, 4, rs, -1, imm << 2, 4); } break; case OPC_TGEI: /* REGIMM traps */ case OPC_TGEIU: case OPC_TLTI: case OPC_TLTIU: case OPC_TEQI: case OPC_TNEI: check_insn(ctx, ISA_MIPS2); check_insn_opc_removed(ctx, ISA_MIPS_R6); gen_trap(ctx, op1, rs, -1, imm, 0); break; case OPC_SIGRIE: check_insn(ctx, ISA_MIPS_R6); gen_reserved_instruction(ctx); break; case OPC_SYNCI: check_insn(ctx, ISA_MIPS_R2); /* * Break the TB to be able to sync copied instructions * immediately. */ ctx->base.is_jmp = DISAS_STOP; break; case OPC_BPOSGE32: /* MIPS DSP branch */ #if defined(TARGET_MIPS64) case OPC_BPOSGE64: #endif check_dsp(ctx); gen_compute_branch(ctx, op1, 4, -1, -2, (int32_t)imm << 2, 4); break; #if defined(TARGET_MIPS64) case OPC_DAHI: check_insn(ctx, ISA_MIPS_R6); check_mips_64(ctx); if (rs != 0) { tcg_gen_addi_tl(cpu_gpr[rs], cpu_gpr[rs], (int64_t)imm << 32); } break; case OPC_DATI: check_insn(ctx, ISA_MIPS_R6); check_mips_64(ctx); if (rs != 0) { tcg_gen_addi_tl(cpu_gpr[rs], cpu_gpr[rs], (int64_t)imm << 48); } break; #endif default: /* Invalid */ MIPS_INVAL("regimm"); gen_reserved_instruction(ctx); break; } break; case OPC_CP0: check_cp0_enabled(ctx); op1 = MASK_CP0(ctx->opcode); switch (op1) { case OPC_MFC0: case OPC_MTC0: case OPC_MFTR: case OPC_MTTR: case OPC_MFHC0: case OPC_MTHC0: #if defined(TARGET_MIPS64) case OPC_DMFC0: case OPC_DMTC0: #endif #ifndef CONFIG_USER_ONLY gen_cp0(env, ctx, op1, rt, rd); #endif /* !CONFIG_USER_ONLY */ break; case OPC_C0: case OPC_C0_1: case OPC_C0_2: case OPC_C0_3: case OPC_C0_4: case OPC_C0_5: case OPC_C0_6: case OPC_C0_7: case OPC_C0_8: case OPC_C0_9: case OPC_C0_A: case OPC_C0_B: case OPC_C0_C: case OPC_C0_D: case OPC_C0_E: case OPC_C0_F: #ifndef CONFIG_USER_ONLY gen_cp0(env, ctx, MASK_C0(ctx->opcode), rt, rd); #endif /* !CONFIG_USER_ONLY */ break; case OPC_MFMC0: #ifndef CONFIG_USER_ONLY { uint32_t op2; TCGv t0 = tcg_temp_new(); op2 = MASK_MFMC0(ctx->opcode); switch (op2) { case OPC_DMT: check_cp0_mt(ctx); gen_helper_dmt(t0); gen_store_gpr(t0, rt); break; case OPC_EMT: check_cp0_mt(ctx); gen_helper_emt(t0); gen_store_gpr(t0, rt); break; case OPC_DVPE: check_cp0_mt(ctx); gen_helper_dvpe(t0, tcg_env); gen_store_gpr(t0, rt); break; case OPC_EVPE: check_cp0_mt(ctx); gen_helper_evpe(t0, tcg_env); gen_store_gpr(t0, rt); break; case OPC_DVP: check_insn(ctx, ISA_MIPS_R6); if (ctx->vp) { gen_helper_dvp(t0, tcg_env); gen_store_gpr(t0, rt); } break; case OPC_EVP: check_insn(ctx, ISA_MIPS_R6); if (ctx->vp) { gen_helper_evp(t0, tcg_env); gen_store_gpr(t0, rt); } break; case OPC_DI: check_insn(ctx, ISA_MIPS_R2); save_cpu_state(ctx, 1); gen_helper_di(t0, tcg_env); gen_store_gpr(t0, rt); /* * Stop translation as we may have switched * the execution mode. */ ctx->base.is_jmp = DISAS_STOP; break; case OPC_EI: check_insn(ctx, ISA_MIPS_R2); save_cpu_state(ctx, 