2 * This file and its contents are supplied under the terms of the
3 * Common Development and Distribution License ("CDDL"), version 1.0.
4 * You may only use this file in accordance with the terms of version
7 * A full copy of the text of the CDDL should have accompanied this
8 * source. A copy of the CDDL is also available via the Internet at
9 * http://www.illumos.org/license/CDDL.
13 * Copyright 2015 Josef 'Jeff' Sipek <jeffpc@josefsipek.net>
17 #include <libdisasm.h>
18 #include <sys/sysmacros.h>
19 #include <sys/debug.h>
20 #include <sys/byteorder.h>
22 #include "libdisasm_impl.h"
24 #define ILC2LEN(ilc) (2 * ((ilc) >= 2 ? (ilc) : (ilc) + 1))
27 * Throughout this file, the instruction format names based on:
28 * SA22-7832-09 z/Architecture Principles of Operation
30 * System/370, ESA/390, and earlier z/Architecture POP use slightly
31 * different names for the formats (the variant names are numeric). For the
32 * sake of simplicity, we use the most detailed definitions - z/Architecture.
34 * For ESA/390 we map the formats:
54 * For System/370 we map the formats:
62 * Disassembly begins in tbl_xx. The first byte of the instruction is used
63 * as the index. This yields either an instruction or a sub-table.
65 * If an instruction is encountered, its format field is used to format the
68 * There are two types of sub-tables: extended opcode tables (indicated with
69 * IF_TBL) or a multiple mnemonics tables (indicated with IF_MULTI).
71 * Extended opcode tables indicade which additional bits of the instruction
72 * should be inspected. These bits are used as an index into the sub table.
74 * Multiple mnemonic tables are used to print different mnemonics depending
75 * on the architecture. Over the years, certain instructions got a new
76 * preferred mnemonic. For example, 0xa70 is test-under-mask-high (tmh) on
77 * System/390. On z/Architecture systems, the instruction behaves
78 * identically (and the assembler hapilly accepts tmh), but the preferred
79 * mnemonic is tmlh (test-under-mask-low-high) because z/Architecture
80 * extended the general purpose registers from 32 bits to 64 bits. The
81 * current architecture flag (e.g., F_390) is used to index into the
84 * Regardless of which sub-table is encountered, the selected entry in the
85 * sub-table is interpreted using the same rules as the contents of tbl_xx.
87 * Finally, we use the extended opcode sub-table mechanism to pretty print
88 * the branching instructions. All branches are conditional based on a
89 * 4-bit mask indicating which value of the condition code will result in a
90 * taken branch. In order to produce a more human friendly output, we use
91 * the 4-bit mask as an extended opcode to break up the branching
92 * instruction into 16 different ones. For example, instead of printing:
100 * Note that we are using designated initializers via the INSTR/TABLE/MULTI
101 * macros and therefore the below tables can be sparse. We rely on unset
102 * entries having zero format fields (aka. IF_INVAL) per C99.
115 IF_ZERO
, /* 370, 390, z */
118 IF_RR
, /* 370, 390, z */
121 IF_DIAG
, /* 370, 390, z */
126 IF_RRD
, /* 390, z */ /* on 390 these are RRF */
128 IF_RRFa
, /* 390, z */
129 IF_RRFb
, /* 390, z */
130 IF_RRFc
, /* 390, z */
131 IF_RRFd
, /* 390, z */
132 IF_RRFe
, /* 390, z */
133 IF_RSa
, /* 370, 390, z */
134 IF_RSb
, /* 370, 390, z */
136 IF_RXa
, /* 370, 390, z */
137 IF_RXb
, /* 370, 390, z */
138 IF_S
, /* 370, 390, z */
139 IF_SI
, /* 370, 390, z */
149 IF_RILa
, /* 390, z */
150 IF_RILb
, /* 390, z */
151 IF_RILc
, /* 390, z */
154 IF_RSLa
, /* 390, z */
165 IF_SSa
, /* 370, 390, z */
166 IF_SSb
, /* 370, 390, z */
167 IF_SSc
, /* 370, 390, z */
175 #define IF_NFMTS (IF_SSF + 1)
177 #define F_370 0x0001 /* 370 */
178 #define F_390 0x0002 /* 390 */
179 #define F_Z 0x0004 /* z */
180 #define F_SIGNED_IMM 0x0010 /* 370, 390, z */
181 #define F_CTL_REG 0x0020 /* 370, 390, z */
182 #define F_HIDE_MASK 0x0040 /* 370, 390, z */
183 #define F_R1_IS_MASK 0x0080 /* 370, 390, z */
193 const struct inst_table
*it_ptr
;
199 const struct inst_table
*it_ptr
;
205 #define BITFLD(a, b) DECL_BITFIELD2(b:4, a:4)
537 #define INSTR(op, m, fm, fl) [op] = { \
544 #define TABLE(op, tbl, o, s, m) [op] = { \
553 #define MULTI(op, tbl) [op] = { \
554 .it_u.it_multi.it_ptr = (tbl), \
555 .it_fmt = IF_MULTI, \
559 * Instruction tables based on:
560 * GA22-7000-4 System/370 Principles of Operation
561 * SA22-7201-08 ESA/390 Principles of Operation
562 * SA22-7832-09 z/Architecture Principles of Operation
566 static const struct inst_table tbl_01xx
[256] = {
567 INSTR(0x01, "pr", IF_E
, F_390
| F_Z
),
568 INSTR(0x02, "upt", IF_E
, F_390
| F_Z
),
569 INSTR(0x04, "ptff", IF_E
, F_Z
),
570 INSTR(0x07, "sckpf", IF_E
, F_390
| F_Z
),
571 INSTR(0x0a, "pfpo", IF_E
, F_Z
),
572 INSTR(0x0b, "tam", IF_E
, F_390
| F_Z
),
573 INSTR(0x0c, "sam24", IF_E
, F_390
| F_Z
),
574 INSTR(0x0d, "sam31", IF_E
, F_390
| F_Z
),
575 INSTR(0x0e, "sam64", IF_E
, F_Z
),
576 INSTR(0xff, "trap2", IF_E
, F_390
| F_Z
),
579 static const struct inst_table tbl_07
[] = {
580 INSTR(0x0, "nopr", IF_RR
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
581 INSTR(0x1, "bor", IF_RR
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
582 INSTR(0x2, "bhr", IF_RR
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
583 INSTR(0x3, "bcr", IF_RR
, F_370
| F_390
| F_Z
| F_R1_IS_MASK
),
584 INSTR(0x4, "blr", IF_RR
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
585 INSTR(0x5, "bcr", IF_RR
, F_370
| F_390
| F_Z
| F_R1_IS_MASK
),
586 INSTR(0x6, "bcr", IF_RR
, F_370
| F_390
| F_Z
| F_R1_IS_MASK
),
587 INSTR(0x7, "bnzr", IF_RR
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
588 INSTR(0x8, "ber", IF_RR
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
589 INSTR(0x9, "bcr", IF_RR
, F_370
| F_390
| F_Z
| F_R1_IS_MASK
),
590 INSTR(0xa, "bcr", IF_RR
, F_370
| F_390
| F_Z
| F_R1_IS_MASK
),
591 INSTR(0xb, "bner", IF_RR
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
592 INSTR(0xc, "bcr", IF_RR
, F_370
| F_390
| F_Z
| F_R1_IS_MASK
),
593 INSTR(0xd, "bnhr", IF_RR
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
594 INSTR(0xe, "bnor", IF_RR
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
595 INSTR(0xf, "br", IF_RR
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
598 static const struct inst_table tbl_47
[] = {
599 INSTR(0x0, "nop", IF_RXb
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
600 INSTR(0x1, "bo", IF_RXb
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
601 INSTR(0x2, "bh", IF_RXb
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
602 INSTR(0x3, "bc", IF_RXb
, F_370
| F_390
| F_Z
),
603 INSTR(0x4, "bl", IF_RXb
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
604 INSTR(0x5, "bc", IF_RXb
, F_370
| F_390
| F_Z
),
605 INSTR(0x6, "bc", IF_RXb
, F_370
| F_390
| F_Z
),
606 INSTR(0x7, "bne", IF_RXb
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
607 INSTR(0x8, "be", IF_RXb
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
608 INSTR(0x9, "bc", IF_RXb
, F_370
| F_390
| F_Z
),
609 INSTR(0xa, "bc", IF_RXb
, F_370
| F_390
| F_Z
),
610 INSTR(0xb, "bnl", IF_RXb
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
611 INSTR(0xc, "bc", IF_RXb
, F_370
| F_390
| F_Z
),
612 INSTR(0xd, "bnh", IF_RXb
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
613 INSTR(0xe, "bno", IF_RXb
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
614 INSTR(0xf, "b", IF_RXb
, F_370
| F_390
| F_Z
| F_HIDE_MASK
),
617 /* the preferred mnemonic changed over time */
618 static const struct inst_table tbl_25
[] = {
619 INSTR(F_370
, "lrdr", IF_RR
, F_370
),
620 INSTR(F_390
, "ldxr", IF_RR
, F_390
),
621 INSTR(F_Z
, "ldxr", IF_RR
, F_Z
),
624 /* the preferred mnemonic changed over time */
625 static const struct inst_table tbl_35
[] = {
626 INSTR(F_370
, "lrer", IF_RR
, F_370
),
627 INSTR(F_390
, "ledr", IF_RR
, F_390
),
628 INSTR(F_Z
, "ledr", IF_RR
, F_Z
),
631 /* the preferred mnemonic changed over time */
632 static const struct inst_table tbl_3c
[] = {
633 INSTR(F_370
, "mer", IF_RR
, F_370
),
634 INSTR(F_390
, "mder", IF_RR
, F_390
),
635 INSTR(F_Z
, "mder", IF_RR
, F_Z
),
638 /* the preferred mnemonic changed over time */
639 static const struct inst_table tbl_7c
[] = {
640 INSTR(F_370
, "me", IF_RXa
, F_370
),
641 INSTR(F_390
, "mde", IF_RXa
, F_390
),
642 INSTR(F_Z
, "mde", IF_RXa
, F_Z
),
645 /* the meaning of this instruction changed over time */
646 static const struct inst_table tbl_84
[] = {
647 INSTR(F_370
, "wrd", IF_SI
, F_370
),
648 INSTR(F_390
, "brxh", IF_RSI
, F_390
),
649 INSTR(F_Z
, "brxh", IF_RSI
, F_Z
),
652 /* the meaning of this instruction changed over time */
653 static const struct inst_table tbl_85
[] = {
654 INSTR(F_370
, "rdd", IF_SI
, F_370
),
655 INSTR(F_390
, "brxle", IF_RSI
, F_390
),
656 INSTR(F_Z
, "brxle", IF_RSI
, F_Z
),
659 static const struct inst_table tbl_a5x
[16] = {
660 INSTR(0x0, "iihh", IF_RIa
, F_Z
),
661 INSTR(0x1, "iihl", IF_RIa
, F_Z
),
662 INSTR(0x2, "iilh", IF_RIa
, F_Z
),
663 INSTR(0x3, "iill", IF_RIa
, F_Z
),
664 INSTR(0x4, "nihh", IF_RIa
, F_Z
),
665 INSTR(0x5, "nihl", IF_RIa
, F_Z
),
666 INSTR(0x6, "nilh", IF_RIa
, F_Z
),
667 INSTR(0x7, "nill", IF_RIa
, F_Z
),
668 INSTR(0x8, "oihh", IF_RIa
, F_Z
),
669 INSTR(0x9, "oihl", IF_RIa
, F_Z
),
670 INSTR(0xa, "oilh", IF_RIa
