qemu/target/s390x/tcg/insn-data.h.inc
Thomas Huth 21be74a9a5 target/s390x/tcg: Fix and improve the SACF instruction
The SET ADDRESS SPACE CONTROL FAST instruction is not privileged, it can be
used from problem space, too. Just the switching to the home address space
is privileged and should still generate a privilege exception. This bug is
e.g. causing programs like Java that use the "getcpu" vdso kernel function
to crash (see https://bugs.debian.org/cgi-bin/bugreport.cgi?bug=990417#26 ).

While we're at it, also check if DAT is not enabled. In that case the
instruction is supposed to generate a special operation exception.

Resolves: https://gitlab.com/qemu-project/qemu/-/issues/655
Message-Id: <20221201184443.136355-1-thuth@redhat.com>
Reviewed-by: Ilya Leoshkevich <iii@linux.ibm.com>
Reviewed-by: David Hildenbrand <david@redhat.com>
Reviewed-by: Richard Henderson <richard.henderson@linaro.org>
Signed-off-by: Thomas Huth <thuth@redhat.com>
2022-12-03 22:04:40 +01:00

1449 lines
73 KiB
SQL

/*
* Arguments to the opcode prototypes
*
* C(OPC, NAME, FMT, FAC, I1, I2, P, W, OP, CC)
* D(OPC, NAME, FMT, FAC, I1, I2, P, W, OP, CC, DATA)
* E(OPC, NAME, FMT, FAC, I1, I2, P, W, OP, CC, DATA, FLAGS)
* F(OPC, NAME, FMT, FAC, I1, I2, P, W, OP, CC, FLAGS)
*
* OPC = (op << 8) | op2 where op is the major, op2 the minor opcode
* NAME = name of the opcode, used internally
* FMT = format of the opcode (defined in insn-format.h.inc)
* FAC = facility the opcode is available in (defined in DisasFacility)
* I1 = func in1_xx fills o->in1
* I2 = func in2_xx fills o->in2
* P = func prep_xx initializes o->*out*
* W = func wout_xx writes o->*out* somewhere
* OP = func op_xx does the bulk of the operation
* CC = func cout_xx defines how cc should get set
* DATA = immediate argument to op_xx function
* FLAGS = categorize the type of instruction (e.g. for advanced checks)
*
* The helpers get called in order: I1, I2, P, OP, W, CC
*/
/* ADD */
C(0x1a00, AR, RR_a, Z, r1, r2, new, r1_32, add, adds32)
C(0xb9f8, ARK, RRF_a, DO, r2, r3, new, r1_32, add, adds32)
C(0x5a00, A, RX_a, Z, r1, m2_32s, new, r1_32, add, adds32)
C(0xe35a, AY, RXY_a, LD, r1, m2_32s, new, r1_32, add, adds32)
C(0xb908, AGR, RRE, Z, r1, r2, r1, 0, add, adds64)
C(0xb918, AGFR, RRE, Z, r1, r2_32s, r1, 0, add, adds64)
C(0xb9e8, AGRK, RRF_a, DO, r2, r3, r1, 0, add, adds64)
C(0xe308, AG, RXY_a, Z, r1, m2_64, r1, 0, add, adds64)
C(0xe318, AGF, RXY_a, Z, r1, m2_32s, r1, 0, add, adds64)
F(0xb30a, AEBR, RRE, Z, e1, e2, new, e1, aeb, f32, IF_BFP)
F(0xb31a, ADBR, RRE, Z, f1, f2, new, f1, adb, f64, IF_BFP)
F(0xb34a, AXBR, RRE, Z, x2h, x2l, x1, x1, axb, f128, IF_BFP)
F(0xed0a, AEB, RXE, Z, e1, m2_32u, new, e1, aeb, f32, IF_BFP)
F(0xed1a, ADB, RXE, Z, f1, m2_64, new, f1, adb, f64, IF_BFP)
/* ADD HIGH */
C(0xb9c8, AHHHR, RRF_a, HW, r2_sr32, r3_sr32, new, r1_32h, add, adds32)
C(0xb9d8, AHHLR, RRF_a, HW, r2_sr32, r3, new, r1_32h, add, adds32)
/* ADD IMMEDIATE */
C(0xc209, AFI, RIL_a, EI, r1, i2, new, r1_32, add, adds32)
D(0xeb6a, ASI, SIY, GIE, la1, i2, new, 0, asi, adds32, MO_TESL)
C(0xecd8, AHIK, RIE_d, DO, r3, i2, new, r1_32, add, adds32)
C(0xc208, AGFI, RIL_a, EI, r1, i2, r1, 0, add, adds64)
D(0xeb7a, AGSI, SIY, GIE, la1, i2, new, 0, asi, adds64, MO_TEUQ)
C(0xecd9, AGHIK, RIE_d, DO, r3, i2, r1, 0, add, adds64)
/* ADD IMMEDIATE HIGH */
C(0xcc08, AIH, RIL_a, HW, r1_sr32, i2, new, r1_32h, add, adds32)
/* ADD HALFWORD */
C(0x4a00, AH, RX_a, Z, r1, m2_16s, new, r1_32, add, adds32)
C(0xe37a, AHY, RXY_a, LD, r1, m2_16s, new, r1_32, add, adds32)
C(0xe338, AGH, RXY_a, MIE2,r1, m2_16s, r1, 0, add, adds64)
/* ADD HALFWORD IMMEDIATE */
C(0xa70a, AHI, RI_a, Z, r1, i2, new, r1_32, add, adds32)
C(0xa70b, AGHI, RI_a, Z, r1, i2, r1, 0, add, adds64)
/* ADD LOGICAL */
C(0x1e00, ALR, RR_a, Z, r1_32u, r2_32u, new, r1_32, add, addu32)
C(0xb9fa, ALRK, RRF_a, DO, r2_32u, r3_32u, new, r1_32, add, addu32)
C(0x5e00, AL, RX_a, Z, r1_32u, m2_32u, new, r1_32, add, addu32)
C(0xe35e, ALY, RXY_a, LD, r1_32u, m2_32u, new, r1_32, add, addu32)
C(0xb90a, ALGR, RRE, Z, r1, r2, r1, 0, addu64, addu64)
C(0xb91a, ALGFR, RRE, Z, r1, r2_32u, r1, 0, addu64, addu64)
C(0xb9ea, ALGRK, RRF_a, DO, r2, r3, r1, 0, addu64, addu64)
C(0xe30a, ALG, RXY_a, Z, r1, m2_64, r1, 0, addu64, addu64)
C(0xe31a, ALGF, RXY_a, Z, r1, m2_32u, r1, 0, addu64, addu64)
/* ADD LOGICAL HIGH */
C(0xb9ca, ALHHHR, RRF_a, HW, r2_sr32, r3_sr32, new, r1_32h, add, addu32)
C(0xb9da, ALHHLR, RRF_a, HW, r2_sr32, r3_32u, new, r1_32h, add, addu32)
/* ADD LOGICAL IMMEDIATE */
C(0xc20b, ALFI, RIL_a, EI, r1_32u, i2_32u, new, r1_32, add, addu32)
C(0xc20a, ALGFI, RIL_a, EI, r1, i2_32u, r1, 0, addu64, addu64)
/* ADD LOGICAL WITH SIGNED IMMEDIATE */
D(0xeb6e, ALSI, SIY, GIE, la1, i2_32u, new, 0, asi, addu32, MO_TEUL)
C(0xecda, ALHSIK, RIE_d, DO, r3_32u, i2_32u, new, r1_32, add, addu32)
D(0xeb7e, ALGSI, SIY, GIE, la1, i2, new, 0, asiu64, addu64, MO_TEUQ)
C(0xecdb, ALGHSIK, RIE_d, DO, r3, i2, r1, 0, addu64, addu64)
/* ADD LOGICAL WITH SIGNED IMMEDIATE HIGH */
C(0xcc0a, ALSIH, RIL_a, HW, r1_sr32, i2_32u, new, r1_32h, add, addu32)
C(0xcc0b, ALSIHN, RIL_a, HW, r1_sr32, i2_32u, new, r1_32h, add, 0)
/* ADD LOGICAL WITH CARRY */
C(0xb998, ALCR, RRE, Z, r1_32u, r2_32u, new, r1_32, addc32, addu32)
C(0xb988, ALCGR, RRE, Z, r1, r2, r1, 0, addc64, addu64)
C(0xe398, ALC, RXY_a, Z, r1_32u, m2_32u, new, r1_32, addc32, addu32)
C(0xe388, ALCG, RXY_a, Z, r1, m2_64, r1, 0, addc64, addu64)
/* AND */
C(0x1400, NR, RR_a, Z, r1, r2, new, r1_32, and, nz32)
C(0xb9f4, NRK, RRF_a, DO, r2, r3, new, r1_32, and, nz32)
C(0x5400, N, RX_a, Z, r1, m2_32s, new, r1_32, and, nz32)
C(0xe354, NY, RXY_a, LD, r1, m2_32s, new, r1_32, and, nz32)
C(0xb980, NGR, RRE, Z, r1, r2, r1, 0, and, nz64)
C(0xb9e4, NGRK, RRF_a, DO, r2, r3, r1, 0, and, nz64)
C(0xe380, NG, RXY_a, Z, r1, m2_64, r1, 0, and, nz64)
C(0xd400, NC, SS_a, Z, la1, a2, 0, 0, nc, 0)
/* AND IMMEDIATE */
D(0xc00a, NIHF, RIL_a, EI, r1_o, i2_32u, r1, 0, andi, 0, 0x2020)
D(0xc00b, NILF, RIL_a, EI, r1_o, i2_32u, r1, 0, andi, 0, 0x2000)
D(0xa504, NIHH, RI_a, Z, r1_o, i2_16u, r1, 0, andi, 0, 0x1030)
D(0xa505, NIHL, RI_a, Z, r1_o, i2_16u, r1, 0, andi, 0, 0x1020)
D(0xa506, NILH, RI_a, Z, r1_o, i2_16u, r1, 0, andi, 0, 0x1010)
D(0xa507, NILL, RI_a, Z, r1_o, i2_16u, r1, 0, andi, 0, 0x1000)
D(0x9400, NI, SI, Z, la1, i2_8u, new, 0, ni, nz64, MO_UB)
D(0xeb54, NIY, SIY, LD, la1, i2_8u, new, 0, ni, nz64, MO_UB)
/* AND WITH COMPLEMENT */
C(0xb9f5, NCRK, RRF_a, MIE3, r2, r3, new, r1_32, andc, nz32)
C(0xb9e5, NCGRK, RRF_a, MIE3, r2, r3, r1, 0, andc, nz64)
/* BRANCH AND LINK */
C(0x0500, BALR, RR_a, Z, 0, r2_nz, r1, 0, bal, 0)
C(0x4500, BAL, RX_a, Z, 0, a2, r1, 0, bal, 0)
/* BRANCH AND SAVE */
C(0x0d00, BASR, RR_a, Z, 0, r2_nz, r1, 0, bas, 0)
C(0x4d00, BAS, RX_a, Z, 0, a2, r1, 0, bas, 0)
/* BRANCH RELATIVE AND SAVE */
C(0xa705, BRAS, RI_b, Z, 0, 0, r1, 0, basi, 0)
C(0xc005, BRASL, RIL_b, Z, 0, 0, r1, 0, basi, 0)
/* BRANCH INDIRECT ON CONDITION */
C(0xe347, BIC, RXY_b, MIE2,0, m2_64w, 0, 0, bc, 0)
/* BRANCH ON CONDITION */
C(0x0700, BCR, RR_b, Z, 0, r2_nz, 0, 0, bc, 0)
C(0x4700, BC, RX_b, Z, 0, a2, 0, 0, bc, 0)
/* BRANCH RELATIVE ON CONDITION */
C(0xa704, BRC, RI_c, Z, 0, 0, 0, 0, bc, 0)
C(0xc004, BRCL, RIL_c, Z, 0, 0, 0, 0, bc, 0)
/* BRANCH ON COUNT */
C(0x0600, BCTR, RR_a, Z, 0, r2_nz, 0, 0, bct32, 0)
C(0xb946, BCTGR, RRE, Z, 0, r2_nz, 0, 0, bct64, 0)
C(0x4600, BCT, RX_a, Z, 0, a2, 0, 0, bct32, 0)
C(0xe346, BCTG, RXY_a, Z, 0, a2, 0, 0, bct64, 0)
/* BRANCH RELATIVE ON COUNT */
C(0xa706, BRCT, RI_b, Z, 0, 0, 0, 0, bct32, 0)
C(0xa707, BRCTG, RI_b, Z, 0, 0, 0, 0, bct64, 0)
/* BRANCH RELATIVE ON COUNT HIGH */
C(0xcc06, BRCTH, RIL_b, HW, 0, 0, 0, 0, bcth, 0)
/* BRANCH ON INDEX */
D(0x8600, BXH, RS_a, Z, 0, a2, 0, 0, bx32, 0, 0)
D(0x8700, BXLE, RS_a, Z, 0, a2, 0, 0, bx32, 0, 1)
D(0xeb44, BXHG, RSY_a, Z, 0, a2, 0, 0, bx64, 0, 0)
D(0xeb45, BXLEG, RSY_a, Z, 0, a2, 0, 0, bx64, 0, 1)
/* BRANCH RELATIVE ON INDEX */
D(0x8400, BRXH, RSI, Z, 0, 0, 0, 0, bx32, 0, 0)
D(0x8500, BRXLE, RSI, Z, 0, 0, 0, 0, bx32, 0, 1)
D(0xec44, BRXHG, RIE_e, Z, 0, 0, 0, 0, bx64, 0, 0)
D(0xec45, BRXHLE, RIE_e, Z, 0, 0, 0, 0, bx64, 0, 1)
/* BRANCH PREDICTION PRELOAD */
/* ??? Format is SMI, but implemented as NOP, so we need no fields. */
C(0xc700, BPP, E, EH, 0, 0, 0, 0, 0, 0)
/* BRANCH PREDICTION RELATIVE PRELOAD */
/* ??? Format is MII, but implemented as NOP, so we need no fields. */
C(0xc500, BPRP, E, EH, 0, 0, 0, 0, 0, 0)
/* NEXT INSTRUCTION ACCESS INTENT */