1); gen_helper_ei(t0, tcg_env); gen_store_gpr(t0, rt); /* * DISAS_STOP isn't sufficient, we need to ensure we break * out of translated code to check for pending interrupts. */ gen_save_pc(ctx->base.pc_next + 4); ctx->base.is_jmp = DISAS_EXIT; break; default: /* Invalid */ MIPS_INVAL("mfmc0"); gen_reserved_instruction(ctx); break; } } #endif /* !CONFIG_USER_ONLY */ break; case OPC_RDPGPR: check_insn(ctx, ISA_MIPS_R2); gen_load_srsgpr(rt, rd); break; case OPC_WRPGPR: check_insn(ctx, ISA_MIPS_R2); gen_store_srsgpr(rt, rd); break; default: MIPS_INVAL("cp0"); gen_reserved_instruction(ctx); break; } break; case OPC_BOVC: /* OPC_BEQZALC, OPC_BEQC, OPC_ADDI */ if (ctx->insn_flags & ISA_MIPS_R6) { /* OPC_BOVC, OPC_BEQZALC, OPC_BEQC */ gen_compute_compact_branch(ctx, op, rs, rt, imm << 2); } else { /* OPC_ADDI */ /* Arithmetic with immediate opcode */ gen_arith_imm(ctx, op, rt, rs, imm); } break; case OPC_ADDIU: gen_arith_imm(ctx, op, rt, rs, imm); break; case OPC_SLTI: /* Set on less than with immediate opcode */ case OPC_SLTIU: gen_slt_imm(ctx, op, rt, rs, imm); break; case OPC_ANDI: /* Arithmetic with immediate opcode */ case OPC_LUI: /* OPC_AUI */ case OPC_ORI: case OPC_XORI: gen_logic_imm(ctx, op, rt, rs, imm); break; case OPC_J: /* Jump */ case OPC_JAL: offset = (int32_t)(ctx->opcode & 0x3FFFFFF) << 2; gen_compute_branch(ctx, op, 4, rs, rt, offset, 4); break; /* Branch */ case OPC_BLEZC: /* OPC_BGEZC, OPC_BGEC, OPC_BLEZL */ if (ctx->insn_flags & ISA_MIPS_R6) { if (rt == 0) { gen_reserved_instruction(ctx); break; } /* OPC_BLEZC, OPC_BGEZC, OPC_BGEC */ gen_compute_compact_branch(ctx, op, rs, rt, imm << 2); } else { /* OPC_BLEZL */ gen_compute_branch(ctx, op, 4, rs, rt, imm << 2, 4); } break; case OPC_BGTZC: /* OPC_BLTZC, OPC_BLTC, OPC_BGTZL */ if (ctx->insn_flags & ISA_MIPS_R6) { if (rt == 0) { gen_reserved_instruction(ctx); break; } /* OPC_BGTZC, OPC_BLTZC, OPC_BLTC */ gen_compute_compact_branch(ctx, op, rs, rt, imm << 2); } else { /* OPC_BGTZL */ gen_compute_branch(ctx, op, 4, rs, rt, imm << 2, 4); } break; case OPC_BLEZALC: /* OPC_BGEZALC, OPC_BGEUC, OPC_BLEZ */ if (rt == 0) { /* OPC_BLEZ */ gen_compute_branch(ctx, op, 4, rs, rt, imm << 2, 4); } else { check_insn(ctx, ISA_MIPS_R6); /* OPC_BLEZALC, OPC_BGEZALC, OPC_BGEUC */ gen_compute_compact_branch(ctx, op, rs, rt, imm << 2); } break; case OPC_BGTZALC: /* OPC_BLTZALC, OPC_BLTUC, OPC_BGTZ */ if (rt == 0) { /* OPC_BGTZ */ gen_compute_branch(ctx, op, 4, rs, rt, imm << 2, 4); } else { check_insn(ctx, ISA_MIPS_R6); /* OPC_BGTZALC, OPC_BLTZALC, OPC_BLTUC */ gen_compute_compact_branch(ctx, op, rs, rt, imm << 2); } break; case OPC_BEQL: case OPC_BNEL: check_insn(ctx, ISA_MIPS2); check_insn_opc_removed(ctx, ISA_MIPS_R6); /* Fallthrough */ case OPC_BEQ: case OPC_BNE: gen_compute_branch(ctx, op, 4, rs, rt, imm << 2, 4); break; case OPC_LL: /* Load