, F_Z
),
671 INSTR(0xb, "oill", IF_RIa
, F_Z
),
672 INSTR(0xc, "llihh", IF_RIa
, F_Z
),
673 INSTR(0xd, "llihl", IF_RIa
, F_Z
),
674 INSTR(0xe, "llilh", IF_RIa
, F_Z
),
675 INSTR(0xf, "llill", IF_RIa
, F_Z
),
678 /* the preferred mnemonic changed over time */
679 static const struct inst_table tbl_a70
[] = {
680 INSTR(F_390
, "tmh", IF_RIa
, F_390
),
681 INSTR(F_Z
, "tmlh", IF_RIa
, F_Z
),
684 /* the preferred mnemonic changed over time */
685 static const struct inst_table tbl_a71
[] = {
686 INSTR(F_390
, "tml", IF_RIa
, F_390
),
687 INSTR(F_Z
, "tmll", IF_RIa
, F_Z
),
690 static const struct inst_table tbl_a74
[16] = {
691 INSTR(0x0, "jnop", IF_RIc
, F_390
| F_Z
| F_HIDE_MASK
),
692 INSTR(0x1, "jo", IF_RIc
, F_390
| F_Z
| F_HIDE_MASK
),
693 INSTR(0x2, "jh", IF_RIc
, F_390
| F_Z
| F_HIDE_MASK
),
694 INSTR(0x3, "brc", IF_RIc
, F_390
| F_Z
),
695 INSTR(0x4, "jl", IF_RIc
, F_390
| F_Z
| F_HIDE_MASK
),
696 INSTR(0x5, "brc", IF_RIc
, F_390
| F_Z
),
697 INSTR(0x6, "brc", IF_RIc
, F_390
| F_Z
),
698 INSTR(0x7, "jne", IF_RIc
, F_390
| F_Z
| F_HIDE_MASK
),
699 INSTR(0x8, "je", IF_RIc
, F_390
| F_Z
| F_HIDE_MASK
),
700 INSTR(0x9, "brc", IF_RIc
, F_390
| F_Z
),
701 INSTR(0xa, "brc", IF_RIc
, F_390
| F_Z
),
702 INSTR(0xb, "jnl", IF_RIc
, F_390
| F_Z
| F_HIDE_MASK
),
703 INSTR(0xc, "brc", IF_RIc
, F_390
| F_Z
),
704 INSTR(0xd, "jnh", IF_RIc
, F_390
| F_Z
| F_HIDE_MASK
),
705 INSTR(0xe, "jno", IF_RIc
, F_390
| F_Z
| F_HIDE_MASK
),
706 INSTR(0xf, "j", IF_RIc
, F_390
| F_Z
| F_HIDE_MASK
),
709 static const struct inst_table tbl_a7x
[16] = {
712 INSTR(0x2, "tmhh", IF_RIa
, F_Z
),
713 INSTR(0x3, "tmhl", IF_RIa
, F_Z
),
714 TABLE(0x4, tbl_a74
, 1, 4, 0x0f),
715 INSTR(0x5, "bras", IF_RIb
, F_390
| F_Z
),
716 INSTR(0x6, "brct", IF_RIb
, F_390
| F_Z
),
717 INSTR(0x7, "brctg", IF_RIb
, F_Z
),
718 INSTR(0x8, "lhi", IF_RIa
, F_390
| F_Z
),
719 INSTR(0x9, "lghi", IF_RIa
, F_Z
),
720 INSTR(0xa, "ahi", IF_RIa
, F_390
| F_Z
| F_SIGNED_IMM
),
721 INSTR(0xb, "aghi", IF_RIa
, F_Z
| F_SIGNED_IMM
),
722 INSTR(0xc, "mhi", IF_RIa
, F_390
| F_Z
),
723 INSTR(0xd, "mghi", IF_RIa
, F_Z
),
724 INSTR(0xe, "chi", IF_RIa
, F_390
| F_Z
| F_SIGNED_IMM
),
725 INSTR(0xf, "cghi", IF_RIa
, F_Z
| F_SIGNED_IMM
),
728 static const struct inst_table tbl_b2a6
[] = {
729 INSTR(F_390
, "cuutf", IF_RRFc
, F_390
),
730 INSTR(F_Z
, "c21", IF_RRFc
, F_Z
),
733 static const struct inst_table tbl_b2a7
[] = {
734 INSTR(F_390
, "cutfu", IF_RRFc
, F_390
),
735 INSTR(F_Z
, "cu12", IF_RRFc
, F_Z
),
738 static const struct inst_table tbl_b2xx
[256] = {
739 INSTR(0x02, "stidp", IF_S
, F_370
| F_390
| F_Z
),
740 INSTR(0x04, "sck", IF_S
, F_370
| F_390
| F_Z
),
741 INSTR(0x05, "stck", IF_S
, F_370
| F_390
| F_Z
),
742 INSTR(0x06, "sckc", IF_S
, F_370
| F_390
| F_Z
),
743 INSTR(0x07, "stckc", IF_S
, F_370
| F_390
| F_Z
),
744 INSTR(0x08, "spt", IF_S
, F_370
| F_390
| F_Z
),
745 INSTR(0x09, "stpt", IF_S
, F_370
| F_390
| F_Z
),
746 INSTR(0x0a, "spka", IF_S
, F_370
| F_390
| F_Z
),
747 INSTR(0x0b, "ipk", IF_S
, F_370
| F_390
| F_Z
),
748 INSTR(0x0d, "ptlb", IF_S
, F_370
| F_390
| F_Z
),
749 INSTR(0x10, "spx", IF_S
, F_370
| F_390
| F_Z
),
750 INSTR(0x11, "stpx", IF_S
, F_370
| F_390
| F_Z
),
751 INSTR(0x12, "stap", IF_S
, F_370
| F_390
| F_Z
),
752 INSTR(0x13, "rrb", IF_S
, F_370
),
753 INSTR(0x14, "sie", IF_S
, F_390
| F_Z
),
754 INSTR(0x18, "pc", IF_S
, F_390
| F_Z
),
755 INSTR(0x19, "sac", IF_S
, F_390
| F_Z
),
756 INSTR(0x1a, "cfc", IF_S
, F_390
| F_Z
),
757 INSTR(0x21, "ipte", IF_RRE
, F_390
| F_Z
),
758 INSTR(0x22, "ipm", IF_RRE
, F_390
| F_Z
),
759 INSTR(0x23, "ivsk", IF_RRE
, F_390
| F_Z
),
760 INSTR(0x24, "iac", IF_RRE
, F_390
| F_Z
),
761 INSTR(0x25, "ssar", IF_RRE
, F_390
| F_Z
),
762 INSTR(0x26, "epar", IF_RRE
, F_390
| F_Z
),
763 INSTR(0x27, "esar", IF_RRE
, F_390
| F_Z
),
764 INSTR(0x28, "pt", IF_RRE
, F_390
| F_Z
),
765 INSTR(0x29, "iske", IF_RRE
, F_390
| F_Z
),
766 INSTR(0x2a, "rrbe", IF_RRE
, F_390
| F_Z
),
767 INSTR(0x2b, "sske", IF_RRFc
, F_390
| F_Z
),
768 INSTR(0x2c, "tb", IF_RRE
, F_390
| F_Z
),
769 INSTR(0x2d, "dxr", IF_RRE
, F_390
| F_Z
),
770 INSTR(0x2e, "pgin", IF_RRE
, F_390
| F_Z
),
771 INSTR(0x2f, "pgout", IF_RRE
, F_390
| F_Z
),
772 INSTR(0x30, "csch", IF_S
, F_Z
),
773 INSTR(0x31, "hsch", IF_S
, F_Z
),
774 INSTR(0x32, "msch", IF_S
, F_Z
),
775 INSTR(0x33, "ssch", IF_S
, F_Z
),
776 INSTR(0x34, "stsch", IF_S
, F_Z
),
777 INSTR(0x35, "tsch", IF_S
, F_Z
),
778 INSTR(0x36, "tpi", IF_S
, F_Z
),
779 INSTR(0x37, "sal", IF_S
, F_Z
),
780 INSTR(0x38, "rsch", IF_S
, F_Z
),
781 INSTR(0x39, "stcrw", IF_S
, F_Z
),
782 INSTR(0x3a, "stcps", IF_S
, F_Z
),
783 INSTR(0x3b, "rchp", IF_S
, F_Z
),
784 INSTR(0x3d, "schm", IF_S
, F_Z
),
785 INSTR(0x40, "bakr", IF_RRE
, F_390
| F_Z
),
786 INSTR(0x41, "cksm", IF_RRE
, F_390
| F_Z
),
787 INSTR(0x44, "sqdr", IF_RRE
, F_390
| F_Z
),
788 INSTR(0x45, "sqer", IF_RRE
, F_390
| F_Z
),
789 INSTR(0x46, "stura", IF_RRE
, F_390
| F_Z
),
790 INSTR(0x47, "msta", IF_RRE
, F_390
| F_Z
),
791 INSTR(0x48, "palb", IF_RRE
, F_390
| F_Z
),
792 INSTR(0x49, "ereg", IF_RRE
, F_390
| F_Z
),
793 INSTR(0x4a, "esta", IF_RRE
, F_390
| F_Z
),
794 INSTR(0x4b, "lura", IF_RRE
, F_390
| F_Z
),
795 INSTR(0x4c, "tar", IF_RRE
, F_390
| F_Z
),
796 INSTR(0x4d, "cpya", IF_RRE
, F_390
| F_Z
),
797 INSTR(0x4e, "sar", IF_RRE
, F_390
| F_Z
),
798 INSTR(0x4f, "ear", IF_RRE
, F_390
| F_Z
),
799 INSTR(0x50, "csp", IF_RRE
, F_390
| F_Z
),
800 INSTR(0x52, "msr", IF_RRE
, F_390
| F_Z
),
801 INSTR(0x54, "mvpg", IF_RRE
, F_390
| F_Z
),
802 INSTR(0x55, "mvst", IF_RRE
, F_390
| F_Z
),
803 INSTR(0x57, "cuse", IF_RRE
, F_390
| F_Z
),
804 INSTR(0x58, "bsg", IF_RRE
, F_390
| F_Z
),
805 INSTR(0x5a, "bsa", IF_RRE
, F_390
| F_Z
),
806 INSTR(0x5d, "clst", IF_RRE
, F_390
| F_Z
),
807 INSTR(0x5e, "srst", IF_RRE
, F_390
| F_Z
),
808 INSTR(0x63, "cmpsc", IF_RRE
, F_Z
),
809 INSTR(0x76, "xsch", IF_S
, F_Z
),
810 INSTR(0x77, "rp", IF_S
, F_390
| F_Z
),
811 INSTR(0x78, "stcke", IF_S
, F_390
| F_Z
),
812 INSTR(0x79, "sacf", IF_S
, F_390
| F_Z
),
813 INSTR(0x7c, "stckf", IF_S
, F_Z
),
814 INSTR(0x7d, "stsi", IF_S
, F_390
| F_Z
),
815 INSTR(0x99, "srnm", IF_S
, F_390
| F_Z
),
816 INSTR(0x9c, "stfpc", IF_S
, F_390
| F_Z
),
817 INSTR(0x9d, "lfpc", IF_S
, F_390
| F_Z
),
818 INSTR(0xa5, "tre", IF_RRE
, F_390
| F_Z
),
819 MULTI(0xa6, tbl_b2a6
),
820 MULTI(0xa7, tbl_b2a7
),
821 INSTR(0xb0, "stfle", IF_S
, F_Z
),
822 INSTR(0xb1, "stfl", IF_S
, F_390
| F_Z
),
823 INSTR(0xb2, "lpswe", IF_S
, F_Z
),
824 INSTR(0xb8, "srnmb", IF_S
, F_Z
),
825 INSTR(0xb9, "srnmt", IF_S
, F_Z
),
826 INSTR(0xbd, "lfas", IF_S
, F_Z
),
827 INSTR(0xe8, "ppa", IF_RRFc
, F_Z
),
828 INSTR(0xec, "etnd", IF_RRE
, F_Z
),
829 INSTR(0xf8, "tend", IF_S
, F_Z
),
830 INSTR(0xfa, "niai", IF_IE
, F_Z
),
831 INSTR(0xfc, "tabort", IF_S
, F_Z
),
832 INSTR(0xff, "trap4", IF_S
, F_390
| F_Z
),
835 static const struct inst_table tbl_b344
[] = {
836 INSTR(F_390
, "ledbr", IF_RRE
, F_390
),
837 INSTR(F_Z
, "ledbra", IF_RRFe
, F_Z
),
840 static const struct inst_table tbl_b345
[] = {
841 INSTR(F_390
, "ldxbr", IF_RRE
, F_390
),
842 INSTR(F_Z
, "ldxbra", IF_RRFe
, F_Z
),
845 static const struct inst_table tbl_b346
[] = {
846 INSTR(F_390
, "lexbr", IF_RRE
, F_390
),
847 INSTR(F_Z
, "lexbra", IF_RRFe
, F_Z
),
850 static const struct inst_table tbl_b347
[] = {
851 INSTR(F_390
, "fixbr", IF_RRFe
, F_390
),
852 INSTR(F_Z
, "fixbra", IF_RRFe
, F_Z
),
855 static const struct inst_table tbl_b357
[] = {
856 INSTR(F_390
, "fiebr", IF_RRFe
, F_390
),
857 INSTR(F_Z
, "fiebre", IF_RRFe
, F_Z
),
860 static const struct inst_table tbl_b35f
[] = {
861 INSTR(F_390
, "fidbr", IF_RRFe
, F_390
),
862 INSTR(F_Z
, "fidbra", IF_RRFe
, F_Z
),
865 static const struct inst_table tbl_b394
[] = {
866 INSTR(F_390
, "cefbr", IF_RRE
, F_390
),
867 INSTR(F_Z
, "cefbra", IF_RRFe
, F_Z
),
870 static const struct inst_table tbl_b395
[] = {
871 INSTR(F_390
, "cdfbr", IF_RRE
, F_390
),
872 INSTR(F_Z
, "cdfbra", IF_RRFe
, F_Z
),
875 static const struct inst_table tbl_b396
[] = {
876 INSTR(F_390
, "cxfbr", IF_RRE
, F_390
),
877 INSTR(F_Z
, "cxfbra", IF_RRFe
, F_Z
),
880 static const struct inst_table tbl_b398
[] = {
881 INSTR(F_390
, "cfebr", IF_RRFe
, F_390
),
882 INSTR(F_Z
, "cfebra", IF_RRFe
, F_Z
),
885 static const struct inst_table tbl_b399
[] = {
886 INSTR(F_390
, "cfdbr", IF_RRFe
, F_390
),
887 INSTR(F_Z
, "cfdbra", IF_RRFe
, F_Z
),
890 static const struct inst_table tbl_b39a
[] = {
891 INSTR(F_390
, "cfxbr", IF_RRFe
, F_390
),
892 INSTR(F_Z
, "cfxbra", IF_RRFe
, F_Z
),
895 static const struct inst_table tbl_b3xx
[256] = {
896 INSTR(0x00, "lpebr", IF_RRE
, F_390
| F_Z
),
897 INSTR(0x01, "lnebr", IF_RRE
, F_390
| F_Z
),
898 INSTR(0x02, "ltebr", IF_RRE
, F_390
| F_Z
),
899 INSTR(0x03, "lcebr", IF_RRE
, F_390
| F_Z
),
900 INSTR(0x04, "ldebr", IF_RRE
, F_390
| F_Z
),
901 INSTR(0x05, "lxdbr", IF_RRE
, F_390
| F_Z
),
902 INSTR(0x06, "lxebr", IF_RRE
, F_390
| F_Z
),
903 INSTR(0x07, "mxdbr", IF_RRE
, F_390
| F_Z
),
904 INSTR(0x08, "kebr", IF_RRE
, F_390
| F_Z
),
905 INSTR(0x09, "cebr", IF_RRE
, F_390
| F_Z
),
906 INSTR(0x0a, "aebr", IF_RRE
, F_390
| F_Z
),
907 INSTR(0x0b, "sebr", IF_RRE
, F_390
| F_Z
),
908 INSTR(0x0c, "mdebr", IF_RRE
, F_390
| F_Z
),
909 INSTR(0x0d, "debr", IF_RRE
, F_390
| F_Z
),
910 INSTR(0x0e, "maebr", IF_RRD
, F_390
| F_Z
),
911 INSTR(0x0f, "msebr", IF_RRD
, F_390
| F_Z
),
912 INSTR(0x10, "lpdbr", IF_RRE