/* ??? Format is IE, but implemented as NOP, so we need no fields. */
C(0xb2fa, NIAI, E, EH, 0, 0, 0, 0, 0, 0)
/* CHECKSUM */
C(0xb241, CKSM, RRE, Z, r1_o, ra2, new, r1_32, cksm, 0)
/* COPY SIGN */
F(0xb372, CPSDR, RRF_b, FPSSH, f3, f2, new, f1, cps, 0, IF_AFP1 | IF_AFP2 | IF_AFP3)
/* COMPARE */
C(0x1900, CR, RR_a, Z, r1_o, r2_o, 0, 0, 0, cmps32)
C(0x5900, C, RX_a, Z, r1_o, m2_32s, 0, 0, 0, cmps32)
C(0xe359, CY, RXY_a, LD, r1_o, m2_32s, 0, 0, 0, cmps32)
C(0xb920, CGR, RRE, Z, r1_o, r2_o, 0, 0, 0, cmps64)
C(0xb930, CGFR, RRE, Z, r1_o, r2_32s, 0, 0, 0, cmps64)
C(0xe320, CG, RXY_a, Z, r1_o, m2_64, 0, 0, 0, cmps64)
C(0xe330, CGF, RXY_a, Z, r1_o, m2_32s, 0, 0, 0, cmps64)
F(0xb309, CEBR, RRE, Z, e1, e2, 0, 0, ceb, 0, IF_BFP)
F(0xb319, CDBR, RRE, Z, f1, f2, 0, 0, cdb, 0, IF_BFP)
F(0xb349, CXBR, RRE, Z, x2h, x2l, x1, 0, cxb, 0, IF_BFP)
F(0xed09, CEB, RXE, Z, e1, m2_32u, 0, 0, ceb, 0, IF_BFP)
F(0xed19, CDB, RXE, Z, f1, m2_64, 0, 0, cdb, 0, IF_BFP)
/* COMPARE AND SIGNAL */
F(0xb308, KEBR, RRE, Z, e1, e2, 0, 0, keb, 0, IF_BFP)
F(0xb318, KDBR, RRE, Z, f1, f2, 0, 0, kdb, 0, IF_BFP)
F(0xb348, KXBR, RRE, Z, x2h, x2l, x1, 0, kxb, 0, IF_BFP)
F(0xed08, KEB, RXE, Z, e1, m2_32u, 0, 0, keb, 0, IF_BFP)
F(0xed18, KDB, RXE, Z, f1, m2_64, 0, 0, kdb, 0, IF_BFP)
/* COMPARE IMMEDIATE */
C(0xc20d, CFI, RIL_a, EI, r1, i2, 0, 0, 0, cmps32)
C(0xc20c, CGFI, RIL_a, EI, r1, i2, 0, 0, 0, cmps64)
/* COMPARE RELATIVE LONG */
C(0xc60d, CRL, RIL_b, GIE, r1, mri2_32s, 0, 0, 0, cmps32)
C(0xc608, CGRL, RIL_b, GIE, r1, mri2_64, 0, 0, 0, cmps64)
C(0xc60c, CGFRL, RIL_b, GIE, r1, mri2_32s, 0, 0, 0, cmps64)
/* COMPARE HALFWORD */
C(0x4900, CH, RX_a, Z, r1_o, m2_16s, 0, 0, 0, cmps32)
C(0xe379, CHY, RXY_a, LD, r1_o, m2_16s, 0, 0, 0, cmps32)
C(0xe334, CGH, RXY_a, GIE, r1_o, m2_16s, 0, 0, 0, cmps64)
/* COMPARE HALFWORD IMMEDIATE */
C(0xa70e, CHI, RI_a, Z, r1_o, i2, 0, 0, 0, cmps32)
C(0xa70f, CGHI, RI_a, Z, r1_o, i2, 0, 0, 0, cmps64)
C(0xe554, CHHSI, SIL, GIE, m1_16s, i2, 0, 0, 0, cmps64)
C(0xe55c, CHSI, SIL, GIE, m1_32s, i2, 0, 0, 0, cmps64)
C(0xe558, CGHSI, SIL, GIE, m1_64, i2, 0, 0, 0, cmps64)
/* COMPARE HALFWORD RELATIVE LONG */
C(0xc605, CHRL, RIL_b, GIE, r1_o, mri2_32s, 0, 0, 0, cmps32)
C(0xc604, CGHRL, RIL_b, GIE, r1_o, mri2_64, 0, 0, 0, cmps64)
/* COMPARE HIGH */
C(0xb9cd, CHHR, RRE, HW, r1_sr32, r2_sr32, 0, 0, 0, cmps32)
C(0xb9dd, CHLR, RRE, HW, r1_sr32, r2_o, 0, 0, 0, cmps32)
C(0xe3cd, CHF, RXY_a, HW, r1_sr32, m2_32s, 0, 0, 0, cmps32)
/* COMPARE IMMEDIATE HIGH */
C(0xcc0d, CIH, RIL_a, HW, r1_sr32, i2, 0, 0, 0, cmps32)
/* COMPARE LOGICAL */
C(0x1500, CLR, RR_a, Z, r1, r2, 0, 0, 0, cmpu32)
C(0x5500, CL, RX_a, Z, r1, m2_32s, 0, 0, 0, cmpu32)
C(0xe355, CLY, RXY_a, LD, r1, m2_32s, 0, 0, 0, cmpu32)
C(0xb921, CLGR, RRE, Z, r1, r2, 0, 0, 0, cmpu64)
C(0xb931, CLGFR, RRE, Z, r1, r2_32u, 0, 0, 0, cmpu64)
C(0xe321, CLG, RXY_a, Z, r1, m2_64, 0, 0, 0, cmpu64)
C(0xe331, CLGF, RXY_a, Z, r1, m2_32u, 0, 0, 0, cmpu64)
C(0xd500, CLC, SS_a, Z, la1, a2, 0, 0, clc, 0)
/* COMPARE LOGICAL HIGH */
C(0xb9cf, CLHHR, RRE, HW, r1_sr32, r2_sr32, 0, 0, 0, cmpu32)
C(0xb9df, CLHLR, RRE, HW, r1_sr32, r2_o, 0, 0, 0, cmpu32)
C(0xe3cf, CLHF, RXY_a, HW, r1_sr32, m2_32s, 0, 0, 0, cmpu32)
/* COMPARE LOGICAL IMMEDIATE */
C(0xc20f, CLFI, RIL_a, EI, r1, i2, 0, 0, 0, cmpu32)
C(0xc20e, CLGFI, RIL_a, EI, r1, i2_32u, 0, 0, 0, cmpu64)
C(0x9500, CLI, SI, Z, m1_8u, i2_8u, 0, 0, 0, cmpu64)
C(0xeb55, CLIY, SIY, LD, m1_8u, i2_8u, 0, 0, 0, cmpu64)
C(0xe555, CLHHSI, SIL, GIE, m1_16u, i2_16u, 0, 0, 0, cmpu64)
C(0xe55d, CLFHSI, SIL, GIE, m1_32u, i2_16u, 0, 0, 0, cmpu64)
C(0xe559, CLGHSI, SIL, GIE, m1_64, i2_16u, 0, 0, 0, cmpu64)
/* COMPARE LOGICAL IMMEDIATE HIGH */
C(0xcc0f, CLIH, RIL_a, HW, r1_sr32, i2, 0, 0, 0, cmpu32)
/* COMPARE LOGICAL RELATIVE LONG */
C(0xc60f, CLRL, RIL_b, GIE, r1_o, mri2_32u, 0, 0, 0, cmpu32)
C(0xc60a, CLGRL, RIL_b, GIE, r1_o, mri2_64, 0, 0, 0, cmpu64)
C(0xc60e, CLGFRL, RIL_b, GIE, r1_o, mri2_32u, 0, 0, 0, cmpu64)
C(0xc607, CLHRL, RIL_b, GIE, r1_o, mri2_16u, 0, 0, 0, cmpu32)
C(0xc606, CLGHRL, RIL_b, GIE, r1_o, mri2_16u, 0, 0, 0, cmpu64)
/* COMPARE LOGICAL LONG */
C(0x0f00, CLCL, RR_a, Z, 0, 0, 0, 0, clcl, 0)
/* COMPARE LOGICAL LONG EXTENDED */
C(0xa900, CLCLE, RS_a, Z, 0, a2, 0, 0, clcle, 0)
/* COMPARE LOGICAL LONG UNICODE */
C(0xeb8f, CLCLU, RSY_a, E2, 0, a2, 0, 0, clclu, 0)
/* COMPARE LOGICAL CHARACTERS UNDER MASK */
C(0xbd00, CLM, RS_b, Z, r1_o, a2, 0, 0, clm, 0)
C(0xeb21, CLMY, RSY_b, LD, r1_o, a2, 0, 0, clm, 0)
C(0xeb20, CLMH, RSY_b, Z, r1_sr32, a2, 0, 0, clm, 0)
/* COMPARE LOGICAL STRING */
C(0xb25d, CLST, RRE, Z, r1_o, r2_o, 0, 0, clst, 0)
/* COMPARE AND BRANCH */
D(0xecf6, CRB, RRS, GIE, r1_32s, r2_32s, 0, 0, cj, 0, 0)
D(0xece4, CGRB, RRS, GIE, r1_o, r2_o, 0, 0, cj, 0, 0)
D(0xec76, CRJ, RIE_b, GIE, r1_32s, r2_32s, 0, 0, cj, 0, 0)
D(0xec64, CGRJ, RIE_b, GIE, r1_o, r2_o, 0, 0, cj, 0, 0)
D(0xecfe, CIB, RIS, GIE, r1_32s, i2, 0, 0, cj, 0, 0)
D(0xecfc, CGIB, RIS, GIE, r1_o, i2, 0, 0, cj, 0, 0)
D(0xec7e, CIJ, RIE_c, GIE, r1_32s, i2, 0, 0, cj, 0, 0)
D(0xec7c, CGIJ, RIE_c, GIE, r1_o, i2, 0, 0, cj, 0, 0)
/* COMPARE LOGICAL AND BRANCH */
D(0xecf7, CLRB, RRS, GIE, r1_32u, r2_32u, 0, 0, cj, 0, 1)
D(0xece5, CLGRB, RRS, GIE, r1_o, r2_o, 0, 0, cj, 0, 1)
D(0xec77, CLRJ, RIE_b, GIE, r1_32u, r2_32u, 0, 0, cj, 0, 1)
D(0xec65, CLGRJ, RIE_b, GIE, r1_o, r2_o, 0, 0, cj, 0, 1)
D(0xecff, CLIB, RIS, GIE, r1_32u, i2_8u, 0, 0, cj, 0, 1)
D(0xecfd, CLGIB, RIS, GIE, r1_o, i2_8u, 0, 0, cj, 0, 1)
D(0xec7f, CLIJ, RIE_c, GIE, r1_32u, i2_8u, 0, 0, cj, 0, 1)
D(0xec7d, CLGIJ, RIE_c, GIE, r1_o, i2_8u, 0, 0, cj, 0, 1)
/* COMPARE AND SWAP */
D(0xba00, CS, RS_a, Z, r3_32u, r1_32u, new, r1_32, cs, 0, MO_TEUL)
D(0xeb14, CSY, RSY_a, LD, r3_32u, r1_32u, new, r1_32, cs, 0, MO_TEUL)
D(0xeb30, CSG, RSY_a, Z, r3_o, r1_o, new, r1, cs, 0, MO_TEUQ)
/* COMPARE DOUBLE AND SWAP */
D(0xbb00, CDS, RS_a, Z, r3_D32, r1_D32, new, r1_D32, cs, 0, MO_TEUQ)
D(0xeb31, CDSY, RSY_a, LD, r3_D32, r1_D32, new, r1_D32, cs, 0, MO_TEUQ)
C(0xeb3e, CDSG, RSY_a, Z, 0, 0, 0, 0, cdsg, 0)
/* COMPARE AND SWAP AND STORE */
C(0xc802, CSST, SSF, CASS, la1, a2, 0, 0, csst, 0)
/* COMPARE AND TRAP */
D(0xb972, CRT, RRF_c, GIE, r1_32s, r2_32s, 0, 0, ct, 0, 0)
D(0xb960, CGRT, RRF_c, GIE, r1_o, r2_o, 0, 0, ct, 0, 0)
D(0xec72, CIT, RIE_a, GIE, r1_32s, i2, 0, 0, ct, 0, 0)
D(0xec70, CGIT, RIE_a, GIE, r1_o, i2, 0, 0, ct, 0, 0)
/* COMPARE LOGICAL AND TRAP */
D(0xb973, CLRT, RRF_c, GIE, r1_32u, r2_32u, 0, 0, ct, 0, 1)
D(0xb961, CLGRT, RRF_c, GIE, r1_o, r2_o, 0, 0, ct, 0, 1)
D(0xeb23, CLT, RSY_b, MIE, r1_32u, m2_32u, 0, 0, ct, 0, 1)
D(0xeb2b, CLGT, RSY_b, MIE, r1_o, m2_64, 0, 0, ct, 0, 1)
D(0xec73, CLFIT, RIE_a, GIE, r1_32u, i2_16u, 0, 0, ct, 0, 1)
D(0xec71, CLGIT, RIE_a, GIE, r1_o, i2_16u, 0, 0, ct, 0, 1)
/* CONVERT TO DECIMAL */
C(0x4e00, CVD, RX_a, Z, r1_o, a2, 0, 0, cvd, 0)
C(0xe326, CVDY, RXY_a, LD, r1_o, a2, 0, 0, cvd, 0)
/* CONVERT TO FIXED */
F(0xb398, CFEBR, RRF_e, Z, 0, e2, new, r1_32, cfeb, 0, IF_BFP)
F(0xb399, CFDBR, RRF_e, Z, 0, f2, new, r1_32, cfdb, 0, IF_BFP)
F(0xb39a, CFXBR, RRF_e, Z, x2h, x2l, new, r1_32, cfxb, 0, IF_BFP)
F(0xb3a8, CGEBR, RRF_e, Z, 0, e2, r1, 0, cgeb, 0, IF_BFP)
F(0xb3a9, CGDBR, RRF_e, Z, 0, f2, r1, 0, cgdb, 0, IF_BFP)
F(0xb3aa, CGXBR, RRF_e, Z, x2h, x2l, r1, 0, cgxb, 0, IF_BFP)
/* CONVERT FROM FIXED */
F(0xb394, CEFBR, RRF_e, Z, 0, r2_32s, new, e1, cegb, 0, IF_BFP)
F(0xb395, CDFBR, RRF_e, Z, 0, r2_32s, new, f1, cdgb, 0, IF_BFP)
F(0xb396, CXFBR, RRF_e, Z, 0, r2_32s, new_P, x1, cxgb, 0, IF_BFP)
F(0xb3a4, CEGBR, RRF_e, Z, 0, r2_o, new, e1, cegb, 0, IF_BFP)
F(0xb3a5, CDGBR, RRF_e, Z, 0, r2_o, new, f1, cdgb, 0, IF_BFP)
F(0xb3a6, CXGBR, RRF_e, Z, 0, r2_o, new_P, x1, cxgb, 0, IF_BFP)
/* CONVERT TO LOGICAL */
F(0xb39c, CLFEBR, RRF_e, FPE, 0, e2, new, r1_32, clfeb, 0, IF_BFP)
F(0xb39d, CLFDBR, RRF_e, FPE, 0, f2, new, r1_32, clfdb, 0, IF_BFP)
F(0xb39e, CLFXBR, RRF_e, FPE, x2h, x2l, new, r1_32, clfxb, 0, IF_BFP)
F(0xb3ac, CLGEBR, RRF_e, FPE, 0, e2, r1, 0, clgeb, 0, IF_BFP)
F(0xb3ad, CLGDBR, RRF_e, FPE, 0, f2, r1, 0, clgdb, 0, IF_BFP)
F(0xb3ae, CLGXBR, RRF_e, FPE, x2h, x2l, r1, 0, clgxb, 0, IF_BFP)
/* CONVERT FROM LOGICAL */
F(0xb390, CELFBR, RRF_e, FPE, 0, r2_32u, new, e1, celgb, 0, IF_BFP)
F(0xb391, CDLFBR, RRF_e, FPE, 0, r2_32u, new, f1, cdlgb, 0, IF_BFP)
F(0xb392, CXLFBR, RRF_e, FPE, 0, r2_32u, new_P, x1, cxlgb, 0, IF_BFP)
F(0xb3a0, CELGBR, RRF_e, FPE, 0, r2_o, new, e1, celgb, 0, IF_BFP)
F(0xb3a1, CDLGBR, RRF_e, FPE, 0, r2_o, new, f1, cdlgb, 0, IF_BFP)
F(0xb3a2, CXLGBR, RRF_e, FPE, 0, r2_o, new_P, x1, cxlgb, 0, IF_BFP)
/* CONVERT UTF-8 TO UTF-16 */
