hppa/hppa/db_disasm.c

1.9       wiz /*	$NetBSD: db_disasm.c,v 1.9 2006/02/25 00:58:35 wiz Exp $	*/
1.1  fredette
1.1  fredette /*	$OpenBSD: db_disasm.c,v 1.9 2000/04/18 20:02:45 mickey Exp $	*/
1.1  fredette
1.1  fredette /*
1.1  fredette  * Copyright (c) 1999 Michael Shalayeff
1.1  fredette  * All rights reserved.
1.1  fredette  *
1.1  fredette  * Redistribution and use in source and binary forms, with or without
1.1  fredette  * modification, are permitted provided that the following conditions
1.1  fredette  * are met:
1.1  fredette  * 1. Redistributions of source code must retain the above copyright
1.1  fredette  *    notice, this list of conditions and the following disclaimer.
1.1  fredette  * 2. Redistributions in binary form must reproduce the above copyright
1.1  fredette  *    notice, this list of conditions and the following disclaimer in the
1.1  fredette  *    documentation and/or other materials provided with the distribution.
1.1  fredette  * 3. All advertising materials mentioning features or use of this software
1.1  fredette  *    must display the following acknowledgement:
1.1  fredette  *	This product includes software developed by Michael Shalayeff.
1.1  fredette  * 4. The name of the author may not be used to endorse or promote products
1.1  fredette  *    derived from this software without specific prior written permission.
1.1  fredette  *
1.1  fredette  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
1.1  fredette  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
1.1  fredette  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
1.1  fredette  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
1.1  fredette  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
1.1  fredette  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
1.1  fredette  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
1.1  fredette  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
1.1  fredette  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
1.1  fredette  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
1.1  fredette  */
1.1  fredette /*
1.1  fredette  *  (c) Copyright 1992 HEWLETT-PACKARD COMPANY
1.1  fredette  *
1.1  fredette  *  To anyone who acknowledges that this file is provided "AS IS"
1.1  fredette  *  without any express or implied warranty:
1.1  fredette  *      permission to use, copy, modify, and distribute this file
1.1  fredette  *  for any purpose is hereby granted without fee, provided that
1.1  fredette  *  the above copyright notice and this notice appears in all
1.1  fredette  *  copies, and that the name of Hewlett-Packard Company not be
1.1  fredette  *  used in advertising or publicity pertaining to distribution
1.1  fredette  *  of the software without specific, written prior permission.
1.1  fredette  *  Hewlett-Packard Company makes no representations about the
1.1  fredette  *  suitability of this software for any purpose.
1.1  fredette  */
1.1  fredette
1.1  fredette /*
1.1  fredette  * unasm.c -- HP_PA Instruction Printer
1.1  fredette  */
1.2     lukem
1.2     lukem #include <sys/cdefs.h>
1.9       wiz __KERNEL_RCSID(0, "$NetBSD: db_disasm.c,v 1.9 2006/02/25 00:58:35 wiz Exp $");
1.1  fredette
1.1  fredette #include <sys/param.h>
1.1  fredette #include <sys/systm.h>
1.1  fredette
1.1  fredette #include <machine/db_machdep.h>
1.1  fredette #include <ddb/db_access.h>
1.1  fredette #include <ddb/db_sym.h>
1.1  fredette #include <ddb/db_output.h>
1.1  fredette #include <ddb/db_interface.h>
1.1  fredette
1.1  fredette
1.1  fredette /* IMPORTANT NOTE:
1.1  fredette  *  All modules using this header may assume that the datatype "int" is a
1.1  fredette  *   32-bit (or > 32-bit) signed quantity.
1.1  fredette  */
1.1  fredette
1.1  fredette
1.1  fredette /* Spectrum Architecturally Defined Datatypes */
1.1  fredette struct doubleword {
1.1  fredette 	int	wd0;
1.1  fredette 	int	wd1;
1.1  fredette };
1.1  fredette
1.1  fredette struct quadword {
1.1  fredette 	struct	doubleword	d0;
1.1  fredette 	struct	doubleword	d1;
1.1  fredette };
1.1  fredette
1.1  fredette 	/* datatypes for halfword and byte fields of a word are defined
1.1  fredette 	 *  in ssBits.h */
1.1  fredette
1.1  fredette /* Memory addressing datatypes */
1.1  fredette typedef	unsigned int	SID,	/* range [0..MAXSID] */
1.1  fredette 			PGID,	/* range [0..MAXPGID] */
1.1  fredette 			OFS,	/* range [0..MAXINT]  */
1.1  fredette 			REALADR; /* range [0..MAXINT] */
1.1  fredette
1.1  fredette
1.1  fredette /* data sizes */
1.1  fredette enum datasize { Byte, Halfword, Word, Doubleword, Quadword, Variable };
1.1  fredette
1.1  fredette /* Miscellaneous datatypes */
1.1  fredette typedef	unsigned int	FLAGS;
1.1  fredette
1.1  fredette /* struct for entry in unwind table */
1.1  fredette struct ute {
1.1  fredette 	int	word1;
1.1  fredette 	int	word2;
1.1  fredette 	int	word3;
1.1  fredette 	int	word4;
1.1  fredette };
1.1  fredette /*
1.1  fredette  *  Header: /n/schirf/u/baford/CVS/mach4-parisc/kernel_unused/parisc/kdb/unasm.c,v 1.5 1994/07/21 22:32:05 mike Exp
1.1  fredette  *
1.1  fredette  *  Spectrum Instruction Set Condition Completer Bit Assignments
1.1  fredette  *  Dan Magenheimer - 6/14/82
1.1  fredette  *  Terrence Miller - 6/21/82
1.1  fredette  *  Computer Research Center, Hewlett-Packard Labs
1.1  fredette  *
1.1  fredette  *  (c) copyright 1982
1.1  fredette  *  (p) protected 1982
1.1  fredette  *  The Hewlett-Packard Company
1.1  fredette  *  Hewlett-Packard Laboratories
1.1  fredette  *  Computer Research Center
1.1  fredette  *  Palo Alto, California
1.1  fredette  *
1.1  fredette  *  *** HP Company Confidential ***
1.1  fredette  *
1.1  fredette  * Log: unasm.c,v
1.1  fredette  * Revision 1.5  1994/07/21  22:32:05  mike
1.1  fredette  * official HP copyright notice
1.1  fredette  *
1.1  fredette  * Revision 1.4  1992/07/08  12:19:52  dalton
1.1  fredette  * Checkin before split to 1.0.4 release (by LBS).
1.1  fredette  *
1.1  fredette  * Revision 1.3  92/06/06  16:16:45  dalton
1.1  fredette  * *** empty log message ***
1.1  fredette  *
1.1  fredette  * Revision 1.2  92/06/06  15:42:28  dalton
1.1  fredette  * Changed include to be a path relative to hp800.
1.1  fredette  *
1.1  fredette  * Revision 1.1  92/06/06  14:05:33  dalton
1.1  fredette  * Initial revision
1.1  fredette  *
1.1  fredette  * Revision 1.2  91/04/14  20:29:49  osfrcs
1.1  fredette  * 	Initial version.
1.1  fredette  * 	[91/03/30  09:20:34  brezak]
1.1  fredette  *
1.1  fredette  * Revision 1.1.2.2  91/04/02  10:42:50  brezak
1.1  fredette  * 	Initial version.
1.1  fredette  * 	[91/03/30  09:20:34  brezak]
1.1  fredette  *
1.1  fredette  * Revision 1.1.1.2  91/03/30  09:20:34  brezak
1.1  fredette  * 	Initial version.
1.1  fredette  *
1.1  fredette  * Revision 1.1  88/07/11  14:05:15  14:05:15  ren (Bob Naas)
1.1  fredette  * 	Initial revision
1.1  fredette  *
1.1  fredette  * Revision 5.2  87/07/02  14:45:57  14:45:57  kent (Kent McMullen)
1.1  fredette  * added constants to support addDasm and addDCond added to ssDID.c
1.1  fredette  *
1.1  fredette  * Revision 5.1  87/02/27  11:12:08  11:12:08  kent (Kent McMullen)
1.1  fredette  * update all src to 5.1
1.1  fredette  *
1.1  fredette  * Revision 5.0  87/02/18  16:31:15  16:31:15  kent (Kent McMullen)
1.1  fredette  * update all revision numbers to 5.0 for release
1.1  fredette  *
1.1  fredette  * Revision 1.1  86/07/15  08:34:55  08:34:55  kent (Kent McMullen)
1.1  fredette  * Initial revision
1.1  fredette  *
1.1  fredette  * Revision 4.1  83/10/25  17:01:22  17:01:22  djm (Daniel J Magenheimer)
1.1  fredette  * First release for ACD v4
1.1  fredette  *
1.1  fredette  * Revision 3.0  83/06/13  10:22:59  djm (Daniel Magenheimer)
1.1  fredette  * First release for distribution
1.1  fredette  *
1.1  fredette  *
1.1  fredette  */
1.1  fredette
1.1  fredette
1.1  fredette /* Arithmetic/Logical Conditions */
1.1  fredette #define	NEV	0x0
1.1  fredette #define	EQZ	0x2
1.1  fredette #define	LT	0x4
1.1  fredette #define	LE	0x6
1.1  fredette #define	LLT	0x8
1.1  fredette #define	NUV	0x8
1.1  fredette #define	LLE	0xA
1.1  fredette #define	ZNV	0xA
1.1  fredette #define	SV	0xC
1.1  fredette #define	OD	0xE
1.1  fredette #define	TR	0x1
1.1  fredette #define	NEQZ	0x3
1.1  fredette #define	GE	0x5
1.1  fredette #define	GT	0x7
1.1  fredette #define	LGE	0x9
1.1  fredette #define	UV	0x9
1.1  fredette #define	LGT	0xB
1.1  fredette #define	VNZ	0xB
1.1  fredette #define	NSV	0xD
1.1  fredette #define	EV	0xF
1.1  fredette
1.1  fredette /* unit conditions */
1.1  fredette #define	SBZ	0x4
1.1  fredette #define	SHZ	0x6
1.1  fredette #define	SDC	0x8
1.1  fredette #define	SBC	0xC
1.1  fredette #define	SHC	0xE
1.1  fredette #define	NBZ	0x5
1.1  fredette #define	NHZ	0x7
1.1  fredette #define	NDC	0x9
1.1  fredette #define	NBC	0xD
1.1  fredette #define	NHC	0xF
1.1  fredette
1.1  fredette /*field conditions */
1.1  fredette #define XEQ	0x1
1.1  fredette #define XLT	0x2
1.1  fredette #define	XOD	0x3
1.1  fredette #define XTR	0x4
1.1  fredette #define XNE	0x5
1.1  fredette #define XGE	0x6
1.1  fredette #define XEV	0x7
1.1  fredette
1.1  fredette
1.1  fredette
1.1  fredette /*
1.1  fredette  *  These macros are designed to be portable to all machines that have
1.1  fredette  *  a wordsize greater than or equal to 32 bits that support the portable
1.1  fredette  *  C compiler and the standard C preprocessor.  Wordsize (default 32)
1.1  fredette  *  and bitfield assignment (default left-to-right,  unlike VAX, PDP-11)
1.1  fredette  *  should be predefined using the constants HOSTWDSZ and BITFRL and
1.1  fredette  *  the C compiler "-D" flag (e.g., -DHOSTWDSZ=36 -DBITFLR for the DEC-20).
1.1  fredette  *  Note that the macro arguments assume that the integer being referenced
1.1  fredette  *  is a 32-bit integer (right-justified on the 20) and that bit 0 is the
1.1  fredette  *  most significant bit.
1.1  fredette  */
1.1  fredette
1.1  fredette #ifndef HOSTWDSZ
1.1  fredette #define	HOSTWDSZ	32
1.1  fredette #endif
1.1  fredette
1.1  fredette #ifdef	vax
1.1  fredette #ifndef BITFLR
1.1  fredette #define	BITFRL
1.1  fredette #endif
1.1  fredette #else
1.1  fredette #define	BITFLR
1.1  fredette #endif
1.1  fredette
1.1  fredette /*###########################  Macros  ######################################*/
1.1  fredette
1.1  fredette /*---------------------------------------------------------------------------
1.1  fredette  * DeclareBitfield$Reference - Declare a structure to be used to reference
1.1  fredette  *  a specified bitfield within an integer (using BitfR, see below).
1.1  fredette  *  The argument "n" must be an identifier name not used elsewhere in the
1.1  fredette  *  program , "s" and "l" must (alas!) be constants.  (Suggestion: if
1.1  fredette  *  "s" == 2 and "l" == 8, use _b28 for "n".)  The name "BITFLR" should
1.1  fredette  *  be pre-defined if the compiler assigns bitfields from left-to-right.
1.9       wiz  *  The resultant macro expansion defines a structure in which the bit field
1.1  fredette  *  starting at position "s" with length "l" may be referenced by accessing
1.1  fredette  *  member "n".  [Note: The leftmost bits in a 36-bit word may be accessed
1.1  fredette  *  by specifying -4 <= s < 0 on the DEC-20.]
1.1  fredette  *---------------------------------------------------------------------------*/
1.1  fredette
1.1  fredette #ifdef	BITFRL
1.4      matt #define	DeclBitfR(s,l,n) struct n { int:(HOSTWDSZ-(s)-(l)); unsigned n:l;} n;
1.1  fredette #else
1.4      matt #define	DeclBitfR(s,l,n) struct n { int:((s)+(HOSTWDSZ-32)); unsigned n:l;} n;
1.1  fredette #endif
1.1  fredette
1.1  fredette /*---------------------------------------------------------------------------
1.1  fredette  * Bitfield$Reference - Reference a specified bitfield within an integer.
1.1  fredette  *  The argument "i" must be an addressable variable (i.e., not a register
1.1  fredette  *  variable or an expression... but see BitfX below), "n" must be an
1.1  fredette  *  identifier name declared in a DeclBitfR invocation.  The resultant
1.1  fredette  *  macro expansion references the bit field in "i" described by the
1.1  fredette  *  DeclBitfR invocation with the same name ("n").  BitfR may be used as
1.1  fredette  *  an lvalue or an rvalue. (i.e., either side of an assignment statement)
1.1  fredette  *  The "s" and "l" arguments are historical and are now unused.  (They
1.1  fredette  *  correspond to the "s" and "l" arguments in DeclBitfR)
1.1  fredette  *  Translates to a single instruction on both the VAX and the DEC-20.
1.1  fredette  *---------------------------------------------------------------------------*/
1.4      matt #define	BitfR(i,s,l,n)	(i.n.n)
1.1  fredette
1.1  fredette /*---------------------------------------------------------------------------
1.1  fredette  * Bitfield$eXtract - Extract the specified field from an integer.  Arguments
1.1  fredette  *  are the same as for BitfR (except no "n"), however both "s" and "l" need
1.1  fredette  *  no longer be constants. May only be used as an rvalue. Translates to
1.1  fredette  *  two instructions on the VAX, three on the DEC-20.
1.1  fredette  *---------------------------------------------------------------------------*/
1.1  fredette
1.4      matt #define	BitfX(i,s,l)	 (((i.w) >> (32-(s)-(l))) & ((1 << (l)) - 1))
1.1  fredette
1.1  fredette
1.1  fredette /*---------------------------------------------------------------------------
1.1  fredette  * Mask$32bits - Mask the low order 32 bits of passed word.  No-op on 32
1.1  fredette  *  bit machines.
1.1  fredette  *---------------------------------------------------------------------------*/
1.1  fredette
1.1  fredette #if	HOSTWDSZ > 32
1.1  fredette #define	Mask32(x)	((x) & 0xffffffff)
1.1  fredette #else
1.1  fredette #define	Mask32(x)	(x)
1.1  fredette #endif
1.1  fredette
1.1  fredette
1.1  fredette /*---------------------------------------------------------------------------
1.1  fredette  * SignExtend$32bits - Force the high-order bits in machines with wordsize
1.1  fredette  *  longer than 32 to match bit 0.