, F_390
| F_Z
),
913 INSTR(0x11, "lndbr", IF_RRE
, F_390
| F_Z
),
914 INSTR(0x12, "ltdbr", IF_RRE
, F_390
| F_Z
),
915 INSTR(0x13, "lcdbr", IF_RRE
, F_390
| F_Z
),
916 INSTR(0x14, "sqebr", IF_RRE
, F_390
| F_Z
),
917 INSTR(0x15, "sqdbr", IF_RRE
, F_390
| F_Z
),
918 INSTR(0x16, "sqxbr", IF_RRE
, F_390
| F_Z
),
919 INSTR(0x17, "meebr", IF_RRE
, F_390
| F_Z
),
920 INSTR(0x18, "kdbr", IF_RRE
, F_390
| F_Z
),
921 INSTR(0x19, "cdbr", IF_RRE
, F_390
| F_Z
),
922 INSTR(0x1a, "adbr", IF_RRE
, F_390
| F_Z
),
923 INSTR(0x1b, "sdbr", IF_RRE
, F_390
| F_Z
),
924 INSTR(0x1c, "mdbr", IF_RRE
, F_390
| F_Z
),
925 INSTR(0x1d, "ddbr", IF_RRE
, F_390
| F_Z
),
926 INSTR(0x1e, "madbr", IF_RRD
, F_390
| F_Z
),
927 INSTR(0x1f, "msdbr", IF_RRD
, F_390
| F_Z
),
928 INSTR(0x24, "lder", IF_RRE
, F_390
| F_Z
),
929 INSTR(0x25, "lxdr", IF_RRE
, F_390
| F_Z
),
930 INSTR(0x26, "lxer", IF_RRE
, F_390
| F_Z
),
931 INSTR(0x2e, "maer", IF_RRD
, F_390
| F_Z
),
932 INSTR(0x2f, "mser", IF_RRD
, F_390
| F_Z
),
933 INSTR(0x36, "sqxr", IF_RRE
, F_390
| F_Z
),
934 INSTR(0x37, "meer", IF_RRE
, F_390
| F_Z
),
935 INSTR(0x38, "maylr", IF_RRD
, F_Z
),
936 INSTR(0x39, "mylr", IF_RRD
, F_Z
),
937 INSTR(0x3a, "mayr", IF_RRD
, F_Z
),
938 INSTR(0x3b, "myr", IF_RRD
, F_Z
),
939 INSTR(0x3c, "mayhr", IF_RRD
, F_Z
),
940 INSTR(0x3d, "myhr", IF_RRD
, F_Z
),
941 INSTR(0x3e, "madr", IF_RRD
, F_390
| F_Z
),
942 INSTR(0x3f, "msdr", IF_RRD
, F_390
| F_Z
),
943 INSTR(0x40, "lpxbr", IF_RRE
, F_390
| F_Z
),
944 INSTR(0x41, "lnxbr", IF_RRE
, F_390
| F_Z
),
945 INSTR(0x42, "ltxbr", IF_RRE
, F_390
| F_Z
),
946 INSTR(0x43, "lcxbr", IF_RRE
, F_390
| F_Z
),
947 MULTI(0x44, tbl_b344
),
948 MULTI(0x45, tbl_b345
),
949 MULTI(0x46, tbl_b346
),
950 MULTI(0x47, tbl_b347
),
951 INSTR(0x48, "kxbr", IF_RRE
, F_390
| F_Z
),
952 INSTR(0x49, "cxbr", IF_RRE
, F_390
| F_Z
),
953 INSTR(0x4a, "axbr", IF_RRE
, F_390
| F_Z
),
954 INSTR(0x4b, "sxbr", IF_RRE
, F_390
| F_Z
),
955 INSTR(0x4c, "mxbr", IF_RRE
, F_390
| F_Z
),
956 INSTR(0x4d, "dxbr", IF_RRE
, F_390
| F_Z
),
957 INSTR(0x50, "tbedr", IF_RRFe
, F_390
| F_Z
),
958 INSTR(0x51, "tbdr", IF_RRFe
, F_390
| F_Z
),
959 INSTR(0x53, "diebr", IF_RRFb
, F_390
| F_Z
),
960 MULTI(0x57, tbl_b357
),
961 INSTR(0x58, "thder", IF_RRE
, F_390
| F_Z
),
962 INSTR(0x59, "thdr", IF_RRE
, F_390
| F_Z
),
963 INSTR(0x5b, "didbr", IF_RRFe
, F_390
| F_Z
),
964 MULTI(0x5f, tbl_b35f
),
965 INSTR(0x60, "lpxr", IF_RRE
, F_390
| F_Z
),
966 INSTR(0x61, "lnxr", IF_RRE
, F_390
| F_Z
),
967 INSTR(0x62, "ltxr", IF_RRE
, F_390
| F_Z
),
968 INSTR(0x63, "lcxr", IF_RRE
, F_390
| F_Z
),
969 INSTR(0x65, "lxr", IF_RRE
, F_390
| F_Z
),
970 INSTR(0x66, "lexr", IF_RRE
, F_390
| F_Z
),
971 INSTR(0x67, "fixr", IF_RRE
, F_390
| F_Z
),
972 INSTR(0x69, "cxr", IF_RRE
, F_390
| F_Z
),
973 INSTR(0x70, "lpdfr", IF_RRE
, F_Z
),
974 INSTR(0x71, "lndfr", IF_RRE
, F_Z
),
975 INSTR(0x72, "cpsdr", IF_RRFe
, F_Z
),
976 INSTR(0x73, "lcdfr", IF_RRE
, F_Z
),
977 INSTR(0x74, "lzer", IF_RRE
, F_390
| F_Z
),
978 INSTR(0x75, "lzdr", IF_RRE
, F_390
| F_Z
),
979 INSTR(0x76, "lzxr", IF_RRE
, F_390
| F_Z
),
980 INSTR(0x77, "fier", IF_RRE
, F_390
| F_Z
),
981 INSTR(0x7f, "fidr", IF_RRE
, F_390
| F_Z
),
982 INSTR(0x84, "sfpc", IF_RRE
, F_390
| F_Z
),
983 INSTR(0x85, "sfasr", IF_RRE
, F_Z
),
984 INSTR(0x8c, "efpc", IF_RRE
, F_390
| F_Z
),
985 INSTR(0x90, "celfbr", IF_RRFe
, F_Z
),
986 INSTR(0x91, "cdlfbr", IF_RRFe
, F_Z
),
987 INSTR(0x92, "cxlfbr", IF_RRFe
, F_Z
),
988 MULTI(0x94, tbl_b394
),
989 MULTI(0x95, tbl_b395
),
990 MULTI(0x96, tbl_b396
),
991 MULTI(0x98, tbl_b398
),
992 MULTI(0x99, tbl_b399
),
993 MULTI(0x9a, tbl_b39a
),
994 INSTR(0x9c, "clfebr", IF_RRFe
, F_Z
),
995 INSTR(0x9d, "clfdbr", IF_RRFe
, F_Z
),
996 INSTR(0x9e, "clfxbr", IF_RRFe
, F_Z
),
997 INSTR(0xa0, "celgbr", IF_RRFe
, F_Z
),
998 INSTR(0xa1, "cdlgbr", IF_RRFe
, F_Z
),
999 INSTR(0xa2, "cxlgbr", IF_RRFe
, F_Z
),
1000 INSTR(0xa4, "cegbra", IF_RRFe
, F_Z
),
1001 INSTR(0xa5, "cdgbra", IF_RRFe
, F_Z
),
1002 INSTR(0xa6, "cxgbra", IF_RRFe
, F_Z
),
1003 INSTR(0xa8, "cgebra", IF_RRFe
, F_Z
),
1004 INSTR(0xa9, "cgdbra", IF_RRFe
, F_Z
),
1005 INSTR(0xaa, "cgxbra", IF_RRFe
, F_Z
),
1006 INSTR(0xac, "clgebr", IF_RRFe
, F_Z
),
1007 INSTR(0xad, "clgdbr", IF_RRFe
, F_Z
),
1008 INSTR(0xae, "clgxbr", IF_RRFe
, F_Z
),
1009 INSTR(0xb4, "cefr", IF_RRE
, F_390
| F_Z
),
1010 INSTR(0xb5, "cdfr", IF_RRE
, F_390
| F_Z
),
1011 INSTR(0xb6, "cxfr", IF_RRE
, F_390
| F_Z
),
1012 INSTR(0xb8, "cfer", IF_RRFe
, F_390
| F_Z
),
1013 INSTR(0xb9, "cfdr", IF_RRFe
, F_390
| F_Z
),
1014 INSTR(0xba, "cfxr", IF_RRFe
, F_390
| F_Z
),
1015 INSTR(0xc1, "ldgr", IF_RRE
, F_Z
),
1016 INSTR(0xc4, "cegr", IF_RRE
, F_Z
),
1017 INSTR(0xc5, "cdgr", IF_RRE
, F_Z
),
1018 INSTR(0xc6, "cxgr", IF_RRE
, F_Z
),
1019 INSTR(0xc8, "cger", IF_RRFe
, F_Z
),
1020 INSTR(0xc9, "cgdr", IF_RRFe
, F_Z
),
1021 INSTR(0xca, "cgxr", IF_RRFe
, F_Z
),
1022 INSTR(0xcd, "lgdr", IF_RRE
, F_Z
),
1023 INSTR(0xd0, "mdtra", IF_RRFa
, F_Z
),
1024 INSTR(0xd1, "ddtra", IF_RRFa
, F_Z
),
1025 INSTR(0xd2, "adtra", IF_RRFa
, F_Z
),
1026 INSTR(0xd3, "sdtra", IF_RRFa
, F_Z
),
1027 INSTR(0xd4, "ldetr", IF_RRFd
, F_Z
),
1028 INSTR(0xd5, "ledtr", IF_RRFe
, F_Z
),
1029 INSTR(0xd6, "ltdtr", IF_RRE
, F_Z
),
1030 INSTR(0xd7, "fidtr", IF_RRFe
, F_Z
),
1031 INSTR(0xd8, "mxtra", IF_RRFa
, F_Z
),
1032 INSTR(0xd9, "dxtra", IF_RRFa
, F_Z
),
1033 INSTR(0xda, "axtra", IF_RRFa
, F_Z
),
1034 INSTR(0xdb, "sxtra", IF_RRFa
, F_Z
),
1035 INSTR(0xdc, "lxdtr", IF_RRFd
, F_Z
),
1036 INSTR(0xdd, "ldxtr", IF_RRFe
, F_Z
),
1037 INSTR(0xde, "ltxtr", IF_RRE
, F_Z
),
1038 INSTR(0xdf, "fixtr", IF_RRFe
, F_Z
),
1039 INSTR(0xe0, "kdtr", IF_RRE
, F_Z
),
1040 INSTR(0xe1, "cgdtra", IF_RRFe
, F_Z
),
1041 INSTR(0xe2, "cudtr", IF_RRE
, F_Z
),
1042 INSTR(0xe3, "csdtr", IF_RRFd
, F_Z
),
1043 INSTR(0xe4, "cdtr", IF_RRE
, F_Z
),
1044 INSTR(0xe5, "eedtr", IF_RRE
, F_Z
),
1045 INSTR(0xe7, "esdtr", IF_RRE
, F_Z
),
1046 INSTR(0xe8, "kxtr", IF_RRE
, F_Z
),
1047 INSTR(0xe9, "cgxtra", IF_RRFe
, F_Z
),
1048 INSTR(0xea, "cuxtr", IF_RRE
, F_Z
),
1049 INSTR(0xeb, "csxtr", IF_RRFd
, F_Z
),
1050 INSTR(0xec, "cxtr", IF_RRE
, F_Z
),
1051 INSTR(0xed, "eextr", IF_RRE
, F_Z
),
1052 INSTR(0xef, "esxtr", IF_RRE
, F_Z
),
1053 INSTR(0xf1, "cdgtra", IF_RRE
, F_Z
),
1054 INSTR(0xf2, "cdutr", IF_RRE
, F_Z
),
1055 INSTR(0xf3, "cdstr", IF_RRE
, F_Z
),
1056 INSTR(0xf4, "cedtr", IF_RRE
, F_Z
),
1057 INSTR(0xf5, "qadtr", IF_RRFb
, F_Z
),
1058 INSTR(0xf6, "iedtr", IF_RRFb
, F_Z
),
1059 INSTR(0xf7, "rrdtr", IF_RRFb
, F_Z
),
1060 INSTR(0xf9, "cxgtra", IF_RRE
, F_Z
),
1061 INSTR(0xfa, "cxutr", IF_RRE
, F_Z
),
1062 INSTR(0xfb, "cxstr", IF_RRE
, F_Z
),
1063 INSTR(0xfc, "cextr", IF_RRE
, F_Z
),
1064 INSTR(0xfd, "qaxtr", IF_RRFb
, F_Z
),
1065 INSTR(0xfe, "iextr", IF_RRFb
, F_Z
),
1066 INSTR(0xff, "rrxtr", IF_RRFb
, F_Z
),
1069 static const struct inst_table tbl_b9xx
[256] = {
1070 INSTR(0x00, "lpgr", IF_RRE
, F_Z
),
1071 INSTR(0x01, "lngr", IF_RRE
, F_Z
),
1072 INSTR(0x02, "ltgr", IF_RRE
, F_Z
),
1073 INSTR(0x03, "lcgr", IF_RRE
, F_Z
),
1074 INSTR(0x04, "lgr", IF_RRE
, F_Z
),
1075 INSTR(0x05, "lurag", IF_RRE
, F_Z
),
1076 INSTR(0x06, "lgbr", IF_RRE
, F_Z
),
1077 INSTR(0x07, "lghr", IF_RRE
, F_Z
),
1078 INSTR(0x08, "agr", IF_RRE
, F_Z
),
1079 INSTR(0x09, "sgr", IF_RRE
, F_Z
),
1080 INSTR(0x0a, "algr", IF_RRE
, F_Z
),
1081 INSTR(0x0b, "slgr", IF_RRE
, F_Z
),
1082 INSTR(0x0c, "msgr", IF_RRE
, F_Z
),
1083 INSTR(0x0d, "dsgr", IF_RRE
, F_Z
),
1084 INSTR(0x0e, "eregg", IF_RRE
, F_Z
),
1085 INSTR(0x0f, "lrvgr", IF_RRE
, F_Z
),
1086 INSTR(0x10, "lpgfr", IF_RRE
, F_Z
),
1087 INSTR(0x11, "lngfr", IF_RRE
, F_Z
),
1088 INSTR(0x12, "ltgfr", IF_RRE
, F_Z
),
1089 INSTR(0x13, "lcgfr", IF_RRE
, F_Z
),
1090 INSTR(0x14, "lgfr", IF_RRE
, F_Z
),
1091 INSTR(0x16, "llgfr", IF_RRE
, F_Z
),
1092 INSTR(0x17, "llgtr", IF_RRE
, F_Z
),
1093 INSTR(0x18, "agfr", IF_RRE
, F_Z
),
1094 INSTR(0x19, "sgfr", IF_RRE
, F_Z
),
1095 INSTR(0x1a, "algfr", IF_RRE
, F_Z
),
1096 INSTR(0x1b, "slgfr", IF_RRE
, F_Z
),
1097 INSTR(0x1c, "msgfr", IF_RRE
, F_Z
),
1098 INSTR(0x1d, "dsgfr", IF_RRE
, F_Z
),
1099 INSTR(0x1e, "kmac", IF_RRE
, F_390
| F_Z
),
1100 INSTR(0x1f, "lrvr", IF_RRE
, F_390
| F_Z
),
1101 INSTR(0x20, "cgr", IF_RRE
, F_Z
),
1102 INSTR(0x21, "clgr", IF_RRE
, F_Z
),
1103 INSTR(0x25, "sturg", IF_RRE
, F_Z
),
1104 INSTR(0x26, "lbr", IF_RRE
, F_Z
),
1105 INSTR(0x27, "lhr", IF_RRE
, F_Z
),
1106 INSTR(0x28, "pckmo", IF_RRE
, F_Z
),
1107 INSTR(0x2a, "kmf", IF_RRE
, F_Z
),
1108 INSTR(0x2b, "kmo", IF_RRE
, F_Z
),
1109 INSTR(0x2c, "pcc", IF_RRE
, F_Z
),
1110 INSTR(0x2d, "kmctr", IF_RRFd
, F_Z
),
1111 INSTR(0x2e, "km", IF_RRE
, F_390
| F_Z
),
1112 INSTR(0x2f, "kmc", IF_RRE
, F_390
| F_Z
),
1113 INSTR(0x30, "cgfr", IF_RRE
, F_Z
),
1114 INSTR(0x31, "clgfr", IF_RRE
, F_Z
),
1115 INSTR(0x3e, "kimd", IF_RRE
, F_390
| F_Z
),
1116 INSTR(0x3f, "klmd", IF_RRE
, F_390
| F_Z
),
1117 INSTR(0x41, "cfdtr", IF_RRFe
, F_Z
),
1118 INSTR(0x42, "clgdtr", IF_RRFe
, F_Z
),
1119 INSTR(0x43, "clfdtr", IF_RRFe
, F_Z
),
1120 INSTR(0x46, "bctgr", IF_RRE
, F_Z
),
1121 INSTR(0x49, "cfxtr", IF_RRFe
, F_Z
),
1122 INSTR(0x4a, "clgxtr", IF_RRFe
, F_Z
),
1123 INSTR(0x4b, "clfxtr", IF_RRFe
, F_Z
),
1124 INSTR(0x51, "cdftr", IF_RRE
, F_Z
),
1125 INSTR(0x52, "cdlgtr", IF_RRFe
, F_Z
),
1126 INSTR(0x53, "cdlftr", IF_RRFe
, F_Z
),
1127 INSTR(0x59, "cxftr", IF_RRE
, F_Z
),
1128 INSTR(0x5a, "cxlgtr", IF_RRFe
, F_Z
),
1129 INSTR(0x5b, "cxlftr", IF_RRFe