D(0xb2a7, CU12, RRF_c, Z, 0, 0, 0, 0, cuXX, 0, 12)
/* CONVERT UTF-8 TO UTF-32 */
D(0xb9b0, CU14, RRF_c, ETF3, 0, 0, 0, 0, cuXX, 0, 14)
/* CONVERT UTF-16 to UTF-8 */
D(0xb2a6, CU21, RRF_c, Z, 0, 0, 0, 0, cuXX, 0, 21)
/* CONVERT UTF-16 to UTF-32 */
D(0xb9b1, CU24, RRF_c, ETF3, 0, 0, 0, 0, cuXX, 0, 24)
/* CONVERT UTF-32 to UTF-8 */
D(0xb9b2, CU41, RRF_c, ETF3, 0, 0, 0, 0, cuXX, 0, 41)
/* CONVERT UTF-32 to UTF-16 */
D(0xb9b3, CU42, RRF_c, ETF3, 0, 0, 0, 0, cuXX, 0, 42)
/* DIVIDE */
C(0x1d00, DR, RR_a, Z, r1_D32, r2_32s, new_P, r1_P32, divs32, 0)
C(0x5d00, D, RX_a, Z, r1_D32, m2_32s, new_P, r1_P32, divs32, 0)
F(0xb30d, DEBR, RRE, Z, e1, e2, new, e1, deb, 0, IF_BFP)
F(0xb31d, DDBR, RRE, Z, f1, f2, new, f1, ddb, 0, IF_BFP)
F(0xb34d, DXBR, RRE, Z, x2h, x2l, x1, x1, dxb, 0, IF_BFP)
F(0xed0d, DEB, RXE, Z, e1, m2_32u, new, e1, deb, 0, IF_BFP)
F(0xed1d, DDB, RXE, Z, f1, m2_64, new, f1, ddb, 0, IF_BFP)
/* DIVIDE LOGICAL */
C(0xb997, DLR, RRE, Z, r1_D32, r2_32u, new_P, r1_P32, divu32, 0)
C(0xe397, DL, RXY_a, Z, r1_D32, m2_32u, new_P, r1_P32, divu32, 0)
C(0xb987, DLGR, RRE, Z, 0, r2_o, r1_P, 0, divu64, 0)
C(0xe387, DLG, RXY_a, Z, 0, m2_64, r1_P, 0, divu64, 0)
/* DIVIDE SINGLE */
C(0xb90d, DSGR, RRE, Z, r1p1, r2, r1_P, 0, divs64, 0)
C(0xb91d, DSGFR, RRE, Z, r1p1, r2_32s, r1_P, 0, divs64, 0)
C(0xe30d, DSG, RXY_a, Z, r1p1, m2_64, r1_P, 0, divs64, 0)
C(0xe31d, DSGF, RXY_a, Z, r1p1, m2_32s, r1_P, 0, divs64, 0)
/* EXCLUSIVE OR */
C(0x1700, XR, RR_a, Z, r1, r2, new, r1_32, xor, nz32)
C(0xb9f7, XRK, RRF_a, DO, r2, r3, new, r1_32, xor, nz32)
C(0x5700, X, RX_a, Z, r1, m2_32s, new, r1_32, xor, nz32)
C(0xe357, XY, RXY_a, LD, r1, m2_32s, new, r1_32, xor, nz32)
C(0xb982, XGR, RRE, Z, r1, r2, r1, 0, xor, nz64)
C(0xb9e7, XGRK, RRF_a, DO, r2, r3, r1, 0, xor, nz64)
C(0xe382, XG, RXY_a, Z, r1, m2_64, r1, 0, xor, nz64)
C(0xd700, XC, SS_a, Z, 0, 0, 0, 0, xc, 0)
/* EXCLUSIVE OR IMMEDIATE */
D(0xc006, XIHF, RIL_a, EI, r1_o, i2_32u, r1, 0, xori, 0, 0x2020)
D(0xc007, XILF, RIL_a, EI, r1_o, i2_32u, r1, 0, xori, 0, 0x2000)
D(0x9700, XI, SI, Z, la1, i2_8u, new, 0, xi, nz64, MO_UB)
D(0xeb57, XIY, SIY, LD, la1, i2_8u, new, 0, xi, nz64, MO_UB)
/* EXECUTE */
C(0x4400, EX, RX_a, Z, 0, a2, 0, 0, ex, 0)
/* EXECUTE RELATIVE LONG */
C(0xc600, EXRL, RIL_b, EE, 0, ri2, 0, 0, ex, 0)
/* EXTRACT ACCESS */
C(0xb24f, EAR, RRE, Z, 0, 0, new, r1_32, ear, 0)
/* EXTRACT CPU ATTRIBUTE */
C(0xeb4c, ECAG, RSY_a, GIE, 0, a2, r1, 0, ecag, 0)
/* EXTRACT CPU TIME */
F(0xc801, ECTG, SSF, ECT, 0, 0, 0, 0, ectg, 0, IF_IO)
/* EXTRACT FPC */
F(0xb38c, EFPC, RRE, Z, 0, 0, new, r1_32, efpc, 0, IF_BFP)
/* EXTRACT PSW */
C(0xb98d, EPSW, RRE, Z, 0, 0, 0, 0, epsw, 0)
/* FIND LEFTMOST ONE */
C(0xb983, FLOGR, RRE, EI, 0, r2_o, r1_P, 0, flogr, 0)
/* INSERT CHARACTER */
C(0x4300, IC, RX_a, Z, 0, m2_8u, 0, r1_8, mov2, 0)
C(0xe373, ICY, RXY_a, LD, 0, m2_8u, 0, r1_8, mov2, 0)
/* INSERT CHARACTERS UNDER MASK */
D(0xbf00, ICM, RS_b, Z, 0, a2, r1, 0, icm, 0, 0)
D(0xeb81, ICMY, RSY_b, LD, 0, a2, r1, 0, icm, 0, 0)
D(0xeb80, ICMH, RSY_b, Z, 0, a2, r1, 0, icm, 0, 32)
/* INSERT IMMEDIATE */
D(0xc008, IIHF, RIL_a, EI, r1_o, i2_32u, r1, 0, insi, 0, 0x2020)
D(0xc009, IILF, RIL_a, EI, r1_o, i2_32u, r1, 0, insi, 0, 0x2000)
D(0xa500, IIHH, RI_a, Z, r1_o, i2_16u, r1, 0, insi, 0, 0x1030)
D(0xa501, IIHL, RI_a, Z, r1_o, i2_16u, r1, 0, insi, 0, 0x1020)
D(0xa502, IILH, RI_a, Z, r1_o, i2_16u, r1, 0, insi, 0, 0x1010)
D(0xa503, IILL, RI_a, Z, r1_o, i2_16u, r1, 0, insi, 0, 0x1000)
/* INSERT PROGRAM MASK */
C(0xb222, IPM, RRE, Z, 0, 0, r1, 0, ipm, 0)
/* LOAD */
C(0x1800, LR, RR_a, Z, 0, r2_o, 0, cond_r1r2_32, mov2, 0)
C(0x5800, L, RX_a, Z, 0, a2, new, r1_32, ld32s, 0)
C(0xe358, LY, RXY_a, LD, 0, a2, new, r1_32, ld32s, 0)
C(0xb904, LGR, RRE, Z, 0, r2_o, 0, r1, mov2, 0)
C(0xb914, LGFR, RRE, Z, 0, r2_32s, 0, r1, mov2, 0)
C(0xe304, LG, RXY_a, Z, 0, a2, r1, 0, ld64, 0)
C(0xe314, LGF, RXY_a, Z, 0, a2, r1, 0, ld32s, 0)
F(0x2800, LDR, RR_a, Z, 0, f2, 0, f1, mov2, 0, IF_AFP1 | IF_AFP2)
F(0x6800, LD, RX_a, Z, 0, m2_64, 0, f1, mov2, 0, IF_AFP1)
F(0xed65, LDY, RXY_a, LD, 0, m2_64, 0, f1, mov2, 0, IF_AFP1)
F(0x3800, LER, RR_a, Z, 0, e2, 0, cond_e1e2, mov2, 0, IF_AFP1 | IF_AFP2)
F(0x7800, LE, RX_a, Z, 0, m2_32u, 0, e1, mov2, 0, IF_AFP1)
F(0xed64, LEY, RXY_a, LD, 0, m2_32u, 0, e1, mov2, 0, IF_AFP1)
F(0xb365, LXR, RRE, Z, x2h, x2l, 0, x1, movx, 0, IF_AFP1)
/* LOAD IMMEDIATE */
C(0xc001, LGFI, RIL_a, EI, 0, i2, 0, r1, mov2, 0)
/* LOAD RELATIVE LONG */
C(0xc40d, LRL, RIL_b, GIE, 0, ri2, new, r1_32, ld32s, 0)
C(0xc408, LGRL, RIL_b, GIE, 0, ri2, r1, 0, ld64, 0)
C(0xc40c, LGFRL, RIL_b, GIE, 0, ri2, r1, 0, ld32s, 0)
/* LOAD ADDRESS */
C(0x4100, LA, RX_a, Z, 0, a2, 0, r1, mov2, 0)
C(0xe371, LAY, RXY_a, LD, 0, a2, 0, r1, mov2, 0)
/* LOAD ADDRESS EXTENDED */
C(0x5100, LAE, RX_a, Z, 0, a2, 0, r1, mov2e, 0)
C(0xe375, LAEY, RXY_a, GIE, 0, a2, 0, r1, mov2e, 0)
/* LOAD ADDRESS RELATIVE LONG */
C(0xc000, LARL, RIL_b, Z, 0, ri2, 0, r1, mov2, 0)
/* LOAD AND ADD */
D(0xebf8, LAA, RSY_a, ILA, r3_32s, a2, new, in2_r1_32, laa, adds32, MO_TESL)
D(0xebe8, LAAG, RSY_a, ILA, r3, a2, new, in2_r1, laa, adds64, MO_TEUQ)
/* LOAD AND ADD LOGICAL */
D(0xebfa, LAAL, RSY_a, ILA, r3_32u, a2, new, in2_r1_32, laa, addu32, MO_TEUL)
D(0xebea, LAALG, RSY_a, ILA, r3, a2, new, in2_r1, laa, addu64, MO_TEUQ)
/* LOAD AND AND */
D(0xebf4, LAN, RSY_a, ILA, r3_32s, a2, new, in2_r1_32, lan, nz32, MO_TESL)
D(0xebe4, LANG, RSY_a, ILA, r3, a2, new, in2_r1, lan, nz64, MO_TEUQ)
/* LOAD AND EXCLUSIVE OR */
D(0xebf7, LAX, RSY_a, ILA, r3_32s, a2, new, in2_r1_32, lax, nz32, MO_TESL)
D(0xebe7, LAXG, RSY_a, ILA, r3, a2, new, in2_r1, lax, nz64, MO_TEUQ)
/* LOAD AND OR */
D(0xebf6, LAO, RSY_a, ILA, r3_32s, a2, new, in2_r1_32, lao, nz32, MO_TESL)
D(0xebe6, LAOG, RSY_a, ILA, r3, a2, new, in2_r1, lao, nz64, MO_TEUQ)
/* LOAD AND TEST */
C(0x1200, LTR, RR_a, Z, 0, r2_o, 0, cond_r1r2_32, mov2, s32)
C(0xb902, LTGR, RRE, Z, 0, r2_o, 0, r1, mov2, s64)
C(0xb912, LTGFR, RRE, Z, 0, r2_32s, 0, r1, mov2, s64)
C(0xe312, LT, RXY_a, EI, 0, a2, new, r1_32, ld32s, s64)
C(0xe302, LTG, RXY_a, EI, 0, a2, r1, 0, ld64, s64)
C(0xe332, LTGF, RXY_a, GIE, 0, a2, r1, 0, ld32s, s64)
F(0xb302, LTEBR, RRE, Z, 0, e2, 0, cond_e1e2, mov2, f32, IF_BFP)
F(0xb312, LTDBR, RRE, Z, 0, f2, 0, f1, mov2, f64, IF_BFP)
F(0xb342, LTXBR, RRE, Z, x2h, x2l, 0, x1, movx, f128, IF_BFP)
/* LOAD AND TRAP */
C(0xe39f, LAT, RXY_a, LAT, 0, m2_32u, r1, 0, lat, 0)
C(0xe385, LGAT, RXY_a, LAT, 0, a2, r1, 0, lgat, 0)
/* LOAD AND ZERO RIGHTMOST BYTE */
C(0xe33b, LZRF, RXY_a, LZRB, 0, m2_32u, new, r1_32, lzrb, 0)
C(0xe32a, LZRG, RXY_a, LZRB, 0, m2_64, r1, 0, lzrb, 0)
/* LOAD LOGICAL AND ZERO RIGHTMOST BYTE */
C(0xe33a, LLZRGF, RXY_a, LZRB, 0, m2_32u, r1, 0, lzrb, 0)
/* LOAD BYTE */
C(0xb926, LBR, RRE, EI, 0, r2_8s, 0, r1_32, mov2, 0)
C(0xb906, LGBR, RRE, EI, 0, r2_8s, 0, r1, mov2, 0)
C(0xe376, LB, RXY_a, LD, 0, a2, new, r1_32, ld8s, 0)
C(0xe377, LGB, RXY_a, LD, 0, a2, r1, 0, ld8s, 0)
/* LOAD BYTE HIGH */
C(0xe3c0, LBH, RXY_a, HW, 0, a2, new, r1_32h, ld8s, 0)
/* LOAD COMPLEMENT */
C(0x1300, LCR, RR_a, Z, 0, r2, new, r1_32, neg, neg32)
C(0xb903, LCGR, RRE, Z, 0, r2, r1, 0, neg, neg64)
C(0xb913, LCGFR, RRE, Z, 0, r2_32s, r1, 0, neg, neg64)
F(0xb303, LCEBR, RRE, Z, 0, e2, new, e1, negf32, f32, IF_BFP)
F(0xb313, LCDBR, RRE, Z, 0, f2, new, f1, negf64, f64, IF_BFP)
F(0xb343, LCXBR, RRE, Z, x2h, x2l, new_P, x1, negf128, f128, IF_BFP)
F(0xb373, LCDFR, RRE, FPSSH, 0, f2, new, f1, negf64, 0, IF_AFP1 | IF_AFP2)
/* LOAD COUNT TO BLOCK BOUNDARY */
C(0xe727, LCBB, RXE, V, la2, 0, r1, 0, lcbb, 0)
/* LOAD HALFWORD */
C(0xb927, LHR, RRE, EI, 0, r2_16s, 0, r1_32, mov2, 0)
C(0xb907, LGHR, RRE, EI, 0, r2_16s, 0, r1, mov2, 0)
C(0x4800, LH, RX_a, Z, 0, a2, new, r1_32, ld16s, 0)
C(0xe378, LHY, RXY_a, LD, 0, a2, new, r1_32, ld16s, 0)
C(0xe315, LGH, RXY_a, Z, 0, a2, r1, 0, ld16s, 0)
/* LOAD HALFWORD HIGH */
C(0xe3c4, LHH, RXY_a, HW, 0, a2, new, r1_32h, ld16s, 0)
/* LOAD HALFWORD IMMEDIATE */
C(0xa708, LHI, RI_a, Z, 0, i2, 0, r1_32, mov2, 0)
C(0xa709, LGHI, RI_a, Z, 0, i2, 0, r1, mov2, 0)
/* LOAD HALFWORD RELATIVE LONG */
C(0xc405, LHRL, RIL_b, GIE, 0, ri2, new, r1_32, ld16s, 0)
C(0xc404, LGHRL, RIL_b, GIE, 0, ri2, r1, 0, ld16s, 0)
/* LOAD HIGH */
C(0xe3ca, LFH, RXY_a, HW, 0, a2, new, r1_32h, ld32u, 0)
/* LOAG HIGH AND TRAP */
C(0xe3c8, LFHAT, RXY_a, LAT, 0, m2_32u, r1, 0, lfhat, 0)
/* LOAD LOGICAL */
C(0xb916, LLGFR, RRE, Z, 0, r2_32u, 0, r1, mov2, 0)
C(0xe316, LLGF, RXY_a, Z, 0, a2, r1, 0, ld32u, 0)
/* LOAD LOGICAL AND TRAP */