1.1  fredette  *---------------------------------------------------------------------------*/
1.1  fredette
1.1  fredette #if	HOSTWDSZ > 32
1.1  fredette #define	SignEx32(x)	(((x) & 0x80000000) ? ((x) | ((unsigned)-1 << 32)) \
1.1  fredette 					    : Mask32(x))
1.1  fredette #else
1.1  fredette #define	SignEx32(x)	(x)
1.1  fredette #endif
1.1  fredette
1.1  fredette /**************************/
1.1  fredette /* bit field declarations */
1.1  fredette /**************************/
1.1  fredette
1.1  fredette /* since the compiler complains if a structure name is declared twice, even
1.1  fredette  *  if the declarations are identical, all DeclBitfR invocations are
1.1  fredette  *  given here in one file. */
1.1  fredette
1.4      matt union insn {
1.4      matt int w;
1.1  fredette DeclBitfR(0,1,_b01)
1.1  fredette DeclBitfR(0,15,_b015)
1.1  fredette DeclBitfR(0,16,_b016)
1.1  fredette DeclBitfR(0,4,_b04)
1.1  fredette DeclBitfR(0,6,_b06)
1.1  fredette DeclBitfR(0,8,_b08)
1.1  fredette DeclBitfR(4,1,_b41)
1.1  fredette DeclBitfR(4,4,_b44)
1.1  fredette DeclBitfR(6,1,_b61)
1.1  fredette DeclBitfR(6,13,_b613)
1.1  fredette DeclBitfR(6,15,_b615)
1.1  fredette DeclBitfR(6,17,_b617)
1.1  fredette DeclBitfR(6,26,_b626)
1.1  fredette DeclBitfR(6,5,_b65)
1.1  fredette DeclBitfR(7,1,_b71)
1.1  fredette DeclBitfR(8,1,_b81)
1.1  fredette DeclBitfR(8,4,_b84)
1.1  fredette DeclBitfR(8,8,_b88)
1.1  fredette DeclBitfR(9,1,_b91)
1.1  fredette DeclBitfR(10,1,_b101)
1.1  fredette DeclBitfR(11,1,_b111)
1.1  fredette DeclBitfR(11,10,_b1110)
1.1  fredette DeclBitfR(11,4,_b114)
1.1  fredette DeclBitfR(11,5,_b115)
1.1  fredette DeclBitfR(12,1,_b121)
1.1  fredette DeclBitfR(12,4,_b124)
1.1  fredette DeclBitfR(13,1,_b131)
1.1  fredette DeclBitfR(14,1,_b141)
1.1  fredette DeclBitfR(15,1,_b151)
1.1  fredette DeclBitfR(16,1,_b161)
1.1  fredette DeclBitfR(16,15,_b1615)
1.1  fredette DeclBitfR(16,16,_b1616)
1.1  fredette DeclBitfR(16,2,_b162)
1.1  fredette DeclBitfR(16,3,_b163)
1.1  fredette DeclBitfR(16,4,_b164)
1.1  fredette DeclBitfR(16,5,_b165)
1.1  fredette DeclBitfR(16,8,_b168)
1.1  fredette DeclBitfR(17,1,_b171)
1.1  fredette DeclBitfR(18,1,_b181)
1.1  fredette DeclBitfR(18,13,_b1813)
1.1  fredette DeclBitfR(18,2,_b182)
1.1  fredette DeclBitfR(18,7,_b187)
1.1  fredette DeclBitfR(19,1,_b191)
1.1  fredette DeclBitfR(19,8,_b198)
1.1  fredette DeclBitfR(19,10,_b1910)
1.1  fredette DeclBitfR(20,11,_b2011)
1.1  fredette DeclBitfR(20,2,_b202)
1.1  fredette DeclBitfR(20,4,_b204)
1.1  fredette DeclBitfR(21,10,_b2110)
1.1  fredette DeclBitfR(21,2,_b212)
1.1  fredette DeclBitfR(21,5,_b215)
1.1  fredette DeclBitfR(22,5,_b225)
1.1  fredette DeclBitfR(23,3,_b233)
1.1  fredette DeclBitfR(24,1,_b241)
1.1  fredette DeclBitfR(24,4,_b244)
1.1  fredette DeclBitfR(24,8,_b248)
1.1  fredette DeclBitfR(25,1,_b251)
1.1  fredette DeclBitfR(26,1,_b261)
1.1  fredette DeclBitfR(27,1,_b271)
1.1  fredette DeclBitfR(27,4,_b274)
1.1  fredette DeclBitfR(27,5,_b275)
1.1  fredette DeclBitfR(28,1,_b281)
1.1  fredette DeclBitfR(28,4,_b284)
1.1  fredette DeclBitfR(29,1,_b291)
1.1  fredette DeclBitfR(30,1,_b301)
1.1  fredette DeclBitfR(30,2,_b302)
1.1  fredette DeclBitfR(31,1,_b311)
1.4      matt };
1.1  fredette
1.1  fredette /******************/
1.1  fredette /* Word subfields */
1.1  fredette /******************/
1.1  fredette
1.1  fredette #define	Sign(i)		BitfR(i,0,1,_b01)
1.1  fredette /* halfwords */
1.1  fredette #define	Hwd0(i)		BitfR(i,0,16,_b016)
1.1  fredette #define	Hwd1sign(i)	BitfR(i,16,1,_b161)
1.1  fredette #define	Hwd1(i)		BitfR(i,16,16,_b1616)
1.1  fredette /* bytes */
1.1  fredette #define	Byte0(i)	BitfR(i,0,8,_b08)
1.1  fredette #define	Byte1sign(i)	BitfR(i,8,1,_b81)
1.1  fredette #define	Byte1(i)	BitfR(i,8,8,_b88)
1.1  fredette #define	Byte2(i)	BitfR(i,16,8,_b168)
1.1  fredette #define	Byte3sign(i)	BitfR(i,24,1,_b241)
1.1  fredette #define	Byte3(i)	BitfR(i,24,8,_b248)
1.1  fredette /* digits */
1.1  fredette #define	Digit0(i)	BitfR(i,0,4,_b04)
1.1  fredette #define	Digit1(i)	BitfR(i,4,4,_b44)
1.1  fredette #define	Digit2(i)	BitfR(i,8,4,_b84)
1.1  fredette #define	Digit3(i)	BitfR(i,12,4,_b124)
1.1  fredette #define	Digit4(i)	BitfR(i,16,4,_b164)
1.1  fredette #define	Digit5(i)	BitfR(i,20,4,_b204)
1.1  fredette #define	Digit6(i)	BitfR(i,24,4,_b244)
1.1  fredette #define	Digit7(i)	BitfR(i,28,4,_b284)
1.1  fredette
1.1  fredette /* Wordsize definitions */
1.1  fredette
1.1  fredette #define		BIT_P_DW	64	/* bits/doubleword */
1.1  fredette #define		BIT_P_WD	32	/* bits/word */
1.1  fredette #define		BIT_P_HW	16	/* bits/halfword */
1.1  fredette #define		BIT_P_BYT	8	/* bits/byte */
1.1  fredette #define		BYT_P_DW	8	/* bytes/doubleword */
1.1  fredette #define		BYT_P_WD	4	/* bytes/word */
1.1  fredette #define		BYT_P_HW	2	/* bytes/halfword */
1.1  fredette
1.1  fredette /* Masks */
1.1  fredette
1.1  fredette #define		WDMASK		0xffffffff	/* 32-bit mask */
1.1  fredette #define		OFSMASK		0xffffffff	/* 32-bit mask */
1.1  fredette #define		SIDMASK		0xffffffff	/* 32-bit mask */
1.1  fredette #define		SIGNMASK	0x80000000	/* 32 bit word sign bit */
1.1  fredette
1.1  fredette /* Alignments */
1.1  fredette
1.1  fredette #define		wdalign(ofs)	(ofs &= ~3)
1.1  fredette /*
1.1  fredette  *  Header: /n/schirf/u/baford/CVS/mach4-parisc/kernel_unused/parisc/kdb/unasm.c,v 1.5 1994/07/21 22:32:05 mike Exp
1.1  fredette  *
1.1  fredette  *  Spectrum Simulator Instruction Opcode Definitions
1.1  fredette  *  Dan Magenheimer
1.1  fredette  *  Computer Research Center, Hewlett-Packard Labs
1.1  fredette  *
1.1  fredette  *  (c) copyright 1982
1.1  fredette  *  (p) protected 1982
1.1  fredette  *  The Hewlett-Packard Company
1.1  fredette  *  Hewlett-Packard Laboratories
1.1  fredette  *  Computer Research Center
1.1  fredette  *  Palo Alto, California
1.1  fredette  *
1.1  fredette  *  *** HP Company Confidential ***
1.1  fredette  *
1.1  fredette  * Log: unasm.c,v
1.1  fredette  * Revision 1.5  1994/07/21  22:32:05  mike
1.1  fredette  * official HP copyright notice
1.1  fredette  *
1.1  fredette  * Revision 1.4  1992/07/08  12:19:52  dalton
1.1  fredette  * Checkin before split to 1.0.4 release (by LBS).
1.1  fredette  *
1.1  fredette  * Revision 1.3  92/06/06  16:16:45  dalton
1.1  fredette  * *** empty log message ***
1.1  fredette  *
1.1  fredette  * Revision 1.2  92/06/06  15:42:28  dalton
1.1  fredette  * Changed include to be a path relative to hp800.
1.1  fredette  *
1.1  fredette  * Revision 1.1  92/06/06  14:05:33  dalton
1.1  fredette  * Initial revision
1.1  fredette  *
1.1  fredette  * Revision 1.2  91/04/14  20:29:49  osfrcs
1.1  fredette  * 	Initial version.
1.1  fredette  * 	[91/03/30  09:20:34  brezak]
1.1  fredette  *
1.1  fredette  * Revision 1.1.2.2  91/04/02  10:42:50  brezak
1.1  fredette  * 	Initial version.
1.1  fredette  * 	[91/03/30  09:20:34  brezak]
1.1  fredette  *
1.1  fredette  * Revision 1.1.1.2  91/03/30  09:20:34  brezak
1.1  fredette  * 	Initial version.
1.1  fredette  *
1.1  fredette  * Revision 6.1  89/09/06  10:39:58  burroughs
1.1  fredette  * Added shadow registers for gr0-gr7.
1.1  fredette  *     gr0-7 are copied into sh0-7 whenever a trap occurs
1.1  fredette  *     the instruction RFIR restores gr0-7 from sh0-7 and returns from
1.1  fredette  *     interrupt.
1.1  fredette  *     the "sh" command displays the shadow registers
1.1  fredette  *     = sh7 0x789 works, too.
1.1  fredette  *
1.1  fredette  * Revision 6.0  89/09/01  15:46:37  15:46:37  burroughs (Greg Burroughs)
1.1  fredette  * baseline for pcx simple offsite
1.1  fredette  *
1.1  fredette  * Revision 5.2  87/09/02  14:30:23  14:30:23  kent
1.1  fredette  * separated stat gathering for indexed vs short.
1.1  fredette  * this will NOT work if cache hints ever get used
1.1  fredette  * since this field was assumed always zero
1.1  fredette  *
1.1  fredette  * Revision 5.1  87/02/27  11:12:16  11:12:16  kent (Kent McMullen)
1.1  fredette  * update all src to 5.1
1.1  fredette  *
1.1  fredette  * Revision 5.0  87/02/18  16:31:35  16:31:35  kent (Kent McMullen)
1.1  fredette  * update all revision numbers to 5.0 for release
1.1  fredette  *
1.1  fredette  * Revision 1.1  86/07/15  08:34:57  08:34:57  kent (Kent McMullen)
1.1  fredette  * Initial revision
1.1  fredette  *
1.1  fredette  * Revision 4.1  83/10/25  17:02:34  17:02:34  djm (Daniel J Magenheimer)
1.1  fredette  * First release for ACD v4
1.1  fredette  *
1.1  fredette  * Revision 3.0  83/06/13  10:24:45  djm (Daniel Magenheimer)
1.1  fredette  * First release for distribution
1.1  fredette  *
1.1  fredette  *
1.1  fredette  */
1.1  fredette
1.1  fredette /*
1.1  fredette  * Changes:
1.1  fredette  *   01/30/90 ejf Simplify SPOPn support, now only gives assist emulation trap.
1.1  fredette  *   01/19/90 ejf Replace linpak instructions with just FSTQ[SX].
1.1  fredette  *   12/19/89 ejf Add PA89 new floating point opcode 0E.
1.1  fredette  *   12/18/89 ejf Change 5 ops to PA89 format.
1.1  fredette  *   12/01/89 ejf Move additional instructions fmas, fmaa, fld2, fst2 to ssILst
1.1  fredette  *   09/22/89 ejf Fix unbalanced comments.