, F_Z
),
1130 INSTR(0x60, "cgrt", IF_RRFc
, F_Z
),
1131 INSTR(0x61, "clgrt", IF_RRFc
, F_Z
),
1132 INSTR(0x72, "crt", IF_RRFc
, F_Z
),
1133 INSTR(0x73, "clrt", IF_RRFc
, F_Z
),
1134 INSTR(0x80, "ngr", IF_RRE
, F_Z
),
1135 INSTR(0x81, "ogr", IF_RRE
, F_Z
),
1136 INSTR(0x82, "xgr", IF_RRE
, F_Z
),
1137 INSTR(0x83, "flogr", IF_RRE
, F_Z
),
1138 INSTR(0x84, "llgcr", IF_RRE
, F_Z
),
1139 INSTR(0x85, "llghr", IF_RRE
, F_Z
),
1140 INSTR(0x86, "mlgr", IF_RRE
, F_Z
),
1141 INSTR(0x87, "dlgr", IF_RRE
, F_Z
),
1142 INSTR(0x88, "alcgr", IF_RRE
, F_Z
),
1143 INSTR(0x89, "slbgr", IF_RRE
, F_Z
),
1144 INSTR(0x8a, "cspg", IF_RRE
, F_Z
),
1145 INSTR(0x8d, "epsw", IF_RRE
, F_390
| F_Z
),
1146 INSTR(0x8e, "idte", IF_RRFb
, F_Z
),
1147 INSTR(0x8f, "crdte", IF_RRFb
, F_Z
),
1148 INSTR(0x90, "trtt", IF_RRFc
, F_390
| F_Z
),
1149 INSTR(0x91, "trto", IF_RRFc
, F_390
| F_Z
),
1150 INSTR(0x92, "trot", IF_RRFc
, F_390
| F_Z
),
1151 INSTR(0x93, "troo", IF_RRFc
, F_390
| F_Z
),
1152 INSTR(0x94, "llcr", IF_RRE
, F_Z
),
1153 INSTR(0x95, "llhr", IF_RRE
, F_Z
),
1154 INSTR(0x96, "mlr", IF_RRE
, F_390
| F_Z
),
1155 INSTR(0x97, "dlr", IF_RRE
, F_390
| F_Z
),
1156 INSTR(0x98, "alcr", IF_RRE
, F_390
| F_Z
),
1157 INSTR(0x99, "slbr", IF_RRE
, F_390
| F_Z
),
1158 INSTR(0x9a, "epair", IF_RRE
, F_Z
),
1159 INSTR(0x9b, "esair", IF_RRE
, F_Z
),
1160 INSTR(0x9d, "esea", IF_RRE
, F_Z
),
1161 INSTR(0x9e, "pti", IF_RRE
, F_Z
),
1162 INSTR(0x9f, "ssair", IF_RRE
, F_Z
),
1163 INSTR(0xa2, "ptf", IF_RRE
, F_Z
),
1164 INSTR(0xaa, "lptea", IF_RRFb
, F_Z
),
1165 INSTR(0xae, "rrbm", IF_RRE
, F_Z
),
1166 INSTR(0xaf, "pfmf", IF_RRE
, F_Z
),
1167 INSTR(0xb0, "cu14", IF_RRFc
, F_Z
),
1168 INSTR(0xb1, "cu24", IF_RRFc
, F_Z
),
1169 INSTR(0xb2, "cu41", IF_RRE
, F_Z
),
1170 INSTR(0xb3, "cu42", IF_RRE
, F_Z
),
1171 INSTR(0xbd, "trtre", IF_RRFc
, F_Z
),
1172 INSTR(0xbe, "srstu", IF_RRE
, F_Z
),
1173 INSTR(0xbf, "trte", IF_RRFc
, F_Z
),
1174 INSTR(0xc8, "ahhhr", IF_RRFa
, F_Z
),
1175 INSTR(0xc9, "shhhr", IF_RRFa
, F_Z
),
1176 INSTR(0xca, "alhhhr", IF_RRFa
, F_Z
),
1177 INSTR(0xcb, "slhhhr", IF_RRFa
, F_Z
),
1178 INSTR(0xcd, "chhr", IF_RRE
, F_Z
),
1179 INSTR(0xcf, "clhhr", IF_RRE
, F_Z
),
1180 INSTR(0xd8, "ahhlr", IF_RRFa
, F_Z
),
1181 INSTR(0xd9, "shhlr", IF_RRFa
, F_Z
),
1182 INSTR(0xda, "alhhlr", IF_RRFa
, F_Z
),
1183 INSTR(0xdb, "slhhlr", IF_RRFa
, F_Z
),
1184 INSTR(0xdd, "chlr", IF_RRE
, F_Z
),
1185 INSTR(0xdf, "clhlr", IF_RRE
, F_Z
),
1186 INSTR(0xe1, "popcnt", IF_RRE
, F_Z
),
1187 INSTR(0xe2, "locgr", IF_RRFc
, F_Z
),
1188 INSTR(0xe4, "ngrk", IF_RRFa
, F_Z
),
1189 INSTR(0xe6, "ogrk", IF_RRFa
, F_Z
),
1190 INSTR(0xe7, "xgrk", IF_RRFa
, F_Z
),
1191 INSTR(0xe8, "agrk", IF_RRFa
, F_Z
),
1192 INSTR(0xe9, "sgrk", IF_RRFa
, F_Z
),
1193 INSTR(0xea, "algrk", IF_RRFa
, F_Z
),
1194 INSTR(0xeb, "slgrk", IF_RRFa
, F_Z
),
1195 INSTR(0xf2, "locgr", IF_RRFc
, F_Z
),
1196 INSTR(0xf4, "nrk", IF_RRFa
, F_Z
),
1197 INSTR(0xf6, "ork", IF_RRFa
, F_Z
),
1198 INSTR(0xf7, "xrk", IF_RRFa
, F_Z
),
1199 INSTR(0xf8, "ark", IF_RRFa
, F_Z
),
1200 INSTR(0xf9, "srk", IF_RRFa
, F_Z
),
1201 INSTR(0xfa, "alrk", IF_RRFa
, F_Z
),
1202 INSTR(0xfb, "slrk", IF_RRFa
, F_Z
),
1205 static const struct inst_table tbl_c0x
[16] = {
1206 INSTR(0x0, "larl", IF_RILb
, F_390
| F_Z
),
1207 INSTR(0x1, "lgfi", IF_RILa
, F_Z
),
1208 INSTR(0x4, "brcl", IF_RILc
, F_390
| F_Z
),
1209 INSTR(0x5, "brasl", IF_RILb
, F_390
| F_Z
),
1210 INSTR(0x6, "xihf", IF_RILa
, F_Z
),
1211 INSTR(0x7, "xilf", IF_RILa
, F_Z
),
1212 INSTR(0x8, "iihf", IF_RILa
, F_Z
),
1213 INSTR(0x9, "iilf", IF_RILa
, F_Z
),
1214 INSTR(0xa, "nihf", IF_RILa
, F_Z
),
1215 INSTR(0xb, "nilf", IF_RILa
, F_Z
),
1216 INSTR(0xc, "oihf", IF_RILa
, F_Z
),
1217 INSTR(0xd, "oilf", IF_RILa
, F_Z
),
1218 INSTR(0xe, "llihf", IF_RILa
, F_Z
),
1219 INSTR(0xf, "llilf", IF_RILa
, F_Z
),
1222 static const struct inst_table tbl_c2x
[16] = {
1223 INSTR(0x0, "msgfi", IF_RILa
, F_Z
),
1224 INSTR(0x1, "msfi", IF_RILa
, F_Z
),
1225 INSTR(0x4, "slgfi", IF_RILa
, F_Z
),
1226 INSTR(0x5, "slfi", IF_RILa
, F_Z
),
1227 INSTR(0x8, "agfi", IF_RILa
, F_Z
),
1228 INSTR(0x9, "afi", IF_RILa
, F_Z
),
1229 INSTR(0xa, "algfi", IF_RILa
, F_Z
),
1230 INSTR(0xb, "alfi", IF_RILa
, F_Z
),
1231 INSTR(0xc, "cgfi", IF_RILa
, F_Z
),
1232 INSTR(0xd, "cfi", IF_RILa
, F_Z
),
1233 INSTR(0xe, "clgfi", IF_RILa
, F_Z
),
1234 INSTR(0xf, "clfi", IF_RILa
, F_Z
),
1237 static const struct inst_table tbl_c4x
[16] = {
1238 INSTR(0x2, "llhrl", IF_RILb
, F_Z
),
1239 INSTR(0x4, "lghrl", IF_RILb
, F_Z
),
1240 INSTR(0x5, "lhrl", IF_RILb
, F_Z
),
1241 INSTR(0x6, "llghrl", IF_RILb
, F_Z
),
1242 INSTR(0x7, "sthrl", IF_RILb
, F_Z
),
1243 INSTR(0x8, "lgrl", IF_RILb
, F_Z
),
1244 INSTR(0xb, "stgrl", IF_RILb
, F_Z
),
1245 INSTR(0xc, "lgfrl", IF_RILb
, F_Z
),
1246 INSTR(0xd, "lrl", IF_RILb
, F_Z
),
1247 INSTR(0xe, "llgfrl", IF_RILb
, F_Z
),
1248 INSTR(0xf, "strl", IF_RILb
, F_Z
),
1251 static const struct inst_table tbl_c6x
[16] = {
1252 INSTR(0x0, "exrl", IF_RILb
, F_Z
),
1253 INSTR(0x2, "pfdrl", IF_RILc
, F_Z
),
1254 INSTR(0x4, "cghrl", IF_RILb
, F_Z
),
1255 INSTR(0x5, "chrl", IF_RILb
, F_Z
),
1256 INSTR(0x6, "clghrl", IF_RILb
, F_Z
),
1257 INSTR(0x7, "clhrl", IF_RILb
, F_Z
),
1258 INSTR(0x8, "cgrl", IF_RILb
, F_Z
),
1259 INSTR(0xa, "clgrl", IF_RILb
, F_Z
),
1260 INSTR(0xc, "cgfrl", IF_RILb
, F_Z
),
1261 INSTR(0xd, "crl", IF_RILb
, F_Z
),
1262 INSTR(0xe, "clgfrl", IF_RILb
, F_Z
),
1263 INSTR(0xf, "clrl", IF_RILb
, F_Z
),
1266 static const struct inst_table tbl_c8x
[16] = {
1267 INSTR(0x0, "mvcos", IF_SSF
, F_Z
),
1268 INSTR(0x1, "ectg", IF_SSF
, F_Z
),
1269 INSTR(0x2, "csst", IF_SSF
, F_Z
),
1270 INSTR(0x4, "lpd", IF_SSF
, F_Z
),
1271 INSTR(0x5, "lpdg", IF_SSF
, F_Z
),
1274 static const struct inst_table tbl_ccx
[16] = {
1275 INSTR(0x6, "brcth", IF_RILb
, F_Z
),
1276 INSTR(0x8, "aih", IF_RILa
, F_Z
),
1277 INSTR(0xa, "alsih", IF_RILa
, F_Z
),
1278 INSTR(0xb, "alsihn", IF_RILa
, F_Z
),
1279 INSTR(0xd, "cih", IF_RILa
, F_Z
),
1280 INSTR(0xf, "clih", IF_RILa
, F_Z
),
1283 static const struct inst_table tbl_e3xx
[256] = {
1284 INSTR(0x02, "ltg", IF_RXYa
, F_Z
),
1285 INSTR(0x03, "lrag", IF_RXYa
, F_Z
),
1286 INSTR(0x04, "lg", IF_RXYa
, F_Z
),
1287 INSTR(0x06, "cvby", IF_RXYa
, F_Z
),
1288 INSTR(0x08, "ag", IF_RXYa
, F_Z
),
1289 INSTR(0x09, "sg", IF_RXYa
, F_Z
),
1290 INSTR(0x0a, "alg", IF_RXYa
, F_Z
),
1291 INSTR(0x0b, "slg", IF_RXYa
, F_Z
),
1292 INSTR(0x0c, "msg", IF_RXYa
, F_Z
),
1293 INSTR(0x0d, "dsg", IF_RXYa
, F_Z
),
1294 INSTR(0x0e, "cvbg", IF_RXYa
, F_Z
),
1295 INSTR(0x0f, "lrvg", IF_RXYa
, F_Z
),
1296 INSTR(0x12, "lt", IF_RXYa
, F_Z
),
1297 INSTR(0x13, "lray", IF_RXYa
, F_Z
),
1298 INSTR(0x14, "lgf", IF_RXYa
, F_Z
),
1299 INSTR(0x15, "lgh", IF_RXYa
, F_Z
),
1300 INSTR(0x16, "llgf", IF_RXYa
, F_Z
),
1301 INSTR(0x17, "llgt", IF_RXYa
, F_Z
),
1302 INSTR(0x18, "agf", IF_RXYa
, F_Z
),
1303 INSTR(0x19, "sgf", IF_RXYa
, F_Z
),
1304 INSTR(0x1a, "algf", IF_RXYa
, F_Z
),
1305 INSTR(0x1b, "slgf", IF_RXYa
, F_Z
),
1306 INSTR(0x1c, "msgf", IF_RXYa
, F_Z
),
1307 INSTR(0x1d, "dsgf", IF_RXYa
, F_Z
),
1308 INSTR(0x1e, "lrv", IF_RXYa
, F_390
| F_Z
),
1309 INSTR(0x1f, "lrvh", IF_RXYa
, F_390
| F_Z
),
1310 INSTR(0x20, "cg", IF_RXYa
, F_Z
),
1311 INSTR(0x21, "clg", IF_RXYa
, F_Z
),
1312 INSTR(0x24, "stg", IF_RXYa
, F_Z
),
1313 INSTR(0x25, "ntstg", IF_RXYa
, F_Z
),
1314 INSTR(0x26, "cvdy", IF_RXYa
, F_Z
),
1315 INSTR(0x2e, "cvdg", IF_RXYa
, F_Z
),
1316 INSTR(0x2f, "strvg", IF_RXYa
, F_Z
),
1317 INSTR(0x30, "cgf", IF_RXYa
, F_Z
),
1318 INSTR(0x31, "clgf", IF_RXYa
, F_Z
),
1319 INSTR(0x32, "ltgf", IF_RXYa
, F_Z
),
1320 INSTR(0x34, "cgh", IF_RXYa
, F_Z
),
1321 INSTR(0x36, "pfd", IF_RXYb
, F_Z
),
1322 INSTR(0x3e, "strv", IF_RXYa
, F_390
| F_Z
),
1323 INSTR(0x3f, "strvh", IF_RXYa
, F_390
| F_Z
),
1324 INSTR(0x46, "bctg", IF_RXYa
, F_Z
),
1325 INSTR(0x50, "sty", IF_RXYa
, F_Z
),
1326 INSTR(0x51, "msy", IF_RXYa
, F_Z
),
1327 INSTR(0x54, "ny", IF_RXYa
, F_Z
),
1328 INSTR(0x55, "cly", IF_RXYa
, F_Z
),
1329 INSTR(0x56, "oy", IF_RXYa
, F_Z
),
1330 INSTR(0x57, "xy", IF_RXYa
, F_Z
),
1331 INSTR(0x58, "ly", IF_RXYa
, F_Z
),
1332 INSTR(0x59, "cy", IF_RXYa
, F_Z
),
1333 INSTR(0x5a, "ay", IF_RXYa
, F_Z
),
1334 INSTR(0x5b, "sy", IF_RXYa
, F_Z
),
1335 INSTR(0x5c, "mfy", IF_RXYa
, F_Z
),
1336 INSTR(0x5e, "aly", IF_RXYa
, F_Z
),
1337 INSTR(0x5f, "sly", IF_RXYa
, F_Z
),
1338 INSTR(0x70, "sthy", IF_RXYa
, F_Z
),
1339 INSTR(0x71, "lay", IF_RXYa
, F_Z
),
1340 INSTR(0x72, "stcy", IF_RXYa
, F_Z
),
1341 INSTR(0x73, "icy", IF_RXYa
, F_Z
),
1342 INSTR(0x75, "laey", IF_RXYa
, F_Z
),
1343 INSTR(0x76, "lb", IF_RXYa
, F_Z
),
1344 INSTR(0x77, "lgb", IF_RXYa
, F_Z
),
1345 INSTR(0x78, "lhy", IF_RXYa
, F_Z
),
1346 INSTR(0x79, "chy", IF_RXYa
, F_Z
),
1347 INSTR(0x7a, "ahy", IF_RXYa
, F_Z
),
1348 INSTR(0x7b, "shy", IF_RXYa
, F_Z
),
1349 INSTR(0x7c, "mhy", IF_RXYa
, F_Z
),
1350 INSTR(0x80, "ng", IF_RXYa
, F_Z
),
1351 INSTR(0x81, "og", IF_RXYa
, F_Z
),
1352 INSTR(0x82, "xg", IF_RXYa
, F_Z
),
1353 INSTR(0x85, "lgat", IF_RXYa
, F_Z
),
1354 INSTR(0x86, "mlg", IF_RXYa
, F_Z
),
1355 INSTR(0x87, "dlg", IF_RXYa
, F_Z
),
1356 INSTR(0x88, "alcg", IF_RXYa
, F_Z
),
1357 INSTR(0x89, "slbg", IF_RXYa
, F_Z
),
1358 INSTR(0x8e, "stpq", IF_RXYa
, F_Z
),
1359 INSTR(0x8f, "lpq", IF_RXYa
, F_Z
),
1360 INSTR(0x90, "llgc", IF_RXYa
, F_Z
),
1361 INSTR(0x91, "llgh", IF_RXYa
, F_Z
),
1362 INSTR(0x94, "llc", IF_RXYa
, F_Z
),