C(0xe39d, LLGFAT, RXY_a, LAT, 0, a2, r1, 0, llgfat, 0)
/* LOAD LOGICAL RELATIVE LONG */
C(0xc40e, LLGFRL, RIL_b, GIE, 0, ri2, r1, 0, ld32u, 0)
/* LOAD LOGICAL CHARACTER */
C(0xb994, LLCR, RRE, EI, 0, r2_8u, 0, r1_32, mov2, 0)
C(0xb984, LLGCR, RRE, EI, 0, r2_8u, 0, r1, mov2, 0)
C(0xe394, LLC, RXY_a, EI, 0, a2, new, r1_32, ld8u, 0)
C(0xe390, LLGC, RXY_a, Z, 0, a2, r1, 0, ld8u, 0)
/* LOAD LOGICAL CHARACTER HIGH */
C(0xe3c2, LLCH, RXY_a, HW, 0, a2, new, r1_32h, ld8u, 0)
/* LOAD LOGICAL HALFWORD */
C(0xb995, LLHR, RRE, EI, 0, r2_16u, 0, r1_32, mov2, 0)
C(0xb985, LLGHR, RRE, EI, 0, r2_16u, 0, r1, mov2, 0)
C(0xe395, LLH, RXY_a, EI, 0, a2, new, r1_32, ld16u, 0)
C(0xe391, LLGH, RXY_a, Z, 0, a2, r1, 0, ld16u, 0)
/* LOAD LOGICAL HALFWORD HIGH */
C(0xe3c6, LLHH, RXY_a, HW, 0, a2, new, r1_32h, ld16u, 0)
/* LOAD LOGICAL HALFWORD RELATIVE LONG */
C(0xc402, LLHRL, RIL_b, GIE, 0, ri2, new, r1_32, ld16u, 0)
C(0xc406, LLGHRL, RIL_b, GIE, 0, ri2, r1, 0, ld16u, 0)
/* LOAD LOGICAL IMMEDATE */
D(0xc00e, LLIHF, RIL_a, EI, 0, i2_32u_shl, 0, r1, mov2, 0, 32)
D(0xc00f, LLILF, RIL_a, EI, 0, i2_32u_shl, 0, r1, mov2, 0, 0)
D(0xa50c, LLIHH, RI_a, Z, 0, i2_16u_shl, 0, r1, mov2, 0, 48)
D(0xa50d, LLIHL, RI_a, Z, 0, i2_16u_shl, 0, r1, mov2, 0, 32)
D(0xa50e, LLILH, RI_a, Z, 0, i2_16u_shl, 0, r1, mov2, 0, 16)
D(0xa50f, LLILL, RI_a, Z, 0, i2_16u_shl, 0, r1, mov2, 0, 0)
/* LOAD LOGICAL THIRTY ONE BITS */
C(0xb917, LLGTR, RRE, Z, 0, r2_o, r1, 0, llgt, 0)
C(0xe317, LLGT, RXY_a, Z, 0, m2_32u, r1, 0, llgt, 0)
/* LOAD LOGICAL THIRTY ONE BITS AND TRAP */
C(0xe39c, LLGTAT, RXY_a, LAT, 0, m2_32u, r1, 0, llgtat, 0)
/* LOAD FPR FROM GR */
F(0xb3c1, LDGR, RRE, FPRGR, 0, r2_o, 0, f1, mov2, 0, IF_AFP1)
/* LOAD GR FROM FPR */
F(0xb3cd, LGDR, RRE, FPRGR, 0, f2, 0, r1, mov2, 0, IF_AFP2)
/* LOAD NEGATIVE */
C(0x1100, LNR, RR_a, Z, 0, r2_32s, new, r1_32, nabs, nabs32)
C(0xb901, LNGR, RRE, Z, 0, r2, r1, 0, nabs, nabs64)
C(0xb911, LNGFR, RRE, Z, 0, r2_32s, r1, 0, nabs, nabs64)
F(0xb301, LNEBR, RRE, Z, 0, e2, new, e1, nabsf32, f32, IF_BFP)
F(0xb311, LNDBR, RRE, Z, 0, f2, new, f1, nabsf64, f64, IF_BFP)
F(0xb341, LNXBR, RRE, Z, x2h, x2l, new_P, x1, nabsf128, f128, IF_BFP)
F(0xb371, LNDFR, RRE, FPSSH, 0, f2, new, f1, nabsf64, 0, IF_AFP1 | IF_AFP2)
/* LOAD ON CONDITION */
C(0xb9f2, LOCR, RRF_c, LOC, r1, r2, new, r1_32, loc, 0)
C(0xb9e2, LOCGR, RRF_c, LOC, r1, r2, r1, 0, loc, 0)
C(0xebf2, LOC, RSY_b, LOC, r1, m2_32u, new, r1_32, loc, 0)
C(0xebe2, LOCG, RSY_b, LOC, r1, m2_64, r1, 0, loc, 0)
/* LOAD HALFWORD IMMEDIATE ON CONDITION */
C(0xec42, LOCHI, RIE_g, LOC2, r1, i2, new, r1_32, loc, 0)
C(0xec46, LOCGHI, RIE_g, LOC2, r1, i2, r1, 0, loc, 0)
C(0xec4e, LOCHHI, RIE_g, LOC2, r1_sr32, i2, new, r1_32h, loc, 0)
/* LOAD HIGH ON CONDITION */
C(0xb9e0, LOCFHR, RRF_c, LOC2, r1_sr32, r2, new, r1_32h, loc, 0)
C(0xebe0, LOCFH, RSY_b, LOC2, r1_sr32, m2_32u, new, r1_32h, loc, 0)
/* LOAD PAIR DISJOINT */
D(0xc804, LPD, SSF, ILA, 0, 0, new_P, r3_P32, lpd, 0, MO_TEUL)
D(0xc805, LPDG, SSF, ILA, 0, 0, new_P, r3_P64, lpd, 0, MO_TEUQ)
/* LOAD PAIR FROM QUADWORD */
C(0xe38f, LPQ, RXY_a, Z, 0, a2, r1_P, 0, lpq, 0)
/* LOAD POSITIVE */
C(0x1000, LPR, RR_a, Z, 0, r2_32s, new, r1_32, abs, abs32)
C(0xb900, LPGR, RRE, Z, 0, r2, r1, 0, abs, abs64)
C(0xb910, LPGFR, RRE, Z, 0, r2_32s, r1, 0, abs, abs64)
F(0xb300, LPEBR, RRE, Z, 0, e2, new, e1, absf32, f32, IF_BFP)
F(0xb310, LPDBR, RRE, Z, 0, f2, new, f1, absf64, f64, IF_BFP)
F(0xb340, LPXBR, RRE, Z, x2h, x2l, new_P, x1, absf128, f128, IF_BFP)
F(0xb370, LPDFR, RRE, FPSSH, 0, f2, new, f1, absf64, 0, IF_AFP1 | IF_AFP2)
/* LOAD REVERSED */
C(0xb91f, LRVR, RRE, Z, 0, r2_32u, new, r1_32, rev32, 0)
C(0xb90f, LRVGR, RRE, Z, 0, r2_o, r1, 0, rev64, 0)
C(0xe31f, LRVH, RXY_a, Z, 0, m2_16u, new, r1_16, rev16, 0)
C(0xe31e, LRV, RXY_a, Z, 0, m2_32u, new, r1_32, rev32, 0)
C(0xe30f, LRVG, RXY_a, Z, 0, m2_64, r1, 0, rev64, 0)
/* LOAD ZERO */
F(0xb374, LZER, RRE, Z, 0, 0, 0, e1, zero, 0, IF_AFP1)
F(0xb375, LZDR, RRE, Z, 0, 0, 0, f1, zero, 0, IF_AFP1)
F(0xb376, LZXR, RRE, Z, 0, 0, 0, x1, zero2, 0, IF_AFP1)
/* LOAD FPC */
F(0xb29d, LFPC, S, Z, 0, m2_32u, 0, 0, sfpc, 0, IF_BFP)
/* LOAD FPC AND SIGNAL */
F(0xb2bd, LFAS, S, IEEEE_SIM, 0, m2_32u, 0, 0, sfas, 0, IF_DFP)
/* LOAD FP INTEGER */
F(0xb357, FIEBR, RRF_e, Z, 0, e2, new, e1, fieb, 0, IF_BFP)
F(0xb35f, FIDBR, RRF_e, Z, 0, f2, new, f1, fidb, 0, IF_BFP)
F(0xb347, FIXBR, RRF_e, Z, x2h, x2l, new_P, x1, fixb, 0, IF_BFP)
/* LOAD LENGTHENED */
F(0xb304, LDEBR, RRE, Z, 0, e2, new, f1, ldeb, 0, IF_BFP)
F(0xb305, LXDBR, RRE, Z, 0, f2, new_P, x1, lxdb, 0, IF_BFP)
F(0xb306, LXEBR, RRE, Z, 0, e2, new_P, x1, lxeb, 0, IF_BFP)
F(0xed04, LDEB, RXE, Z, 0, m2_32u, new, f1, ldeb, 0, IF_BFP)
F(0xed05, LXDB, RXE, Z, 0, m2_64, new_P, x1, lxdb, 0, IF_BFP)
F(0xed06, LXEB, RXE, Z, 0, m2_32u, new_P, x1, lxeb, 0, IF_BFP)
F(0xb324, LDER, RXE, Z, 0, e2, new, f1, lde, 0, IF_AFP1)
F(0xed24, LDE, RXE, Z, 0, m2_32u, new, f1, lde, 0, IF_AFP1)
/* LOAD ROUNDED */
F(0xb344, LEDBR, RRF_e, Z, 0, f2, new, e1, ledb, 0, IF_BFP)
F(0xb345, LDXBR, RRF_e, Z, x2h, x2l, new, f1, ldxb, 0, IF_BFP)
F(0xb346, LEXBR, RRF_e, Z, x2h, x2l, new, e1, lexb, 0, IF_BFP)
/* LOAD MULTIPLE */
C(0x9800, LM, RS_a, Z, 0, a2, 0, 0, lm32, 0)
C(0xeb98, LMY, RSY_a, LD, 0, a2, 0, 0, lm32, 0)
C(0xeb04, LMG, RSY_a, Z, 0, a2, 0, 0, lm64, 0)
/* LOAD MULTIPLE HIGH */
C(0xeb96, LMH, RSY_a, Z, 0, a2, 0, 0, lmh, 0)
/* LOAD ACCESS MULTIPLE */
C(0x9a00, LAM, RS_a, Z, 0, a2, 0, 0, lam, 0)
C(0xeb9a, LAMY, RSY_a, LD, 0, a2, 0, 0, lam, 0)
/* MONITOR CALL */
C(0xaf00, MC, SI, Z, la1, 0, 0, 0, mc, 0)
/* MOVE */
C(0xd200, MVC, SS_a, Z, la1, a2, 0, 0, mvc, 0)
C(0xe544, MVHHI, SIL, GIE, la1, i2, 0, m1_16, mov2, 0)
C(0xe54c, MVHI, SIL, GIE, la1, i2, 0, m1_32, mov2, 0)
C(0xe548, MVGHI, SIL, GIE, la1, i2, 0, m1_64, mov2, 0)
C(0x9200, MVI, SI, Z, la1, i2, 0, m1_8, mov2, 0)
C(0xeb52, MVIY, SIY, LD, la1, i2, 0, m1_8, mov2, 0)
/* MOVE INVERSE */
C(0xe800, MVCIN, SS_a, Z, la1, a2, 0, 0, mvcin, 0)
/* MOVE LONG */
C(0x0e00, MVCL, RR_a, Z, 0, 0, 0, 0, mvcl, 0)
/* MOVE LONG EXTENDED */
C(0xa800, MVCLE, RS_a, Z, 0, a2, 0, 0, mvcle, 0)
/* MOVE LONG UNICODE */
C(0xeb8e, MVCLU, RSY_a, E2, 0, a2, 0, 0, mvclu, 0)
/* MOVE NUMERICS */
C(0xd100, MVN, SS_a, Z, la1, a2, 0, 0, mvn, 0)
/* MOVE RIGHT TO LEFT */
C(0xe50a, MVCRL, SSE, MIE3, la1, a2, 0, 0, mvcrl, 0)
/* MOVE PAGE */
C(0xb254, MVPG, RRE, Z, 0, 0, 0, 0, mvpg, 0)
/* MOVE STRING */
C(0xb255, MVST, RRE, Z, 0, 0, 0, 0, mvst, 0)
/* MOVE WITH OPTIONAL SPECIFICATION */
C(0xc800, MVCOS, SSF, MVCOS, la1, a2, 0, 0, mvcos, 0)
/* MOVE WITH OFFSET */
/* Really format SS_b, but we pack both lengths into one argument
for the helper call, so we might as well leave one 8-bit field. */
C(0xf100, MVO, SS_a, Z, la1, a2, 0, 0, mvo, 0)
/* MOVE ZONES */
C(0xd300, MVZ, SS_a, Z, la1, a2, 0, 0, mvz, 0)
/* MULTIPLY */
C(0x1c00, MR, RR_a, Z, r1p1_32s, r2_32s, new, r1_D32, mul, 0)
C(0xb9ec, MGRK, RRF_a, MIE2,r3_o, r2_o, r1_P, 0, muls128, 0)
C(0x5c00, M, RX_a, Z, r1p1_32s, m2_32s, new, r1_D32, mul, 0)
C(0xe35c, MFY, RXY_a, GIE, r1p1_32s, m2_32s, new, r1_D32, mul, 0)
C(0xe384, MG, RXY_a, MIE2,r1p1_o, m2_64, r1_P, 0, muls128, 0)
F(0xb317, MEEBR, RRE, Z, e1, e2, new, e1, meeb, 0, IF_BFP)
F(0xb31c, MDBR, RRE, Z, f1, f2, new, f1, mdb, 0, IF_BFP)
F(0xb34c, MXBR, RRE, Z, x2h, x2l, x1, x1, mxb, 0, IF_BFP)
F(0xb30c, MDEBR, RRE, Z, f1, e2, new, f1, mdeb, 0, IF_BFP)
F(0xb307, MXDBR, RRE, Z, 0, f2, x1, x1, mxdb, 0, IF_BFP)
F(0xed17, MEEB, RXE, Z, e1, m2_32u, new, e1, meeb, 0, IF_BFP)
F(0xed1c, MDB, RXE, Z, f1, m2_64, new, f1, mdb, 0, IF_BFP)
F(0xed0c, MDEB, RXE, Z, f1, m2_32u, new, f1, mdeb, 0, IF_BFP)
F(0xed07, MXDB, RXE, Z, 0, m2_64, x1, x1, mxdb, 0, IF_BFP)
/* MULTIPLY HALFWORD */
C(0x4c00, MH, RX_a, Z, r1_o, m2_16s, new, r1_32, mul, 0)
C(0xe37c, MHY, RXY_a, GIE, r1_o, m2_16s, new, r1_32, mul, 0)
C(0xe33c, MGH, RXY_a, MIE2,r1_o, m2_16s, r1, 0, mul, 0)
/* MULTIPLY HALFWORD IMMEDIATE */
C(0xa70c, MHI, RI_a, Z, r1_o, i2, new, r1_32, mul, 0)
C(0xa70d, MGHI, RI_a, Z, r1_o, i2, r1, 0, mul, 0)
/* MULTIPLY LOGICAL */
C(0xb996, MLR, RRE, Z, r1p1_32u, r2_32u, new, r1_D32, mul, 0)
C(0xe396, ML, RXY_a, Z, r1p1_32u, m2_32u, new, r1_D32, mul, 0)
C(0xb986, MLGR, RRE, Z, r1p1, r2_o, r1_P, 0, mul128, 0)
C(0xe386, MLG, RXY_a, Z, r1p1, m2_64, r1_P, 0, mul128, 0)
/* MULTIPLY SINGLE */
C(0xb252, MSR, RRE, Z, r1_o, r2_o, new, r1_32, mul, 0)
C(0xb9fd, MSRKC, RRF_a, MIE2,r3_32s, r2_32s, new, r1_32, mul, muls32)
C(0x7100, MS, RX_a, Z, r1_o, m2_32s, new, r1_32, mul, 0)
C(0xe351, MSY, RXY_a, LD, r1_o, m2_32s, new, r1_32, mul, 0)