and stores */ check_insn(ctx, ISA_MIPS2); if (ctx->insn_flags & INSN_R5900) { check_insn_opc_user_only(ctx, INSN_R5900); } /* Fallthrough */ case OPC_LWL: case OPC_LWR: case OPC_LB: case OPC_LH: case OPC_LW: case OPC_LWPC: case OPC_LBU: case OPC_LHU: gen_ld(ctx, op, rt, rs, imm); break; case OPC_SWL: case OPC_SWR: case OPC_SB: case OPC_SH: case OPC_SW: gen_st(ctx, op, rt, rs, imm); break; case OPC_SC: check_insn(ctx, ISA_MIPS2); if (ctx->insn_flags & INSN_R5900) { check_insn_opc_user_only(ctx, INSN_R5900); } gen_st_cond(ctx, rt, rs, imm, mo_endian(ctx) | MO_SL, false); break; case OPC_CACHE: check_cp0_enabled(ctx); check_insn(ctx, ISA_MIPS3 | ISA_MIPS_R1); if (ctx->hflags & MIPS_HFLAG_ITC_CACHE) { gen_cache_operation(ctx, rt, rs, imm); } /* Treat as NOP. */ break; case OPC_PREF: check_insn(ctx, ISA_MIPS4 | ISA_MIPS_R1 | INSN_R5900); /* Treat as NOP. */ break; /* Floating point (COP1). */ case OPC_LWC1: case OPC_LDC1: case OPC_SWC1: case OPC_SDC1: gen_cop1_ldst(ctx, op, rt, rs, imm); break; case OPC_CP1: op1 = MASK_CP1(ctx->opcode); switch (op1) { case OPC_MFHC1: case OPC_MTHC1: check_cp1_enabled(ctx); check_insn(ctx, ISA_MIPS_R2); /* fall through */ case OPC_MFC1: case OPC_CFC1: case OPC_MTC1: case OPC_CTC1: check_cp1_enabled(ctx); gen_cp1(ctx, op1, rt, rd); break; #if defined(TARGET_MIPS64) case OPC_DMFC1: case OPC_DMTC1: check_cp1_enabled(ctx); check_insn(ctx, ISA_MIPS3); check_mips_64(ctx); gen_cp1(ctx, op1, rt, rd); break; #endif case OPC_BC1EQZ: /* OPC_BC1ANY2 */ check_cp1_enabled(ctx); if (ctx->insn_flags & ISA_MIPS_R6) { /* OPC_BC1EQZ */ gen_compute_branch1_r6(ctx, MASK_CP1(ctx->opcode), rt, imm << 2, 4); } else { /* OPC_BC1ANY2 */ check_cop1x(ctx); check_insn(ctx, ASE_MIPS3D); gen_compute_branch1(ctx, MASK_BC1(ctx->opcode), (rt >> 2) & 0x7, imm << 2); } break; case OPC_BC1NEZ: check_cp1_enabled(ctx); check_insn(ctx, ISA_MIPS_R6); gen_compute_branch1_r6(ctx, MASK_CP1(ctx->opcode), rt, imm << 2, 4); break; case OPC_BC1ANY4: check_cp1_enabled(ctx); check_insn_opc_removed(ctx, ISA_MIPS_R6); check_cop1x(ctx); check_insn(ctx, ASE_MIPS3D); /* fall through */ case OPC_BC1: check_cp1_enabled(ctx); check_insn_opc_removed(ctx, ISA_MIPS_R6); gen_compute_branch1(ctx, MASK_BC1(ctx->opcode), (rt >> 2) & 0x7, imm << 2); break; case OPC_PS_FMT: check_ps(ctx); /* fall through */ case OPC_S_FMT: case OPC_D_FMT: check_cp1_enabled(ctx); gen_farith(ctx, ctx->opcode & FOP(0x3f, 0x1f), rt, rd, sa, (imm >> 8) & 0x7); break; case OPC_W_FMT: case OPC_L_FMT: { int r6_op = ctx->opcode & FOP(0x3f, 0x1f); check_cp1_enabled(ctx); if (ctx->insn_flags & ISA_MIPS_R6) { switch (r6_op) { case R6_OPC_CMP_AF_S: case R6_OPC_CMP_UN_S: case R6_OPC_CMP_EQ_S: case R6_OPC_CMP_UEQ_S: case R6_OPC_CMP_LT_S: case R6_OPC_CMP_ULT_S: case R6_OPC_CMP_LE_S: case R6_OPC_CMP_ULE_S: case R6_OPC_CMP_SAF_S: case R6_OPC_CMP_SUN_S: case R6_OPC_CMP_SEQ_S: case R6_OPC_CMP_SEUQ_S: case R6_OPC_CMP_SLT_S: case R6_OPC_CMP_SULT_S: case R6_OPC_CMP_SLE_S: case R6_OPC_CMP_SULE_S: case R6_OPC_CMP_OR_S: case R6_OPC_CMP_UNE_S: case R6_OPC_CMP_NE_S: case R6_OPC_CMP_SOR_S: case R6_OPC_CMP_SUNE_S: case R6_OPC_CMP_SNE_S: gen_r6_cmp_s(ctx, ctx->opcode & 0x1f, rt, rd, sa); break; case R6_OPC_CMP_AF_D: case R6_OPC_CMP_UN_D: case R6_OPC_CMP_EQ_D: case R6_OPC_CMP_UEQ_D: case R6_OPC_CMP_LT_D: case R6_OPC_CMP_ULT_D: case R6_OPC_CMP_LE_D: case R6_OPC_CMP_ULE_D: case R6_OPC_CMP_SAF_D: case R6_OPC_CMP_SUN_D: case R6_OPC_CMP_SEQ_D: case R6_OPC_CMP_SEUQ_D: case R6_OPC_CMP_SLT_D: case R6_OPC_CMP_SULT_D: case R6_OPC_CMP_SLE_D: case R6_OPC_CMP_SULE_D: case R6_OPC_CMP_OR_D: case R6_OPC_CMP_UNE_D: case R6_OPC_CMP_NE_D: case R6_OPC_CMP_SOR_D: case R6_OPC_CMP_SUNE_D: case R6_OPC_CMP_SNE_D: gen_r6_cmp_d(ctx, ctx->opcode & 0x1f, rt, rd, sa); break; default: gen_farith(ctx, ctx->opcode & FOP(0x3f, 0x1f), rt, rd, sa, (imm >> 8) & 0x7); break; } } else { gen_farith(ctx, ctx->opcode & FOP(0x3f, 0x1f), rt, rd, sa, (imm >> 8) & 0x7); } break; } default: MIPS_INVAL("cp1"); gen_reserved_instruction(ctx); break; } break; /* Compact branches [R6] and COP2 [non-R6] */ case OPC_BC: /* OPC_LWC2 */ case OPC_BALC: /* OPC_SWC2 */ if (ctx->insn_flags & ISA_MIPS_R6) { /* OPC_BC, OPC_BALC */ gen_compute_compact_branch(ctx, op, 0, 0, sextract32(ctx->opcode << 2, 0, 28)); } else if (ctx->insn_flags & ASE_LEXT) { gen_loongson_lswc2(ctx, rt, rs, rd); } else { /* OPC_LWC2, OPC_SWC2 */ /* COP2: Not implemented. */ generate_exception_err(ctx, EXCP_CpU, 2); } break; case OPC_BEQZC: /* OPC_JIC, OPC_LDC2 */ case OPC_BNEZC: /* OPC_JIALC, OPC_SDC2 */ if (ctx->insn_flags & ISA_MIPS_R6) { if (rs != 0) { /* OPC_BEQZC, OPC_BNEZC */ gen_compute_compact_branch(ctx, op, rs, 0, sextract32(ctx->opcode << 2, 0, 23)); } else { /* OPC_JIC, OPC_JIALC */ gen_compute_compact_branch(ctx, op, 0, rt, imm); } } else if (ctx->insn_flags & ASE_LEXT) { gen_loongson_lsdc2(ctx, rt, rs, rd); } else { /* OPC_LWC2, OPC_SWC2 */ /* COP2: Not implemented. */ generate_exception_err(ctx, EXCP_CpU, 2); } break; case OPC_CP2: check_insn(ctx, ASE_LMMI); /* Note that these instructions use different fields. */ gen_loongson_multimedia(ctx, sa, rd, rt); break; case OPC_CP3: if (ctx->CP0_Config1 & (1 << CP0C1_FP)) { check_cp1_enabled(ctx); op1 = MASK_CP3(ctx->opcode); switch (op1) { case OPC_LUXC1: case OPC_SUXC1: check_insn(ctx, ISA_MIPS5 | ISA_MIPS_R2); /* Fallthrough */ case OPC_LWXC1: case OPC_LDXC1: case OPC_SWXC1: case OPC_SDXC1: check_insn(ctx, ISA_MIPS4 | ISA_MIPS_R2); gen_flt3_ldst(ctx, op1, sa, rd, rs, rt); break; case OPC_PREFX: check_insn(ctx, ISA_MIPS4 | ISA_MIPS_R2); /* Treat as NOP. */ break; case OPC_ALNV_PS: check_insn(ctx, ISA_MIPS5 | ISA_MIPS_R2); /* Fallthrough */ case OPC_MADD_S: case OPC_MADD_D: case OPC_MADD_PS: case OPC_MSUB_S: case OPC_MSUB_D: case OPC_MSUB_PS: case OPC_NMADD_S: case OPC_NMADD_D: case OPC_NMADD_PS: case OPC_NMSUB_S: case OPC_NMSUB_D: case OPC_NMSUB_PS: check_insn(ctx, ISA_MIPS4 | ISA_MIPS_R2); gen_flt3_arith(ctx, op1, sa, rs, rd, rt); break; default: MIPS_INVAL("cp3"); gen_reserved_instruction(ctx); break; } } else { generate_exception_err(ctx, EXCP_CpU, 1); } break; #if defined(TARGET_MIPS64) /* MIPS64 opcodes */ case OPC_LLD: if (ctx->insn_flags & INSN_R5900) { check_insn_opc_user_only(ctx, INSN_R5900); } /* fall through */ case OPC_LDL: case OPC_LDR: case OPC_LWU: case OPC_LD: check_insn(ctx, ISA_MIPS3); check_mips_64(ctx); gen_ld(ctx, op, rt, rs, imm); break; case OPC_SDL: case OPC_SDR: case OPC_SD: check_insn(ctx, ISA_MIPS3); check_mips_64(ctx); gen_st(ctx, op, rt, rs, imm); break; case OPC_SCD: check_insn(ctx, ISA_MIPS3); if (ctx->insn_flags & INSN_R5900) { check_insn_opc_user_only(ctx, INSN_R5900); } check_mips_64(ctx); gen_st_cond(ctx, rt, rs, imm, mo_endian(ctx) | MO_UQ, false); break; case OPC_BNVC: /* OPC_BNEZALC, OPC_BNEC, OPC_DADDI */ if (ctx->insn_flags & ISA_MIPS_R6) { /* OPC_BNVC, OPC_BNEZALC, OPC_BNEC */ gen_compute_compact_branch(ctx, op, rs, rt, imm << 2); } else { /* OPC_DADDI */ check_insn(ctx, ISA_MIPS3); check_mips_64(ctx); gen_arith_imm(ctx, op, rt, rs, imm); } break; case OPC_DADDIU: check_insn(ctx, ISA_MIPS3); check_mips_64(ctx); gen_arith_imm(ctx, op, rt, rs, imm); break; #else case OPC_BNVC: /* OPC_BNEZALC, OPC_BNEC */ if (ctx->insn_flags & ISA_MIPS_R6) { gen_compute_compact_branch(ctx, op, rs, rt, imm << 2); } else { MIPS_INVAL("major opcode"); gen_reserved_instruction(ctx); } break; #endif case OPC_DAUI: /* OPC_JALX */ if (ctx->insn_flags & ISA_MIPS_R6) { #if defined(TARGET_MIPS64) /* OPC_DAUI */ check_mips_64(ctx); if (rs == 0) { generate_exception(ctx, EXCP_RI); } else if (rt != 0) { TCGv t0 = tcg_temp_new(); gen_load_gpr(t0, rs); tcg_gen_addi_tl(cpu_gpr[rt], t0, imm << 16); } #else gen_reserved_instruction(ctx); MIPS_INVAL("major opcode"); #endif } else { /* OPC_JALX */ check_insn(ctx, ASE_MIPS16 | ASE_MICROMIPS); offset = (int32_t)(ctx->opcode & 0x3FFFFFF) << 2; gen_compute_branch(ctx, op, 4, rs, rt, offset, 4); } break; case OPC_MDMX: /* MDMX: Not implemented. */ break; case OPC_PCREL: check_insn(ctx, ISA_MIPS_R6); gen_pcrel(ctx, ctx->opcode, ctx->base.pc_next, rs); break; default: /* Invalid */ MIPS_INVAL("major opcode"); return false; } return true; } static void decode_opc(CPUMIPSState *env, DisasContext *ctx) { /* make sure instructions are on a word boundary */ if (ctx->base.pc_next & 0x3) { env->CP0_BadVAddr = ctx->base.pc_next; generate_exception_err(ctx, EXCP_AdEL, EXCP_INST_NOTAVAIL); return; } /* Handle blikely not taken case */ if ((ctx->hflags & MIPS_HFLAG_BMASK_BASE) == MIPS_HFLAG_BL) { TCGLabel *l1 = gen_new_label(); tcg_gen_brcondi_tl(TCG_COND_NE, bcond, 0, l1); tcg_gen_movi_i32(hflags, ctx->hflags & ~MIPS_HFLAG_BMASK); gen_goto_tb(ctx, 1, ctx->base.pc_next + 4); gen_set_label(l1); } /* Transition to the auto-generated decoder. */ /* Vendor specific extensions */ if (cpu_supports_isa(env, INSN_R5900) && decode_ext_txx9(ctx, ctx->opcode)) { return; } if (cpu_supports_isa(env, INSN_VR54XX) && decode_ext_vr54xx(ctx, ctx->opcode)) { return; } #if defined(TARGET_MIPS64) if (ase_lcsr_available(env) && decode_ase_lcsr(ctx, ctx->opcode)) { return; } if (cpu_supports_isa(env, INSN_OCTEON) && decode_ext_octeon(ctx, ctx->opcode)) { return; } #endif /* ISA extensions */ if (ase_msa_available(env) && decode_ase_msa(ctx, ctx->opcode)) { return; } /* ISA (from latest to oldest) */ if (cpu_supports_isa(env, ISA_MIPS_R6) && decode_isa_rel6(ctx, ctx->opcode)) { return; } if (decode_opc_legacy(env, ctx)) { return; } gen_reserved_instruction(ctx); } static void mips_tr_init_disas_context(DisasContextBase *dcbase, CPUState *cs) { DisasContext *ctx = container_of(dcbase, DisasContext, base); CPUMIPSState *env = cpu_env(cs); ctx->page_start = ctx->base.pc_first & TARGET_PAGE_MASK; ctx->saved_pc = -1; ctx->insn_flags = env->insn_flags; ctx->CP0_Config0 = env->CP0_Config0; ctx->CP0_Config1 = env->CP0_Config1; ctx->CP0_Config2 = env->CP0_Config2; ctx->CP0_Config3 = env->CP0_Config3; ctx->CP0_Config5 = env->CP0_Config5; ctx->btarget = 0; ctx->kscrexist = (env->CP0_Config4 >> CP0C4_KScrExist) & 0xff; ctx->rxi = (env->CP0_Config3 >> CP0C3_RXI) & 1; ctx->ie = (env->CP0_Config4 >> CP0C4_IE) & 3; ctx->bi = (env->CP0_Config3 >> CP0C3_BI) & 1; ctx->bp = (env->CP0_Config3 >> CP0C3_BP) & 1; ctx->PAMask = env->PAMask; ctx->mvh = (env->CP0_Config5 >> CP0C5_MVH) & 1; ctx->eva = (env->CP0_Config5 >> CP0C5_EVA) & 1; ctx->sc = (env->CP0_Config3 >> CP0C3_SC) & 1; ctx->CP0_LLAddr_shift = env->CP0_LLAddr_shift; ctx->cmgcr = (env->CP0_Config3 >> CP0C3_CMGCR) & 1; /* Restore delay slot state from the tb context. */ ctx->hflags = (uint32_t)ctx->base.tb->flags; /* FIXME: maybe use 64 bits? */ ctx->ulri = (env->CP0_Config3 >> CP0C3_ULRI) & 1; ctx->ps = ((env->active_fpu.fcr0 >> FCR0_PS) & 1) || (env->insn_flags & (INSN_LOONGSON2E | INSN_LOONGSON2F)); ctx->vp = (env->CP0_Config5 >> CP0C5_VP) & 1; ctx->mrp = (env->CP0_Config5 >> CP0C5_MRP) & 1; ctx->nan2008 = (env->active_fpu.fcr31 >> FCR31_NAN2008) & 1; ctx->abs2008 = (env->active_fpu.fcr31 >> FCR31_ABS2008) & 1; ctx->mi = (env->CP0_Config5 >> CP0C5_MI) & 1; ctx->gi = (env->CP0_Config5 >> CP0C5_GI) & 3; restore_cpu_state(env, ctx); #ifdef CONFIG_USER_ONLY ctx->mem_idx = MIPS_HFLAG_UM; #else ctx->mem_idx = hflags_mmu_index(ctx->hflags); #endif ctx->default_tcg_memop_mask = (!