1.1  fredette  */
1.1  fredette
1.1  fredette
1.1  fredette /* ..and modified by hand to remove the load/store short references */
1.1  fredette /* ..and modified by hand to make memory management ops conform to the
1.1  fredette  *   requirement that all subops of a major opcode begin in the same
1.1  fredette  *   place and have the same length */
1.1  fredette
1.1  fredette #define	LDW	0x12, 0x00, 0, 0	/* LOAD WORD */
1.1  fredette #define	LDWM	0x13, 0x00, 0, 0	/* LOAD WORD and MODIFY */
1.1  fredette #define	LDH	0x11, 0x00, 0, 0	/* LOAD HALFWORD */
1.1  fredette #define	LDB	0x10, 0x00, 0, 0	/* LOAD BYTE */
1.1  fredette #define	LDO	0x0d, 0x00, 0, 0	/* LOAD OFFSET */
1.1  fredette #define	STW	0x1a, 0x00, 0, 0	/* STORE WORD */
1.1  fredette #define	STWM	0x1b, 0x00, 0, 0	/* STORE WORD and MODIFY */
1.1  fredette #define	STH	0x19, 0x00, 0, 0	/* STORE HALFWORD */
1.1  fredette #define	STB	0x18, 0x00, 0, 0	/* STORE BYTE */
1.1  fredette #define	LDWX	0x03, 0x02, 19, 7	/* LOAD WORD INDEXED */
1.1  fredette #define	LDHX	0x03, 0x01, 19, 7	/* LOAD HALFWORD INDEXED */
1.1  fredette #define	LDBX	0x03, 0x00, 19, 7	/* LOAD BYTE INDEXED */
1.1  fredette #define	LDWAX	0x03, 0x06, 19, 7	/* LOAD WORD ABSOLUTE INDEXED */
1.1  fredette #define	LDCWX	0x03, 0x07, 19, 7	/* LOAD and CLEAR WORD INDEXED */
1.1  fredette #define LDWS	0x03, 0x42, 19, 7	/* LOAD WORD SHORT DISP */
1.1  fredette #define LDHS	0x03, 0x41, 19, 7	/* LOAD HALFWORD SHORT DISP */
1.1  fredette #define LDBS	0x03, 0x40, 19, 7	/* LOAD BYTE SHORT DISP */
1.1  fredette #define LDWAS	0x03, 0x46, 19, 7	/* LOAD WORD ABSOLUTE SHORT DISP */
1.1  fredette #define LDCWS	0x03, 0x47, 19, 7	/* LOAD and CLEAR WORD SHORT DISP */
1.1  fredette #define	STWS	0x03, 0x4a, 19, 7	/* STORE WORD SHORT DISP */
1.1  fredette #define	STHS	0x03, 0x49, 19, 7	/* STORE HALFWORD SHORT DISP */
1.1  fredette #define	STBS	0x03, 0x48, 19, 7	/* STORE BYTE SHORT DISP */
1.1  fredette #define	STWAS	0x03, 0x4e, 19, 7	/* STORE WORD ABSOLUTE SHORT DISP */
1.1  fredette #define	STBYS	0x03, 0x4c, 19, 7	/* STORE BYTES SHORT DISP */
1.1  fredette #define	LDIL	0x08, 0x00, 0, 0	/* LOAD IMMED LEFT */
1.1  fredette #define	ADDIL	0x0a, 0x00, 0, 0	/* ADD IMMED LEFT */
1.1  fredette #define	BL	0x3a, 0x00, 16, 3	/* BRANCH [and LINK] */
1.1  fredette #define	GATE	0x3a, 0x01, 16, 3	/* GATEWAY */
1.1  fredette #define	BLR	0x3a, 0x02, 16, 3	/* BRANCH and LINK REGISTER */
1.1  fredette #define	BV	0x3a, 0x06, 16, 3	/* BRANCH VECTORED */
1.1  fredette #define	BE	0x38, 0x00, 0, 0	/* BRANCH EXTERNAL */
1.1  fredette #define	BLE	0x39, 0x00, 0, 0	/* BRANCH and LINK EXTERNAL */
1.1  fredette #define	MOVB	0x32, 0x00, 0, 0	/* MOVE and BRANCH */
1.1  fredette #define	MOVIB	0x33, 0x00, 0, 0	/* MOVE IMMED and BRANCH */
1.1  fredette #define	COMBT	0x20, 0x00, 0, 0	/* COMPARE and BRANCH if TRUE */
1.1  fredette #define	COMBF	0x22, 0x00, 0, 0	/* COMPARE and BRANCH if FALSE */
1.1  fredette #define	COMIBT	0x21, 0x00, 0, 0	/* COMPARE IMMED and BRANCH if TRUE */
1.1  fredette #define	COMIBF	0x23, 0x00, 0, 0	/* COMPARE IMMED and BRANCH if FALSE */
1.1  fredette #define	ADDBT	0x28, 0x00, 0, 0	/* ADD and BRANCH if TRUE */
1.1  fredette #define	ADDBF	0x2a, 0x00, 0, 0	/* ADD and BRANCH if FALSE */
1.1  fredette #define	ADDIBT	0x29, 0x00, 0, 0	/* ADD IMMED and BRANCH if TRUE */
1.1  fredette #define	ADDIBF	0x2b, 0x00, 0, 0	/* ADD IMMED and BRANCH if FALSE */
1.1  fredette #define	BVB	0x30, 0x00, 0, 0	/* BRANCH on VARIABLE BIT */
1.1  fredette #define	BB	0x31, 0x00, 0, 0	/* BRANCH on BIT */
1.1  fredette #define	ADD	0x02, 0x30, 20, 7	/* ADD  */
1.1  fredette #define	ADDL	0x02, 0x50, 20, 7	/* ADD LOGICAL */
1.1  fredette #define	ADDO	0x02, 0x70, 20, 7	/* ADD and TRAP on OVFLO */
1.1  fredette #define	SH1ADD	0x02, 0x32, 20, 7	/* SHIFT 1, ADD  */
1.1  fredette #define	SH1ADDL	0x02, 0x52, 20, 7	/* SHIFT 1, ADD LOGICAL */
1.1  fredette #define	SH1ADDO	0x02, 0x72, 20, 7	/* SHIFT 1, ADD and TRAP on OVFLO */
1.1  fredette #define	SH2ADD	0x02, 0x34, 20, 7	/* SHIFT 2, ADD  */
1.1  fredette #define	SH2ADDL	0x02, 0x54, 20, 7	/* SHIFT 2, ADD LOGICAL */
1.1  fredette #define	SH2ADDO	0x02, 0x74, 20, 7	/* SHIFT 2, ADD and TRAP on OVFLO */
1.1  fredette #define	SH3ADD	0x02, 0x36, 20, 7	/* SHIFT 3, ADD  */
1.1  fredette #define	SH3ADDL	0x02, 0x56, 20, 7	/* SHIFT 3, ADD LOGICAL */
1.1  fredette #define	SH3ADDO	0x02, 0x76, 20, 7	/* SHIFT 3, ADD and TRAP on OVFLO */
1.1  fredette #define	ADDC	0x02, 0x38, 20, 7	/* ADD with CARRY  */
1.1  fredette #define	ADDCO	0x02, 0x78, 20, 7	/* ADD with CARRY and TRAP on OVFLO */
1.1  fredette #define	SUB	0x02, 0x20, 20, 7	/* SUBTRACT  */
1.1  fredette #define	SUBO	0x02, 0x60, 20, 7	/* SUBTRACT and TRAP on OVFLO */
1.1  fredette #define	SUBB	0x02, 0x28, 20, 7	/* SUBTRACT with BORROW  */
1.1  fredette #define	SUBBO	0x02, 0x68, 20, 7	/* SUBTRACT with BORROW and TRAP on OVFLO */
1.1  fredette #define	SUBT	0x02, 0x26, 20, 7	/* SUBTRACT and TRAP on COND */
1.1  fredette #define	SUBTO	0x02, 0x66, 20, 7	/* SUBTRACT and TRAP on COND or OVFLO */
1.1  fredette #define	DS	0x02, 0x22, 20, 7	/* DIVIDE STEP */
1.1  fredette #define	COMCLR	0x02, 0x44, 20, 7	/* COMPARE and CLEAR */
1.1  fredette #define	OR	0x02, 0x12, 20, 7	/* INCLUSIVE OR */
1.1  fredette #define	XOR	0x02, 0x14, 20, 7	/* EXCLUSIVE OR */
1.1  fredette #define	AND	0x02, 0x10, 20, 7	/* AND */
1.1  fredette #define	ANDCM	0x02, 0x00, 20, 7	/* AND COMPLEMENT */
1.1  fredette #define	UXOR	0x02, 0x1c, 20, 7	/* UNIT XOR */
1.1  fredette #define	UADDCM	0x02, 0x4c, 20, 7	/* UNIT ADD COMPLEMENT */
1.1  fredette #define	UADDCMT	0x02, 0x4e, 20, 7	/* UNIT ADD COMPLEMENT and TRAP on COND */
1.1  fredette #define	DCOR	0x02, 0x5c, 20, 7	/* DECIMAL CORRECT */
1.1  fredette #define	IDCOR	0x02, 0x5e, 20, 7	/* INTERMEDIATE DECIMAL CORRECT */
1.1  fredette #define	ADDI	0x2d, 0x00, 20, 1	/* ADD to IMMED  */
1.1  fredette #define	ADDIO	0x2d, 0x01, 20, 1	/* ADD to IMMED and TRAP on OVFLO */
1.1  fredette #define	ADDIT	0x2c, 0x00, 20, 1	/* ADD to IMMED and TRAP on COND */
1.1  fredette #define	ADDITO	0x2c, 0x01, 20, 1	/* ADD to IMMED and TRAP on COND or OVFLO */
1.1  fredette #define	SUBI	0x25, 0x00, 20, 1	/* SUBTRACT from IMMED  */
1.1  fredette #define	SUBIO	0x25, 0x01, 20, 1	/* SUBTRACT from IMMED and TRAP on OVFLO */
1.1  fredette #define	COMICLR	0x24, 0x00, 0, 0	/* COMPARE IMMED and CLEAR */
1.1  fredette #define	VSHD	0x34, 0x00, 19, 3	/* VARIABLE SHIFT DOUBLE */
1.1  fredette #define	SHD	0x34, 0x02, 19, 3	/* SHIFT DOUBLE */
1.1  fredette #define	VEXTRU	0x34, 0x04, 19, 3	/* VARIABLE EXTRACT RIGHT UNSIGNED */
1.1  fredette #define	VEXTRS	0x34, 0x05, 19, 3	/* VARIABLE EXTRACT RIGHT SIGNED */
1.1  fredette #define	EXTRU	0x34, 0x06, 19, 3	/* EXTRACT RIGHT UNSIGNED  */
1.1  fredette #define	EXTRS	0x34, 0x07, 19, 3	/* EXTRACT RIGHT SIGNED */
1.1  fredette #define	VDEP	0x35, 0x01, 19, 3	/* VARIABLE DEPOSIT */
1.1  fredette #define	DEP	0x35, 0x03, 19, 3	/* DEPOSIT */
1.1  fredette #define	VDEPI	0x35, 0x05, 19, 3	/* VARIABLE DEPOSIT IMMED */
1.1  fredette #define	DEPI	0x35, 0x07, 19, 3	/* DEPOSIT IMMED */
1.1  fredette #define	ZVDEP	0x35, 0x00, 19, 3	/* ZERO and VARIABLE DEPOSIT */
1.1  fredette #define	ZDEP	0x35, 0x02, 19, 3	/* ZERO and DEPOSIT */
1.1  fredette #define	ZVDEPI	0x35, 0x04, 19, 3	/* ZERO and VARIABLE DEPOSIT IMMED */
1.1  fredette #define	ZDEPI	0x35, 0x06, 19, 3	/* ZERO and DEPOSIT IMMED */
1.1  fredette #define	BREAK	0x00, 0x00, 19, 8	/* BREAK */
1.1  fredette #define	RFI	0x00, 0x60, 19, 8	/* RETURN FROM INTERRUPTION */
1.1  fredette #define	RFIR	0x00, 0x65, 19, 8	/* RFI & RESTORE SHADOW REGISTERS */
1.1  fredette #define	SSM	0x00, 0x6b, 19, 8	/* SET SYSTEM MASK */
1.1  fredette #define	RSM	0x00, 0x73, 19, 8	/* RESET SYSTEM MASK */
1.1  fredette #define	MTSM	0x00, 0xc3, 19, 8	/* MOVE TO SYSTEM MASK */
1.1  fredette #define	LDSID	0x00, 0x85, 19, 8	/* LOAD SPACE IDENTIFIER */
1.1  fredette #define	MTSP	0x00, 0xc1, 19, 8	/* MOVE TO SPACE REGISTER */
1.1  fredette #define	MTCTL	0x00, 0xc2, 19, 8	/* MOVE TO SYSTEM CONTROL REGISTER */
1.1  fredette #define	MFSP	0x00, 0x25, 19, 8	/* MOVE FROM SPACE REGISTER */
1.1  fredette #define	MFCTL	0x00, 0x45, 19, 8	/* MOVE FROM SYSTEM CONTROL REGISTER */
1.1  fredette #define	SYNC	0x00, 0x20, 19, 8	/* SYNCHRONIZE DATA CACHE */
1.1  fredette #define	DIAG	0x05, 0x00, 0, 0	/* DIAGNOSE */
1.1  fredette #define	SPOP	0x04, 0x00, 0, 0	/* SPECIAL FUNCTION UNIT */
1.1  fredette #define	COPR	0x0c, 0x00, 0, 0	/* COPROCESSOR */
1.1  fredette #define	CLDWX	0x09, 0x00, 19, 4	/* COPROCESSOR LOAD WORD INDEXED */
1.1  fredette #define	CLDDX	0x0b, 0x00, 19, 4	/* COPROCESSOR LOAD WORD INDEXED */
1.1  fredette #define	CSTWX	0x09, 0x01, 19, 4	/* COPROCESSOR STORE WORD INDEXED */
1.1  fredette #define	CSTDX	0x0b, 0x01, 19, 4	/* COPROCESSOR STORE WORD INDEXED */
1.1  fredette #define CLDWS	0x09, 0x08, 19, 4	/* COPROCESSOR LOAD WORD SHORT */
1.1  fredette #define CLDDS	0x0b, 0x08, 19, 4	/* COPROCESSOR LOAD WORD SHORT */
1.1  fredette #define CSTWS	0x09, 0x09, 19, 4	/* COPROCESSOR STORE WORD SHORT */
1.1  fredette #define CSTDS	0x0b, 0x09, 19, 4	/* COPROCESSOR STORE WORD SHORT */
1.1  fredette #define	FLOAT0	0x0e, 0x00, 21, 2	/* FLOATING POINT CLASS 0 */
1.1  fredette #define	FLOAT1	0x0e, 0x01, 21, 2	/* FLOATING POINT CLASS 1 */
1.1  fredette #define	FLOAT2	0x0e, 0x02, 21, 2	/* FLOATING POINT CLASS 2 */
1.1  fredette #define	FLOAT3	0x0e, 0x03, 21, 2	/* FLOATING POINT CLASS 3 */
1.1  fredette #define	FMPYSUB	0x26, 0x00, 0, 0	/* FP MULTIPLY AND SUBTRACT */
1.1  fredette #define	FMPYADD	0x06, 0x00, 0, 0	/* FP MULTIPLY AND ADD/TRUNCATE */
1.1  fredette #define	FSTQX	0x0f, 0x01, 19, 4	/* FLOATING POINT STORE QUAD INDEXED */
1.1  fredette #define FSTQS	0x0f, 0x09, 19, 4	/* FLOATING POINT STORE QUAD SHORT */
1.1  fredette /* all of the following have been pushed around to conform */
1.1  fredette #define	PROBER	0x01, 0x46, 19, 7	/* PROBE READ ACCESS */
1.1  fredette #ifdef notdef
1.1  fredette #define PROBERI 0x01, 0xc6, 19, 7	/* PROBE READ ACCESS IMMEDIATE */
1.1  fredette #endif
1.1  fredette #define	PROBEW	0x01, 0x47, 19, 7	/* PROBE WRITE ACCESS */
1.1  fredette #ifdef notdef
1.1  fredette #define PROBEWI 0x01, 0xc7, 19, 7	/* PROBE WRITE ACCESS IMMEDIATE */
1.1  fredette #endif
1.1  fredette #define	LPA	0x01, 0x4d, 19, 7	/* LOAD PHYSICAL ADDRESS */
1.1  fredette #define	LHA	0x01, 0x4c, 19, 7	/* LOAD HASH ADDRESS */
1.1  fredette #define	PDTLB	0x01, 0x48, 19, 7	/* PURGE DATA TRANS LOOKASIDE BUFFER */
1.1  fredette #define	PITLB	0x01, 0x08, 19, 7	/* PURGE INST TRANS LOOKASIDE BUFFER */
1.1  fredette #define	PDTLBE	0x01, 0x49, 19, 7	/* PURGE DATA TLB ENTRY */
1.1  fredette #define	PITLBE	0x01, 0x09, 19, 7	/* PURGE INST TLB ENTRY */
1.1  fredette #define	IDTLBA	0x01, 0x41, 19, 7	/* INSERT DATA TLB ADDRESS */
1.1  fredette #define	IITLBA	0x01, 0x01, 19, 7	/* INSERT INSTRUCTION TLB ADDRESS */
1.1  fredette #define	IDTLBP	0x01, 0x40, 19, 7	/* INSERT DATA TLB PROTECTION */
1.1  fredette #define	IITLBP	0x01, 0x00, 19, 7	/* INSERT INSTRUCTION TLB PROTECTION */
1.1  fredette #define	PDC	0x01, 0x4e, 19, 7	/* PURGE DATA CACHE */
1.1  fredette #define	FDC	0x01, 0x4a, 19, 7	/* FLUSH DATA CACHE */
1.1  fredette #define	FIC	0x01, 0x0a, 19, 7	/* FLUSH INSTRUCTION CACHE */
1.1  fredette #define	FDCE	0x01, 0x4b, 19, 7	/* FLUSH DATA CACHE ENTRY */
1.1  fredette #define	FICE	0x01, 0x0b, 19, 7	/* FLUSH DATA CACHE ENTRY */
1.1  fredette
1.1  fredette /*
1.1  fredette  *  Header: /n/schirf/u/baford/CVS/mach4-parisc/kernel_unused/parisc/kdb/unasm.c,v 1.5 1994/07/21 22:32:05 mike Exp
1.1  fredette  *
1.1  fredette  *  Spectrum Simulator Instruction Set Constants and Datatypes
1.1  fredette  *  Dan Magenheimer - 4/28/82
1.1  fredette  *  Computer Research Center, Hewlett-Packard Labs
1.1  fredette  *
1.1  fredette  *  (c) copyright 1982
1.1  fredette  *  (p) protected 1982
1.1  fredette  *  The Hewlett-Packard Company
1.1  fredette  *  Hewlett-Packard Laboratories
1.1  fredette  *  Computer Research Center
1.1  fredette  *  Palo Alto, California
1.1  fredette  *
1.1  fredette  *  *** HP Company Confidential ***
1.1  fredette  *
1.1  fredette  * Log: unasm.c,v
1.1  fredette  * Revision 1.5  1994/07/21  22:32:05  mike
1.1  fredette  * official HP copyright notice
1.1  fredette  *
1.1  fredette  * Revision 1.4  1992/07/08  12:19:52  dalton
1.1  fredette  * Checkin before split to 1.0.4 release (by LBS).
1.1  fredette  *
1.1  fredette  * Revision 1.3  92/06/06  16:16:45  dalton
1.1  fredette  * *** empty log message ***
1.1  fredette  *
1.1  fredette  * Revision 1.2  92/06/06  15:42:28  dalton
1.1  fredette  * Changed include to be a path relative to hp800.
1.1  fredette  *
1.1  fredette  * Revision 1.1  92/06/06  14:05:33  dalton
1.1  fredette  * Initial revision
1.1  fredette  *
1.1  fredette  * Revision 1.2  91/04/14  20:29:49  osfrcs
1.1  fredette  * 	Initial version.
1.1  fredette  * 	[91/03/30  09:20:34  brezak]
1.1  fredette  *
1.1  fredette  * Revision 1.1.2.2  91/04/02  10:42:50  brezak
1.1  fredette  * 	Initial version.
1.1  fredette  * 	[91/03/30  09:20:34  brezak]
1.1  fredette  *
1.1  fredette  * Revision 1.1.1.2  91/03/30  09:20:34  brezak
1.1  fredette  * 	Initial version.
1.1  fredette  *
1.1  fredette ;Revision 1.1  88/07/11  14:05:21  14:05:21  ren (Bob Naas)
1.1  fredette ;Initial revision
1.1  fredette ;
1.1  fredette  * Revision 5.1  87/02/27  11:12:23  11:12:23  kent (Kent McMullen)
1.1  fredette  * update all src to 5.1
1.1  fredette  *
1.1  fredette  * Revision 5.0  87/02/18  16:31:52  16:31:52  kent (Kent McMullen)
1.1  fredette  * update all revision numbers to 5.0 for release
1.1  fredette  *
1.1  fredette  * Revision 1.1  86/07/15  08:35:00  08:35:00  kent (Kent McMullen)
1.1  fredette  * Initial revision
1.1  fredette  *
1.1  fredette  * Revision 4.3  85/11/12  09:28:44  09:28:44  viggy (Viggy Mokkarala)
1.1  fredette  * first mpsim version, partially stable
1.1  fredette  *
1.1  fredette  * Revision 4.2  84/07/16  17:20:57  17:20:57  djm ()
1.1  fredette  * Define field macros for COPR and SFU insts
1.1  fredette  *
1.1  fredette  * Revision 4.1  83/10/25  17:10:14  djm (Daniel Magenheimer)
1.1  fredette  * First release for ACD v4
1.1  fredette  *
1.1  fredette  * Revision 3.1  83/08/03  14:09:59  djm (Daniel Magenheimer)
1.1  fredette  * Sys calls, args, -S, bug fixes, etc.