1363 INSTR(0x95, "llh", IF_RXYa
, F_Z
),
1364 INSTR(0x96, "ml", IF_RXYa
, F_390
| F_Z
),
1365 INSTR(0x97, "dl", IF_RXYa
, F_390
| F_Z
),
1366 INSTR(0x98, "alc", IF_RXYa
, F_390
| F_Z
),
1367 INSTR(0x99, "slb", IF_RXYa
, F_390
| F_Z
),
1368 INSTR(0x9c, "llgtat", IF_RXYa
, F_Z
),
1369 INSTR(0x9d, "llgfat", IF_RXYa
, F_Z
),
1370 INSTR(0x9f, "lat", IF_RXYa
, F_Z
),
1371 INSTR(0xc0, "lbh", IF_RXYa
, F_Z
),
1372 INSTR(0xc2, "llch", IF_RXYa
, F_Z
),
1373 INSTR(0xc3, "stch", IF_RXYa
, F_Z
),
1374 INSTR(0xc4, "lhh", IF_RXYa
, F_Z
),
1375 INSTR(0xc6, "llhh", IF_RXYa
, F_Z
),
1376 INSTR(0xc7, "sthh", IF_RXYa
, F_Z
),
1377 INSTR(0xc8, "lfhat", IF_RXYa
, F_Z
),
1378 INSTR(0xca, "lfh", IF_RXYa
, F_Z
),
1379 INSTR(0xcb, "stfh", IF_RXYa
, F_Z
),
1380 INSTR(0xcd, "chf", IF_RXYa
, F_Z
),
1381 INSTR(0xcf, "clhf", IF_RXYa
, F_Z
),
1384 static const struct inst_table tbl_e5xx
[256] = {
1385 INSTR(0x00, "lasp", IF_SSE
, F_390
| F_Z
),
1386 INSTR(0x01, "tprot", IF_SSE
, F_390
| F_Z
),
1387 INSTR(0x02, "strag", IF_SSE
, F_Z
),
1388 INSTR(0x0e, "mvcsk", IF_SSE
, F_390
| F_Z
),
1389 INSTR(0x0f, "mvcdk", IF_SSE
, F_390
| F_Z
),
1390 INSTR(0x44, "mvhhi", IF_SIL
, F_Z
),
1391 INSTR(0x48, "mvghi", IF_SIL
, F_Z
),
1392 INSTR(0x4c, "mvhi", IF_SIL
, F_Z
),
1393 INSTR(0x54, "chhsi", IF_SIL
, F_Z
),
1394 INSTR(0x55, "clhhsi", IF_SIL
, F_Z
),
1395 INSTR(0x58, "cghsi", IF_SIL
, F_Z
),
1396 INSTR(0x59, "clghsi", IF_SIL
, F_Z
),
1397 INSTR(0x5c, "chsi", IF_SIL
, F_Z
),
1398 INSTR(0x5d, "clfhsi", IF_SIL
, F_Z
),
1399 INSTR(0x60, "tbegin", IF_SIL
, F_Z
),
1400 INSTR(0x61, "tbeginc", IF_SIL
, F_Z
),
1403 static const struct inst_table tbl_ebxx
[256] = {
1404 INSTR(0x04, "lmg", IF_RSYa
, F_Z
),
1405 INSTR(0x0a, "srag", IF_RSYa
, F_Z
),
1406 INSTR(0x0b, "slag", IF_RSYa
, F_Z
),
1407 INSTR(0x0c, "srlg", IF_RSYa
, F_Z
),
1408 INSTR(0x0d, "sllg", IF_RSYa
, F_Z
),
1409 INSTR(0x0f, "tracg", IF_RSYa
, F_Z
),
1410 INSTR(0x14, "csy", IF_RSYa
, F_Z
),
1411 INSTR(0x1c, "rllg", IF_RSYa
, F_Z
),
1412 INSTR(0x1d, "rll", IF_RSYa
, F_390
| F_Z
),
1413 INSTR(0x20, "clmh", IF_RSYb
, F_Z
),
1414 INSTR(0x21, "clmy", IF_RSYb
, F_Z
),
1415 INSTR(0x23, "clt", IF_RSYb
, F_Z
),
1416 INSTR(0x24, "stmg", IF_RSYa
, F_Z
),
1417 INSTR(0x25, "stctg", IF_RSYa
, F_Z
| F_CTL_REG
),
1418 INSTR(0x26, "stmh", IF_RSYa
, F_Z
),
1419 INSTR(0x2b, "clgt", IF_RSYb
, F_Z
),
1420 INSTR(0x2c, "stcmh", IF_RSYb
, F_Z
),
1421 INSTR(0x2d, "stcmy", IF_RSYb
, F_Z
),
1422 INSTR(0x2f, "lctlg", IF_RSYa
, F_Z
| F_CTL_REG
),
1423 INSTR(0x30, "csg", IF_RSYa
, F_Z
),
1424 INSTR(0x31, "cdsy", IF_RSYa
, F_Z
),
1425 INSTR(0x3e, "cdsg", IF_RSYa
, F_Z
),
1426 INSTR(0x44, "bxhg", IF_RSYa
, F_Z
),
1427 INSTR(0x45, "bxleg", IF_RSYa
, F_Z
),
1428 INSTR(0x4c, "ecag", IF_RSYa
, F_Z
),
1429 INSTR(0x51, "tmy", IF_SIY
, F_Z
),
1430 INSTR(0x52, "mviy", IF_SIY
, F_Z
),
1431 INSTR(0x54, "niy", IF_SIY
, F_Z
),
1432 INSTR(0x55, "cliy", IF_SIY
, F_Z
),
1433 INSTR(0x56, "oiy", IF_SIY
, F_Z
),
1434 INSTR(0x57, "xiy", IF_SIY
, F_Z
),
1435 INSTR(0x6a, "asi", IF_SIY
, F_Z
),
1436 INSTR(0x6e, "alsi", IF_SIY
, F_Z
),
1437 INSTR(0x80, "icmh", IF_RSYb
, F_Z
),
1438 INSTR(0x81, "icmy", IF_RSYb
, F_Z
),
1439 INSTR(0x8e, "mvclu", IF_RSYa
, F_390
| F_Z
),
1440 INSTR(0x8f, "clclu", IF_RSYa
, F_390
| F_Z
),
1441 INSTR(0x90, "stmy", IF_RSYa
, F_Z
),
1442 INSTR(0x96, "lmh", IF_RSYa
, F_Z
),
1443 INSTR(0x98, "lmy", IF_RSYa
, F_Z
),
1444 INSTR(0x9a, "lamy", IF_RSYa
, F_Z
),
1445 INSTR(0x9b, "stamy", IF_RSYa
, F_Z
),
1446 INSTR(0xc0, "tp", IF_RSLa
, F_390
| F_Z
),
1447 INSTR(0xdc, "srak", IF_RSYa
, F_Z
),
1448 INSTR(0xdd, "slak", IF_RSYa
, F_Z
),
1449 INSTR(0xde, "srlk", IF_RSYa
, F_Z
),
1450 INSTR(0xdf, "sllk", IF_RSYa
, F_Z
),
1451 INSTR(0xe2, "locg", IF_RSYb
, F_Z
),
1452 INSTR(0xe3, "stocg", IF_RSYb
, F_Z
),
1453 INSTR(0xe4, "lang", IF_RSYa
, F_Z
),
1454 INSTR(0xe6, "laog", IF_RSYa
, F_Z
),
1455 INSTR(0xe7, "laxg", IF_RSYa
, F_Z
),
1456 INSTR(0xe8, "laag", IF_RSYa
, F_Z
),
1457 INSTR(0xea, "laalg", IF_RSYa
, F_Z
),
1458 INSTR(0xf2, "loc", IF_RSYb
, F_Z
),
1459 INSTR(0xf3, "stoc", IF_RSYb
, F_Z
),
1460 INSTR(0xf4, "lan", IF_RSYa
, F_Z
),
1461 INSTR(0xf6, "lao", IF_RSYa
, F_Z
),
1462 INSTR(0xf7, "lax", IF_RSYa
, F_Z
),
1463 INSTR(0xf8, "laa", IF_RSYa
, F_Z
),
1464 INSTR(0xfa, "laal", IF_RSYa
, F_Z
),
1467 static const struct inst_table tbl_ecxx
[256] = {
1468 INSTR(0x44, "brxhg", IF_RIEe
, F_Z
),
1469 INSTR(0x45, "brxlg", IF_RIEe
, F_Z
),
1470 INSTR(0x51, "risblg", IF_RIEf
, F_Z
),
1471 INSTR(0x54, "rnsbg", IF_RIEf
, F_Z
),
1472 INSTR(0x55, "risbg", IF_RIEf
, F_Z
),
1473 INSTR(0x56, "rosbg", IF_RIEf
, F_Z
),
1474 INSTR(0x57, "rxsbg", IF_RIEf
, F_Z
),
1475 INSTR(0x59, "risbgn", IF_RIEf
, F_Z
),
1476 INSTR(0x5d, "risbhg", IF_RIEf
, F_Z
),
1477 INSTR(0x64, "cgrj", IF_RIEb
, F_Z
),
1478 INSTR(0x65, "clgrj", IF_RIEb
, F_Z
),
1479 INSTR(0x70, "cgit", IF_RIEa
, F_Z
),
1480 INSTR(0x71, "clgit", IF_RIEa
, F_Z
),
1481 INSTR(0x72, "cit", IF_RIEa
, F_Z
),
1482 INSTR(0x73, "clfit", IF_RIEa
, F_Z
),
1483 INSTR(0x76, "crj", IF_RIEb
, F_Z
),
1484 INSTR(0x77, "clrj", IF_RIEb
, F_Z
),
1485 INSTR(0x7c, "cgij", IF_RIEc
, F_Z
),
1486 INSTR(0x7d, "clgij", IF_RIEc
, F_Z
),
1487 INSTR(0x7e, "cij", IF_RIEc
, F_Z
),
1488 INSTR(0x7f, "clij", IF_RIEc
, F_Z
),
1489 INSTR(0xd8, "ahik", IF_RIEd
, F_Z
),
1490 INSTR(0xd9, "aghik", IF_RIEd
, F_Z
),
1491 INSTR(0xda, "alhsik", IF_RIEd
, F_Z
),
1492 INSTR(0xdb, "alghsik", IF_RIEd
, F_Z
),
1493 INSTR(0xe4, "cgrb", IF_RRS
, F_Z
),
1494 INSTR(0xe5, "clgrb", IF_RRS
, F_Z
),
1495 INSTR(0xf6, "crb", IF_RRS
, F_Z
),
1496 INSTR(0xf7, "clrb", IF_RRS
, F_Z
),
1497 INSTR(0xfc, "cgib", IF_RIS
, F_Z
),
1498 INSTR(0xfd, "clgib", IF_RIS
, F_Z
),
1499 INSTR(0xfe, "cib", IF_RIS
, F_Z
),
1500 INSTR(0xff, "clib", IF_RIS
, F_Z
),
1503 static const struct inst_table tbl_edxx
[256] = {
1504 INSTR(0x04, "ldeb", IF_RXE
, F_390
| F_Z
),
1505 INSTR(0x05, "lxdb", IF_RXE
, F_390
| F_Z
),
1506 INSTR(0x06, "lxeb", IF_RXE
, F_390
| F_Z
),
1507 INSTR(0x07, "mxdb", IF_RXE
, F_390
| F_Z
),
1508 INSTR(0x08, "keb", IF_RXE
, F_390
| F_Z
),
1509 INSTR(0x09, "ceb", IF_RXE
, F_390
| F_Z
),
1510 INSTR(0x0a, "aeb", IF_RXE
, F_390
| F_Z
),
1511 INSTR(0x0b, "seb", IF_RXE
, F_390
| F_Z
),
1512 INSTR(0x0c, "mdeb", IF_RXE
, F_390
| F_Z
),
1513 INSTR(0x0d, "deb", IF_RXE
, F_390
| F_Z
),
1514 INSTR(0x0e, "maeb", IF_RXF
, F_390
| F_Z
),
1515 INSTR(0x0f, "mseb", IF_RXF
, F_390
| F_Z
),
1516 INSTR(0x10, "tceb", IF_RXE
, F_390
| F_Z
),
1517 INSTR(0x11, "tcdb", IF_RXE
, F_390
| F_Z
),
1518 INSTR(0x12, "tcxb", IF_RXE
, F_390
| F_Z
),
1519 INSTR(0x14, "sqeb", IF_RXE
, F_390
| F_Z
),
1520 INSTR(0x15, "sqdb", IF_RXE
, F_390
| F_Z
),
1521 INSTR(0x17, "meeb", IF_RXE
, F_390
| F_Z
),
1522 INSTR(0x18, "kdb", IF_RXE
, F_390
| F_Z
),
1523 INSTR(0x19, "cdb", IF_RXE
, F_390
| F_Z
),
1524 INSTR(0x1a, "adb", IF_RXE
, F_390
| F_Z
),
1525 INSTR(0x1b, "sdb", IF_RXE
, F_390
| F_Z
),
1526 INSTR(0x1c, "mdb", IF_RXE
, F_390
| F_Z
),
1527 INSTR(0x1d, "ddb", IF_RXE
, F_390
| F_Z
),
1528 INSTR(0x1e, "madb", IF_RXF
, F_390
| F_Z
),
1529 INSTR(0x1f, "msdb", IF_RXF
, F_390
| F_Z
),
1530 INSTR(0x24, "lde", IF_RXE
, F_390
| F_Z
),
1531 INSTR(0x25, "lxd", IF_RXE
, F_390
| F_Z
),
1532 INSTR(0x26, "lxe", IF_RXE
, F_390
| F_Z
),
1533 INSTR(0x2e, "mae", IF_RXF
, F_390
| F_Z
),
1534 INSTR(0x2f, "mse", IF_RXF
, F_390
| F_Z
),
1535 INSTR(0x34, "sqe", IF_RXE
, F_390
| F_Z
),
1536 INSTR(0x35, "sqd", IF_RXE
, F_390
| F_Z
),
1537 INSTR(0x37, "mee", IF_RXE
, F_390
| F_Z
),
1538 INSTR(0x38, "mayl", IF_RXF
, F_Z
),
1539 INSTR(0x39, "myl", IF_RXF
, F_Z
),
1540 INSTR(0x3a, "may", IF_RXF
, F_Z
),
1541 INSTR(0x3b, "my", IF_RXF
, F_Z
),
1542 INSTR(0x3c, "mayh", IF_RXF
, F_Z
),
1543 INSTR(0x3d, "myh", IF_RXF
, F_Z
),
1544 INSTR(0x3e, "mad", IF_RXF
, F_390
| F_Z
),
1545 INSTR(0x3f, "msd", IF_RXF
, F_390
| F_Z
),
1546 INSTR(0x40, "sldt", IF_RXF
, F_Z
),
1547 INSTR(0x41, "srdt", IF_RXF
, F_Z
),
1548 INSTR(0x48, "slxt", IF_RXF
, F_Z
),
1549 INSTR(0x49, "srxt", IF_RXF
, F_Z
),
1550 INSTR(0x50, "tdcet", IF_RXE
, F_Z
),
1551 INSTR(0x51, "tdget", IF_RXE
, F_Z
),
1552 INSTR(0x54, "tdcdt", IF_RXE
, F_Z
),
1553 INSTR(0x55, "tdgdt", IF_RXE
, F_Z
),
1554 INSTR(0x58, "tdcxt", IF_RXE
, F_Z
),
1555 INSTR(0x59, "tdgxt", IF_RXE
, F_Z
),
1556 INSTR(0x64, "ley", IF_RXYa
, F_Z
),
1557 INSTR(0x65, "ldy", IF_RXYa
, F_Z
),
1558 INSTR(0x66, "stey", IF_RXYa
, F_Z
),
1559 INSTR(0x67, "stdy", IF_RXYa
, F_Z
),
1560 INSTR(0xa8, "czdt", IF_RSLb
, F_Z
),
1561 INSTR(0xa9, "czxt", IF_RSLb
, F_Z
),
1562 INSTR(0xaa, "cdzt", IF_RSLb
, F_Z
),
1563 INSTR(0xab, "cxzt", IF_RSLb
, F_Z
),
1566 static const struct inst_table tbl_xx
[256] = {
1567 INSTR(0x00, ".byte", IF_ZERO
, F_370
| F_390
| F_Z
),
1568 TABLE(0x01, tbl_01xx
, 1, 0, 0xff),
1569 INSTR(0x04, "spm", IF_RR
, F_370
| F_Z
),
1570 INSTR(0x05, "balr", IF_RR
, F_370
| F_Z
),
1571 INSTR(0x06, "bctr", IF_RR
, F_370
| F_Z
),
1572 TABLE(0x07, tbl_07
, 1, 4, 0x0f),
1573 INSTR(0x08, "ssk", IF_RR
, F_370
),
1574 INSTR(0x09, "isk", IF_RR
, F_370
),
1575 INSTR(0x0a, "svc", IF_I
, F_370
| F_390
| F_Z
),
1576 INSTR(0x0b, "bsm", IF_RR
, F_390
| F_Z
),
1577 INSTR(0x0c, "bassm", IF_RR
, F_390
| F_Z
),
1578 INSTR(0x0d, "basr", IF_RR
, F_390
| F_Z
),
1579 INSTR(0x0e, "mvcl", IF_RR
, F_370
| F_390
| F_Z
),
1580 INSTR(0x0f, "clcl", IF_RR
, F_370
| F_390
| F_Z
),
1581 INSTR(0x10, "lpr", IF_RR
, F_370
| F_390
| F_Z
),
1582 INSTR(0x11, "lnr", IF_RR
, F_370
| F_390
| F_Z
),