C(0xe353, MSC, RXY_a, MIE2,r1_32s, m2_32s, new, r1_32, mul, muls32)
C(0xb90c, MSGR, RRE, Z, r1_o, r2_o, r1, 0, mul, 0)
C(0xb9ed, MSGRKC, RRF_a, MIE2,r3_o, r2_o, new_P, out2_r1, muls128, muls64)
C(0xb91c, MSGFR, RRE, Z, r1_o, r2_32s, r1, 0, mul, 0)
C(0xe30c, MSG, RXY_a, Z, r1_o, m2_64, r1, 0, mul, 0)
C(0xe383, MSGC, RXY_a, MIE2,r1_o, m2_64, new_P, out2_r1, muls128, muls64)
C(0xe31c, MSGF, RXY_a, Z, r1_o, m2_32s, r1, 0, mul, 0)
/* MULTIPLY SINGLE IMMEDIATE */
C(0xc201, MSFI, RIL_a, GIE, r1_o, i2, new, r1_32, mul, 0)
C(0xc200, MSGFI, RIL_a, GIE, r1_o, i2, r1, 0, mul, 0)
/* MULTIPLY AND ADD */
F(0xb30e, MAEBR, RRD, Z, e1, e2, new, e1, maeb, 0, IF_BFP)
F(0xb31e, MADBR, RRD, Z, f1, f2, new, f1, madb, 0, IF_BFP)
F(0xed0e, MAEB, RXF, Z, e1, m2_32u, new, e1, maeb, 0, IF_BFP)
F(0xed1e, MADB, RXF, Z, f1, m2_64, new, f1, madb, 0, IF_BFP)
/* MULTIPLY AND SUBTRACT */
F(0xb30f, MSEBR, RRD, Z, e1, e2, new, e1, mseb, 0, IF_BFP)
F(0xb31f, MSDBR, RRD, Z, f1, f2, new, f1, msdb, 0, IF_BFP)
F(0xed0f, MSEB, RXF, Z, e1, m2_32u, new, e1, mseb, 0, IF_BFP)
F(0xed1f, MSDB, RXF, Z, f1, m2_64, new, f1, msdb, 0, IF_BFP)
/* NAND */
C(0xb974, NNRK, RRF_a, MIE3, r2, r3, new, r1_32, nand, nz32)
C(0xb964, NNGRK, RRF_a, MIE3, r2, r3, r1, 0, nand, nz64)
/* NOR */
C(0xb976, NORK, RRF_a, MIE3, r2, r3, new, r1_32, nor, nz32)
C(0xb966, NOGRK, RRF_a, MIE3, r2, r3, r1, 0, nor, nz64)
/* NOT EXCLUSIVE OR */
C(0xb977, NXRK, RRF_a, MIE3, r2, r3, new, r1_32, nxor, nz32)
C(0xb967, NXGRK, RRF_a, MIE3, r2, r3, r1, 0, nxor, nz64)
/* OR */
C(0x1600, OR, RR_a, Z, r1, r2, new, r1_32, or, nz32)
C(0xb9f6, ORK, RRF_a, DO, r2, r3, new, r1_32, or, nz32)
C(0x5600, O, RX_a, Z, r1, m2_32s, new, r1_32, or, nz32)
C(0xe356, OY, RXY_a, LD, r1, m2_32s, new, r1_32, or, nz32)
C(0xb981, OGR, RRE, Z, r1, r2, r1, 0, or, nz64)
C(0xb9e6, OGRK, RRF_a, DO, r2, r3, r1, 0, or, nz64)
C(0xe381, OG, RXY_a, Z, r1, m2_64, r1, 0, or, nz64)
C(0xd600, OC, SS_a, Z, la1, a2, 0, 0, oc, 0)
/* OR IMMEDIATE */
D(0xc00c, OIHF, RIL_a, EI, r1_o, i2_32u, r1, 0, ori, 0, 0x2020)
D(0xc00d, OILF, RIL_a, EI, r1_o, i2_32u, r1, 0, ori, 0, 0x2000)
D(0xa508, OIHH, RI_a, Z, r1_o, i2_16u, r1, 0, ori, 0, 0x1030)
D(0xa509, OIHL, RI_a, Z, r1_o, i2_16u, r1, 0, ori, 0, 0x1020)
D(0xa50a, OILH, RI_a, Z, r1_o, i2_16u, r1, 0, ori, 0, 0x1010)
D(0xa50b, OILL, RI_a, Z, r1_o, i2_16u, r1, 0, ori, 0, 0x1000)
D(0x9600, OI, SI, Z, la1, i2_8u, new, 0, oi, nz64, MO_UB)
D(0xeb56, OIY, SIY, LD, la1, i2_8u, new, 0, oi, nz64, MO_UB)
/* OR WITH COMPLEMENT */
C(0xb975, OCRK, RRF_a, MIE3, r2, r3, new, r1_32, orc, nz32)
C(0xb965, OCGRK, RRF_a, MIE3, r2, r3, r1, 0, orc, nz64)
/* PACK */
/* Really format SS_b, but we pack both lengths into one argument
for the helper call, so we might as well leave one 8-bit field. */
C(0xf200, PACK, SS_a, Z, la1, a2, 0, 0, pack, 0)
/* PACK ASCII */
C(0xe900, PKA, SS_f, E2, la1, a2, 0, 0, pka, 0)
/* PACK UNICODE */
C(0xe100, PKU, SS_f, E2, la1, a2, 0, 0, pku, 0)
/* POPULATION COUNT */
C(0xb9e1, POPCNT, RRF_c, PC, 0, r2_o, r1, 0, popcnt, nz64)
/* PREFETCH */
/* Implemented as nops of course. */
C(0xe336, PFD, RXY_b, GIE, 0, 0, 0, 0, 0, 0)
C(0xc602, PFDRL, RIL_c, GIE, 0, 0, 0, 0, 0, 0)
/* PERFORM PROCESSOR ASSIST */
/* Implemented as nop of course. */
C(0xb2e8, PPA, RRF_c, PPA, 0, 0, 0, 0, 0, 0)
/* ROTATE LEFT SINGLE LOGICAL */
C(0xeb1d, RLL, RSY_a, Z, r3_o, sh, new, r1_32, rll32, 0)
C(0xeb1c, RLLG, RSY_a, Z, r3_o, sh, r1, 0, rll64, 0)
/* ROTATE THEN INSERT SELECTED BITS */
C(0xec55, RISBG, RIE_f, GIE, 0, r2, r1, 0, risbg, s64)
C(0xec59, RISBGN, RIE_f, MIE, 0, r2, r1, 0, risbg, 0)
C(0xec5d, RISBHG, RIE_f, HW, 0, r2, r1, 0, risbg, 0)
C(0xec51, RISBLG, RIE_f, HW, 0, r2, r1, 0, risbg, 0)
/* ROTATE_THEN <OP> SELECTED BITS */
C(0xec54, RNSBG, RIE_f, GIE, 0, r2, r1, 0, rosbg, 0)
C(0xec56, ROSBG, RIE_f, GIE, 0, r2, r1, 0, rosbg, 0)
C(0xec57, RXSBG, RIE_f, GIE, 0, r2, r1, 0, rosbg, 0)
/* SEARCH STRING */
C(0xb25e, SRST, RRE, Z, 0, 0, 0, 0, srst, 0)
/* SEARCH STRING UNICODE */
C(0xb9be, SRSTU, RRE, ETF3, 0, 0, 0, 0, srstu, 0)
/* SELECT */
C(0xb9f0, SELR, RRF_a, MIE3, r3, r2, new, r1_32, loc, 0)
C(0xb9e3, SELGR, RRF_a, MIE3, r3, r2, r1, 0, loc, 0)
/* SELECT HIGH */
C(0xb9c0, SELFHR, RRF_a, MIE3, r3_sr32, r2_sr32, new, r1_32h, loc, 0)
/* SET ACCESS */
C(0xb24e, SAR, RRE, Z, 0, r2_o, 0, 0, sar, 0)
/* SET ADDRESSING MODE */
D(0x010c, SAM24, E, Z, 0, 0, 0, 0, sam, 0, 0)
D(0x010d, SAM31, E, Z, 0, 0, 0, 0, sam, 0, 1)
D(0x010e, SAM64, E, Z, 0, 0, 0, 0, sam, 0, 3)
/* SET FPC */
F(0xb384, SFPC, RRE, Z, 0, r1_o, 0, 0, sfpc, 0, IF_BFP)
/* SET FPC AND SIGNAL */
F(0xb385, SFASR, RRE, IEEEE_SIM, 0, r1_o, 0, 0, sfas, 0, IF_DFP)
/* SET BFP ROUNDING MODE */
F(0xb299, SRNM, S, Z, la2, 0, 0, 0, srnm, 0, IF_BFP)
F(0xb2b8, SRNMB, S, FPE, la2, 0, 0, 0, srnmb, 0, IF_BFP)
/* SET DFP ROUNDING MODE */
F(0xb2b9, SRNMT, S, DFPR, la2, 0, 0, 0, srnmt, 0, IF_DFP)
/* SET PROGRAM MASK */
C(0x0400, SPM, RR_a, Z, r1, 0, 0, 0, spm, 0)
/* SHIFT LEFT SINGLE */
D(0x8b00, SLA, RS_a, Z, r1, sh, new, r1_32, sla, 0, 31)
D(0xebdd, SLAK, RSY_a, DO, r3, sh, new, r1_32, sla, 0, 31)
D(0xeb0b, SLAG, RSY_a, Z, r3, sh, r1, 0, sla, 0, 63)
/* SHIFT LEFT SINGLE LOGICAL */
C(0x8900, SLL, RS_a, Z, r1_o, sh, new, r1_32, sll, 0)
C(0xebdf, SLLK, RSY_a, DO, r3_o, sh, new, r1_32, sll, 0)
C(0xeb0d, SLLG, RSY_a, Z, r3_o, sh, r1, 0, sll, 0)
/* SHIFT RIGHT SINGLE */
C(0x8a00, SRA, RS_a, Z, r1_32s, sh, new, r1_32, sra, s32)
C(0xebdc, SRAK, RSY_a, DO, r3_32s, sh, new, r1_32, sra, s32)
C(0xeb0a, SRAG, RSY_a, Z, r3_o, sh, r1, 0, sra, s64)
/* SHIFT RIGHT SINGLE LOGICAL */
C(0x8800, SRL, RS_a, Z, r1_32u, sh, new, r1_32, srl, 0)
C(0xebde, SRLK, RSY_a, DO, r3_32u, sh, new, r1_32, srl, 0)
C(0xeb0c, SRLG, RSY_a, Z, r3_o, sh, r1, 0, srl, 0)
/* SHIFT LEFT DOUBLE */
D(0x8f00, SLDA, RS_a, Z, r1_D32, sh, new, r1_D32, sla, 0, 63)
/* SHIFT LEFT DOUBLE LOGICAL */
C(0x8d00, SLDL, RS_a, Z, r1_D32, sh, new, r1_D32, sll, 0)
/* SHIFT RIGHT DOUBLE */
C(0x8e00, SRDA, RS_a, Z, r1_D32, sh, new, r1_D32, sra, s64)
/* SHIFT RIGHT DOUBLE LOGICAL */
C(0x8c00, SRDL, RS_a, Z, r1_D32, sh, new, r1_D32, srl, 0)
/* SQUARE ROOT */
F(0xb314, SQEBR, RRE, Z, 0, e2, new, e1, sqeb, 0, IF_BFP)
F(0xb315, SQDBR, RRE, Z, 0, f2, new, f1, sqdb, 0, IF_BFP)
F(0xb316, SQXBR, RRE, Z, x2h, x2l, new_P, x1, sqxb, 0, IF_BFP)
F(0xed14, SQEB, RXE, Z, 0, m2_32u, new, e1, sqeb, 0, IF_BFP)
F(0xed15, SQDB, RXE, Z, 0, m2_64, new, f1, sqdb, 0, IF_BFP)
/* STORE */
C(0x5000, ST, RX_a, Z, r1_o, a2, 0, 0, st32, 0)
C(0xe350, STY, RXY_a, LD, r1_o, a2, 0, 0, st32, 0)
C(0xe324, STG, RXY_a, Z, r1_o, a2, 0, 0, st64, 0)
F(0x6000, STD, RX_a, Z, f1, a2, 0, 0, st64, 0, IF_AFP1)
F(0xed67, STDY, RXY_a, LD, f1, a2, 0, 0, st64, 0, IF_AFP1)
F(0x7000, STE, RX_a, Z, e1, a2, 0, 0, st32, 0, IF_AFP1)
F(0xed66, STEY, RXY_a, LD, e1, a2, 0, 0, st32, 0, IF_AFP1)
/* STORE RELATIVE LONG */
C(0xc40f, STRL, RIL_b, GIE, r1_o, ri2, 0, 0, st32, 0)
C(0xc40b, STGRL, RIL_b, GIE, r1_o, ri2, 0, 0, st64, 0)
/* STORE CHARACTER */
C(0x4200, STC, RX_a, Z, r1_o, a2, 0, 0, st8, 0)
C(0xe372, STCY, RXY_a, LD, r1_o, a2, 0, 0, st8, 0)
/* STORE CHARACTER HIGH */
C(0xe3c3, STCH, RXY_a, HW, r1_sr32, a2, 0, 0, st8, 0)
/* STORE CHARACTERS UNDER MASK */
D(0xbe00, STCM, RS_b, Z, r1_o, a2, 0, 0, stcm, 0, 0)
D(0xeb2d, STCMY, RSY_b, LD, r1_o, a2, 0, 0, stcm, 0, 0)
D(0xeb2c, STCMH, RSY_b, Z, r1_o, a2, 0, 0, stcm, 0, 32)
/* STORE HALFWORD */
C(0x4000, STH, RX_a, Z, r1_o, a2, 0, 0, st16, 0)
C(0xe370, STHY, RXY_a, LD, r1_o, a2, 0, 0, st16, 0)
/* STORE HALFWORD HIGH */
C(0xe3c7, STHH, RXY_a, HW, r1_sr32, a2, 0, 0, st16, 0)
/* STORE HALFWORD RELATIVE LONG */
C(0xc407, STHRL, RIL_b, GIE, r1_o, ri2, 0, 0, st16, 0)
/* STORE HIGH */
C(0xe3cb, STFH, RXY_a, HW, r1_sr32, a2, 0, 0, st32, 0)
/* STORE ON CONDITION */
D(0xebf3, STOC, RSY_b, LOC, 0, 0, 0, 0, soc, 0, 0)
D(0xebe3, STOCG, RSY_b, LOC, 0, 0, 0, 0, soc, 0, 1)
/* STORE HIGH ON CONDITION */
D(0xebe1, STOCFH, RSY_b, LOC2, 0, 0, 0, 0, soc, 0, 2)
/* STORE REVERSED */
C(0xe33f, STRVH, RXY_a, Z, la2, r1_16u, new, m1_16, rev16, 0)
C(0xe33e, STRV, RXY_a, Z, la2, r1_32u, new, m1_32, rev32, 0)
C(0xe32f, STRVG, RXY_a, Z, la2, r1_o, new, m1_64, rev64, 0)
/* STORE CLOCK */
F(0xb205, STCK, S, Z, la2, 0, new, m1_64, stck, 0, IF_IO)
F(0xb27c, STCKF, S, SCF, la2, 0, new, m1_64, stck, 0, IF_IO)
/* STORE CLOCK EXTENDED */
F(0xb278, STCKE, S, Z, 0, a2, 0, 0, stcke, 0, IF_IO)
/* STORE FACILITY LIST EXTENDED */
C(0xb2b0, STFLE, S, SFLE, 0, a2, 0, 0, stfle, 0)
/* STORE FPC */
F(0xb29c, STFPC, S, Z, 0, a2, new, m2_32, efpc, 0, IF_BFP)