(ctx->insn_flags & ISA_NANOMIPS32) && (ctx->insn_flags & (ISA_MIPS_R6 | INSN_LOONGSON3A))) ? MO_UNALN : MO_ALIGN; /* * Execute a branch and its delay slot as a single instruction. * This is what GDB expects and is consistent with what the * hardware does (e.g. if a delay slot instruction faults, the * reported PC is the PC of the branch). */ if ((tb_cflags(ctx->base.tb) & CF_SINGLE_STEP) && (ctx->hflags & MIPS_HFLAG_BMASK)) { ctx->base.max_insns = 2; } LOG_DISAS("\ntb %p idx %d hflags %04x\n", ctx->base.tb, ctx->mem_idx, ctx->hflags); } static void mips_tr_tb_start(DisasContextBase *dcbase, CPUState *cs) { } static void mips_tr_insn_start(DisasContextBase *dcbase, CPUState *cs) { DisasContext *ctx = container_of(dcbase, DisasContext, base); tcg_gen_insn_start(ctx->base.pc_next, ctx->hflags & MIPS_HFLAG_BMASK, ctx->btarget); } static void mips_tr_translate_insn(DisasContextBase *dcbase, CPUState *cs) { CPUMIPSState *env = cpu_env(cs); DisasContext *ctx = container_of(dcbase, DisasContext, base); int insn_bytes; int is_slot; is_slot = ctx->hflags & MIPS_HFLAG_BMASK; if (ctx->insn_flags & ISA_NANOMIPS32) { ctx->opcode = translator_lduw(env, &ctx->base, ctx->base.pc_next); insn_bytes = decode_isa_nanomips(env, ctx); } else if (!(ctx->hflags & MIPS_HFLAG_M16)) { ctx->opcode = translator_ldl(env, &ctx->base, ctx->base.pc_next); insn_bytes = 4; decode_opc(env, ctx); } else if (ctx->insn_flags & ASE_MICROMIPS) { ctx->opcode = translator_lduw(env, &ctx->base, ctx->base.pc_next); insn_bytes = decode_isa_micromips(env, ctx); } else if (ctx->insn_flags & ASE_MIPS16) { ctx->opcode = translator_lduw(env, &ctx->base, ctx->base.pc_next); insn_bytes = decode_ase_mips16e(env, ctx); } else { gen_reserved_instruction(ctx); g_assert(ctx->base.is_jmp == DISAS_NORETURN); return; } if (ctx->hflags & MIPS_HFLAG_BMASK) { if (!(ctx->hflags & (MIPS_HFLAG_BDS16 | MIPS_HFLAG_BDS32 | MIPS_HFLAG_FBNSLOT))) { /* * Force to generate branch as there is neither delay nor * forbidden slot. */ is_slot = 1; } if ((ctx->hflags & MIPS_HFLAG_M16) && (ctx->hflags & MIPS_HFLAG_FBNSLOT)) { /* * Force to generate branch as microMIPS R6 doesn't restrict * branches in the forbidden slot. */ is_slot = 1; } } if (is_slot) { gen_branch(ctx, insn_bytes); } if (ctx->base.is_jmp == DISAS_SEMIHOST) { generate_exception_err(ctx, EXCP_SEMIHOST, insn_bytes); } ctx->base.pc_next += insn_bytes; if (ctx->base.is_jmp != DISAS_NEXT) { return; } /* * End the TB on (most) page crossings. * See mips_tr_init_disas_context about single-stepping a branch * together with its delay slot. */ if (ctx->base.pc_next - ctx->page_start >= TARGET_PAGE_SIZE && !