1583 INSTR(0x12, "ltr", IF_RR
, F_370
| F_390
| F_Z
),
1584 INSTR(0x13, "lcr", IF_RR
, F_370
| F_390
| F_Z
),
1585 INSTR(0x14, "nr", IF_RR
, F_370
| F_390
| F_Z
),
1586 INSTR(0x15, "clr", IF_RR
, F_370
| F_390
| F_Z
),
1587 INSTR(0x16, "or", IF_RR
, F_370
| F_390
| F_Z
),
1588 INSTR(0x17, "xr", IF_RR
, F_370
| F_390
| F_Z
),
1589 INSTR(0x18, "lr", IF_RR
, F_370
| F_390
| F_Z
),
1590 INSTR(0x19, "cr", IF_RR
, F_370
| F_390
| F_Z
),
1591 INSTR(0x1a, "ar", IF_RR
, F_370
| F_390
| F_Z
),
1592 INSTR(0x1b, "sr", IF_RR
, F_370
| F_390
| F_Z
),
1593 INSTR(0x1c, "mr", IF_RR
, F_370
| F_390
| F_Z
),
1594 INSTR(0x1d, "dr", IF_RR
, F_370
| F_390
| F_Z
),
1595 INSTR(0x1e, "alr", IF_RR
, F_370
| F_390
| F_Z
),
1596 INSTR(0x1f, "slr", IF_RR
, F_370
| F_390
| F_Z
),
1597 INSTR(0x20, "lpdr", IF_RR
, F_370
| F_390
| F_Z
),
1598 INSTR(0x21, "lndr", IF_RR
, F_370
| F_390
| F_Z
),
1599 INSTR(0x22, "ltdr", IF_RR
, F_370
| F_390
| F_Z
),
1600 INSTR(0x23, "lcdr", IF_RR
, F_370
| F_390
| F_Z
),
1601 INSTR(0x24, "hdr", IF_RR
, F_370
| F_390
| F_Z
),
1602 MULTI(0x25, tbl_25
),
1603 INSTR(0x26, "mxr", IF_RR
, F_370
| F_390
| F_Z
),
1604 INSTR(0x27, "mxdr", IF_RR
, F_370
| F_390
| F_Z
),
1605 INSTR(0x28, "ldr", IF_RR
, F_370
| F_390
| F_Z
),
1606 INSTR(0x29, "cdr", IF_RR
, F_370
| F_390
| F_Z
),
1607 INSTR(0x2a, "adr", IF_RR
, F_370
| F_390
| F_Z
),
1608 INSTR(0x2b, "sdr", IF_RR
, F_370
| F_390
| F_Z
),
1609 INSTR(0x2c, "mdr", IF_RR
, F_370
| F_390
| F_Z
),
1610 INSTR(0x2d, "ddr", IF_RR
, F_370
| F_390
| F_Z
),
1611 INSTR(0x2e, "awr", IF_RR
, F_370
| F_390
| F_Z
),
1612 INSTR(0x2f, "swr", IF_RR
, F_370
| F_390
| F_Z
),
1613 INSTR(0x30, "lper", IF_RR
, F_370
| F_390
| F_Z
),
1614 INSTR(0x31, "lner", IF_RR
, F_370
| F_390
| F_Z
),
1615 INSTR(0x32, "lter", IF_RR
, F_370
| F_390
| F_Z
),
1616 INSTR(0x33, "lcer", IF_RR
, F_370
| F_390
| F_Z
),
1617 INSTR(0x34, "her", IF_RR
, F_370
| F_390
| F_Z
),
1618 MULTI(0x35, tbl_35
),
1619 INSTR(0x36, "axr", IF_RR
, F_370
| F_390
| F_Z
),
1620 INSTR(0x37, "sxr", IF_RR
, F_370
| F_390
| F_Z
),
1621 INSTR(0x38, "ler", IF_RR
, F_370
| F_390
| F_Z
),
1622 INSTR(0x39, "cer", IF_RR
, F_370
| F_390
| F_Z
),
1623 INSTR(0x3a, "aer", IF_RR
, F_370
| F_390
| F_Z
),
1624 INSTR(0x3b, "ser", IF_RR
, F_370
| F_390
| F_Z
),
1625 MULTI(0x3c, tbl_3c
),
1626 INSTR(0x3d, "der", IF_RR
, F_370
| F_390
| F_Z
),
1627 INSTR(0x3e, "aur", IF_RR
, F_370
| F_390
| F_Z
),
1628 INSTR(0x3f, "sur", IF_RR
, F_370
| F_390
| F_Z
),
1629 INSTR(0x40, "sth", IF_RXa
, F_370
| F_390
| F_Z
),
1630 INSTR(0x41, "la", IF_RXa
, F_370
| F_390
| F_Z
),
1631 INSTR(0x42, "stc", IF_RXa
, F_370
| F_390
| F_Z
),
1632 INSTR(0x43, "ic", IF_RXa
, F_370
| F_390
| F_Z
),
1633 INSTR(0x44, "ex", IF_RXa
, F_370
| F_390
| F_Z
),
1634 INSTR(0x45, "bal", IF_RXa
, F_370
| F_390
| F_Z
),
1635 INSTR(0x46, "bct", IF_RXa
, F_370
| F_390
| F_Z
),
1636 TABLE(0x47, tbl_47
, 1, 4, 0x0f),
1637 INSTR(0x48, "lh", IF_RXa
, F_370
| F_390
| F_Z
),
1638 INSTR(0x49, "ch", IF_RXa
, F_370
| F_390
| F_Z
),
1639 INSTR(0x4a, "ah", IF_RXa
, F_370
| F_390
| F_Z
),
1640 INSTR(0x4b, "sh", IF_RXa
, F_370
| F_390
| F_Z
),
1641 INSTR(0x4c, "mh", IF_RXa
, F_370
| F_390
| F_Z
),
1642 INSTR(0x4d, "bas", IF_RXa
, F_390
| F_Z
),
1643 INSTR(0x4e, "cvd", IF_RXa
, F_370
| F_390
| F_Z
),
1644 INSTR(0x4f, "cvb", IF_RXa
, F_370
| F_390
| F_Z
),
1645 INSTR(0x50, "st", IF_RXa
, F_370
| F_390
| F_Z
),
1646 INSTR(0x51, "lae", IF_RXa
, F_390
| F_Z
),
1647 INSTR(0x54, "n", IF_RXa
, F_370
| F_390
| F_Z
),
1648 INSTR(0x55, "cl", IF_RXa
, F_370
| F_390
| F_Z
),
1649 INSTR(0x56, "o", IF_RXa
, F_370
| F_390
| F_Z
),
1650 INSTR(0x57, "x", IF_RXa
, F_370
| F_390
| F_Z
),
1651 INSTR(0x58, "l", IF_RXa
, F_370
| F_390
| F_Z
),
1652 INSTR(0x59, "c", IF_RXa
, F_370
| F_390
| F_Z
),
1653 INSTR(0x5a, "a", IF_RXa
, F_370
| F_390
| F_Z
),
1654 INSTR(0x5b, "s", IF_RXa
, F_370
| F_390
| F_Z
),
1655 INSTR(0x5c, "m", IF_RXa
, F_370
| F_390
| F_Z
),
1656 INSTR(0x5d, "d", IF_RXa
, F_370
| F_390
| F_Z
),
1657 INSTR(0x5e, "al", IF_RXa
, F_370
| F_390
| F_Z
),
1658 INSTR(0x5f, "sl", IF_RXa
, F_370
| F_390
| F_Z
),
1659 INSTR(0x60, "std", IF_RXa
, F_370
| F_390
| F_Z
),
1660 INSTR(0x67, "mxd", IF_RXa
, F_370
| F_390
| F_Z
),
1661 INSTR(0x68, "ld", IF_RXa
, F_370
| F_390
| F_Z
),
1662 INSTR(0x69, "cd", IF_RXa
, F_370
| F_390
| F_Z
),
1663 INSTR(0x6a, "ad", IF_RXa
, F_370
| F_390
| F_Z
),
1664 INSTR(0x6b, "sd", IF_RXa
, F_370
| F_390
| F_Z
),
1665 INSTR(0x6c, "md", IF_RXa
, F_370
| F_390
| F_Z
),
1666 INSTR(0x6d, "dd", IF_RXa
, F_370
| F_390
| F_Z
),
1667 INSTR(0x6e, "aw", IF_RXa
, F_370
| F_390
| F_Z
),
1668 INSTR(0x6f, "sw", IF_RXa
, F_370
| F_390
| F_Z
),
1669 INSTR(0x70, "ste", IF_RXa
, F_370
| F_390
| F_Z
),
1670 INSTR(0x71, "ms", IF_RXa
, F_390
| F_Z
),
1671 INSTR(0x78, "le", IF_RXa
, F_370
| F_390
| F_Z
),
1672 INSTR(0x79, "ce", IF_RXa
, F_370
| F_390
| F_Z
),
1673 INSTR(0x7a, "ae", IF_RXa
, F_370
| F_390
| F_Z
),
1674 INSTR(0x7b, "se", IF_RXa
, F_370
| F_390
| F_Z
),
1675 MULTI(0x7c, tbl_7c
),
1676 INSTR(0x7d, "de", IF_RXa
, F_370
| F_390
| F_Z
),
1677 INSTR(0x7e, "au", IF_RXa
, F_370
| F_390
| F_Z
),
1678 INSTR(0x7f, "su", IF_RXa
, F_370
| F_390
| F_Z
),
1679 INSTR(0x80, "ssm", IF_S
, F_370
| F_390
| F_Z
),
1680 INSTR(0x82, "lpsw", IF_S
, F_370
| F_390
| F_Z
),
1681 INSTR(0x83, "diag", IF_DIAG
, F_370
| F_390
| F_Z
),
1682 MULTI(0x84, tbl_84
),
1683 MULTI(0x85, tbl_85
),
1684 INSTR(0x86, "bxh", IF_RSa
, F_370
| F_390
| F_Z
),
1685 INSTR(0x87, "bxle", IF_RSa
, F_370
| F_390
| F_Z
),
1686 INSTR(0x88, "srl", IF_RSa
, F_370
| F_390
| F_Z
),
1687 INSTR(0x89, "sll", IF_RSa
, F_370
| F_390
| F_Z
),
1688 INSTR(0x8a, "sra", IF_RSa
, F_370
| F_390
| F_Z
),
1689 INSTR(0x8b, "sla", IF_RSa
, F_370
| F_390
| F_Z
),
1690 INSTR(0x8c, "srdl", IF_RSa
, F_370
| F_390
| F_Z
),
1691 INSTR(0x8d, "sldl", IF_RSa
, F_370
| F_390
| F_Z
),
1692 INSTR(0x8e, "srda", IF_RSa
, F_370
| F_390
| F_Z
),
1693 INSTR(0x8f, "slda", IF_RSa
, F_370
| F_390
| F_Z
),
1694 INSTR(0x90, "stm", IF_RSa
, F_370
| F_390
| F_Z
),
1695 INSTR(0x91, "tm", IF_SI
, F_370
| F_390
| F_Z
),
1696 INSTR(0x92, "mvi", IF_SI
, F_370
| F_390
| F_Z
),
1697 INSTR(0x93, "ts", IF_S
, F_370
| F_390
| F_Z
),
1698 INSTR(0x94, "ni", IF_SI
, F_370
| F_390
| F_Z
),
1699 INSTR(0x95, "cli", IF_SI
, F_370
| F_390
| F_Z
),
1700 INSTR(0x96, "oi", IF_SI
, F_370
| F_390
| F_Z
),
1701 INSTR(0x97, "xi", IF_SI
, F_370
| F_390
| F_Z
),
1702 INSTR(0x98, "lm", IF_RSa
, F_370
| F_390
| F_Z
),
1703 INSTR(0x99, "trace", IF_RSa
, F_390
| F_Z
),
1704 INSTR(0x9a, "lam", IF_RSa
, F_390
| F_Z
),
1705 INSTR(0x9b, "stam", IF_RSa
, F_390
| F_Z
),
1706 TABLE(0xa5, tbl_a5x
, 1, 0, 0x0f),
1707 TABLE(0xa7, tbl_a7x
, 1, 0, 0x0f),
1708 INSTR(0xa8, "mvcle", IF_RSa
, F_390
| F_Z
),
1709 INSTR(0xa9, "clcle", IF_RSa
, F_390
| F_Z
),
1710 INSTR(0xac, "stnsm", IF_SI
, F_370
| F_390
| F_Z
),
1711 INSTR(0xad, "stosm", IF_SI
, F_370
| F_390
| F_Z
),
1712 INSTR(0xae, "sigp", IF_RSa
, F_370
| F_390
| F_Z
),
1713 INSTR(0xaf, "mc", IF_SI
, F_370
| F_390
| F_Z
),
1714 INSTR(0xb1, "lra", IF_RXa
, F_370
| F_390
| F_Z
),
1715 TABLE(0xb2, tbl_b2xx
, 1, 0, 0xff),
1716 TABLE(0xb3, tbl_b3xx
, 1, 0, 0xff),
1717 INSTR(0xb6, "stctl", IF_RSa
, F_370
| F_390
| F_Z
| F_CTL_REG
),
1718 INSTR(0xb7, "lctl", IF_RSa
, F_370
| F_390
| F_Z
| F_CTL_REG
),
1719 TABLE(0xb9, tbl_b9xx
, 1, 0, 0xff),
1720 INSTR(0xba, "cs", IF_RSa
, F_370
| F_390
| F_Z
),
1721 INSTR(0xbb, "cds", IF_RSa
, F_370
| F_390
| F_Z
),
1722 INSTR(0xbd, "clm", IF_RSb
, F_370
| F_390
| F_Z
),
1723 INSTR(0xbe, "stcm", IF_RSb
, F_370
| F_390
| F_Z
),
1724 INSTR(0xbf, "icm", IF_RSb
, F_370
| F_390
| F_Z
),
1725 TABLE(0xc0, tbl_c0x
, 1, 0, 0x0f),
1726 TABLE(0xc2, tbl_c2x
, 1, 0, 0x0f),
1727 TABLE(0xc4, tbl_c4x
, 1, 0, 0x0f),
1728 INSTR(0xc5, "bprp", IF_MII
, F_Z
),
1729 TABLE(0xc6, tbl_c6x
, 1, 0, 0x0f),
1730 INSTR(0xc7, "bpp", IF_SMI
, F_Z
),
1731 TABLE(0xc8, tbl_c8x
, 1, 0, 0x0f),
1732 TABLE(0xcc, tbl_ccx
, 1, 0, 0x0f),
1733 INSTR(0xd0, "trtr", IF_SSa
, F_Z
),
1734 INSTR(0xd1, "mvn", IF_SSa
, F_370
| F_390
| F_Z
),
1735 INSTR(0xd2, "mvc", IF_SSa
, F_370
| F_390
| F_Z
),
1736 INSTR(0xd3, "mvz", IF_SSa
, F_370
| F_390
| F_Z
),
1737 INSTR(0xd4, "nc", IF_SSa
, F_370
| F_390
| F_Z
),
1738 INSTR(0xd5, "clc", IF_SSa
, F_370
| F_390
| F_Z
),
1739 INSTR(0xd6, "oc", IF_SSa
, F_370
| F_390
| F_Z
),
1740 INSTR(0xd7, "xc", IF_SSa
, F_370
| F_390
| F_Z
),
1741 INSTR(0xd9, "mvck", IF_SSd
, F_390
| F_Z
),
1742 INSTR(0xda, "mvcp", IF_SSd
, F_390
| F_Z
),
1743 INSTR(0xdb, "mvcs", IF_SSd
, F_390
| F_Z
),
1744 INSTR(0xdc, "tr", IF_SSa
, F_370
| F_390
| F_Z
),
1745 INSTR(0xdd, "trt", IF_SSa
, F_370
| F_390
| F_Z
),
1746 INSTR(0xde, "ed", IF_SSa
, F_370
| F_390
| F_Z
),
1747 INSTR(0xdf, "edmk", IF_SSa
, F_370
| F_390
| F_Z
),
1748 INSTR(0xe1, "pku", IF_SSf
, F_390
| F_Z
),
1749 INSTR(0xe2, "unpku", IF_SSa
, F_390
| F_Z
),
1750 TABLE(0xe3, tbl_e3xx
, 5, 0, 0xff),
1751 TABLE(0xe5, tbl_e5xx
, 1, 0, 0xff),
1752 INSTR(0xe8, "mvcin", IF_SSa
, F_390
| F_Z
),
1753 INSTR(0xe9, "pka", IF_SSf
, F_390
| F_Z
),
1754 INSTR(0xea, "unpka", IF_SSa
, F_390
| F_Z
),
1755 TABLE(0xeb, tbl_ebxx
, 5, 0, 0xff),
1756 TABLE(0xec, tbl_ecxx
, 5, 0, 0xff),
1757 TABLE(0xed, tbl_edxx
, 5, 0, 0xff),
1758 INSTR(0xee, "plo", IF_SSe
, F_390
| F_Z
),
1759 INSTR(0xef, "lmd", IF_SSe
, F_Z
),
1760 INSTR(0xf0, "srp", IF_SSc
, F_370
| F_390
| F_Z
),
1761 INSTR(0xf1, "mvo", IF_SSb
, F_370
| F_390
| F_Z
),