1.1  fredette  *
1.1  fredette  * Revision 3.0  83/06/13  10:25:13  djm (Daniel Magenheimer)
1.1  fredette  * First release for distribution
1.1  fredette  *
1.1  fredette  *
1.1  fredette  */
1.1  fredette /*
1.1  fredette  * Changes:
1.1  fredette  *   12/01/89 ejf Add Rsd(), Rse(), Rtd(), Rte() for 5 ops.
1.6       wiz  *   11/30/89 ejf Make instruction use counters shared, not per CPU.
1.1  fredette  *   11/28/89 ejf Change majoropcode for quicker extension extract.
1.1  fredette  */
1.1  fredette
1.1  fredette
1.1  fredette
1.1  fredette /*
1.1  fredette  *  Dependencies: std.h, ssDefs.h, bits.h
1.1  fredette  */
1.1  fredette
1.1  fredette
1.1  fredette /* Lookup/Execute structure for instructions */
1.1  fredette struct inst {
1.1  fredette 	u_char	majopc;		/* major opcode of instruction, 0..MAXOPC */
1.1  fredette 	u_char	opcext;		/* opcode extension, 0 if not applic. */
1.1  fredette 	u_char	extbs;		/* starting bit pos of extension field */
1.1  fredette 	u_char	extbl;		/* bit length of extension field */
1.1  fredette 	u_int	count;		/* frequency counter for analysis */
1.1  fredette 	char	mnem[8];	/* ascii mnemonic */
1.1  fredette 				/* disassembly function */
1.4      matt 	int	(*dasmfcn)(const struct inst *, OFS, union insn);
1.1  fredette };
1.1  fredette
1.1  fredette
1.1  fredette #define	NMAJOPCS	64
1.1  fredette
1.1  fredette struct majoropcode {
1.1  fredette 	const struct inst **subops; /* pointer to table of subops indexed by
1.1  fredette 				     *  opcode extension */
1.1  fredette 	u_int	maxsubop;	/* largest opcode extension value or 0 */
1.1  fredette 	u_int	extshft;	/* right shift amount for extension field */
1.1  fredette 	u_int	extmask;	/* post shift mask for extension field */
1.1  fredette };
1.1  fredette
1.1  fredette #define	OpExt(i,m)	((i >> m->extshft) & m->extmask)	/* extract opcode extension */
1.1  fredette
1.1  fredette
1.1  fredette /*****************************/
1.1  fredette /* Miscellaneous definitions */
1.1  fredette /*****************************/
1.1  fredette
1.1  fredette /* Load/Store Indexed Opcode Extension Cache Control */
1.1  fredette #define	NOACTION	0
1.1  fredette #define	STACKREF	1
1.1  fredette #define	SEQPASS		2
1.1  fredette #define	PREFETCH	3
1.1  fredette
1.1  fredette /******************************/
1.1  fredette /* Fields within instructions */
1.1  fredette /******************************/
1.1  fredette
1.1  fredette /* opcode */
1.1  fredette #define	Opcode(i)	BitfR(i,0,6,_b06)
1.1  fredette /* opcode true/false bit */
1.1  fredette #define	OpcTF(i)	BitfR(i,4,1,_b41)
1.1  fredette /* register sources */
1.1  fredette #define	Rsa(i)		BitfR(i,11,5,_b115)
1.1  fredette #define	Rsb(i)		BitfR(i,6,5,_b65)
1.1  fredette #define	Rsc(i)		BitfR(i,27,5,_b275)
1.1  fredette #define	Rsd(i)		BitfR(i,21,5,_b215)
1.1  fredette #define	Rse(i)		BitfR(i,16,5,_b165)
1.1  fredette /* register targets */
1.1  fredette #define	Rta(i)		BitfR(i,11,5,_b115)
1.1  fredette #define	Rtb(i)		BitfR(i,6,5,_b65)
1.1  fredette #define	Rtc(i)		BitfR(i,27,5,_b275)
1.1  fredette #define	Rtd(i)		BitfR(i,21,5,_b215)
1.1  fredette #define	Rte(i)		BitfR(i,16,5,_b165)
1.1  fredette /* 5-bit immediates (Magnitude, Sign) */
1.1  fredette #define	Imb5(i)		BitfR(i,6,5,_b65)
1.1  fredette #define	Ima5M(i)	BitfR(i,11,4,_b114)
1.1  fredette #define	Ima5S(i)	BitfR(i,15,1,_b151)
1.1  fredette #define	Ima5A(i)	BitfR(i,11,5,_b115)
1.1  fredette #define	Imd5(i)		BitfR(i,22,5,_b225)
1.1  fredette #define	Imc5M(i)	BitfR(i,27,4,_b274)
1.1  fredette #define	Imc5S(i)	BitfR(i,31,1,_b311)
1.1  fredette #define	Imc5A(i)	BitfR(i,27,5,_b275)
1.1  fredette /* Other immediates */
1.1  fredette #define	Im21L(i)	BitfR(i,18,2,_b182)
1.1  fredette #define	Im21H(i)	BitfR(i,20,11,_b2011)
1.1  fredette #define	Im21M1(i)	BitfR(i,16,2,_b162)
1.1  fredette #define	Im21M2(i)	BitfR(i,11,5,_b115)
1.1  fredette #define	Im21S(i)	BitfR(i,31,1,_b311)
1.1  fredette #define	Im11M(i)	BitfR(i,21,10,_b2110)
1.1  fredette #define	Im11S(i)	BitfR(i,31,1,_b311)
1.1  fredette /* displacements/offsets */
1.1  fredette #define	DispM(i)	BitfR(i,18,13,_b1813)
1.1  fredette #define	DispS(i)	BitfR(i,31,1,_b311)
1.1  fredette #define	Off5(i)		BitfR(i,11,5,_b115)
1.1  fredette #define	Off11H(i)	BitfR(i,19,10,_b1910)
1.1  fredette #define	Off11L(i)	BitfR(i,29,1,_b291)
1.1  fredette #define	OffS(i)		BitfR(i,31,1,_b311)
1.1  fredette /* miscellaneous */
1.1  fredette #define	Dss(i)		BitfR(i,16,2,_b162)
1.1  fredette #define	Cond(i)		BitfR(i,16,3,_b163)
1.1  fredette #define	Cneg(i)		BitfR(i,19,1,_b191)
1.1  fredette #define	Cond4(i)	BitfR(i,16,4,_b164)	/* Cond AND Cneg */
1.1  fredette #define	Nu(i)		BitfR(i,30,1,_b301)
1.1  fredette #define	SrL(i)		BitfR(i,16,2,_b162)
1.1  fredette #define	SrH(i)		BitfR(i,18,1,_b181)
1.1  fredette #define	ShortDisp(i)	BitfR(i,19,1,_b191)
1.1  fredette #define	IndxShft(i)	BitfR(i,18,1,_b181)
1.1  fredette #define	ModBefore(i)	BitfR(i,18,1,_b181)
1.1  fredette #define	CacheCtrl(i)	BitfR(i,20,2,_b202)
1.1  fredette #define	Modify(i)	BitfR(i,26,1,_b261)
1.1  fredette #define	ProbeI(i)	BitfR(i,18,1,_b181)
1.1  fredette #define	Uid(i)		BitfR(i,23,3,_b233)
1.1  fredette #define	Sfu(i)		BitfR(i,23,3,_b233)
1.1  fredette #define	CopExt17(i)	BitfR(i,6,17,_b617)
1.1  fredette #define	CopExt5(i)	BitfR(i,27,5,_b275)
1.1  fredette #define	SpopType(i)	BitfR(i,21,2,_b212)
1.1  fredette #define	SpopExt15(i)	BitfR(i,6,15,_b615)
1.1  fredette #define	SpopExt10(i)	BitfR(i,11,10,_b1110)
1.1  fredette #define	SpopExt5L(i)	BitfR(i,16,5,_b165)
1.1  fredette #define	SpopExt5(i)	BitfR(i,27,5,_b275)
1.1  fredette #define	NoMajOpc(i)	BitfR(i,6,26,_b626)
1.1  fredette #define	Bi1(i)		BitfR(i,27,5,_b275)	/* fields in BREAK */
1.1  fredette #define	Bi2(i)		BitfR(i,6,13,_b613)
1.1  fredette
1.1  fredette /* fragmented field collating macros */
1.1  fredette #define	Ima5(i)		(Ima5S(i) ? Ima5M(i) | (-1<<4) : Ima5M(i))
1.1  fredette
1.1  fredette #define	Imc5(i)		(Imc5S(i) ? Imc5M(i) | (-1<<4) : Imc5M(i))
1.1  fredette
1.1  fredette #define	Disp(i)		(DispS(i) ?   DispM(i) | (-1<<13) : DispM(i))
1.1  fredette
1.1  fredette #define	Im21(i)		(Im21S(i) << 31 | Im21H(i) << 20 | Im21M1(i) << 18 | \
1.1  fredette 				Im21M2(i) << 13 | Im21L(i) << 11)
1.1  fredette
1.1  fredette #define	Im11(i)		(Im11S(i) ?   Im11M(i) | (-1<<10) : Im11M(i))
1.1  fredette
1.1  fredette #define	Bdisp(i)	((OffS(i) ? (Off5(i)<<11 | Off11L(i)<<10|Off11H(i)) \
1.1  fredette /* branch displacement (bytes) */	| (-1 << 16)			\
1.1  fredette 				  : (Off5(i)<<11|Off11L(i)<<10|Off11H(i))) << 2)
1.1  fredette
1.1  fredette #define	Cbdisp(i)	((OffS(i) ?   (Off11L(i) << 10 | Off11H(i)) \
1.1  fredette  /* compare/branch disp (bytes) */ | (-1 << 11)			\
1.1  fredette 				  :    Off11L(i) << 10 | Off11H(i)) << 2)
1.1  fredette
1.1  fredette #define	Sr(i)		(SrH(i)<<2 | SrL(i))
1.1  fredette
1.1  fredette /* sfu/copr */
1.1  fredette #define	CoprExt1(i)	(CopExt17(i))
1.1  fredette #define	CoprExt2(i)	(CopExt5(i))
1.1  fredette #define	CoprExt(i)	((CopExt17(i)<<5) | CopExt5(i))
1.1  fredette #define	Spop0Ext(i)	((SpopExt15(i)<<5) | SpopExt5(i))
1.1  fredette #define	Spop1Ext(i)	(SpopExt15(i))
1.1  fredette #define	Spop2Ext(i)	((SpopExt10(i)<<5) | SpopExt5(i))
1.1  fredette #define	Spop3Ext(i)	((SpopExt5L(i)<<5) | SpopExt5(i))
1.1  fredette
1.1  fredette
1.1  fredette /*##################### Globals - Imports ##################################*/
1.1  fredette
1.1  fredette /* Disassembly functions */
1.5       chs int fcoprDasm(union insn, u_int, u_int);
1.7       chs const char *edDCond(u_int);
1.7       chs const char *unitDCond(u_int);
1.7       chs const char *addDCond(u_int);
1.7       chs const char *subDCond(u_int);
1.5       chs int blDasm(const struct inst *, OFS, union insn);
1.5       chs int ldDasm(const struct inst *, OFS, union insn);
1.5       chs int stDasm(const struct inst *, OFS, union insn);
1.5       chs int addDasm(const struct inst *, OFS, union insn);
1.5       chs int unitDasm(const struct inst *, OFS, union insn);
1.5       chs int iaDasm(const struct inst *, OFS, union insn);
1.5       chs int shdDasm(const struct inst *, OFS, union insn);
1.5       chs int extrDasm(const struct inst *, OFS, union insn);
1.5       chs int vextrDasm(const struct inst *, OFS, union insn);
1.5       chs int depDasm(const struct inst *, OFS, union insn);
1.5       chs int vdepDasm(const struct inst *, OFS, union insn);
1.5       chs int depiDasm(const struct inst *, OFS, union insn);
1.5       chs int vdepiDasm(const struct inst *, OFS, union insn);
1.5       chs int limmDasm(const struct inst *, OFS, union insn);
1.5       chs int brkDasm(const struct inst *, OFS, union insn);
1.5       chs int lpkDasm(const struct inst *, OFS, union insn);
1.5       chs int fmpyaddDasm(const struct inst *, OFS, union insn);
1.5       chs int fmpysubDasm(const struct inst *, OFS, union insn);
1.5       chs int floatDasm(const struct inst *, OFS, union insn);
1.5       chs int coprDasm(const struct inst *, OFS, union insn);
1.5       chs int diagDasm(const struct inst *, OFS, union insn);
1.5       chs int scDasm(const struct inst *, OFS, union insn);
1.5       chs int mmgtDasm(const struct inst *, OFS, union insn);
1.5       chs int ldxDasm(const struct inst *, OFS, union insn);
1.5       chs int stsDasm(const struct inst *, OFS, union insn);
1.5       chs int stbysDasm(const struct inst *, OFS, union insn);
1.5       chs int brDasm(const struct inst *, OFS, union insn);
1.5       chs int bvDasm(const struct inst *, OFS, union insn);
1.5       chs int beDasm(const struct inst *, OFS, union insn);
1.5       chs int cbDasm(const struct inst *, OFS, union insn);
1.5       chs int cbiDasm(const struct inst *, OFS, union insn);
1.5       chs int bbDasm(const struct inst *, OFS, union insn);
1.5       chs int ariDasm(const struct inst *, OFS, union insn);
1.1  fredette
1.1  fredette /*##################### Globals - Exports ##################################*/
1.1  fredette /*##################### Local Variables ####################################*/
1.1  fredette
1.1  fredette static	const char	fcoprUndef[] = "copr\t(rsvd or undef.)";
1.1  fredette static	const char	fmtStrTbl[][5] = { "sgl", "dbl", "sgl", "quad" };
1.1  fredette static	const char	condStrTbl[][7] = {
1.1  fredette 	    "false?", "false", "?", "!<=>", "=", "=t", "?=", "!<>",
1.1  fredette 	    "!?>=", "<", "?<", "!>=", "!?>", "<=", "?<=", "!>",
1.1  fredette 	    "!?<=", ">", "?>", "!<=", "!?<", ">=", "?>=", "!<",
1.1  fredette 	    "!?=", "<>", "!=", "!=t", "!?", "<=>", "true?", "true"
1.1  fredette };
1.1  fredette static	const char	fsreg[][5] = {
1.1  fredette 	    "r0L",  "r0R",  "r1L",  "r1R",  "r2L",  "r2R",  "r3L",  "r3R",
1.1  fredette 	    "r4L",  "r4R",  "r5L",  "r5R",  "r6L",  "r6R",  "r7L",  "r7R",
1.1  fredette 	    "r8L",  "r8R",  "r9L",  "r9R",  "r10L", "r10R", "r11L", "r11R",
1.1  fredette 	    "r12L", "r12R", "r13L", "r13R", "r14L", "r14R", "r15L", "r15R",
1.1  fredette 	    "r16L", "r16R", "r17L", "r17R", "r18L", "r18R", "r19L", "r19R",
1.1  fredette 	    "r20L", "r20R", "r21L", "r21R", "r22L", "r22R", "r23L", "r23R",
1.1  fredette 	    "r24L", "r24R", "r25L", "r25R", "r26L", "r26R", "r27L", "r27R",
1.1  fredette 	    "r28L", "r28R", "r29L", "r29R", "r30L", "r30R", "r31L", "r31R"
1.1  fredette };
1.1  fredette static	const char	fdreg[][4] = {
1.1  fredette 	    "r0",   "r0",   "r1",   "r1",   "r2",   "r2",   "r3",   "r3",
1.1  fredette 	    "r4",   "r4",   "r5",   "r5",   "r6",   "r6",   "r7",   "r7",
1.1  fredette 	    "r8",   "r8",   "r9",   "r9",   "r10",  "r10",  "r11",  "r11",
1.1  fredette 	    "r12",  "r12",  "r13",  "r13",  "r14",  "r14",  "r15",  "r15",
1.1  fredette 	    "r16",  "r16",  "r17",  "r17",  "r18",  "r18",  "r19",  "r19",
1.1  fredette 	    "r20",  "r20",  "r21",  "r21",  "r22",  "r22",  "r23",  "r23",
1.1  fredette 	    "r24",  "r24",  "r25",  "r25",  "r26",  "r26",  "r27",  "r27",
1.1  fredette 	    "r28",  "r28",  "r29",  "r29",  "r30",  "r30",  "r31",  "r31"
1.1  fredette };
1.1  fredette
1.1  fredette /*##################### Macros #############################################*/
1.1  fredette
1.1  fredette #define	Match(s)	(strncmp(s,i->mnem,sizeof(s)-1) == 0)
1.1  fredette
1.1  fredette /* bits for assist ops */
1.1  fredette #define	AstNu(w)	Modify(w)
1.1  fredette #define	Fpi(w)		(Uid(w)>3)
1.1  fredette