/* STORE MULTIPLE */
D(0x9000, STM, RS_a, Z, 0, a2, 0, 0, stm, 0, 4)
D(0xeb90, STMY, RSY_a, LD, 0, a2, 0, 0, stm, 0, 4)
D(0xeb24, STMG, RSY_a, Z, 0, a2, 0, 0, stm, 0, 8)
/* STORE MULTIPLE HIGH */
C(0xeb26, STMH, RSY_a, Z, 0, a2, 0, 0, stmh, 0)
/* STORE ACCESS MULTIPLE */
C(0x9b00, STAM, RS_a, Z, 0, a2, 0, 0, stam, 0)
C(0xeb9b, STAMY, RSY_a, LD, 0, a2, 0, 0, stam, 0)
/* STORE PAIR TO QUADWORD */
C(0xe38e, STPQ, RXY_a, Z, 0, a2, r1_P, 0, stpq, 0)
/* SUBTRACT */
C(0x1b00, SR, RR_a, Z, r1, r2, new, r1_32, sub, subs32)
C(0xb9f9, SRK, RRF_a, DO, r2, r3, new, r1_32, sub, subs32)
C(0x5b00, S, RX_a, Z, r1, m2_32s, new, r1_32, sub, subs32)
C(0xe35b, SY, RXY_a, LD, r1, m2_32s, new, r1_32, sub, subs32)
C(0xb909, SGR, RRE, Z, r1, r2, r1, 0, sub, subs64)
C(0xb919, SGFR, RRE, Z, r1, r2_32s, r1, 0, sub, subs64)
C(0xb9e9, SGRK, RRF_a, DO, r2, r3, r1, 0, sub, subs64)
C(0xe309, SG, RXY_a, Z, r1, m2_64, r1, 0, sub, subs64)
C(0xe319, SGF, RXY_a, Z, r1, m2_32s, r1, 0, sub, subs64)
F(0xb30b, SEBR, RRE, Z, e1, e2, new, e1, seb, f32, IF_BFP)
F(0xb31b, SDBR, RRE, Z, f1, f2, new, f1, sdb, f64, IF_BFP)
F(0xb34b, SXBR, RRE, Z, x2h, x2l, x1, x1, sxb, f128, IF_BFP)
F(0xed0b, SEB, RXE, Z, e1, m2_32u, new, e1, seb, f32, IF_BFP)
F(0xed1b, SDB, RXE, Z, f1, m2_64, new, f1, sdb, f64, IF_BFP)
/* SUBTRACT HALFWORD */
C(0x4b00, SH, RX_a, Z, r1, m2_16s, new, r1_32, sub, subs32)
C(0xe37b, SHY, RXY_a, LD, r1, m2_16s, new, r1_32, sub, subs32)
C(0xe339, SGH, RXY_a, MIE2,r1, m2_16s, r1, 0, sub, subs64)
/* SUBTRACT HIGH */
C(0xb9c9, SHHHR, RRF_a, HW, r2_sr32, r3_sr32, new, r1_32h, sub, subs32)
C(0xb9d9, SHHLR, RRF_a, HW, r2_sr32, r3, new, r1_32h, sub, subs32)
/* SUBTRACT LOGICAL */
C(0x1f00, SLR, RR_a, Z, r1_32u, r2_32u, new, r1_32, sub, subu32)
C(0xb9fb, SLRK, RRF_a, DO, r2_32u, r3_32u, new, r1_32, sub, subu32)
C(0x5f00, SL, RX_a, Z, r1_32u, m2_32u, new, r1_32, sub, subu32)
C(0xe35f, SLY, RXY_a, LD, r1_32u, m2_32u, new, r1_32, sub, subu32)
C(0xb90b, SLGR, RRE, Z, r1, r2, r1, 0, subu64, subu64)
C(0xb91b, SLGFR, RRE, Z, r1, r2_32u, r1, 0, subu64, subu64)
C(0xb9eb, SLGRK, RRF_a, DO, r2, r3, r1, 0, subu64, subu64)
C(0xe30b, SLG, RXY_a, Z, r1, m2_64, r1, 0, subu64, subu64)
C(0xe31b, SLGF, RXY_a, Z, r1, m2_32u, r1, 0, subu64, subu64)
/* SUBTRACT LOCICAL HIGH */
C(0xb9cb, SLHHHR, RRF_a, HW, r2_sr32, r3_sr32, new, r1_32h, sub, subu32)
C(0xb9db, SLHHLR, RRF_a, HW, r2_sr32, r3_32u, new, r1_32h, sub, subu32)
/* SUBTRACT LOGICAL IMMEDIATE */
C(0xc205, SLFI, RIL_a, EI, r1_32u, i2_32u, new, r1_32, sub, subu32)
C(0xc204, SLGFI, RIL_a, EI, r1, i2_32u, r1, 0, subu64, subu64)
/* SUBTRACT LOGICAL WITH BORROW */
C(0xb999, SLBR, RRE, Z, r1_32u, r2_32u, new, r1_32, subb32, subu32)
C(0xb989, SLBGR, RRE, Z, r1, r2, r1, 0, subb64, subu64)
C(0xe399, SLB, RXY_a, Z, r1_32u, m2_32u, new, r1_32, subb32, subu32)
C(0xe389, SLBG, RXY_a, Z, r1, m2_64, r1, 0, subb64, subu64)
/* SUPERVISOR CALL */
C(0x0a00, SVC, I, Z, 0, 0, 0, 0, svc, 0)
/* TEST ADDRESSING MODE */
C(0x010b, TAM, E, Z, 0, 0, 0, 0, tam, 0)
/* TEST AND SET */
C(0x9300, TS, S, Z, 0, a2, 0, 0, ts, 0)
/* TEST DATA CLASS */
F(0xed10, TCEB, RXE, Z, e1, a2, 0, 0, tceb, 0, IF_BFP)
F(0xed11, TCDB, RXE, Z, f1, a2, 0, 0, tcdb, 0, IF_BFP)
F(0xed12, TCXB, RXE, Z, 0, a2, x1, 0, tcxb, 0, IF_BFP)
/* TEST DECIMAL */
C(0xebc0, TP, RSL, E2, la1, 0, 0, 0, tp, 0)
/* TEST UNDER MASK */
C(0x9100, TM, SI, Z, m1_8u, i2_8u, 0, 0, 0, tm32)
C(0xeb51, TMY, SIY, LD, m1_8u, i2_8u, 0, 0, 0, tm32)
D(0xa702, TMHH, RI_a, Z, r1_o, i2_16u_shl, 0, 0, 0, tm64, 48)
D(0xa703, TMHL, RI_a, Z, r1_o, i2_16u_shl, 0, 0, 0, tm64, 32)
D(0xa700, TMLH, RI_a, Z, r1_o, i2_16u_shl, 0, 0, 0, tm64, 16)
D(0xa701, TMLL, RI_a, Z, r1_o, i2_16u_shl, 0, 0, 0, tm64, 0)
/* TRANSLATE */
C(0xdc00, TR, SS_a, Z, la1, a2, 0, 0, tr, 0)
/* TRANSLATE AND TEST */
C(0xdd00, TRT, SS_a, Z, la1, a2, 0, 0, trt, 0)
/* TRANSLATE AND TEST REVERSE */
C(0xd000, TRTR, SS_a, ETF3, la1, a2, 0, 0, trtr, 0)
/* TRANSLATE EXTENDED */
C(0xb2a5, TRE, RRE, Z, 0, r2, r1_P, 0, tre, 0)
/* TRANSLATE ONE TO ONE */
C(0xb993, TROO, RRF_c, E2, 0, 0, 0, 0, trXX, 0)
/* TRANSLATE ONE TO TWO */
C(0xb992, TROT, RRF_c, E2, 0, 0, 0, 0, trXX, 0)
/* TRANSLATE TWO TO ONE */
C(0xb991, TRTO, RRF_c, E2, 0, 0, 0, 0, trXX, 0)
/* TRANSLATE TWO TO TWO */
C(0xb990, TRTT, RRF_c, E2, 0, 0, 0, 0, trXX, 0)
/* UNPACK */
/* Really format SS_b, but we pack both lengths into one argument
for the helper call, so we might as well leave one 8-bit field. */
C(0xf300, UNPK, SS_a, Z, la1, a2, 0, 0, unpk, 0)
/* UNPACK ASCII */
C(0xea00, UNPKA, SS_a, E2, la1, a2, 0, 0, unpka, 0)
/* UNPACK UNICODE */
C(0xe200, UNPKU, SS_a, E2, la1, a2, 0, 0, unpku, 0)
/* MSA Instructions */
D(0xb91e, KMAC, RRE, MSA, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KMAC)
D(0xb928, PCKMO, RRE, MSA3, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_PCKMO)
D(0xb92a, KMF, RRE, MSA4, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KMF)
D(0xb92b, KMO, RRE, MSA4, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KMO)
D(0xb92c, PCC, RRE, MSA4, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_PCC)
D(0xb92d, KMCTR, RRF_b, MSA4, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KMCTR)
D(0xb92e, KM, RRE, MSA, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KM)
D(0xb92f, KMC, RRE, MSA, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KMC)
D(0xb929, KMA, RRF_b, MSA8, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KMA)
D(0xb93c, PPNO, RRE, MSA5, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_PPNO)
D(0xb93e, KIMD, RRE, MSA, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KIMD)
D(0xb93f, KLMD, RRE, MSA, 0, 0, 0, 0, msa, 0, S390_FEAT_TYPE_KLMD)
/* === Vector Support Instructions === */
/* VECTOR BIT PERMUTE */
E(0xe785, VBPERM, VRR_c, VE, 0, 0, 0, 0, vbperm, 0, 0, IF_VEC)
/* VECTOR GATHER ELEMENT */
E(0xe713, VGEF, VRV, V, la2, 0, 0, 0, vge, 0, ES_32, IF_VEC)
E(0xe712, VGEG, VRV, V, la2, 0, 0, 0, vge, 0, ES_64, IF_VEC)
/* VECTOR GENERATE BYTE MASK */
F(0xe744, VGBM, VRI_a, V, 0, 0, 0, 0, vgbm, 0, IF_VEC)
/* VECTOR GENERATE MASK */
F(0xe746, VGM, VRI_b, V, 0, 0, 0, 0, vgm, 0, IF_VEC)
/* VECTOR LOAD */
F(0xe706, VL, VRX, V, la2, 0, 0, 0, vl, 0, IF_VEC)
F(0xe756, VLR, VRR_a, V, 0, 0, 0, 0, vlr, 0, IF_VEC)
/* VECTOR LOAD AND REPLICATE */
F(0xe705, VLREP, VRX, V, la2, 0, 0, 0, vlrep, 0, IF_VEC)
/* VECTOR LOAD BYTE REVERSED ELEMENT */
E(0xe601, VLEBRH, VRX, VE2, la2, 0, 0, 0, vlebr, 0, ES_16, IF_VEC)
E(0xe603, VLEBRF, VRX, VE2, la2, 0, 0, 0, vlebr, 0, ES_32, IF_VEC)
E(0xe602, VLEBRG, VRX, VE2, la2, 0, 0, 0, vlebr, 0, ES_64, IF_VEC)
/* VECTOR LOAD BYTE REVERSED ELEMENT AND REPLICATE */
F(0xe605, VLBRREP, VRX, VE2, la2, 0, 0, 0, vlbrrep, 0, IF_VEC)
/* VECTOR LOAD BYTE REVERSED ELEMENT AND ZERO */
F(0xe604, VLLEBRZ, VRX, VE2, la2, 0, 0, 0, vllebrz, 0, IF_VEC)
/* VECTOR LOAD BYTE REVERSED ELEMENTS */
F(0xe606, VLBR, VRX, VE2, la2, 0, 0, 0, vlbr, 0, IF_VEC)
/* VECTOR LOAD ELEMENT */
E(0xe700, VLEB, VRX, V, la2, 0, 0, 0, vle, 0, ES_8, IF_VEC)
E(0xe701, VLEH, VRX, V, la2, 0, 0, 0, vle, 0, ES_16, IF_VEC)
E(0xe703, VLEF, VRX, V, la2, 0, 0, 0, vle, 0, ES_32, IF_VEC)
E(0xe702, VLEG, VRX, V, la2, 0, 0, 0, vle, 0, ES_64, IF_VEC)
/* VECTOR LOAD ELEMENT IMMEDIATE */
E(0xe740, VLEIB, VRI_a, V, 0, 0, 0, 0, vlei, 0, ES_8, IF_VEC)
E(0xe741, VLEIH, VRI_a, V, 0, 0, 0, 0, vlei, 0, ES_16, IF_VEC)
E(0xe743, VLEIF, VRI_a, V, 0, 0, 0, 0, vlei, 0, ES_32, IF_VEC)
E(0xe742, VLEIG, VRI_a, V, 0, 0, 0, 0, vlei, 0, ES_64, IF_VEC)
/* VECTOR LOAD ELEMENTS REVERSED */
F(0xe607, VLER, VRX, VE2, la2, 0, 0, 0, vler, 0, IF_VEC)
/* VECTOR LOAD GR FROM VR ELEMENT */
F(0xe721, VLGV, VRS_c, V, la2, 0, r1, 0, vlgv, 0, IF_VEC)
/* VECTOR LOAD LOGICAL ELEMENT AND ZERO */
F(0xe704, VLLEZ, VRX, V, la2, 0, 0, 0, vllez, 0, IF_VEC)
/* VECTOR LOAD MULTIPLE */
F(0xe736, VLM, VRS_a, V, la2, 0, 0, 0, vlm, 0, IF_VEC)
/* VECTOR LOAD TO BLOCK BOUNDARY */
F(0xe707, VLBB, VRX, V, la2, 0, 0, 0, vlbb, 0, IF_VEC)
/* VECTOR LOAD VR ELEMENT FROM GR */
F(0xe722, VLVG, VRS_b, V, la2, r3, 0, 0, vlvg, 0, IF_VEC)
/* VECTOR LOAD VR FROM GRS DISJOINT */
F(0xe762, VLVGP, VRR_f, V, r2, r3, 0, 0, vlvgp, 0, IF_VEC)
/* VECTOR LOAD WITH LENGTH */
F(0xe737, VLL, VRS_b, V, la2, r3_32u, 0, 0, vll, 0, IF_VEC)
/* VECTOR MERGE HIGH */
F(0xe761, VMRH, VRR_c, V, 0, 0, 0, 0, vmr, 0, IF_VEC)
/* VECTOR MERGE LOW */
F(0xe760, VMRL, VRR_c, V, 0, 0, 0, 0, vmr, 0, IF_VEC)
/* VECTOR PACK */
F(0xe794, VPK, VRR_c, V, 0, 0, 0, 0, vpk, 0, IF_VEC)
/* VECTOR PACK SATURATE */
F(0xe797, VPKS, VRR_b, V, 0, 0, 0, 0, vpk, 0, IF_VEC)