1762 INSTR(0xf2, "pack", IF_SSb
, F_370
| F_390
| F_Z
),
1763 INSTR(0xf3, "unpk", IF_SSb
, F_370
| F_390
| F_Z
),
1764 INSTR(0xf8, "zap", IF_SSb
, F_370
| F_390
| F_Z
),
1765 INSTR(0xf9, "cp", IF_SSb
, F_370
| F_390
| F_Z
),
1766 INSTR(0xfa, "ap", IF_SSb
, F_370
| F_390
| F_Z
),
1767 INSTR(0xfb, "sp", IF_SSb
, F_370
| F_390
| F_Z
),
1768 INSTR(0xfc, "mp", IF_SSb
, F_370
| F_390
| F_Z
),
1769 INSTR(0xfd, "dp", IF_SSb
, F_370
| F_390
| F_Z
),
1773 /* how masks are printed */
1774 static const char *M
[16] = {
1775 "0", "1", "2", "3", "4", "5", "6", "7",
1776 "8", "9", "10", "11", "12", "13", "14", "15",
1779 /* how general purpose regs are printed */
1780 static const char *R
[16] = {
1781 "%r0", "%r1", "%r2", "%r3", "%r4", "%r5", "%r6", "%r7",
1782 "%r8", "%r9", "%r10", "%r11", "%r12", "%r13", "%r14", "%r15",
1785 /* how control regs are printed */
1786 static const char *C
[16] = {
1787 "%c0", "%c1", "%c2", "%c3", "%c4", "%c5", "%c6", "%c7",
1788 "%c8", "%c9", "%c10", "%c11", "%c12", "%c13", "%c14", "%c15",
1791 /* B and X registers are still registers - print them the same way */
1795 static inline uint32_t
1796 val_8_4_8(uint32_t hi
, uint32_t mid
, uint32_t lo
)
1798 ASSERT0(hi
& ~0xff);
1799 ASSERT0(mid
& ~0xf);
1800 ASSERT0(lo
& ~0xff);
1801 return ((hi
<< 12) | (mid
<< 8) | lo
);
1804 static inline uint32_t
1805 val_16_16(uint32_t hi
, uint32_t lo
)
1807 ASSERT0(hi
& ~0xffff);
1808 ASSERT0(lo
& ~0xffff);
1809 return ((BE_16(hi
) << 16) | BE_16(lo
));
1812 static inline int32_t
1813 sval_16_16(uint32_t hi
, uint32_t lo
)
1815 return (val_16_16(hi
, lo
));
1818 static inline uint32_t
1819 val_8_16(uint32_t hi
, uint32_t lo
)
1821 ASSERT0(hi
& ~0xff);
1822 ASSERT0(lo
& ~0xffff);
1823 return ((hi
<< 16) | BE_16(lo
));
1826 static inline int32_t
1827 sval_8_16(uint32_t hi
, uint32_t lo
)
1829 int32_t tmp
= val_8_16(hi
, lo
);
1832 if (tmp
& 0x00800000)
1833 return (0xff000000 | tmp
);
1837 static inline uint32_t
1838 val_4_8(uint32_t hi
, uint32_t lo
)
1841 ASSERT0(lo
& ~0xff);
1842 return ((hi
<< 8) | lo
);
1845 static inline int32_t
1846 sval_4_8(uint32_t hi
, uint32_t lo
)
1848 uint32_t tmp
= val_4_8(hi
, lo
);
1852 return (0xfffff000 | tmp
);
1858 fmt_zero(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1860 (void) snprintf(buf
, buflen
, "0x00, 0x00");
1865 fmt_diag(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1867 (void) snprintf(buf
, buflen
, "%#x",
1868 val_8_16(inst
->diag
.par1
, inst
->diag
.par2
));
1873 fmt_e(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1880 fmt_i(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1882 (void) snprintf(buf
, buflen
, "%#x", inst
->i
.i
);
1887 fmt_ie(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1889 (void) snprintf(buf
, buflen
, "%u,%u", inst
->ie
.i1
, inst
->ie
.i2
);
1894 fmt_mii(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1896 uint64_t ri2
= addr
+ 2 * sval_4_8(inst
->mii
.ri2h
, inst
->mii
.ri2l
);
1897 uint64_t ri3
= addr
+ 2 * sval_8_16(inst
->mii
.ri3h
, inst
->mii
.ri3l
);
1899 (void) snprintf(buf
, buflen
, "%s,%#x,%#x", M
[inst
->mii
.m1
], ri2
, ri3
);
1904 fmt_ril_a(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1906 (void) snprintf(buf
, buflen
, "%s,%u", R
[inst
->ril_a
.r1
],
1907 val_16_16(inst
->ril_a
.i2h
, inst
->ril_a
.i2l
));
1912 fmt_ril_b(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1914 uint64_t ri2
= addr
+ 2 *
1915 sval_16_16(inst
->ril_b
.ri2h
, inst
->ril_b
.ri2l
);
1917 (void) snprintf(buf
, buflen
, "%s,%#x", R
[inst
->ril_b
.r1
], ri2
);
1922 fmt_ril_c(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1924 uint64_t ri2
= addr
+ 2 *
1925 sval_16_16(inst
->ril_c
.ri2h
, inst
->ril_c
.ri2l
);
1927 (void) snprintf(buf
, buflen
, "%s,%#x", M
[inst
->ril_c
.m1
], ri2
);
1932 fmt_ris(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1934 uint32_t d4
= val_4_8(inst
->ris
.d4h
, inst
->ris
.d4l
);
1936 (void) snprintf(buf
, buflen
, "%s,%u,%s,%u(%s)",
1937 R
[inst
->ris
.r1
], inst
->ris
.i2
, M
[inst
->ris
.m3
], d4
,
1943 fmt_ri_a(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1945 uint16_t i2
= BE_16(inst
->ri_a
.i2
);
1947 if (flags
& F_SIGNED_IMM
)
1948 (void) snprintf(buf
, buflen
, "%s,%d", R
[inst
->ri_a
.r1
],
1951 (void) snprintf(buf
, buflen
, "%s,%u", R
[inst
->ri_a
.r1
],
1957 fmt_ri_b(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1959 uint64_t ri2
= addr
+ 2 * (int16_t)BE_16(inst
->ri_b
.ri2
);
1961 (void) snprintf(buf
, buflen
, "%s,%#x", R
[inst
->ri_b
.r1
], ri2
);
1965 fmt_ri_c(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1967 uint64_t ri2
= addr
+ 2 * (int16_t)BE_16(inst
->ri_c
.ri2
);
1969 if (flags
& F_HIDE_MASK
)
1970 (void) snprintf(buf
, buflen
, "%#x", ri2
);
1972 (void) snprintf(buf
, buflen
, "%s,%#x", M
[inst
->ri_c
.m1
], ri2
);
1977 fmt_rie_a(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1979 (void) snprintf(buf
, buflen
, "%s,%u,%s", R
[inst
->rie_a
.r1
],
1980 BE_16(inst
->rie_a
.i2
), M
[inst
->rie_a
.m3
]);
1985 fmt_rie_b(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1987 uint64_t ri4
= addr
+ 2 * (int16_t)BE_16(inst
->rie_b
.ri4
);
1989 (void) snprintf(buf
, buflen
, "%s,%s,%s,%#x", R
[inst
->rie_b
.r1
],
1990 R
[inst
->rie_b
.r2
], M
[inst
->rie_b
.m3
], ri4
);
1995 fmt_rie_c(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
1997 uint64_t ri4
= addr
+ 2 * (int16_t)BE_16(inst
->rie_c
.ri4
);
1999 (void) snprintf(buf
, buflen
, "%s,%u,%s,%#x", R
[inst
->rie_c
.r1
],
2000 inst
->rie_c
.i2
, M
[inst
->rie_c
.m3
], ri4
);
2005 fmt_rie_d(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2007 (void) snprintf(buf
, buflen
, "%s,%s,%u", R
[inst
->rie_d
.r1
],
2008 R
[inst
->rie_d
.r3
], BE_16(inst
->rie_d
.i2
));
2013 fmt_rie_e(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2015 uint64_t ri2
= addr
+ 2 * (int16_t)BE_16(inst
->rie_e
.ri2
);
2017 (void) snprintf(buf
, buflen
, "%s,%s,%#x", R
[inst
->rie_e
.r1
],
2018 R
[inst
->rie_e
.r3
], ri2
);
2023 fmt_rie_f(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2025 (void) snprintf(buf
, buflen
, "%s,%s,%u,%u,%u", R
[inst
->rie_f
.r1
],
2026 R
[inst
->rie_f
.r2
], inst
->rie_f
.i3
, inst
->rie_f
.i4
,
2032 fmt_rre(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2034 (void) snprintf(buf
, buflen
, "%s,%s", R
[inst
->rre
.r1
], R
[inst
->rre
.r2
]);
2039 fmt_rrf_a(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2041 (void) snprintf(buf
, buflen
, "%s,%s,%s",
2042 R
[inst
->rrf_ab
.r1
], R
[inst
->rrf_ab
.r2
], R
[inst
->rrf_ab
.r3
]);
2047 fmt_rrf_b(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2049 (void) snprintf(buf
, buflen
, "%s,%s,%s",
2050 R
[inst
->rrf_ab
.r1
], R
[inst
->rrf_ab
.r3
], R
[inst
->rrf_ab
.r2
]);
2055 fmt_rrf_c(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2057 (void) snprintf(buf
, buflen
, "%s,%s,%s",
2058 R
[inst
->rrf_cde
.r1
], R
[inst
->rrf_cde
.r2
], M
[inst
->rrf_cde
.m3
]);
2063 fmt_rrf_d(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2065 (void) snprintf(buf
, buflen
, "%s,%s,%s",
2066 R
[inst
->rrf_cde
.r1
], R
[inst
->rrf_cde
.r2
], M
[inst
->rrf_cde
.m4
]);
2071 fmt_rrf_e(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2073 (void) snprintf(buf
, buflen
, "%s,%s,%s,%s",
2074 R
[inst
->rrf_cde
.r1
], M
[inst
->rrf_cde
.m3
],
2075 R
[inst
->rrf_cde
.r2
], M
[inst
->rrf_cde
.m4
]);
2080 fmt_rrs(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2082 (void) snprintf(buf
, buflen
, "%s,%s,%s,%u(%s)", R
[inst
->rrs
.r1
],
2083 R
[inst
->rrs
.r2
], M
[inst
->rrs
.m3
],
2084 val_4_8(inst
->rrs
.d4h
, inst
->rrs
.d4l
), B
[inst
->rrs
.b4
]);
2089 fmt_rr(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2091 /* a branch uses r1 as a mask */
2092 if (flags
& F_HIDE_MASK
)
2093 (void) snprintf(buf
, buflen
, "%s", R
[inst
->rr
.r2
]);
2094 else if (flags
& F_R1_IS_MASK
)
2095 (void) snprintf(buf
, buflen
, "%s,%s", M
[inst
->rr
.r1
],
2098 (void) snprintf(buf
, buflen
, "%s,%s", R
[inst
->rr
.r1
],
2104 fmt_rrd(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2106 (void) snprintf(buf
, buflen
, "%s,%s,%s", R
[inst
->rrd
.r1
],
2107 R
[inst
->rrd
.r3
], R
[inst
->rrd
.r2
]);
2112 fmt_rx_a(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2114 uint32_t d2
= val_4_8(inst
->rx_a
.d2h
, inst
->rx_b
.d2l
);
2116 (void) snprintf(buf
, buflen
, "%s,%u(%s,%s)", R
[inst
->rx_a
.r1
],
2117 d2
, X
[inst
->rx_a
.x2
], B
[inst
->rx_a
.b2
]);
2122 fmt_rx_b(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2124 uint32_t d2
= val_4_8(inst
->rx_b
.d2h
, inst
->rx_b
.d2l
);
2126 if (flags
& F_HIDE_MASK
)
2127 (void) snprintf(buf
, buflen
, "%u(%s,%s)",
2128 d2
, X
[inst
->rx_b
.x2
], B
[inst
->rx_b
.b2
]);
2130 (void) snprintf(buf
, buflen
, "%s,%u(%s,%s)", M
[inst
->rx_b
.m1
],
2131 d2
, X
[inst
->rx_b
.x2
], B
[inst
->rx_b
.b2
]);
2136 fmt_rxe(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2138 uint32_t d2
= val_4_8(inst
->rxe
.d2h
, inst
->rxe
.d2l
);
2140 (void) snprintf(buf
, buflen
, "%s,%u(%s,%s)",
2141 R
[inst
->rxe
.r1
], d2
, X
[inst
->rxe
.x2
], B
[inst
->rxe
.b2
]);
2146 fmt_rxf(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2148 uint32_t d2
= val_4_8(inst
->rxf
.d2h
, inst
->rxf
.d2l
);
2150 (void) snprintf(buf
, buflen
, "%s,%s,%u(%s,%s)",
2151 R
[inst
->rxf
.r1
], R
[inst
->rxf
.r3
], d2
, X
[inst
->rxf
.x2
],