1.1  fredette /* bits for 5 ops */
1.1  fredette #define	SinglePrec(i)	Modify(i)
1.1  fredette #define	Ms1(i)		((Rsb(i)<<1)+(SinglePrec(i)?((Rsb(i)>15)?1:32):0))
1.1  fredette #define	Ms2(i)		((Rsa(i)<<1)+(SinglePrec(i)?((Rsa(i)>15)?1:32):0))
1.1  fredette #define	Mt(i)		((Rtc(i)<<1)+(SinglePrec(i)?((Rtc(i)>15)?1:32):0))
1.1  fredette #define	As(i)		((Rsd(i)<<1)+(SinglePrec(i)?((Rsd(i)>15)?1:32):0))
1.1  fredette #define	Ad(i)		((Rte(i)<<1)+(SinglePrec(i)?((Rte(i)>15)?1:32):0))
1.1  fredette
1.1  fredette /*##################### Globals - Exports ##################################*/
1.1  fredette
1.1  fredette /* To replace instr function, do the following:				*/
1.1  fredette /*	a) locate the desired entry in instrs[] below			*/
1.1  fredette /*	b) change the 3rd field if an alternate mneumonic is 		*/
1.1  fredette /*	   desired for window disassembly				*/
1.1  fredette /*	c) change the 4th field to the name of the function being	*/
1.1  fredette /* 	   used for replacement (i.e. ldwRepl instead of ldw)		*/
1.1  fredette /*	d) change the 5th field if an alternate disassembly routine	*/
1.1  fredette /*	   is desired (i.e. ldDasmRepl)					*/
1.1  fredette
1.1  fredette static const struct inst instrs[] = {
1.1  fredette 	{ LDW,    0, "ldw",	ldDasm },
1.1  fredette 	{ LDH,    0, "ldh",	ldDasm },
1.1  fredette 	{ LDB,    0, "ldb",	ldDasm },
1.1  fredette 	{ LDWM,   0, "ldwm",    ldDasm },
1.1  fredette 	{ LDO,    0, "ldo",     ldDasm },
1.1  fredette 	{ STW,    0, "stw",     stDasm },
1.1  fredette 	{ STH,    0, "sth",     stDasm },
1.1  fredette 	{ STB,    0, "stb",     stDasm },
1.1  fredette 	{ STWM,   0, "stwm",    stDasm },
1.1  fredette 	{ LDWX,   0, "ldw",	ldxDasm },
1.1  fredette 	{ LDHX,   0, "ldh",	ldxDasm },
1.1  fredette 	{ LDBX,   0, "ldb",	ldxDasm },
1.1  fredette 	{ LDCWX,  0, "ldcw",	ldxDasm },
1.1  fredette 	{ LDWAX,  0, "ldwa",	ldxDasm },
1.1  fredette 	{ LDWS,   0, "ldw",	ldxDasm },
1.1  fredette 	{ LDHS,   0, "ldh",	ldxDasm },
1.1  fredette 	{ LDBS,   0, "ldb",	ldxDasm },
1.1  fredette 	{ LDCWS,  0, "ldcw",	ldxDasm },
1.1  fredette 	{ LDWAS,  0, "ldwa",	ldxDasm },
1.1  fredette 	{ STWS,   0, "stws",    stsDasm },
1.1  fredette 	{ STHS,   0, "sths",    stsDasm },
1.1  fredette 	{ STBS,   0, "stbs",    stsDasm },
1.1  fredette 	{ STWAS,  0, "stwas",   stsDasm },
1.1  fredette 	{ STBYS,  0, "stbys",   stbysDasm },
1.1  fredette 	{ LDIL,   0, "ldil",    limmDasm },
1.1  fredette 	{ ADDIL,  0, "addil",   limmDasm },
1.1  fredette 	{ GATE,   0, "gate",    blDasm },
1.1  fredette 	{ BL,     0, "b",	blDasm },
1.1  fredette 	{ BLR,    0, "blr",     brDasm },
1.1  fredette 	{ BV,     0, "bv",      bvDasm },
1.1  fredette 	{ BE,     0, "be",      beDasm },
1.1  fredette 	{ BLE,    0, "ble",     beDasm },
1.1  fredette 	{ COMBT,  0, "combt",   cbDasm },
1.1  fredette 	{ COMBF,  0, "combf",   cbDasm },
1.1  fredette 	{ COMIBT, 0, "comibt",  cbiDasm },
1.1  fredette 	{ COMIBF, 0, "comibf",  cbiDasm },
1.1  fredette 	{ ADDBT,  0, "addbt",   cbDasm },
1.1  fredette 	{ ADDBF,  0, "addbf",   cbDasm },
1.1  fredette 	{ ADDIBT, 0, "addibt",  cbiDasm },
1.1  fredette 	{ ADDIBF, 0, "addibf",  cbiDasm },
1.1  fredette 	{ MOVB,   0, "movb",    cbDasm },
1.1  fredette 	{ MOVIB,  0, "movib",   cbiDasm },
1.1  fredette 	{ BB,     0, "bb",      bbDasm },
1.1  fredette 	{ BVB,    0, "bvb",     bbDasm },
1.1  fredette 	{ SUBO,   0, "subo",    ariDasm },
1.1  fredette 	{ ADD,    0, "add",     addDasm },
1.1  fredette 	{ ADDL,   0, "addl",    addDasm },
1.1  fredette 	{ ADDO,   0, "addo",    ariDasm },
1.1  fredette 	{ SH1ADD, 0, "sh1add",  ariDasm },
1.1  fredette 	{ SH1ADDL,0, "sh1addl", ariDasm },
1.1  fredette 	{ SH1ADDO,0, "sh1addo", ariDasm },
1.1  fredette 	{ SH2ADD, 0, "sh2add",  ariDasm },
1.1  fredette 	{ SH2ADDL,0, "sh2addl", ariDasm },
1.1  fredette 	{ SH2ADDO,0, "sh2addo", ariDasm },
1.1  fredette 	{ SH3ADD, 0, "sh3add",  ariDasm },
1.1  fredette 	{ SH3ADDL,0, "sh3addl", ariDasm },
1.1  fredette 	{ SH3ADDO,0, "sh3addo", ariDasm },
1.1  fredette 	{ SUB,    0, "sub",     ariDasm },
1.1  fredette 	{ ADDCO,  0, "addco",   ariDasm },
1.1  fredette 	{ SUBBO,  0, "subbo",   ariDasm },
1.1  fredette 	{ ADDC,   0, "addc",    ariDasm },
1.1  fredette 	{ SUBB,   0, "subb",    ariDasm },
1.1  fredette 	{ COMCLR, 0, "comclr",  ariDasm },
1.1  fredette 	{ OR,     0, "or",      ariDasm },
1.1  fredette 	{ AND,    0, "and",     ariDasm },
1.1  fredette 	{ XOR,    0, "xor",     ariDasm },
1.1  fredette 	{ ANDCM,  0, "andcm",   ariDasm },
1.1  fredette 	{ DS,     0, "ds",      ariDasm },
1.1  fredette 	{ UXOR,   0, "uxor",    unitDasm },
1.1  fredette 	{ UADDCM, 0, "uaddcm",  unitDasm },
1.1  fredette 	{ UADDCMT,0, "uaddcmt", unitDasm },
1.1  fredette 	{ SUBTO,  0, "subto",   ariDasm },
1.1  fredette 	{ SUBT,   0, "subt",    ariDasm },
1.1  fredette 	{ DCOR,   0, "dcor",    unitDasm },
1.1  fredette 	{ IDCOR,  0, "idcor",   unitDasm },
1.1  fredette 	{ ADDIO,  0, "addio",   iaDasm },
1.1  fredette 	{ SUBIO,  0, "subio",   iaDasm },
1.1  fredette 	{ ADDI,   0, "addi",    iaDasm },
1.1  fredette 	{ SUBI,   0, "subi",    iaDasm },
1.1  fredette 	{ COMICLR,0, "comiclr", iaDasm },
1.1  fredette 	{ ADDITO, 0, "addito",  iaDasm },
1.1  fredette 	{ ADDIT,  0, "addit",   iaDasm },
1.1  fredette 	{ SHD,    0, "shd",     shdDasm },
1.1  fredette 	{ VSHD,   0, "vshd",    shdDasm },
1.1  fredette 	{ EXTRU,  0, "extru",   extrDasm },
1.1  fredette 	{ EXTRS,  0, "extrs",   extrDasm },
1.1  fredette 	{ VEXTRU, 0, "vextru",  vextrDasm },
1.1  fredette 	{ VEXTRS, 0, "vextrs",  vextrDasm },
1.1  fredette 	{ DEP,    0, "dep",     depDasm },
1.1  fredette 	{ VDEP,   0, "vdep",    vdepDasm },
1.1  fredette 	{ DEPI,   0, "depi",    depiDasm },
1.1  fredette 	{ VDEPI,  0, "vdepi",   vdepiDasm },
1.1  fredette 	{ ZDEP,   0, "zdep",    depDasm },
1.1  fredette 	{ ZVDEP,  0, "zvdep",   vdepDasm },
1.1  fredette 	{ ZDEPI,  0, "zdepi",   depiDasm },
1.1  fredette 	{ ZVDEPI, 0, "zvdepi",  vdepiDasm },
1.1  fredette 	{ BREAK,  0, "break",   brkDasm },
1.1  fredette 	{ RFI,    0, "rfi",     0 },
1.1  fredette 	{ RFIR,   0, "rfir",    0 },
1.1  fredette 	{ SSM,    0, "ssm",     scDasm },
1.1  fredette 	{ RSM,    0, "rsm",     scDasm },
1.1  fredette 	{ MTSM,   0, "mtsm",    scDasm },
1.1  fredette 	{ PROBER, 0, "prober",  mmgtDasm },
1.1  fredette 	{ PROBEW, 0, "probew",  mmgtDasm },
1.1  fredette 	{ LPA,    0, "lpa",     mmgtDasm },
1.1  fredette 	{ LHA,    0, "lha",     mmgtDasm },
1.1  fredette 	{ LDSID,  0, "ldsid",   scDasm },
1.1  fredette 	{ PDTLB,  0, "pdtlb",   mmgtDasm },
1.1  fredette 	{ PDTLBE, 0, "pdtlbe",  mmgtDasm },
1.1  fredette 	{ PITLB,  0, "pitlb",   mmgtDasm },
1.1  fredette 	{ PITLBE, 0, "pitlbe",  mmgtDasm },
1.1  fredette 	{ IDTLBA, 0, "idtlba",  mmgtDasm },
1.1  fredette 	{ IITLBA, 0, "iitlba",  mmgtDasm },
1.1  fredette 	{ IDTLBP, 0, "idtlbp",  mmgtDasm },
1.1  fredette 	{ IITLBP, 0, "iitlbp",  mmgtDasm },
1.1  fredette 	{ FIC,    0, "fic",     mmgtDasm },
1.1  fredette 	{ FICE,   0, "fice",    mmgtDasm },
1.1  fredette 	{ PDC,    0, "pdc",     mmgtDasm },
1.1  fredette 	{ FDC,    0, "fdc",     mmgtDasm },
1.1  fredette 	{ FDCE,   0, "fdce",    mmgtDasm },
1.1  fredette 	{ SYNC,   0, "sync",    0 },
1.1  fredette 	{ MTSP,   0, "mtsp",    scDasm },
1.1  fredette 	{ MTCTL,  0, "mtctl",   scDasm },
1.1  fredette 	{ MFSP,   0, "mfsp",    scDasm },
1.1  fredette 	{ MFCTL,  0, "mfctl",   scDasm },
1.1  fredette 	{ DIAG,   0, "diag",    diagDasm },
1.1  fredette 	{ SPOP,   0, "???",     0 },
1.1  fredette 	{ COPR,   0, "copr",    coprDasm },
1.1  fredette 	{ CLDWX,  0, "cldw",    coprDasm },
1.1  fredette 	{ CLDDX,  0, "cldd",    coprDasm },
1.1  fredette 	{ CSTWX,  0, "cstw",    coprDasm },
1.1  fredette 	{ CSTDX,  0, "cstd",    coprDasm },
1.1  fredette 	{ CLDWS,  0, "cldw",    coprDasm },
1.1  fredette 	{ CLDDS,  0, "cldd",    coprDasm },
1.1  fredette 	{ CSTWS,  0, "cstw",    coprDasm },
1.1  fredette 	{ CSTDS,  0, "cstd",    coprDasm },
1.1  fredette 	{ FLOAT0, 0, "f",       floatDasm },
1.1  fredette 	{ FLOAT1, 0, "fcnv",    floatDasm },
1.1  fredette 	{ FLOAT2, 0, "f",       floatDasm },
1.1  fredette 	{ FLOAT3, 0, "f",       floatDasm },
1.1  fredette 	{ FMPYSUB,0, "fmpy",    fmpysubDasm },
1.1  fredette 	{ FMPYADD,0, "fmpy",    fmpyaddDasm },
1.1  fredette 	{ FSTQX,  0, "fstqx",   lpkDasm  },
1.1  fredette 	{ FSTQS,  0, "fstqs",   lpkDasm  },
1.1  fredette 	{0}
1.1  fredette };
1.1  fredette
1.1  fredette
1.1  fredette static const struct inst *so_sysop[0xd0];
1.1  fredette static const struct inst *so_mmuop[0x50];
1.1  fredette static const struct inst *so_arith[0x80];
1.1  fredette static const struct inst *so_loads[0x50];
1.1  fredette static const struct inst *so_cldw [0x0A];
1.1  fredette static const struct inst *so_cldd [0x0A];
1.1  fredette static const struct inst *so_float[0x04];
1.1  fredette static const struct inst *so_fstq [0x0A];
1.1  fredette static const struct inst *so_ebran[0x08];
1.1  fredette static const struct inst *so_addit[0x02];
1.1  fredette static const struct inst *so_addi [0x02];
1.1  fredette static const struct inst *so_subi [0x02];
1.1  fredette static const struct inst *so_shext[0x08];
1.1  fredette static const struct inst *so_deps [0x08];
1.1  fredette
1.7       chs #define ILLEG NULL
1.1  fredette #define NENTS(a) (sizeof(a)/sizeof(a[0])-1)
1.1  fredette static struct majoropcode majopcs[NMAJOPCS] = {
1.1  fredette 	{ so_sysop, NENTS(so_sysop) }, /* 00 */
1.1  fredette 	{ so_mmuop, NENTS(so_mmuop) }, /* 01 */
1.1  fredette 	{ so_arith, NENTS(so_arith) }, /* 02 */
1.1  fredette 	{ so_loads, NENTS(so_loads) }, /* 03 */
1.1  fredette 	{ ILLEG, 1 }, /* 04 */
1.1  fredette 	{ ILLEG, 1 }, /* 05 */
1.1  fredette 	{ ILLEG, 1 }, /* 06 */
1.1  fredette 	{ ILLEG, 1 }, /* 07 */
1.1  fredette 	{ ILLEG, 1 }, /* 08 */
1.1  fredette 	{ so_cldw , NENTS(so_cldw ) }, /* 09 */
1.1  fredette 	{ ILLEG, 1 }, /* 0A */
1.1  fredette 	{ so_cldd , NENTS(so_cldd ) }, /* 0B */
1.1  fredette 	{ ILLEG, 1 }, /* 0C */
1.1  fredette 	{ ILLEG, 1 }, /* 0D */
1.1  fredette 	{ so_float, NENTS(so_float) }, /* 0E */
1.1  fredette 	{ so_fstq , NENTS(so_fstq ) }, /* 0F */
1.1  fredette 	{ ILLEG, 1 }, /* 10 */
1.1  fredette 	{ ILLEG, 1 }, /* 11 */
1.1  fredette 	{ ILLEG, 1 }, /* 12 */
1.1  fredette 	{ ILLEG, 1 }, /* 13 */
1.1  fredette 	{ ILLEG, 1 }, /* 14 */
1.1  fredette 	{ ILLEG, 1 }, /* 15 */
1.1  fredette 	{ ILLEG, 1 }, /* 16 */
1.1  fredette 	{ ILLEG, 1 }, /* 17 */
1.1  fredette 	{ ILLEG, 1 }, /* 18 */
1.1  fredette 	{ ILLEG, 1 }, /* 19 */
1.1  fredette 	{ ILLEG, 1 }, /* 1A */
1.1  fredette 	{ ILLEG, 1 }, /* 1B */
1.1  fredette 	{ ILLEG, 1 }, /* 1C */
1.1  fredette 	{ ILLEG, 1 }, /* 1D */
1.1  fredette 	{ ILLEG, 1 }, /* 1E */
1.1  fredette 	{ ILLEG, 1 }, /* 1F */
1.1  fredette 	{ ILLEG, 1 }, /* 20 */
1.1  fredette 	{ ILLEG, 1 }, /* 21 */
1.1  fredette 	{ ILLEG, 1 }, /* 22 */
1.1  fredette 	{ ILLEG, 1 }, /* 23 */
1.1  fredette 	{ ILLEG, 1 }, /* 24 */
1.1  fredette 	{ so_subi , NENTS(so_subi ) }, /* 25 */
1.1  fredette 	{ ILLEG, 1 }, /* 26 */
1.1  fredette 	{ ILLEG, 1 }, /* 27 */
1.1  fredette 	{ ILLEG, 1 }, /* 28 */
1.1  fredette 	{ ILLEG, 1 }, /* 29 */
1.1  fredette 	{ ILLEG, 1 }, /* 2A */
1.1  fredette 	{ ILLEG, 1 }, /* 2B */
1.1  fredette 	{ so_addit, NENTS(so_addit) }, /* 2C */
1.1  fredette 	{ so_addi , NENTS(so_addi ) }, /* 2D */
1.1  fredette 	{ ILLEG, 1 }, /* 2E */
1.1  fredette 	{ ILLEG, 1 }, /* 2F */
1.1  fredette 	{ ILLEG, 1 }, /* 30 */
1.1  fredette 	{ ILLEG, 1 }, /* 31 */
1.1  fredette 	{ ILLEG, 1 }, /* 32 */
1.1  fredette 	{ ILLEG, 1 }, /* 33 */
1.1  fredette 	{ so_shext, NENTS(so_shext) }, /* 34 */
1.1  fredette 	{ so_deps , NENTS(so_deps ) }, /* 35 */
1.1  fredette 	{ ILLEG, 1 }, /* 36 */
1.1  fredette 	{ ILLEG, 1 }, /* 37 */
1.1  fredette 	{ ILLEG, 1 }, /* 38 */
1.1  fredette 	{ ILLEG, 1 }, /* 39 */
1.1  fredette 	{ so_ebran, NENTS(so_ebran) }, /* 3A */
1.1  fredette 	{ ILLEG, 1 }, /* 3B */
1.1  fredette 	{ ILLEG, 1 }, /* 3C */
1.1  fredette 	{ ILLEG, 1 }, /* 3D */
1.1  fredette 	{ ILLEG, 1 }, /* 3E */
1.1  fredette 	{ ILLEG, 1 }, /* 3F */
1.1  fredette };
1.1  fredette #undef NENTS
1.1  fredette #undef ILLEG
1.1  fredette
1.1  fredette /*--------------------------------------------------------------------------
1.1  fredette  * instruction$ExecutionInitialize - Initialize the instruction execution
1.1  fredette  *  data structures.