(tb_cflags(ctx->base.tb) & CF_SINGLE_STEP)) { ctx->base.is_jmp = DISAS_TOO_MANY; } } static void mips_tr_tb_stop(DisasContextBase *dcbase, CPUState *cs) { DisasContext *ctx = container_of(dcbase, DisasContext, base); switch (ctx->base.is_jmp) { case DISAS_STOP: gen_save_pc(ctx->base.pc_next); tcg_gen_lookup_and_goto_ptr(); break; case DISAS_NEXT: case DISAS_TOO_MANY: save_cpu_state(ctx, 0); gen_goto_tb(ctx, 0, ctx->base.pc_next); break; case DISAS_EXIT: tcg_gen_exit_tb(NULL, 0); break; case DISAS_NORETURN: break; default: g_assert_not_reached(); } } static const TranslatorOps mips_tr_ops = { .init_disas_context = mips_tr_init_disas_context, .tb_start = mips_tr_tb_start, .insn_start = mips_tr_insn_start, .translate_insn = mips_tr_translate_insn, .tb_stop = mips_tr_tb_stop, }; void gen_intermediate_code(CPUState *cs, TranslationBlock *tb, int *max_insns, vaddr pc, void *host_pc) { DisasContext ctx; translator_loop(cs, tb, max_insns, pc, host_pc, &mips_tr_ops, &ctx.base); } void mips_tcg_init(void) { cpu_gpr[0] = NULL; for (unsigned i = 1; i < 32; i++) cpu_gpr[i] = tcg_global_mem_new(tcg_env, offsetof(CPUMIPSState, active_tc.gpr[i]), regnames[i]); #if defined(TARGET_MIPS64) cpu_gpr_hi[0] = NULL; for (unsigned i = 1; i < 32; i++) { g_autofree char *rname = g_strdup_printf("%s[hi]", regnames[i]); cpu_gpr_hi[i] = tcg_global_mem_new_i64(tcg_env, offsetof(CPUMIPSState, active_tc.gpr_hi[i]), rname); } #endif /* !TARGET_MIPS64 */ for (unsigned i = 0; i < 32; i++) { int off = offsetof(CPUMIPSState, active_fpu.fpr[i].wr.d[0]); fpu_f64[i] = tcg_global_mem_new_i64(tcg_env, off, fregnames[i]); } msa_translate_init(); cpu_PC = tcg_global_mem_new(tcg_env, offsetof(CPUMIPSState, active_tc.PC), "PC"); for (unsigned i = 0; i < MIPS_DSP_ACC; i++) { cpu_HI[i] = tcg_global_mem_new(tcg_env, offsetof(CPUMIPSState, active_tc.HI[i]), regnames_HI[i]); cpu_LO[i] = tcg_global_mem_new(tcg_env, offsetof(CPUMIPSState, active_tc.LO[i]), regnames_LO[i]); } cpu_dspctrl = tcg_global_mem_new(tcg_env, offsetof(CPUMIPSState, active_tc.DSPControl), "DSPControl"); bcond = tcg_global_mem_new(tcg_env, offsetof(CPUMIPSState, bcond), "bcond"); btarget = tcg_global_mem_new(tcg_env, offsetof(CPUMIPSState, btarget), "btarget"); hflags = tcg_global_mem_new_i32(tcg_env, offsetof(CPUMIPSState, hflags), "hflags"); fpu_fcr0 = tcg_global_mem_new_i32(tcg_env, offsetof(CPUMIPSState, active_fpu.fcr0), "fcr0"); fpu_fcr31 = tcg_global_mem_new_i32(tcg_env, offsetof(CPUMIPSState, active_fpu.fcr31), "fcr31"); cpu_lladdr = tcg_global_mem_new(tcg_env, offsetof(CPUMIPSState, lladdr), "lladdr"); cpu_llval = tcg_global_mem_new(tcg_env, offsetof(CPUMIPSState, llval), "llval"); if (TARGET_LONG_BITS == 32) { mxu_translate_init(); } } void mips_restore_state_to_opc(CPUState *cs, const TranslationBlock *tb, const uint64_t *data) { CPUMIPSState *env = cpu_env(cs); env->active_tc.PC = data[0]; env->hflags &= ~MIPS_HFLAG_BMASK; env->hflags |= data[1]; switch (env->hflags & MIPS_HFLAG_BMASK_BASE) { case MIPS_HFLAG_BR: break; case MIPS_HFLAG_BC: case MIPS_HFLAG_BL: case MIPS_HFLAG_B: env->btarget = data[2]; break; } }