2157 fmt_rxy_a(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2161 d2
= val_8_4_8(inst
->rxy_a
.dh2
, inst
->rxy_a
.dl2h
, inst
->rxy_a
.dl2l
);
2163 (void) snprintf(buf
, buflen
, "%s,%u(%s,%s)",
2164 R
[inst
->rxy_a
.r1
], d2
, X
[inst
->rxy_a
.x2
], B
[inst
->rxy_a
.b2
]);
2169 fmt_rxy_b(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2173 d2
= val_8_4_8(inst
->rxy_b
.dh2
, inst
->rxy_b
.dl2h
, inst
->rxy_b
.dl2l
);
2175 (void) snprintf(buf
, buflen
, "%s,%u(%s,%s)",
2176 M
[inst
->rxy_b
.m1
], d2
, X
[inst
->rxy_b
.x2
], B
[inst
->rxy_b
.b2
]);
2181 fmt_rs_a(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2183 const char *r1
, *r3
;
2185 if (flags
& F_CTL_REG
) {
2186 r1
= C
[inst
->rs_a
.r1
];
2187 r3
= C
[inst
->rs_a
.r3
];
2189 r1
= R
[inst
->rs_a
.r1
];
2190 r3
= R
[inst
->rs_a
.r3
];
2193 (void) snprintf(buf
, buflen
, "%s,%s,%u(%s)", r1
, r3
,
2194 val_4_8(inst
->rs_a
.d2h
, inst
->rs_a
.d2l
), B
[inst
->rs_a
.b2
]);
2199 fmt_rs_b(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2201 (void) snprintf(buf
, buflen
, "%s,%s,%u(%s)", R
[inst
->rs_b
.r1
],
2202 M
[inst
->rs_b
.m3
], val_4_8(inst
->rs_b
.d2h
, inst
->rs_b
.d2l
),
2208 fmt_rsl_a(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2210 (void) snprintf(buf
, buflen
, "%u(%u,%s)",
2211 val_4_8(inst
->rsl_a
.d1h
, inst
->rsl_a
.d1l
), inst
->rsl_a
.l1
,
2217 fmt_rsl_b(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2219 (void) snprintf(buf
, buflen
, "%s,%u(%u,%s),%s",
2221 val_4_8(inst
->rsl_b
.d2h
, inst
->rsl_b
.d2l
), inst
->rsl_b
.l2
,
2222 B
[inst
->rsl_b
.b2
], M
[inst
->rsl_b
.m3
]);
2227 fmt_rsy_a(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2229 const char *r1
, *r3
;
2232 d2
= val_8_4_8(inst
->rsy_a
.dh2
, inst
->rsy_a
.dl2h
, inst
->rsy_a
.dl2l
);
2234 if (flags
& F_CTL_REG
) {
2235 r1
= C
[inst
->rsy_a
.r1
];
2236 r3
= C
[inst
->rsy_a
.r3
];
2238 r1
= R
[inst
->rsy_a
.r1
];
2239 r3
= R
[inst
->rsy_a
.r3
];
2242 (void) snprintf(buf
, buflen
, "%s,%s,%u(%s)", r1
, r3
, d2
,
2248 fmt_rsy_b(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2252 d2
= val_8_4_8(inst
->rsy_b
.dh2
, inst
->rsy_b
.dl2h
, inst
->rsy_b
.dl2l
);
2254 (void) snprintf(buf
, buflen
, "%s,%s,%u(%s)",
2255 R
[inst
->rsy_b
.r1
], M
[inst
->rsy_b
.m3
],
2256 d2
, B
[inst
->rsy_b
.b2
]);
2261 fmt_rsi(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2263 uint64_t ri2
= addr
+ 2 * (int16_t)BE_16(inst
->rsi
.ri2
);
2265 (void) snprintf(buf
, buflen
, "%s,%s,%#x", R
[inst
->rsi
.r1
],
2266 R
[inst
->rsi
.r3
], ri2
);
2271 fmt_si(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2273 uint32_t d1
= val_4_8(inst
->si
.d1h
, inst
->si
.d1l
);
2275 (void) snprintf(buf
, buflen
, "%u(%s),%u", d1
, B
[inst
->si
.b1
],
2281 fmt_sil(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2283 (void) snprintf(buf
, buflen
, "%u(%s),%u",
2284 val_4_8(inst
->sil
.d1h
, inst
->sil
.d1l
), B
[inst
->sil
.b1
],
2285 BE_16(inst
->sil
.i2
));
2290 fmt_siy(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2292 (void) snprintf(buf
, buflen
, "%u(%s),%u",
2293 val_8_4_8(inst
->siy
.dh1
, inst
->siy
.dl1h
, inst
->siy
.dl1l
),
2294 B
[inst
->siy
.b1
], inst
->siy
.i2
);
2299 fmt_smi(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2301 uint64_t ri2
= addr
+ 2 * (int16_t)BE_16(inst
->smi
.ri2
);
2303 (void) snprintf(buf
, buflen
, "%s,%#x,%u(%s)", M
[inst
->smi
.m1
], ri2
,
2304 val_4_8(inst
->smi
.d3h
, inst
->smi
.d3l
), B
[inst
->smi
.b3
]);
2309 fmt_s(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2311 uint32_t d
= val_4_8(inst
->s
.d2h
, inst
->s
.d2l
);
2313 (void) snprintf(buf
, buflen
, "%u(%s)", d
, B
[inst
->s
.b2
]);
2318 fmt_ss_a(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2322 d1
= val_4_8(inst
->ss_a
.d1h
, inst
->ss_a
.d1l
);
2323 d2
= val_4_8(inst
->ss_a
.d2h
, inst
->ss_a
.d2l
);
2325 (void) snprintf(buf
, buflen
, "%u(%u,%s),%u(%s)",
2326 d1
, inst
->ss_a
.l
+ 1, B
[inst
->ss_a
.b1
],
2327 d2
, B
[inst
->ss_a
.b2
]);
2332 fmt_ss_b(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2336 d1
= val_4_8(inst
->ss_b
.d1h
, inst
->ss_b
.d1l
);
2337 d2
= val_4_8(inst
->ss_b
.d2h
, inst
->ss_b
.d2l
);
2339 (void) snprintf(buf
, buflen
, "%u(%u,%s),%u(%u,%s)",
2340 d1
, inst
->ss_b
.l1
+ 1, B
[inst
->ss_b
.b1
],
2341 d2
, inst
->ss_b
.l2
+ 1, B
[inst
->ss_b
.b2
]);
2346 fmt_ss_c(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2350 d1
= val_4_8(inst
->ss_c
.d1h
, inst
->ss_c
.d1l
);
2351 d2
= val_4_8(inst
->ss_c
.d2h
, inst
->ss_c
.d2l
);
2353 (void) snprintf(buf
, buflen
, "%u(%u,%s),%u(%s),%u",
2354 d1
, inst
->ss_c
.l1
, B
[inst
->ss_c
.b1
],
2355 d2
, B
[inst
->ss_c
.b2
], inst
->ss_c
.i3
);
2360 fmt_ss_d(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2364 d1
= val_4_8(inst
->ss_d
.d1h
, inst
->ss_d
.d1l
);
2365 d2
= val_4_8(inst
->ss_d
.d2h
, inst
->ss_d
.d2l
);
2367 (void) snprintf(buf
, buflen
, "%u(%s,%s),%u(%s),%s",
2368 d1
, R
[inst
->ss_d
.r1
], B
[inst
->ss_d
.b1
],
2369 d2
, B
[inst
->ss_d
.b2
], R
[inst
->ss_d
.r3
]);
2374 fmt_ss_e(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2378 d2
= val_4_8(inst
->ss_e
.d2h
, inst
->ss_e
.d2l
);
2379 d4
= val_4_8(inst
->ss_e
.d4h
, inst
->ss_e
.d4l
);
2381 (void) snprintf(buf
, buflen
, "%s,%u(%s),%s,%u(%s)",
2382 R
[inst
->ss_e
.r1
], d2
, B
[inst
->ss_e
.b2
],
2383 R
[inst
->ss_e
.r3
], d4
, B
[inst
->ss_e
.b4
]);
2388 fmt_ss_f(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2392 d1
= val_4_8(inst
->ss_f
.d1h
, inst
->ss_f
.d1l
);
2393 d2
= val_4_8(inst
->ss_f
.d2h
, inst
->ss_f
.d2l
);
2395 (void) snprintf(buf
, buflen
, "%u(%s),%u(%u,%s)",
2396 d1
, B
[inst
->ss_f
.b1
], d2
, inst
->ss_f
.l2
,
2402 fmt_sse(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2404 uint32_t d1
= val_4_8(inst
->sse
.d1h
, inst
->sse
.d1l
);
2405 uint32_t d2
= val_4_8(inst
->sse
.d2h
, inst
->sse
.d2l
);
2407 (void) snprintf(buf
, buflen
, "%u(%s),%u(%s)",
2408 d1
, B
[inst
->sse
.b1
], d2
, B
[inst
->sse
.b2
]);
2413 fmt_ssf(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int flags
)
2415 uint32_t d1
= val_4_8(inst
->ssf
.d1h
, inst
->ssf
.d1l
);
2416 uint32_t d2
= val_4_8(inst
->ssf
.d2h
, inst
->ssf
.d2l
);
2418 (void) snprintf(buf
, buflen
, "%u(%s),%u(%s),%s",
2419 d1
, B
[inst
->ssf
.b1
],
2420 d2
, B
[inst
->ssf
.b2
], R
[inst
->ssf
.r3
]);
2423 static void (*fmt_fxns
[IF_NFMTS
])(uint64_t, union inst
*, char *, size_t,
2425 [IF_ZERO
] = fmt_zero
,
2426 [IF_DIAG
] = fmt_diag
,
2431 [IF_RIa
] = fmt_ri_a
,
2432 [IF_RIb
] = fmt_ri_b
,
2433 [IF_RIc
] = fmt_ri_c
,
2434 [IF_RIEa
] = fmt_rie_a
,
2435 [IF_RIEb
] = fmt_rie_b
,
2436 [IF_RIEc
] = fmt_rie_c
,
2437 [IF_RIEd
] = fmt_rie_d
,
2438 [IF_RIEe
] = fmt_rie_e
,
2439 [IF_RIEf
] = fmt_rie_f
,
2440 [IF_RILa
] = fmt_ril_a
,
2441 [IF_RILb
] = fmt_ril_b
,
2442 [IF_RILc
] = fmt_ril_c
,
2447 [IF_RRFa
] = fmt_rrf_a
,
2448 [IF_RRFb
] = fmt_rrf_b
,
2449 [IF_RRFc
] = fmt_rrf_c
,
2450 [IF_RRFd
] = fmt_rrf_d
,
2451 [IF_RRFe
] = fmt_rrf_e
,
2453 [IF_RSa
] = fmt_rs_a
,
2454 [IF_RSb
] = fmt_rs_b
,
2456 [IF_RSLa
] = fmt_rsl_a
,
2457 [IF_RSLb
] = fmt_rsl_b
,
2458 [IF_RSYa
] = fmt_rsy_a
,
2459 [IF_RSYb
] = fmt_rsy_b
,
2460 [IF_RXa
] = fmt_rx_a
,
2461 [IF_RXb
] = fmt_rx_b
,
2464 [IF_RXYa
] = fmt_rxy_a
,
2465 [IF_RXYb
] = fmt_rxy_b
,
2471 [IF_SSa
] = fmt_ss_a
,
2472 [IF_SSb
] = fmt_ss_b
,
2473 [IF_SSc
] = fmt_ss_c
,
2474 [IF_SSd
] = fmt_ss_d
,
2475 [IF_SSe
] = fmt_ss_e
,
2476 [IF_SSf
] = fmt_ss_f
,
2482 * Even if we don't know how to disassemble the instruction, we know how long
2483 * it is, so we always succeed. That is why we can get away with returning
2487 dis_s390(uint64_t addr
, union inst
*inst
, char *buf
, size_t buflen
, int mach
)
2489 const struct inst_table
*tbl
= &tbl_xx
[inst
->raw
[0]];
2496 while (tbl
->it_fmt
== IF_TBL
|| tbl
->it_fmt
== IF_MULTI
) {
2497 if (tbl
->it_fmt
== IF_TBL
) {
2500 idx
= inst
->raw
[tbl
->it_u
.it_table
.it_off
];
2501 idx
>>= tbl
->it_u
.it_table
.it_shift
;
2502 idx
&= tbl
->it_u
.it_table
.it_mask
;
2504 tbl
= &tbl
->it_u
.it_table
.it_ptr
[idx
];
2505 } else if (tbl
->it_fmt
== IF_MULTI
) {
2506 tbl
= &tbl
->it_u
.it_multi
.it_ptr
[mach
];
2510 if (tbl
->it_fmt
== IF_INVAL
)
2513 if ((tbl
->it_u
.it_inst
.it_flags
& mach
) == 0)
2516 tmp
= snprintf(buf
, buflen
, "%-7s ", tbl
->it_u
.it_inst
.it_name
);
2520 fmt_fxns
[tbl
->it_fmt
](addr
, inst
, buf
+ tmp
, buflen
- tmp
,
2521 tbl
->it_u
.it_inst
.it_flags
);
2526 (void) snprintf(buf
, buflen
, "??");
2530 dis_s390_supports_flags(int flags
)
2532 int archflags
= flags
& DIS_ARCH_MASK
;
2534 if (archflags
== DIS_S370
|| archflags
== DIS_S390_31
||
2535 archflags
== DIS_S390_64
)
2542 dis_s390_disassemble(dis_handle_t
*dhp
, uint64_t addr
, char *buf
,
2549 if (dhp
->dh_read(dhp
->dh_data
, addr
, &inst
.raw
[0], 2) != 2)
2552 len
= ILC2LEN(inst
.raw
[0] >> 6) - 2;
2555 dhp
->dh_read(dhp
->dh_data
, addr
+ 2, &inst
.raw
[2], len
) != len
)
2558 switch (dhp
->dh_flags
& (DIS_S370
| DIS_S390_31
| DIS_S390_64
)) {
2570 dis_s390(addr
, &inst
, buf
, buflen
, mach
);
2577 dis_s390_min_instrlen(dis_handle_t
*dhp
)
2584 dis_s390_max_instrlen(dis_handle_t
*dhp
)
2589 dis_arch_t dis_arch_s390
= {
2590 .da_supports_flags
= dis_s390_supports_flags
,
2591 .da_disassemble
= dis_s390_disassemble
,
2592 .da_min_instrlen
= dis_s390_min_instrlen
,
2593 .da_max_instrlen
= dis_s390_max_instrlen
,