1.1  fredette  *---------------------------------------------------------------------------*/
1.5       chs static int iExInit(void);
1.1  fredette static int
1.1  fredette iExInit(void)
1.1  fredette {
1.1  fredette 	static int unasm_initted = 0;
1.3       chs 	const struct inst *i;
1.3       chs 	struct majoropcode *m;
1.1  fredette 	u_int	shft, mask;
1.1  fredette
1.1  fredette 	if (unasm_initted)
1.1  fredette 		return 0;
1.1  fredette
1.1  fredette 	/*
1.1  fredette 	 * Determine maxsubop for each major opcode.
1.1  fredette 	 * Also, check all instructions of a given major opcode
1.1  fredette 	 * for consistent opcode extension field definition, and
1.1  fredette 	 * save a converted form of this definition in the majopcs
1.1  fredette 	 * entry for this major opcode.
1.1  fredette 	 */
1.1  fredette 	for (i = &instrs[0]; *i->mnem; i++) {
1.1  fredette 		m = &majopcs[i->majopc];
1.1  fredette 		if (m->maxsubop < i->opcext)
1.1  fredette 			panic("iExInit not enough space for opcode %d",
1.1  fredette 			    i->majopc);
1.1  fredette 		shft = 32 - i->extbs - i->extbl;
1.1  fredette 		mask = (1 << i->extbl) - 1;
1.1  fredette 		if (m->extshft || m->extmask) {
1.1  fredette 			if (m->extshft != shft || m->extmask != mask) {
1.1  fredette 				db_printf("%s - Bad instruction initialization!\n", i->mnem);
1.1  fredette 				return (0);
1.1  fredette 			}
1.1  fredette 		} else {
1.1  fredette 			m->extshft = shft;
1.1  fredette 			m->extmask = mask;
1.1  fredette 		}
1.1  fredette 	}
1.1  fredette
1.1  fredette 	/*
1.1  fredette 	 * Lastly, fill in all legal subops with the appropriate info.
1.1  fredette 	 */
1.1  fredette 	for (i = &instrs[0]; *i->mnem; i++) {
1.1  fredette 		m = &majopcs[i->majopc];
1.1  fredette 		if (m->maxsubop == 1)
1.7       chs 			m->subops = __UNCONST(i);
1.1  fredette 		else
1.1  fredette 			m->subops[i->opcext] = i;
1.1  fredette 	}
1.1  fredette
1.1  fredette 	unasm_initted++;
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette
1.1  fredette
1.1  fredette /*##################### Functions and Subroutines ##########################*/
1.1  fredette
1.1  fredette /**************************************/
1.1  fredette /* Miscellaneous Disassembly Routines */
1.1  fredette /**************************************/
1.1  fredette
1.1  fredette /* Add instructions */
1.1  fredette int
1.5       chs addDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	db_printf("%s\t%%r%d,%%r%d,%%r%d",addDCond(Cond4(w)),
1.1  fredette 		Rsa(w),Rsb(w),Rtc(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Unit instructions */
1.1  fredette int
1.5       chs unitDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	db_printf(unitDCond(Cond4(w)));
1.1  fredette 	if (Match("dcor") || Match("idcor"))
1.1  fredette 		db_printf("\t%%r%d,%%r%d",Rsb(w),Rtc(w));
1.1  fredette 	else
1.1  fredette 		db_printf("\t%%r%d,%%r%d,%%r%d",Rsa(w),Rsb(w),Rtc(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Immediate Arithmetic instructions */
1.1  fredette int
1.5       chs iaDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	if (Match("addi"))
1.1  fredette 		db_printf("%s\t%d,%%r%d,%%r%d",
1.1  fredette 		    addDCond(Cond4(w)),Im11(w),Rsb(w),Rta(w));
1.1  fredette 	else
1.1  fredette 		db_printf("%s\t%d,%%r%d,%%r%d",
1.1  fredette 		    subDCond(Cond4(w)),Im11(w),Rsb(w),Rta(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Shift double instructions */
1.1  fredette int
1.5       chs shdDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	if (Match("vshd"))
1.1  fredette 		db_printf("%s\t%%r%d,%%r%d,%%r%d",
1.1  fredette 		    edDCond(Cond(w)), Rsa(w),Rsb(w),Rtc(w));
1.1  fredette 	else
1.1  fredette 		db_printf("%s\t%%r%d,%%r%d,%d,%%r%d",
1.1  fredette 		    edDCond(Cond(w)),Rsa(w),Rsb(w),31-Imd5(w),Rtc(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Extract instructions */
1.1  fredette int
1.5       chs extrDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	db_printf("%s\t%%r%d,%d,%d,%%r%d",
1.1  fredette 	    edDCond(Cond(w)),Rsb(w),Imd5(w),32 - Rsc(w),Rta(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette
1.1  fredette /* Variable extract instructions */
1.1  fredette int
1.5       chs vextrDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	db_printf("%s\t%%r%d,%d,%%r%d",
1.1  fredette 	    edDCond(Cond(w)),Rsb(w),32 - Rsc(w),Rta(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette
1.1  fredette /* Deposit instructions */
1.1  fredette int
1.5       chs depDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	db_printf("%s\t%%r%d,%d,%d,%%r%d",
1.1  fredette 	    edDCond(Cond(w)),Rsa(w),31 - Imd5(w),32 - Rsc(w),Rtb(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette
1.1  fredette /* Variable deposit instructions */
1.1  fredette int
1.5       chs vdepDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	db_printf("%s\t%%r%d,%d,%%r%d",
1.1  fredette 	    edDCond(Cond(w)),Rsa(w),32 - Rsc(w),Rtb(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette
1.1  fredette /* Deposit Immediate instructions */
1.1  fredette int
1.5       chs depiDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	db_printf("%s\t%d,%d,%d,%%r%d",
1.1  fredette 	    edDCond(Cond(w)),Ima5(w),31 - Imd5(w),32 - Imc5A(w),Rtb(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Variable Deposit Immediate instructions */
1.1  fredette int
1.5       chs vdepiDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	db_printf("%s\t%d,%d,%%r%d",edDCond(Cond(w)),Ima5(w),32-Imc5A(w),Rtb(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /*---------------------------------------------------------------------------
1.1  fredette  * conditionType$DisassembleCondition - Return a string which contains the
1.1  fredette  *  ascii description of the passed numeric condition.
1.1  fredette  *---------------------------------------------------------------------------*/
1.1  fredette
1.7       chs const char *
1.5       chs subDCond(u_int cond)
1.1  fredette {
1.1  fredette 	switch(cond) {
1.1  fredette 	case EQZ:	return(",=");
1.1  fredette 	case LT:	return(",<");
1.1  fredette 	case LE:	return(",<=");
1.1  fredette 	case LLT:	return(",<<");
1.1  fredette 	case LLE:	return(",<<=");
1.1  fredette 	case SV:	return(",sv");
1.1  fredette 	case OD:	return(",od");
1.1  fredette 	case NEQZ:	return(",<>");
1.1  fredette 	case GE:	return(",>=");
1.1  fredette 	case GT:	return(",>");
1.1  fredette 	case LGE:	return(",>>=");
1.1  fredette 	case LGT:	return(",>>");
1.1  fredette 	case NSV:	return(",nsv");
1.1  fredette 	case EV:	return(",ev");
1.1  fredette 	case TR:	return(",tr");
1.1  fredette 	case NEV:	return("");
1.1  fredette 	default:
1.1  fredette 		panic("subDCond: unknown condition");
1.1  fredette 	}
1.1  fredette }
1.1  fredette
1.1  fredette
1.1  fredette /*---------------------------------------------------------------------------
1.1  fredette  * conditionType$DisassembleCondition - Return a string which contains the
1.1  fredette  *  ascii description of the passed numeric condition.
1.1  fredette  *---------------------------------------------------------------------------*/
1.1  fredette
1.7       chs const char *
1.5       chs addDCond(u_int cond)
1.1  fredette {
1.1  fredette 	switch(cond) {
1.1  fredette 	case EQZ:	return(",=");
1.1  fredette 	case LT:	return(",<");
1.1  fredette 	case LE:	return(",<=");
1.1  fredette 	case NUV:	return(",nuv");
1.1  fredette 	case ZNV:	return(",znv");
1.1  fredette 	case SV:	return(",sv");
1.1  fredette 	case OD:	return(",od");
1.1  fredette 	case NEQZ:	return(",<>");
1.1  fredette 	case GE:	return(",>=");
1.1  fredette 	case GT:	return(",>");
1.1  fredette 	case UV:	return(",uv");
1.1  fredette 	case VNZ:	return(",vnz");
1.1  fredette 	case NSV:	return(",nsv");
1.1  fredette 	case EV:	return(",ev");
1.1  fredette 	case TR:	return(",tr");
1.1  fredette 	case NEV:	return("");
1.1  fredette 	default:
1.1  fredette 		panic("addDCond: unknown condition");
1.1  fredette 	}
1.1  fredette }
1.1  fredette
1.7       chs const char *
1.5       chs unitDCond(u_int cond)
1.1  fredette {
1.1  fredette 	switch(cond) {
1.1  fredette 	case SHC:	return(",shc");
1.1  fredette 	case SHZ:	return(",shz");
1.1  fredette 	case SBC:	return(",sbc");
1.1  fredette 	case SBZ:	return(",sbz");
1.1  fredette 	case SDC:	return(",sdc");
1.1  fredette 	case NHC:	return(",nhc");
1.1  fredette 	case NHZ:	return(",nhz");
1.1  fredette 	case NBC:	return(",nbc");
1.1  fredette 	case NBZ:	return(",nbz");
1.1  fredette 	case NDC:	return(",ndc");
1.1  fredette 	case TR:	return(",tr");
1.1  fredette 	case NEV:	return("");
1.1  fredette 	default:
1.1  fredette 		panic("unitDCond: unknown condition");
1.1  fredette 	}
1.1  fredette }
1.1  fredette
1.7       chs const char *
1.5       chs edDCond(u_int cond)
1.1  fredette {
1.1  fredette 	switch(cond) {
1.1  fredette 	case XOD:	return(",od");
1.1  fredette 	case XTR:	return(",tr");
1.1  fredette 	case XNE:	return(",<>");
1.1  fredette 	case XLT:	return(",<");
1.1  fredette 	case XEQ:	return(",=");
1.1  fredette 	case XGE:	return(",>=");
1.1  fredette 	case XEV:	return(",ev");
1.1  fredette 	case NEV:	return("");
1.1  fredette 	default:
1.1  fredette 		panic("edDCond: unknown condition");
1.1  fredette 	}
1.1  fredette }
1.1  fredette
1.1  fredette
1.1  fredette
1.1  fredette /****************************************/
1.1  fredette /* Format Specific Disassembly Routines */
1.1  fredette /****************************************/
1.1  fredette
1.1  fredette
1.1  fredette /* Load [modify] instructions */
1.1  fredette int
1.5       chs ldDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.3       chs 	int d = Disp(w);
1.1  fredette 	char s[2];
1.1  fredette
1.1  fredette 	s[1] = '\0';
1.1  fredette 	if (d < 0) {
1.1  fredette 		d = -d;
1.1  fredette 		s[0] = '-';
1.1  fredette 	} else
1.1  fredette 		s[0] = '\0';
1.1  fredette
1.1  fredette 	if (Rsb(w) == 0 && Match("ldo")) {
1.1  fredette 		db_printf("ldi\t%s%X,%%r%d",s,d,Rta(w));
1.1  fredette 		return (1);
1.1  fredette 	}
1.1  fredette 	db_printf("%s\t%s%s%X",i->mnem,(d < 2048? "R'":""), s, d);
1.1  fredette 	if (Dss(w))
1.1  fredette 		db_printf("(%%sr%d,%%r%d),%%r%d",Dss(w),Rsb(w),Rta(w));
1.1  fredette 	else
1.1  fredette 		db_printf("(%%r%d),%%r%d",Rsb(w),Rta(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Store [modify] instructions */
1.1  fredette int
1.5       chs stDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.3       chs 	int d = Disp(w);
1.1  fredette 	char s[2];
1.1  fredette
1.1  fredette 	db_printf("\t%%r%d,",Rta(w));
1.1  fredette
1.1  fredette 	s[1] = '\0';
1.1  fredette 	if (d < 0) {
1.1  fredette 		d = -d;
1.1  fredette 		s[0] = '-';
1.1  fredette 	} else
1.1  fredette 		s[0] = '\0';
1.1  fredette
1.1  fredette 	db_printf("%s%s%X", (d < 2048? "R'":""), s, d);
1.1  fredette
1.1  fredette 	if (Dss(w))
1.1  fredette 		db_printf("(%%sr%d,%%r%d)",Dss(w),Rsb(w));
1.1  fredette 	else
1.1  fredette 		db_printf("(%%r%d)",Rsb(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Load indexed instructions */
1.1  fredette int
1.5       chs ldxDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.3       chs 	const char *p;
1.1  fredette
1.1  fredette 	if (ShortDisp(w)) {
1.1  fredette 		db_printf("s");
1.1  fredette 		if (Modify(w))
1.1  fredette 			db_printf(",m%s", ModBefore(w)? "b": "a");
1.1  fredette 	} else {
1.1  fredette 		db_printf("x");
1.1  fredette 		if (Modify(w))
1.1  fredette 			db_printf(",%sm", IndxShft(w)? "s":"");
1.1  fredette 	}
1.1  fredette 	switch (CacheCtrl(w)) {
1.4      matt 	default:
1.1  fredette 	case NOACTION:	p = "";   break;
1.1  fredette 	case STACKREF:	p = ",c"; break;
1.1  fredette 	case SEQPASS:	p = ",q"; break;
1.1  fredette 	case PREFETCH:	p = ",p"; break;
1.1  fredette 	}
1.1  fredette 	if (ShortDisp(w))
1.1  fredette 		db_printf("%s\t%d", p, Ima5(w));
1.1  fredette 	else
1.1  fredette 		db_printf("%s\t%%r%d", p, Rsa(w));
1.1  fredette
1.1  fredette 	if (Dss(w))
1.1  fredette 		db_printf("(%%sr%d,%%r%d),%%r%d",Dss(w),Rsb(w),Rtc(w));
1.1  fredette 	else
1.1  fredette 		db_printf("(%%r%d),%%r%d",Rsb(w),Rtc(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Store short displacement instructions */