/* VECTOR PACK LOGICAL SATURATE */
F(0xe795, VPKLS, VRR_b, V, 0, 0, 0, 0, vpk, 0, IF_VEC)
F(0xe78c, VPERM, VRR_e, V, 0, 0, 0, 0, vperm, 0, IF_VEC)
/* VECTOR PERMUTE DOUBLEWORD IMMEDIATE */
F(0xe784, VPDI, VRR_c, V, 0, 0, 0, 0, vpdi, 0, IF_VEC)
/* VECTOR REPLICATE */
F(0xe74d, VREP, VRI_c, V, 0, 0, 0, 0, vrep, 0, IF_VEC)
/* VECTOR REPLICATE IMMEDIATE */
F(0xe745, VREPI, VRI_a, V, 0, 0, 0, 0, vrepi, 0, IF_VEC)
/* VECTOR SCATTER ELEMENT */
E(0xe71b, VSCEF, VRV, V, la2, 0, 0, 0, vsce, 0, ES_32, IF_VEC)
E(0xe71a, VSCEG, VRV, V, la2, 0, 0, 0, vsce, 0, ES_64, IF_VEC)
/* VECTOR SELECT */
F(0xe78d, VSEL, VRR_e, V, 0, 0, 0, 0, vsel, 0, IF_VEC)
/* VECTOR SIGN EXTEND TO DOUBLEWORD */
F(0xe75f, VSEG, VRR_a, V, 0, 0, 0, 0, vseg, 0, IF_VEC)
/* VECTOR STORE */
F(0xe70e, VST, VRX, V, la2, 0, 0, 0, vst, 0, IF_VEC)
/* VECTOR STORE BYTE REVERSED ELEMENT */
E(0xe609, VSTEBRH, VRX, VE2, la2, 0, 0, 0, vstebr, 0, ES_16, IF_VEC)
E(0xe60b, VSTEBRF, VRX, VE2, la2, 0, 0, 0, vstebr, 0, ES_32, IF_VEC)
E(0xe60a, VSTEBRG, VRX, VE2, la2, 0, 0, 0, vstebr, 0, ES_64, IF_VEC)
/* VECTOR STORE BYTE REVERSED ELEMENTS */
F(0xe60e, VSTBR, VRX, VE2, la2, 0, 0, 0, vstbr, 0, IF_VEC)
/* VECTOR STORE ELEMENT */
E(0xe708, VSTEB, VRX, V, la2, 0, 0, 0, vste, 0, ES_8, IF_VEC)
E(0xe709, VSTEH, VRX, V, la2, 0, 0, 0, vste, 0, ES_16, IF_VEC)
E(0xe70b, VSTEF, VRX, V, la2, 0, 0, 0, vste, 0, ES_32, IF_VEC)
E(0xe70a, VSTEG, VRX, V, la2, 0, 0, 0, vste, 0, ES_64, IF_VEC)
/* VECTOR STORE ELEMENTS REVERSED */
F(0xe60f, VSTER, VRX, VE2, la2, 0, 0, 0, vster, 0, IF_VEC)
/* VECTOR STORE MULTIPLE */
F(0xe73e, VSTM, VRS_a, V, la2, 0, 0, 0, vstm, 0, IF_VEC)
/* VECTOR STORE WITH LENGTH */
F(0xe73f, VSTL, VRS_b, V, la2, r3_32u, 0, 0, vstl, 0, IF_VEC)
/* VECTOR UNPACK HIGH */
F(0xe7d7, VUPH, VRR_a, V, 0, 0, 0, 0, vup, 0, IF_VEC)
/* VECTOR UNPACK LOGICAL HIGH */
F(0xe7d5, VUPLH, VRR_a, V, 0, 0, 0, 0, vup, 0, IF_VEC)
/* VECTOR UNPACK LOW */
F(0xe7d6, VUPL, VRR_a, V, 0, 0, 0, 0, vup, 0, IF_VEC)
/* VECTOR UNPACK LOGICAL LOW */
F(0xe7d4, VUPLL, VRR_a, V, 0, 0, 0, 0, vup, 0, IF_VEC)
/* === Vector Integer Instructions === */
/* VECTOR ADD */
F(0xe7f3, VA, VRR_c, V, 0, 0, 0, 0, va, 0, IF_VEC)
/* VECTOR ADD COMPUTE CARRY */
F(0xe7f1, VACC, VRR_c, V, 0, 0, 0, 0, vacc, 0, IF_VEC)
/* VECTOR ADD WITH CARRY */
F(0xe7bb, VAC, VRR_d, V, 0, 0, 0, 0, vac, 0, IF_VEC)
/* VECTOR ADD WITH CARRY COMPUTE CARRY */
F(0xe7b9, VACCC, VRR_d, V, 0, 0, 0, 0, vaccc, 0, IF_VEC)
/* VECTOR AND */
F(0xe768, VN, VRR_c, V, 0, 0, 0, 0, vn, 0, IF_VEC)
/* VECTOR AND WITH COMPLEMENT */
F(0xe769, VNC, VRR_c, V, 0, 0, 0, 0, vnc, 0, IF_VEC)
/* VECTOR AVERAGE */
F(0xe7f2, VAVG, VRR_c, V, 0, 0, 0, 0, vavg, 0, IF_VEC)
/* VECTOR AVERAGE LOGICAL */
F(0xe7f0, VAVGL, VRR_c, V, 0, 0, 0, 0, vavgl, 0, IF_VEC)
/* VECTOR CHECKSUM */
F(0xe766, VCKSM, VRR_c, V, 0, 0, 0, 0, vcksm, 0, IF_VEC)
/* VECTOR ELEMENT COMPARE */
F(0xe7db, VEC, VRR_a, V, 0, 0, 0, 0, vec, cmps64, IF_VEC)
/* VECTOR ELEMENT COMPARE LOGICAL */
F(0xe7d9, VECL, VRR_a, V, 0, 0, 0, 0, vec, cmpu64, IF_VEC)
/* VECTOR COMPARE EQUAL */
E(0xe7f8, VCEQ, VRR_b, V, 0, 0, 0, 0, vc, 0, TCG_COND_EQ, IF_VEC)
/* VECTOR COMPARE HIGH */
E(0xe7fb, VCH, VRR_b, V, 0, 0, 0, 0, vc, 0, TCG_COND_GT, IF_VEC)
/* VECTOR COMPARE HIGH LOGICAL */
E(0xe7f9, VCHL, VRR_b, V, 0, 0, 0, 0, vc, 0, TCG_COND_GTU, IF_VEC)
/* VECTOR COUNT LEADING ZEROS */
F(0xe753, VCLZ, VRR_a, V, 0, 0, 0, 0, vclz, 0, IF_VEC)
/* VECTOR COUNT TRAILING ZEROS */
F(0xe752, VCTZ, VRR_a, V, 0, 0, 0, 0, vctz, 0, IF_VEC)
/* VECTOR EXCLUSIVE OR */
F(0xe76d, VX, VRR_c, V, 0, 0, 0, 0, vx, 0, IF_VEC)
/* VECTOR GALOIS FIELD MULTIPLY SUM */
F(0xe7b4, VGFM, VRR_c, V, 0, 0, 0, 0, vgfm, 0, IF_VEC)
/* VECTOR GALOIS FIELD MULTIPLY SUM AND ACCUMULATE */
F(0xe7bc, VGFMA, VRR_d, V, 0, 0, 0, 0, vgfma, 0, IF_VEC)
/* VECTOR LOAD COMPLEMENT */
F(0xe7de, VLC, VRR_a, V, 0, 0, 0, 0, vlc, 0, IF_VEC)
/* VECTOR LOAD POSITIVE */
F(0xe7df, VLP, VRR_a, V, 0, 0, 0, 0, vlp, 0, IF_VEC)
/* VECTOR MAXIMUM */
F(0xe7ff, VMX, VRR_c, V, 0, 0, 0, 0, vmx, 0, IF_VEC)
/* VECTOR MAXIMUM LOGICAL */
F(0xe7fd, VMXL, VRR_c, V, 0, 0, 0, 0, vmx, 0, IF_VEC)
/* VECTOR MINIMUM */
F(0xe7fe, VMN, VRR_c, V, 0, 0, 0, 0, vmx, 0, IF_VEC)
/* VECTOR MINIMUM LOGICAL */
F(0xe7fc, VMNL, VRR_c, V, 0, 0, 0, 0, vmx, 0, IF_VEC)
/* VECTOR MULTIPLY AND ADD LOW */
F(0xe7aa, VMAL, VRR_d, V, 0, 0, 0, 0, vma, 0, IF_VEC)
/* VECTOR MULTIPLY AND ADD HIGH */
F(0xe7ab, VMAH, VRR_d, V, 0, 0, 0, 0, vma, 0, IF_VEC)
/* VECTOR MULTIPLY AND ADD LOGICAL HIGH */
F(0xe7a9, VMALH, VRR_d, V, 0, 0, 0, 0, vma, 0, IF_VEC)
/* VECTOR MULTIPLY AND ADD EVEN */
F(0xe7ae, VMAE, VRR_d, V, 0, 0, 0, 0, vma, 0, IF_VEC)
/* VECTOR MULTIPLY AND ADD LOGICAL EVEN */
F(0xe7ac, VMALE, VRR_d, V, 0, 0, 0, 0, vma, 0, IF_VEC)
/* VECTOR MULTIPLY AND ADD ODD */
F(0xe7af, VMAO, VRR_d, V, 0, 0, 0, 0, vma, 0, IF_VEC)
/* VECTOR MULTIPLY AND ADD LOGICAL ODD */
F(0xe7ad, VMALO, VRR_d, V, 0, 0, 0, 0, vma, 0, IF_VEC)
/* VECTOR MULTIPLY HIGH */
F(0xe7a3, VMH, VRR_c, V, 0, 0, 0, 0, vm, 0, IF_VEC)
/* VECTOR MULTIPLY LOGICAL HIGH */
F(0xe7a1, VMLH, VRR_c, V, 0, 0, 0, 0, vm, 0, IF_VEC)
/* VECTOR MULTIPLY LOW */
F(0xe7a2, VML, VRR_c, V, 0, 0, 0, 0, vm, 0, IF_VEC)
/* VECTOR MULTIPLY EVEN */
F(0xe7a6, VME, VRR_c, V, 0, 0, 0, 0, vm, 0, IF_VEC)
/* VECTOR MULTIPLY LOGICAL EVEN */
F(0xe7a4, VMLE, VRR_c, V, 0, 0, 0, 0, vm, 0, IF_VEC)
/* VECTOR MULTIPLY ODD */
F(0xe7a7, VMO, VRR_c, V, 0, 0, 0, 0, vm, 0, IF_VEC)
/* VECTOR MULTIPLY LOGICAL ODD */
F(0xe7a5, VMLO, VRR_c, V, 0, 0, 0, 0, vm, 0, IF_VEC)
/* VECTOR MULTIPLY SUM LOGICAL */
F(0xe7b8, VMSL, VRR_d, VE, 0, 0, 0, 0, vmsl, 0, IF_VEC)
/* VECTOR NAND */
F(0xe76e, VNN, VRR_c, VE, 0, 0, 0, 0, vnn, 0, IF_VEC)
/* VECTOR NOR */
F(0xe76b, VNO, VRR_c, V, 0, 0, 0, 0, vno, 0, IF_VEC)
/* VECTOR NOT EXCLUSIVE OR */
F(0xe76c, VNX, VRR_c, VE, 0, 0, 0, 0, vnx, 0, IF_VEC)
/* VECTOR OR */
F(0xe76a, VO, VRR_c, V, 0, 0, 0, 0, vo, 0, IF_VEC)
/* VECTOR OR WITH COMPLEMENT */
F(0xe76f, VOC, VRR_c, VE, 0, 0, 0, 0, voc, 0, IF_VEC)
/* VECTOR POPULATION COUNT */
F(0xe750, VPOPCT, VRR_a, V, 0, 0, 0, 0, vpopct, 0, IF_VEC)
/* VECTOR ELEMENT ROTATE LEFT LOGICAL */
F(0xe773, VERLLV, VRR_c, V, 0, 0, 0, 0, vesv, 0, IF_VEC)
F(0xe733, VERLL, VRS_a, V, la2, 0, 0, 0, ves, 0, IF_VEC)
/* VECTOR ELEMENT ROTATE AND INSERT UNDER MASK */
F(0xe772, VERIM, VRI_d, V, 0, 0, 0, 0, verim, 0, IF_VEC)
/* VECTOR ELEMENT SHIFT LEFT */
F(0xe770, VESLV, VRR_c, V, 0, 0, 0, 0, vesv, 0, IF_VEC)
F(0xe730, VESL, VRS_a, V, la2, 0, 0, 0, ves, 0, IF_VEC)
/* VECTOR ELEMENT SHIFT RIGHT ARITHMETIC */
F(0xe77a, VESRAV, VRR_c, V, 0, 0, 0, 0, vesv, 0, IF_VEC)
F(0xe73a, VESRA, VRS_a, V, la2, 0, 0, 0, ves, 0, IF_VEC)
/* VECTOR ELEMENT SHIFT RIGHT LOGICAL */
F(0xe778, VESRLV, VRR_c, V, 0, 0, 0, 0, vesv, 0, IF_VEC)
F(0xe738, VESRL, VRS_a, V, la2, 0, 0, 0, ves, 0, IF_VEC)
/* VECTOR SHIFT LEFT */
E(0xe774, VSL, VRR_c, V, 0, 0, 0, 0, vsl, 0, 0, IF_VEC)
/* VECTOR SHIFT LEFT BY BYTE */
E(0xe775, VSLB, VRR_c, V, 0, 0, 0, 0, vsl, 0, 1, IF_VEC)
/* VECTOR SHIFT LEFT DOUBLE BY BIT */
E(0xe786, VSLD, VRI_d, VE2, 0, 0, 0, 0, vsld, 0, 0, IF_VEC)
/* VECTOR SHIFT LEFT DOUBLE BY BYTE */
E(0xe777, VSLDB, VRI_d, V, 0, 0, 0, 0, vsld, 0, 1, IF_VEC)
/* VECTOR SHIFT RIGHT ARITHMETIC */
E(0xe77e, VSRA, VRR_c, V, 0, 0, 0, 0, vsra, 0, 0, IF_VEC)
/* VECTOR SHIFT RIGHT ARITHMETIC BY BYTE */
E(0xe77f, VSRAB, VRR_c, V, 0, 0, 0, 0, vsra, 0, 1, IF_VEC)
/* VECTOR SHIFT RIGHT DOUBLE BY BIT */
F(0xe787, VSRD, VRI_d, VE2, 0, 0, 0, 0, vsrd, 0, IF_VEC)
/* VECTOR SHIFT RIGHT LOGICAL */
E(0xe77c, VSRL, VRR_c, V, 0, 0, 0, 0, vsrl, 0, 0, IF_VEC)
/* VECTOR SHIFT RIGHT LOGICAL BY BYTE */
E(0xe77d, VSRLB, VRR_c, V, 0, 0, 0, 0, vsrl, 0, 1, IF_VEC)
/* VECTOR SUBTRACT */
F(0xe7f7, VS, VRR_c, V, 0, 0, 0, 0, vs, 0, IF_VEC)
/* VECTOR SUBTRACT COMPUTE BORROW INDICATION */
F(0xe7f5, VSCBI, VRR_c, V, 0, 0, 0, 0, vscbi, 0, IF_VEC)
/* VECTOR SUBTRACT WITH BORROW INDICATION */
F(0xe7bf, VSBI, VRR_d, V, 0, 0, 0, 0, vsbi, 0, IF_VEC)
/* VECTOR SUBTRACT WITH BORROW COMPUTE BORROW INDICATION */
F(0xe7bd, VSBCBI, VRR_d, V, 0, 0, 0, 0, vsbcbi, 0, IF_VEC)
/* VECTOR SUM ACROSS DOUBLEWORD */
F(0xe765, VSUMG, VRR_c, V, 0, 0, 0, 0, vsumg, 0, IF_VEC)
/* VECTOR SUM ACROSS QUADWORD */
F(0xe767, VSUMQ, VRR_c, V, 0, 0, 0, 0, vsumq, 0, IF_VEC)
/* VECTOR SUM ACROSS WORD */
F(0xe764, VSUM, VRR_c, V, 0, 0, 0, 0, vsum, 0, IF_VEC)
/* VECTOR TEST UNDER MASK */
F(0xe7d8, VTM, VRR_a, V, 0, 0, 0, 0, vtm, 0, IF_VEC)
/* === Vector String Instructions === */
/* VECTOR FIND ANY ELEMENT EQUAL */
F(0xe782, VFAE, VRR_b, V, 0, 0, 0, 0, vfae, 0, IF_VEC)