1.1  fredette int
1.5       chs stsDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.3       chs 	const char *p;
1.5       chs
1.1  fredette 	if (Modify(w))
1.1  fredette 		db_printf(",m%s", ModBefore(w)? "b":"a");
1.1  fredette
1.1  fredette 	switch (CacheCtrl(w)) {
1.4      matt 	default:
1.1  fredette 	case NOACTION:	p = "";   break;
1.1  fredette 	case STACKREF:	p = ",c"; break;
1.1  fredette 	case SEQPASS:	p = ",q"; break;
1.1  fredette 	case PREFETCH:	p = ",p"; break;
1.1  fredette 	}
1.1  fredette 	db_printf("%s\t%%r%d,", p, Rta(w));
1.1  fredette 	if (Dss(w))
1.1  fredette 		db_printf("%d(%%sr%d,%%r%d)",Imc5(w),Dss(w),Rsb(w));
1.1  fredette 	else
1.1  fredette 		db_printf("%d(%%r%d)",Imc5(w),Rsb(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Store Bytes Instruction */
1.1  fredette int
1.5       chs stbysDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.3       chs 	const char *p;
1.5       chs
1.1  fredette 	db_printf(ModBefore(w)? ",e":",b");
1.1  fredette 	if (Modify(w))
1.1  fredette 		db_printf(",m");
1.1  fredette 	switch (CacheCtrl(w)) {
1.4      matt 	default:
1.1  fredette 	case NOACTION:	p = "";   break;
1.1  fredette 	case STACKREF:	p = ",f"; break;
1.1  fredette 	case SEQPASS:	p = ",r"; break;
1.1  fredette 	case PREFETCH:	p = ",z"; break;
1.1  fredette 	}
1.1  fredette 	db_printf("%s\t%%r%d,", p, Rta(w));
1.1  fredette 	if (Dss(w))
1.1  fredette 		db_printf("%d(%%sr%d,%%r%d)",Imc5(w),Dss(w),Rsb(w));
1.1  fredette 	else
1.1  fredette 		db_printf("%d(%%r%d)",Imc5(w),Rsb(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Long Immediate instructions */
1.1  fredette int
1.5       chs limmDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	db_printf("\tL'%X,%%r%d", Im21(w), Rtb(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette
1.1  fredette /* Branch and Link instruction(s) (Branch, too!!) */
1.1  fredette int
1.5       chs blDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.3       chs 	OFS tgtofs = ofs + 8 + Bdisp(w);
1.3       chs 	u_int link = Rtb(w);
1.1  fredette
1.1  fredette 	if (link && !Match("gate"))
1.1  fredette 		db_printf("l");
1.1  fredette 	if (Nu(w))
1.1  fredette 		db_printf(",n");
1.1  fredette 	db_printf("\t");
1.1  fredette
1.1  fredette 	db_printsym((db_addr_t)tgtofs, DB_STGY_ANY, db_printf);
1.1  fredette
1.1  fredette 	if (link || Match("gate"))
1.1  fredette 		db_printf(",%%r%d",link);
1.1  fredette
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Branch Register instruction */
1.1  fredette int
1.5       chs brDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	db_printf("%s\t%%r%d,%%r%d", Nu(w)?",n":"", Rsa(w), Rtb(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Dispatch instructions */
1.1  fredette int
1.5       chs bvDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	db_printf("%s\t%%r%d(%%r%d)", Nu(w)?",n":"", Rsa(w), Rsb(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Branch External instructions */
1.1  fredette int
1.5       chs beDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.3       chs 	int d = Bdisp(w);
1.3       chs 	const char *p;
1.1  fredette 	char s[2];
1.1  fredette
1.1  fredette 	s[1] = '\0';
1.1  fredette 	if (d < 0) {
1.1  fredette 		d = -d;
1.1  fredette 		s[0] = '-';
1.1  fredette 	} else
1.1  fredette 		s[0] = '\0';
1.1  fredette
1.1  fredette 	p =  Nu(w)? ",n":"";
1.1  fredette 	db_printf("%s\tR'%s%X(%%sr%d,%%r%d)", p,
1.1  fredette 	    s, d, Sr(w), Rsb(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette
1.1  fredette /* Compare/Add and Branch instructions */
1.1  fredette int
1.5       chs cbDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.3       chs 	OFS tgtofs = ofs + 8 + Cbdisp(w);
1.1  fredette
1.1  fredette 	if (Match("movb"))
1.1  fredette 		db_printf(edDCond(Cond(w)));
1.1  fredette 	else if (Match("addb"))
1.1  fredette 		db_printf(addDCond(Cond(w) << 1));
1.1  fredette 	else
1.1  fredette 		db_printf(subDCond(Cond(w) << 1));
1.1  fredette 	db_printf("%s\t%%r%d,%%r%d,", Nu(w)?",n":"", Rsa(w), Rsb(w));
1.1  fredette 	db_printsym((db_addr_t)tgtofs, DB_STGY_ANY, db_printf);
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Compare/Add and Branch Immediate instructions */
1.1  fredette int
1.5       chs cbiDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.3       chs 	OFS tgtofs = ofs + 8 + Cbdisp(w);
1.1  fredette
1.1  fredette 	if (Match("movib"))
1.1  fredette 		db_printf(edDCond(Cond(w)));
1.1  fredette 	else if (Match("addib"))
1.1  fredette 		db_printf(addDCond(Cond(w) << 1));
1.1  fredette 	else
1.1  fredette 		db_printf(subDCond(Cond(w) << 1));
1.1  fredette 	db_printf("%s\t%d,%%r%d,", Nu(w)? ",n":"", Ima5(w), Rsb(w));
1.1  fredette 	db_printsym((db_addr_t)tgtofs, DB_STGY_ANY, db_printf);
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Branch on Bit instructions */
1.1  fredette int
1.5       chs bbDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.3       chs 	OFS tgtofs = ofs + 8 + Cbdisp(w);
1.3       chs 	const char *p;
1.1  fredette
1.1  fredette 	db_printf(edDCond(Cond(w)));
1.1  fredette 	p = Nu(w)? ",n":"";
1.1  fredette 	if (Match("bvb"))
1.1  fredette 		db_printf("%s\t%%r%d,", p, Rta(w));
1.1  fredette 	else
1.1  fredette 		db_printf("%s\t%%r%d,%d,", p, Rsa(w), Imb5(w));
1.1  fredette 	db_printsym((db_addr_t)tgtofs, DB_STGY_ANY, db_printf);
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Arithmetic instructions */
1.1  fredette int
1.5       chs ariDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	if (Match("or") && Rsb(w) == 0 && Cond4(w) == NEV) {
1.1  fredette 		if (Rsa(w) == 0 && Rtc(w) == 0)
1.1  fredette 			db_printf("nop");
1.1  fredette 		else
1.1  fredette 			db_printf("copy\t%%r%d,%%r%d",Rsa(w),Rtc(w));
1.1  fredette 	} else
1.1  fredette 		db_printf("%s%s\t%%r%d,%%r%d,%%r%d", i->mnem,
1.1  fredette 			  subDCond(Cond4(w)), Rsa(w),Rsb(w),Rtc(w));
1.1  fredette 	return(1);
1.1  fredette }
1.1  fredette
1.1  fredette /* System control operations */
1.1  fredette int
1.5       chs scDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	if (Match("mtctl")) {
1.1  fredette 		if (Rtb(w) == 11)
1.1  fredette 			db_printf("mtsar\t%%r%d",Rsa(w));
1.1  fredette 		else
1.1  fredette 			db_printf("mtctl\t%%r%d,%%cr%d",Rsa(w),Rtb(w));
1.1  fredette 		return (1);
1.1  fredette 	}
1.1  fredette 	db_printf(i->mnem);
1.1  fredette 	if (Match("ssm") || Match("rsm"))
1.1  fredette 		db_printf("\t%d,%%r%d",Ima5A(w),Rtc(w));
1.1  fredette 	else if (Match("mtsm")) db_printf("\t%%r%d",Rsa(w));
1.1  fredette 	else if (Match("ldprid")) db_printf("\t%%r%d",Rtc(w));
1.1  fredette 	else if (Match("mtsp")) db_printf("\t%%r%d,%%sr%d",Rsa(w),Sr(w));
1.1  fredette 	else if (Match("mfsp")) db_printf("\t%%sr%d,%%r%d",Sr(w),Rtc(w));
1.1  fredette 	else if (Match("mfctl")) db_printf("\t%%cr%d,%%r%d",Rsb(w),Rtc(w));
1.1  fredette 	else if (Match("ldsid")) {
1.1  fredette 		if (Dss(w))
1.1  fredette 			db_printf("\t(%%sr%d,%%r%d),%%r%d",Dss(w),Rsb(w),Rtc(w));
1.1  fredette 		else
1.1  fredette 			db_printf("\t(%%r%d),%%r%d",Rsb(w),Rtc(w));
1.1  fredette 	} else {
1.1  fredette 		db_printf("?????");
1.1  fredette 		return (0);
1.1  fredette 	}
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette /* Instruction cache/tlb control instructions */
1.1  fredette int
1.5       chs mmgtDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	if (Match("probe")) {
1.1  fredette 		if (ProbeI(w)) {
1.1  fredette 			if (Dss(w))
1.1  fredette 				db_printf("i\t(%%sr%d,%%r%d),%d,%%r%d",
1.1  fredette 				    Dss(w),Rsb(w),Rsa(w),Rtc(w));
1.1  fredette 			else
1.1  fredette 				db_printf("i\t(%%r%d),%d,%%r%d",
1.1  fredette 				    Rsb(w),Rsa(w),Rtc(w));
1.1  fredette 		} else {
1.1  fredette 			if (Dss(w))
1.1  fredette 				db_printf("\t(%%sr%d,%%r%d),%%r%d,%%r%d",
1.1  fredette 				    Dss(w),Rsb(w),Rsa(w),Rtc(w));
1.1  fredette 			else
1.1  fredette 				db_printf("\t(%%r%d),%%r%d,%%r%d",
1.1  fredette 				    Rsb(w),Rsa(w),Rtc(w));
1.1  fredette 		}
1.1  fredette 	}
1.1  fredette 	else if (Match("lha") || Match("lpa")) {
1.1  fredette 		if (Modify(w))
1.1  fredette 			db_printf(",m");
1.1  fredette 		if (Dss(w))
1.1  fredette 			db_printf("\t%%r%d(%%sr%d,%%r%d),%%r%d",
1.1  fredette 			    Rsa(w),Dss(w),Rsb(w),Rtc(w));
1.1  fredette 		else
1.1  fredette 			db_printf("\t%%r%d(%%r%d),%%r%d",Rsa(w),Rsb(w),Rtc(w));
1.1  fredette 	}
1.1  fredette 	else if (Match("pdtlb") || Match("pdc") || Match("fdc")) {
1.1  fredette 		if (Modify(w)) db_printf(",m");
1.1  fredette 		if (Dss(w))
1.1  fredette 			db_printf("\t%%r%d(%%sr%d,%%r%d)",Rsa(w),Dss(w),Rsb(w));
1.1  fredette 		else
1.1  fredette 			db_printf("\t%%r%d(%%r%d)",Rsa(w),Rsb(w));
1.1  fredette 	}
1.1  fredette 	else if (Match("pitlb") || Match("fic")) {
1.1  fredette 		if (Modify(w))
1.1  fredette 			db_printf(",m");
1.1  fredette 		db_printf("\t%%r%d(%%sr%d,%%r%d)",Rsa(w),Sr(w),Rsb(w));
1.1  fredette 	}
1.1  fredette 	else if (Match("idtlb")) {
1.1  fredette 		if (Dss(w))
1.1  fredette 			db_printf("\t%%r%d,(%%sr%d,%%r%d)",Rsa(w),Dss(w),Rsb(w));
1.1  fredette 		else
1.1  fredette 			db_printf("\t%%r%d,(%%r%d)",Rsa(w),Rsb(w));
1.1  fredette 	}
1.1  fredette 	else if (Match("iitlb"))
1.1  fredette 		db_printf("\t%%r%d,(%%sr%d,%%r%d)",Rsa(w),Sr(w),Rsb(w));
1.1  fredette 	else {
1.1  fredette 		db_printf("?????");
1.1  fredette 		return (0);
1.1  fredette 	}
1.1  fredette 	return(1);
1.1  fredette }
1.1  fredette
1.1  fredette /* break instruction */
1.1  fredette int
1.5       chs brkDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	db_printf("\t%d,%d",Bi1(w),Bi2(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette int
1.5       chs floatDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.3       chs 	u_int op1, r1, fmt, t;
1.1  fredette 	u_int op2, r2, dfmt;
1.7       chs 	const char *p;
1.1  fredette
1.1  fredette 	op1 = CoprExt1(w);
1.1  fredette 	op2 = CoprExt2(w);
1.1  fredette 	fmt = (op1 >> 2) & 3;		/* get precision of source  */
1.1  fredette
1.1  fredette #define ST(r) ((fmt & 1)? fdreg[(r)]:fsreg[(r)])
1.1  fredette 	/*
1.1  fredette 	 * get first (or only) source register
1.1  fredette 	 * (independent of class)
1.1  fredette 	 */
1.1  fredette 	r1 = (op1 >> 11) & 0x3e;
1.1  fredette 	if ((fmt & 1) == 0 && (Uid(w) & 2))
1.1  fredette 		r1++;
1.1  fredette
1.1  fredette 	if (op1 & 2) {				/* class 2 or 3 */
1.1  fredette 		/*
1.1  fredette 		 * get second source register
1.1  fredette 		 */
1.1  fredette 		r2 = (op1 >> 6) & 0x3e;
1.1  fredette 		if (fmt == 2)
1.1  fredette 			r2++;
1.1  fredette
1.1  fredette 		if ((op1 & 1) == 0) {		/* class 2 */
1.1  fredette 			/* Opclass 2: 2 sources, no destination */
1.1  fredette 			switch((op1 >> 4) & 7) {
1.1  fredette 			case 0:
1.1  fredette 				p = "cmp";
1.1  fredette 				break;
1.1  fredette 			default:
1.1  fredette 				db_printf(fcoprUndef);
1.1  fredette 				return(0);
1.1  fredette 			}
1.1  fredette 			db_printf("%s,%s",p,fmtStrTbl[fmt]);
1.1  fredette 			db_printf(",%s\t%%f%s,%%f%s",
1.1  fredette 			    condStrTbl[op2], ST(r1), ST(r2));
1.1  fredette 			return (1);
1.1  fredette 		}
1.1  fredette 		/*
1.1  fredette 		 * get target register (class 3)
1.1  fredette 		 */
1.1  fredette 		t = (op2 << 1);
1.1  fredette 		if ((fmt & 1) == 0 && (Uid(w) & 1))
1.1  fredette 			t++;
1.1  fredette 		/* Opclass 3: 2 sources, 1 destination */
1.1  fredette 		switch((op1 >> 4) & 7) {
1.1  fredette 		case 0: p = "add"; break;
1.1  fredette 		case 1: p = "sub"; break;
1.1  fredette 		case 2: p = (Fpi(w)) ? "mpyi" : "mpy"; break;
1.1  fredette 		case 3: p = "div"; break;
1.1  fredette 		case 4: p = "rem"; break;
1.1  fredette 		default: db_printf(fcoprUndef); return (0);
1.1  fredette 		}
1.1  fredette 		db_printf("%s,%s", p, fmtStrTbl[fmt]);
1.1  fredette 		db_printf("\t%%f%s,%%f%s,%%f%s",ST(r1),ST(r2),ST(t));
1.1  fredette 	} else if (op1 & 1) {			/* class 1 */
1.1  fredette 		dfmt = (op1 >> 4) & 3;
1.1  fredette #define DT(r) ((dfmt & 1)? fdreg[(r)]:fsreg[(r)])
1.1  fredette
1.1  fredette 		/*
1.1  fredette 		 * get target register
1.1  fredette 		 */
1.1  fredette 		t = (op2 << 1);
1.1  fredette 		if ((dfmt & 1) == 0 && (Uid(w) & 1))
1.1  fredette 			t++;
1.1  fredette 		/* Opclass 1: 1 source, 1 destination conversions */
1.4      matt 		p = &"ff\0\0xf\0\0fx\0\0fxt\0"[((op1) >> 4) & 0x0c];
1.4      matt #if 0
1.1  fredette 		switch((op1 >> 6) & 3) {
1.4      matt 		default:
1.1  fredette 		case 0: p = "ff"; break;
1.1  fredette 		case 1: p = "xf"; break;
1.1  fredette 		case 2: p = "fx"; break;
1.1  fredette 		case 3: p = "fxt"; break;
1.1  fredette 		}
1.4      matt #endif
1.1  fredette 		db_printf("%s,%s", p, fmtStrTbl[fmt]);
1.1  fredette 		db_printf(",%s\t%%f%s,%%f%s",fmtStrTbl[dfmt],ST(r1),DT(t));
1.1  fredette 	} else {				/* class 0 */
1.1  fredette 		/*
1.1  fredette 		 * get target register
1.1  fredette 		 */
1.1  fredette 		t = (op2 << 1);
1.1  fredette 		if ((fmt & 1) == 0 && (Uid(w) & 1))
1.1  fredette 			t++;
1.1  fredette 		/* Opclass 0: 1 source, 1 destination */
1.1  fredette 		switch((op1 >> 4) & 7) {
1.1  fredette 		case 1: p = "rsqrt"; break;
1.1  fredette 		case 2: p = "cpy"; break;
1.1  fredette 		case 3: p = "abs"; break;
1.1  fredette 		case 4: p = "sqrt"; break;
1.1  fredette 		case 5: p = "rnd"; break;
1.1  fredette 		default: db_printf(fcoprUndef); return (0);
1.1  fredette 		}
1.1  fredette 		db_printf("%s,%s",p,fmtStrTbl[fmt]);
1.1  fredette 		db_printf("\t%%f%s,%%f%s",ST(r1),ST(t));
1.1  fredette 	}
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette int
1.5       chs fcoprDasm(union insn w, u_int op1, u_int op2)
1.1  fredette {
1.3       chs 	u_int r1, r2, t, fmt, dfmt;
1.7       chs 	const char *p;
1.1  fredette
1.1  fredette 	if (AstNu(w) && op1 == ((1<<4) | 2)) {
1.1  fredette 		if (op2 == 0 || op2 == 1 || op2 == 2) {
1.1  fredette 			db_printf("ftest");
1.1  fredette 			if (op2 == 1)
1.1  fredette 				db_printf(",acc");
1.1  fredette 			else if (op2 == 2)
1.1  fredette 				db_printf(",rej");
1.1  fredette 			return (1);
1.1  fredette 		}
1.1  fredette 		return (0);
1.1  fredette 	} else if (0 == op1 && 0 == op2) {
1.1  fredette 		db_printf("fcopr identify");
1.1  fredette 		return (1);
1.1  fredette 	}
1.1  fredette 	switch(op1 & 3) {
1.1  fredette 	    case 0:
1.1  fredette 		/* Opclass 0: 1 source, 1 destination */
1.1  fredette 		r1 = (op1 >> 12) & 0x1f; t = op2; fmt = (op1 >> 2) & 3;
1.1  fredette 		switch((op1 >> 4) & 7) {
1.1  fredette 		case 1: p = "rsqrt"; break;
1.1  fredette 		case 2: p = "cpy"; break;
1.1  fredette 		case 3: p = "abs"; break;
1.1  fredette 		case 4: p = "sqrt"; break;
1.1  fredette 		case 5: p = "rnd"; break;
1.1  fredette 		default: db_printf(fcoprUndef); return(0);
1.1  fredette 		}
1.1  fredette 		db_printf("f%s,%s\t%%fr%d,%%fr%d", p, fmtStrTbl[fmt], r1, t);
1.1  fredette 		break;
1.1  fredette 	    case 1:
1.1  fredette 		/* Opclass 1: 1 source, 1 destination conversions */
1.1  fredette 		r1 = (op1 >> 12) & 0x1f; t = op2;
1.1  fredette 		fmt = (op1 >> 2) & 3; dfmt = (op1 >> 4) & 3;
1.4      matt 		p = &"ff\0\0xf\0\0fx\0\0fxt\0"[((op1) >> 4) & 0x0c];
1.4      matt #if 0
1.1  fredette 		switch((op1 >> 6) & 3) {
1.1  fredette 		case 0: p = "ff"; break;
1.1  fredette 		case 1: p = "xf"; break;
1.1  fredette 		case 2: p = "fx"; break;
1.1  fredette 		case 3: p = "fxt"; break;
1.1  fredette 		}
1.4      matt #endif
1.1  fredette 		db_printf("fcnv%s,%s,%s\t%%fr%d,%%fr%d",
1.1  fredette 		    p, fmtStrTbl[fmt], fmtStrTbl[dfmt], r1, t);
1.1  fredette 		break;
1.1  fredette 	    case 2:
1.1  fredette 		/* Opclass 2: 2 sources, no destination */
1.1  fredette 		r1 = (op1 >> 12) & 0x1f; r2 = (op1 >> 7) & 0x1f;
1.1  fredette 		fmt = (op1 >> 2) & 3;
1.1  fredette 		switch((op1 >> 4) & 7) {
1.1  fredette 		case 0: p = "fcmp"; break;
1.1  fredette 		default: db_printf(fcoprUndef); return (0);
1.1  fredette 		}
1.1  fredette 		db_printf("%s,%s,%s\t%%fr%d,%%fr%d",
1.1  fredette 		    p,fmtStrTbl[fmt],condStrTbl[op2],r1,r2);
1.1  fredette 		break;
1.1  fredette 	    case 3:
1.1  fredette 		/* Opclass 3: 2 sources, 1 destination */
1.1  fredette 		r1 = (op1 >> 12) & 0x1f; r2 = (op1 >> 7) & 0x1f; t = op2;
1.1  fredette 		fmt = (op1 >> 2) & 3;
1.1  fredette 		switch((op1 >> 4) & 7) {
1.1  fredette 		case 0: p = "add"; break;
1.1  fredette 		case 1: p = "sub"; break;
1.1  fredette 		case 2: p = "mpy"; break;
1.1  fredette 		case 3: p = "div"; break;
1.1  fredette 		case 4: p = "rem"; break;
1.1  fredette 		default: db_printf(fcoprUndef); return (0);
1.1  fredette 		}
1.1  fredette 		db_printf("f%s,%s\t%%fr%d,%%fr%d,%%fr%d",
1.1  fredette 		    p, fmtStrTbl[fmt], r1, r2, t);
1.1  fredette 		break;
1.1  fredette 	    default:
1.1  fredette 		    db_printf(fcoprUndef);
1.1  fredette 		    return(0);
1.1  fredette 	}
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette int
1.5       chs coprDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.3       chs 	u_int uid = Uid(w);
1.3       chs 	int load = 0;
1.7       chs 	const char *pfx = uid > 1 ? "c" : "f";
1.4      matt 	int dreg = 0;
1.1  fredette
1.1  fredette 	if (Match("copr")) {
1.1  fredette 		if (uid) {
1.1  fredette 			db_printf("copr,%d,0x%x",uid,CoprExt(w));
1.1  fredette 			if (AstNu(w))
1.1  fredette 				db_printf(",n");
1.1  fredette 			return (1);
1.1  fredette 		}
1.1  fredette 		return fcoprDasm(w, CoprExt1(w),CoprExt2(w));
1.1  fredette 	}
1.1  fredette 	if (Match("cldd")) {
1.1  fredette 		dreg = 1;
1.1  fredette 		load = 1;
1.1  fredette 		db_printf("%sldd",pfx);
1.1  fredette 	} else if (Match("cldw")) {
1.1  fredette 		load = 1;
1.1  fredette 		db_printf("%sldw",pfx);
1.1  fredette 	} else if (Match("cstd")) {
1.1  fredette 		dreg = 1;
1.1  fredette 		db_printf("%sstd",pfx);
1.1  fredette 	} else if (Match("cstw"))
1.1  fredette 		db_printf("%sstw",pfx);
1.1  fredette 	else {
1.1  fredette 		db_printf("copr???");
1.1  fredette 		return (0);
1.1  fredette 	}
1.1  fredette 	if (ShortDisp(w)) {
1.1  fredette 		db_printf("s");
1.1  fredette 		if (AstNu(w))
1.1  fredette 			db_printf(",m%s", ModBefore(w)?"b":"a");
1.1  fredette 	}
1.1  fredette 	else {
1.1  fredette 		db_printf("x");
1.1  fredette 		if (AstNu(w))
1.1  fredette 			db_printf(",%sm", IndxShft(w)?"s":"");
1.1  fredette 		else if (IndxShft(w))
1.1  fredette 			db_printf(",s");
1.1  fredette 	}
1.1  fredette 	switch (CacheCtrl(w)) {
1.1  fredette 	case NOACTION:	break;
1.1  fredette 	case STACKREF:	db_printf(",c"); break;
1.1  fredette 	case SEQPASS:	db_printf(",q"); break;
1.1  fredette 	case PREFETCH:	db_printf(",p"); break;
1.1  fredette 	}
1.1  fredette 	if (load) {
1.3       chs 		const char *p;
1.1  fredette
1.1  fredette 		if (dreg)
1.1  fredette 			p = fdreg[(Rtc(w)<<1)+(uid&1)];
1.1  fredette 		else
1.1  fredette 			p = fsreg[(Rtc(w)<<1)+(uid&1)];
1.1  fredette
1.1  fredette 		if (ShortDisp(w))
1.1  fredette 			db_printf("\t%d",Ima5(w));
1.1  fredette 		else
1.1  fredette 			db_printf("\t%%r%d",Rsa(w));
1.1  fredette 		if (Dss(w))
1.1  fredette 			db_printf("(%%sr%d,%%r%d),%%f%s", Dss(w),Rsb(w), p);
1.1  fredette 		else
1.1  fredette 			db_printf("(%%r%d),%%f%s",Rsb(w), p);
1.1  fredette 	} else {
1.3       chs 		const char *p;
1.1  fredette
1.1  fredette 		if (dreg)
1.1  fredette 			p = fdreg[(Rsc(w)<<1)+(uid&1)];
1.1  fredette 		else
1.1  fredette 			p = fsreg[(Rsc(w)<<1)+(uid&1)];
1.1  fredette
1.1  fredette 		if (ShortDisp(w))
1.1  fredette 			db_printf("\t%%f%s,%d", p, Ima5(w));
1.1  fredette 		else
1.1  fredette 			db_printf("\t%%f%s,%%r%d", p, Rta(w));
1.1  fredette 		if (Dss(w))
1.1  fredette 			db_printf("(%%sr%d,%%r%d)",Dss(w),Rsb(w));
1.1  fredette 		else
1.1  fredette 			db_printf("(%%r%d)",Rsb(w));
1.1  fredette 	}
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette int
1.5       chs lpkDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	/*
1.1  fredette 	 * Floating point STore Quad
1.1  fredette 	 * Short or Indexed
1.1  fredette 	 */
1.1  fredette 	if (ShortDisp(w)) {
1.1  fredette 		if (Modify(w))
1.1  fredette 			db_printf(",m%s", ModBefore(w)?"b":"a");
1.1  fredette 	} else {
1.1  fredette 		if (Modify(w))
1.1  fredette 			db_printf(",%sm", IndxShft(w)? "s":"");
1.1  fredette 		else if (IndxShft(w))
1.1  fredette 			db_printf(",s");
1.1  fredette 	}
1.1  fredette 	switch (CacheCtrl(w)) {
1.1  fredette 	case NOACTION:	break;
1.1  fredette 	case STACKREF:	db_printf(",c"); break;
1.1  fredette 	case SEQPASS:	db_printf(",q"); break;
1.1  fredette 	case PREFETCH:	db_printf(",p"); break;
1.1  fredette 	}
1.1  fredette 	if (ShortDisp(w))
1.1  fredette 		db_printf("\t%%fr%d,%d",Rsc(w),Ima5(w));
1.1  fredette 	else
1.1  fredette 		db_printf("\t%%fr%d,%%r%d",Rsc(w),Rta(w));
1.1  fredette 	if (Dss(w))
1.1  fredette 		db_printf("(%%sr%d,%%r%d)",Dss(w),Rsb(w));
1.1  fredette 	else
1.1  fredette 		db_printf("(%%r%d)",Rsb(w));
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette int
1.5       chs diagDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	if (0x0b0 == BitfR(w,19,8,_b198))	/* mtcpu */
1.1  fredette 		db_printf("mtcpu\t%%r%d,%%dr%d", Rsa(w), Rtb(w));
1.1  fredette 	else if (0x0d0 == BitfR(w,19,8,_b198))	/* mfcpu */
1.1  fredette 		db_printf("mfcpu\t%%dr%d,%%r%d", Rsb(w), Rta(w));
1.1  fredette 	else {
1.1  fredette 		db_printf(i->mnem);
1.1  fredette 		if (Match("diag"))
1.4      matt 			db_printf("\t0x%X",w.w & 0x03ffffff);
1.1  fredette 		else {
1.1  fredette 			db_printf("?????");
1.1  fredette 			return (0);
1.1  fredette 		}
1.1  fredette 	}
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette int
1.5       chs fmpysubDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.1  fredette 	if (SinglePrec(w))
1.1  fredette 		db_printf("SUB,SGL\t%%f%s,%%f%s,%%f%s,%%f%s,%%f%s",
1.1  fredette 		    fsreg[Ms1(w)], fsreg[Ms2(w)], fsreg[Mt(w)],
1.1  fredette 		    fsreg[As(w)], fsreg[Ad(w)]);
1.1  fredette 	else
1.1  fredette 		db_printf("SUB,DBL\t%%f%s,%%f%s,%%f%s,%%f%s,%%f%s",
1.1  fredette 		    fdreg[Ms1(w)], fdreg[Ms2(w)], fdreg[Mt(w)],
1.1  fredette 		    fdreg[As(w)], fdreg[Ad(w)]);
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette int
1.5       chs fmpyaddDasm(const struct inst *i, OFS ofs, union insn w)
1.1  fredette {
1.3       chs 	const char
1.1  fredette 		*ms1 = SinglePrec(w) ? fsreg[Ms1(w)] : fdreg[Ms1(w)],
1.1  fredette 		*ms2 = SinglePrec(w) ? fsreg[Ms2(w)] : fdreg[Ms2(w)],
1.1  fredette 		*mt  = SinglePrec(w) ? fsreg[Mt(w)]  : fdreg[Mt(w)],
1.1  fredette 		*as  = SinglePrec(w) ? fsreg[As(w)]  : fdreg[As(w)],
1.1  fredette 		*ad  = SinglePrec(w) ? fsreg[Ad(w)]  : fdreg[Ad(w)];
1.1  fredette
1.1  fredette 	if (Rsd(w) == 0)
1.1  fredette 		db_printf("\t%%fcfxt,%s,%%f%s,%%f%s,%%f%s",
1.1  fredette 		    ((SinglePrec(w)) ? "sgl" : "dbl"), ms1, ms2, mt);
1.1  fredette 	else
1.1  fredette 		db_printf("add%s\t%%f%s,%%f%s,%%f%s,%%f%s,%%f%s",
1.1  fredette 		    ((SinglePrec(w)) ? "sgl" : "dbl"), ms1, ms2, mt, as, ad);
1.1  fredette
1.1  fredette 	return (1);
1.1  fredette }
1.1  fredette
1.1  fredette vaddr_t
1.5       chs db_disasm(vaddr_t loc, boolean_t flag)
1.1  fredette {
1.3       chs 	const struct inst *i;
1.3       chs 	const struct majoropcode *m;
1.3       chs 	u_int ext;
1.4      matt 	union insn instruct;
1.1  fredette 	OFS ofs = 0;
1.1  fredette
1.1  fredette 	iExInit();
1.1  fredette
1.1  fredette 	if (USERMODE(loc)) {
1.1  fredette 		if (copyin((caddr_t)(loc &~ HPPA_PC_PRIV_MASK),
1.1  fredette 		    &instruct, sizeof(instruct)))
1.4      matt 			instruct.w = 0;
1.1  fredette 	} else
1.4      matt 		instruct.w = *(int *)loc;
1.1  fredette
1.1  fredette 	m = &majopcs[Opcode(instruct)];
1.4      matt 	ext = OpExt(instruct.w, m);
1.1  fredette 	if (ext <= m->maxsubop) {
1.1  fredette 		/* special hack for majopcs table layout */
1.1  fredette 		if (m->maxsubop == 1)
1.1  fredette 			i = (const struct inst *)m->subops;
1.1  fredette 		else
1.1  fredette 			i = m->subops[ext];
1.1  fredette
1.1  fredette 		if (i->dasmfcn != coprDasm && i->dasmfcn != diagDasm &&
1.1  fredette 		    i->dasmfcn != ariDasm && i->dasmfcn != scDasm &&
1.1  fredette 		    i->dasmfcn != ldDasm)
1.1  fredette 			db_printf(i->mnem);
1.1  fredette 		if (i->dasmfcn)
1.1  fredette 			(*i->dasmfcn)(i, ofs, instruct);
1.1  fredette 		else if (i->mnem[0] == '?')
1.7       chs 			db_printf("???");
1.1  fredette 	} else
1.7       chs 		db_printf("???");
1.1  fredette
1.1  fredette 	db_printf("\n");
1.1  fredette 	return (loc + sizeof(instruct));
1.1  fredette }