/* VECTOR FIND ELEMENT EQUAL */
F(0xe780, VFEE, VRR_b, V, 0, 0, 0, 0, vfee, 0, IF_VEC)
/* VECTOR FIND ELEMENT NOT EQUAL */
F(0xe781, VFENE, VRR_b, V, 0, 0, 0, 0, vfene, 0, IF_VEC)
/* VECTOR ISOLATE STRING */
F(0xe75c, VISTR, VRR_a, V, 0, 0, 0, 0, vistr, 0, IF_VEC)
/* VECTOR STRING RANGE COMPARE */
F(0xe78a, VSTRC, VRR_d, V, 0, 0, 0, 0, vstrc, 0, IF_VEC)
/* VECTOR STRING SEARCH */
F(0xe78b, VSTRS, VRR_d, VE2, 0, 0, 0, 0, vstrs, 0, IF_VEC)
/* === Vector Floating-Point Instructions */
/* VECTOR FP ADD */
F(0xe7e3, VFA, VRR_c, V, 0, 0, 0, 0, vfa, 0, IF_VEC)
/* VECTOR FP COMPARE SCALAR */
F(0xe7cb, WFC, VRR_a, V, 0, 0, 0, 0, wfc, 0, IF_VEC)
/* VECTOR FP COMPARE AND SIGNAL SCALAR */
F(0xe7ca, WFK, VRR_a, V, 0, 0, 0, 0, wfc, 0, IF_VEC)
/* VECTOR FP COMPARE EQUAL */
F(0xe7e8, VFCE, VRR_c, V, 0, 0, 0, 0, vfc, 0, IF_VEC)
/* VECTOR FP COMPARE HIGH */
F(0xe7eb, VFCH, VRR_c, V, 0, 0, 0, 0, vfc, 0, IF_VEC)
/* VECTOR FP COMPARE HIGH OR EQUAL */
F(0xe7ea, VFCHE, VRR_c, V, 0, 0, 0, 0, vfc, 0, IF_VEC)
/* VECTOR FP CONVERT FROM FIXED 64-BIT */
F(0xe7c3, VCDG, VRR_a, V, 0, 0, 0, 0, vcdg, 0, IF_VEC)
/* VECTOR FP CONVERT FROM LOGICAL 64-BIT */
F(0xe7c1, VCDLG, VRR_a, V, 0, 0, 0, 0, vcdg, 0, IF_VEC)
/* VECTOR FP CONVERT TO FIXED 64-BIT */
F(0xe7c2, VCGD, VRR_a, V, 0, 0, 0, 0, vcdg, 0, IF_VEC)
/* VECTOR FP CONVERT TO LOGICAL 64-BIT */
F(0xe7c0, VCLGD, VRR_a, V, 0, 0, 0, 0, vcdg, 0, IF_VEC)
/* VECTOR FP DIVIDE */
F(0xe7e5, VFD, VRR_c, V, 0, 0, 0, 0, vfa, 0, IF_VEC)
/* VECTOR LOAD FP INTEGER */
F(0xe7c7, VFI, VRR_a, V, 0, 0, 0, 0, vcdg, 0, IF_VEC)
/* VECTOR FP LOAD LENGTHENED */
F(0xe7c4, VFLL, VRR_a, V, 0, 0, 0, 0, vfll, 0, IF_VEC)
/* VECTOR FP LOAD ROUNDED */
F(0xe7c5, VFLR, VRR_a, V, 0, 0, 0, 0, vcdg, 0, IF_VEC)
/* VECTOR FP MAXIMUM */
F(0xe7ef, VFMAX, VRR_c, VE, 0, 0, 0, 0, vfmax, 0, IF_VEC)
/* VECTOR FP MINIMUM */
F(0xe7ee, VFMIN, VRR_c, VE, 0, 0, 0, 0, vfmax, 0, IF_VEC)
/* VECTOR FP MULTIPLY */
F(0xe7e7, VFM, VRR_c, V, 0, 0, 0, 0, vfa, 0, IF_VEC)
/* VECTOR FP MULTIPLY AND ADD */
F(0xe78f, VFMA, VRR_e, V, 0, 0, 0, 0, vfma, 0, IF_VEC)
/* VECTOR FP MULTIPLY AND SUBTRACT */
F(0xe78e, VFMS, VRR_e, V, 0, 0, 0, 0, vfma, 0, IF_VEC)
/* VECTOR FP NEGATIVE MULTIPLY AND ADD */
F(0xe79f, VFNMA, VRR_e, VE, 0, 0, 0, 0, vfma, 0, IF_VEC)
/* VECTOR FP NEGATIVE MULTIPLY AND SUBTRACT */
F(0xe79e, VFNMS, VRR_e, VE, 0, 0, 0, 0, vfma, 0, IF_VEC)
/* VECTOR FP PERFORM SIGN OPERATION */
F(0xe7cc, VFPSO, VRR_a, V, 0, 0, 0, 0, vfpso, 0, IF_VEC)
/* VECTOR FP SQUARE ROOT */
F(0xe7ce, VFSQ, VRR_a, V, 0, 0, 0, 0, vfsq, 0, IF_VEC)
/* VECTOR FP SUBTRACT */
F(0xe7e2, VFS, VRR_c, V, 0, 0, 0, 0, vfa, 0, IF_VEC)
/* VECTOR FP TEST DATA CLASS IMMEDIATE */
F(0xe74a, VFTCI, VRI_e, V, 0, 0, 0, 0, vftci, 0, IF_VEC)
#ifndef CONFIG_USER_ONLY
/* COMPARE AND SWAP AND PURGE */
E(0xb250, CSP, RRE, Z, r1_32u, ra2, r1_P, 0, csp, 0, MO_TEUL, IF_PRIV)
E(0xb98a, CSPG, RRE, DAT_ENH, r1_o, ra2, r1_P, 0, csp, 0, MO_TEUQ, IF_PRIV)
/* DIAGNOSE (KVM hypercall) */
F(0x8300, DIAG, RSI, Z, 0, 0, 0, 0, diag, 0, IF_PRIV | IF_IO)
/* INSERT STORAGE KEY EXTENDED */
F(0xb229, ISKE, RRE, Z, 0, r2_o, new, r1_8, iske, 0, IF_PRIV)
/* INVALIDATE DAT TABLE ENTRY */
F(0xb98e, IPDE, RRF_b, Z, r1_o, r2_o, 0, 0, idte, 0, IF_PRIV)
/* INVALIDATE PAGE TABLE ENTRY */
F(0xb221, IPTE, RRF_a, Z, r1_o, r2_o, 0, 0, ipte, 0, IF_PRIV)
/* LOAD CONTROL */
F(0xb700, LCTL, RS_a, Z, 0, a2, 0, 0, lctl, 0, IF_PRIV)
F(0xeb2f, LCTLG, RSY_a, Z, 0, a2, 0, 0, lctlg, 0, IF_PRIV)
/* LOAD PROGRAM PARAMETER */
F(0xb280, LPP, S, LPP, 0, m2_64, 0, 0, lpp, 0, IF_PRIV)
/* LOAD PSW */
F(0x8200, LPSW, S, Z, 0, a2, 0, 0, lpsw, 0, IF_PRIV)
/* LOAD PSW EXTENDED */
F(0xb2b2, LPSWE, S, Z, 0, a2, 0, 0, lpswe, 0, IF_PRIV)
/* LOAD REAL ADDRESS */
F(0xb100, LRA, RX_a, Z, 0, a2, r1, 0, lra, 0, IF_PRIV)
F(0xe313, LRAY, RXY_a, LD, 0, a2, r1, 0, lra, 0, IF_PRIV)
F(0xe303, LRAG, RXY_a, Z, 0, a2, r1, 0, lra, 0, IF_PRIV)
/* LOAD USING REAL ADDRESS */
E(0xb24b, LURA, RRE, Z, 0, ra2, new, r1_32, lura, 0, MO_TEUL, IF_PRIV)
E(0xb905, LURAG, RRE, Z, 0, ra2, r1, 0, lura, 0, MO_TEUQ, IF_PRIV)
/* MOVE TO PRIMARY */
F(0xda00, MVCP, SS_d, Z, la1, a2, 0, 0, mvcp, 0, IF_PRIV)
/* MOVE TO SECONDARY */
F(0xdb00, MVCS, SS_d, Z, la1, a2, 0, 0, mvcs, 0, IF_PRIV)
/* PURGE TLB */
F(0xb20d, PTLB, S, Z, 0, 0, 0, 0, ptlb, 0, IF_PRIV)
/* RESET REFERENCE BIT EXTENDED */
F(0xb22a, RRBE, RRE, Z, 0, r2_o, 0, 0, rrbe, 0, IF_PRIV)
/* SERVICE CALL LOGICAL PROCESSOR (PV hypercall) */
F(0xb220, SERVC, RRE, Z, r1_o, r2_o, 0, 0, servc, 0, IF_PRIV | IF_IO)
/* SET ADDRESS SPACE CONTROL FAST */
C(0xb279, SACF, S, Z, 0, a2, 0, 0, sacf, 0)
/* SET CLOCK */
F(0xb204, SCK, S, Z, 0, m2_64a, 0, 0, sck, 0, IF_PRIV | IF_IO)
/* SET CLOCK COMPARATOR */
F(0xb206, SCKC, S, Z, 0, m2_64a, 0, 0, sckc, 0, IF_PRIV | IF_IO)
/* SET CLOCK PROGRAMMABLE FIELD */
F(0x0107, SCKPF, E, Z, 0, 0, 0, 0, sckpf, 0, IF_PRIV)
/* SET CPU TIMER */
F(0xb208, SPT, S, Z, 0, m2_64a, 0, 0, spt, 0, IF_PRIV | IF_IO)
/* SET PREFIX */
F(0xb210, SPX, S, Z, 0, m2_32ua, 0, 0, spx, 0, IF_PRIV)
/* SET PSW KEY FROM ADDRESS */
F(0xb20a, SPKA, S, Z, 0, a2, 0, 0, spka, 0, IF_PRIV)
/* SET STORAGE KEY EXTENDED */
F(0xb22b, SSKE, RRF_c, Z, r1_o, r2_o, 0, 0, sske, 0, IF_PRIV)
/* SET SYSTEM MASK */
F(0x8000, SSM, S, Z, 0, m2_8u, 0, 0, ssm, 0, IF_PRIV)
/* SIGNAL PROCESSOR */
F(0xae00, SIGP, RS_a, Z, 0, a2, 0, 0, sigp, 0, IF_PRIV | IF_IO)
/* STORE CLOCK COMPARATOR */
F(0xb207, STCKC, S, Z, la2, 0, new, m1_64a, stckc, 0, IF_PRIV)
/* STORE CONTROL */
F(0xb600, STCTL, RS_a, Z, 0, a2, 0, 0, stctl, 0, IF_PRIV)
F(0xeb25, STCTG, RSY_a, Z, 0, a2, 0, 0, stctg, 0, IF_PRIV)
/* STORE CPU ADDRESS */
F(0xb212, STAP, S, Z, la2, 0, new, m1_16a, stap, 0, IF_PRIV)
/* STORE CPU ID */
F(0xb202, STIDP, S, Z, la2, 0, new, m1_64a, stidp, 0, IF_PRIV)
/* STORE CPU TIMER */
F(0xb209, STPT, S, Z, la2, 0, new, m1_64a, stpt, 0, IF_PRIV | IF_IO)
/* STORE FACILITY LIST */
F(0xb2b1, STFL, S, Z, 0, 0, 0, 0, stfl, 0, IF_PRIV)
/* STORE PREFIX */
F(0xb211, STPX, S, Z, la2, 0, new, m1_32a, stpx, 0, IF_PRIV)
/* STORE SYSTEM INFORMATION */
F(0xb27d, STSI, S, Z, 0, a2, 0, 0, stsi, 0, IF_PRIV)
/* STORE THEN AND SYSTEM MASK */
F(0xac00, STNSM, SI, Z, la1, 0, 0, 0, stnosm, 0, IF_PRIV)
/* STORE THEN OR SYSTEM MASK */
F(0xad00, STOSM, SI, Z, la1, 0, 0, 0, stnosm, 0, IF_PRIV)
/* STORE USING REAL ADDRESS */
E(0xb246, STURA, RRE, Z, r1_o, ra2, 0, 0, stura, 0, MO_TEUL, IF_PRIV)
E(0xb925, STURG, RRE, Z, r1_o, ra2, 0, 0, stura, 0, MO_TEUQ, IF_PRIV)
/* TEST BLOCK */
F(0xb22c, TB, RRE, Z, 0, r2_o, 0, 0, testblock, 0, IF_PRIV)
/* TEST PROTECTION */
C(0xe501, TPROT, SSE, Z, la1, a2, 0, 0, tprot, 0)
/* CCW I/O Instructions */
F(0xb276, XSCH, S, Z, 0, 0, 0, 0, xsch, 0, IF_PRIV | IF_IO)
F(0xb230, CSCH, S, Z, 0, 0, 0, 0, csch, 0, IF_PRIV | IF_IO)
F(0xb231, HSCH, S, Z, 0, 0, 0, 0, hsch, 0, IF_PRIV | IF_IO)
F(0xb232, MSCH, S, Z, 0, insn, 0, 0, msch, 0, IF_PRIV | IF_IO)
F(0xb23b, RCHP, S, Z, 0, 0, 0, 0, rchp, 0, IF_PRIV | IF_IO)
F(0xb238, RSCH, S, Z, 0, 0, 0, 0, rsch, 0, IF_PRIV | IF_IO)
F(0xb237, SAL, S, Z, 0, 0, 0, 0, sal, 0, IF_PRIV | IF_IO)
F(0xb23c, SCHM, S, Z, 0, insn, 0, 0, schm, 0, IF_PRIV | IF_IO)
F(0xb274, SIGA, S, Z, 0, 0, 0, 0, siga, 0, IF_PRIV | IF_IO)
F(0xb23a, STCPS, S, Z, 0, 0, 0, 0, stcps, 0, IF_PRIV | IF_IO)
F(0xb233, SSCH, S, Z, 0, insn, 0, 0, ssch, 0, IF_PRIV | IF_IO)
F(0xb239, STCRW, S, Z, 0, insn, 0, 0, stcrw, 0, IF_PRIV | IF_IO)
F(0xb234, STSCH, S, Z, 0, insn, 0, 0, stsch, 0, IF_PRIV | IF_IO)
F(0xb236, TPI , S, Z, la2, 0, 0, 0, tpi, 0, IF_PRIV | IF_IO)
F(0xb235, TSCH, S, Z, 0, insn, 0, 0, tsch, 0, IF_PRIV | IF_IO)
/* ??? Not listed in PoO ninth edition, but there's a linux driver that
uses it: "A CHSC subchannel is usually present on LPAR only." */
F(0xb25f, CHSC, RRE, Z, 0, insn, 0, 0, chsc, 0, IF_PRIV | IF_IO)
/* zPCI Instructions */
/* None of these instructions are documented in the PoP, so this is all
based upon target/s390x/kvm.c and Linux code and likely incomplete */
F(0xebd0, PCISTB, RSY_a, PCI, la2, 0, 0, 0, pcistb, 0, IF_PRIV | IF_IO)
F(0xebd1, SIC, RSY_a, AIS, r1, r3, 0, 0, sic, 0, IF_PRIV | IF_IO)
F(0xb9a0, CLP, RRF_c, PCI, 0, 0, 0, 0, clp, 0, IF_PRIV | IF_IO)
F(0xb9d0, PCISTG, RRE, PCI, 0, 0, 0, 0, pcistg, 0, IF_PRIV | IF_IO)
F(0xb9d2, PCILG, RRE, PCI, 0, 0, 0, 0, pcilg, 0, IF_PRIV | IF_IO)
F(0xb9d3, RPCIT, RRE, PCI, 0, 0, 0, 0, rpcit, 0, IF_PRIV | IF_IO)
F(0xe3d0, MPCIFC, RXY_a, PCI, la2, 0, 0, 0, mpcifc, 0, IF_PRIV | IF_IO)
F(0xe3d4, STPCIFC, RXY_a, PCI, la2, 0, 0, 0, stpcifc, 0, IF_PRIV | IF_IO)
#endif /* CONFIG_USER_ONLY */