priv/s390_disasm.c - platform/external/valgrind - Git at Google

 /* -*- mode: C; c-basic-offset: 3; -*- */

 /*---------------------------------------------------------------*/
 /*--- begin                                     s390_disasm.c ---*/
 /*---------------------------------------------------------------*/

 /*
    This file is part of Valgrind, a dynamic binary instrumentation
    framework.

    Copyright IBM Corp. 2010-2013

    This program is free software; you can redistribute it and/or
    modify it under the terms of the GNU General Public License as
    published by the Free Software Foundation; either version 2 of the
    License, or (at your option) any later version.

    This program is distributed in the hope that it will be useful, but
    WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with this program; if not, write to the Free Software
    Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
    02110-1301, USA.

    The GNU General Public License is contained in the file COPYING.
 */

 /* Contributed by Florian Krohm */

 #include <stdarg.h>
 #include "libvex_basictypes.h"
 #include "main_util.h"        // vassert
 #include "main_globals.h"     // vex_traceflags
 #include "s390_defs.h"        // S390_MAX_MNEMONIC_LEN
 #include "s390_disasm.h"


 /* Return the mnemonic padded with blanks to its right */
 static const HChar *
 mnemonic(const HChar *mnm)
 {
    vassert(vex_strlen(mnm) <= S390_MAX_MNEMONIC_LEN);

    static HChar buf[S390_MAX_MNEMONIC_LEN + 1];

    vex_sprintf(buf, "%-*s", S390_MAX_MNEMONIC_LEN, mnm);

    return buf;
 }


 /* Return the name of a general purpose register for dis-assembly purposes. */
 static const HChar *
 gpr_operand(UInt archreg)
 {
    static const HChar names[16][5] = {
       "%r0", "%r1", "%r2", "%r3",
       "%r4", "%r5", "%r6", "%r7",
       "%r8", "%r9", "%r10", "%r11",
       "%r12", "%r13", "%r14", "%r15",
    };

    vassert(archreg < 16);

    return names[archreg];
 }


 /* Return the name of a floating point register for dis-assembly purposes. */
 static const HChar *
 fpr_operand(UInt archreg)
 {
    static const HChar names[16][5] = {
       "%f0", "%f1", "%f2", "%f3",
       "%f4", "%f5", "%f6", "%f7",
       "%f8", "%f9", "%f10", "%f11",
       "%f12", "%f13", "%f14", "%f15",
    };

    vassert(archreg < 16);

    return names[archreg];
 }


 /* Return the name of an access register for dis-assembly purposes. */
 static const HChar *
 ar_operand(UInt archreg)
 {
    static const HChar names[16][5] = {
       "%a0", "%a1", "%a2", "%a3",
       "%a4", "%a5", "%a6", "%a7",
       "%a8", "%a9", "%a10", "%a11",
       "%a12", "%a13", "%a14", "%a15",
    };

    vassert(archreg < 16);

    return names[archreg];
 }


 /* Build and return the extended mnemonic for the compare and branch
    opcodes as introduced by z10. See also the opcodes in file
    opcodes/s390-opc.txt (from binutils) that have a '$' in their name. */
 static const HChar *
 cab_operand(const HChar *base, UInt mask)
 {
    HChar *to;
    const HChar *from;

    static HChar buf[S390_MAX_MNEMONIC_LEN + 1];

    static const HChar suffix[8][3] = {
       "", "h", "l", "ne", "e", "nl", "nh", ""
    };

    /* Guard against buffer overflow */
    vassert(vex_strlen(base) + sizeof suffix[0] <= sizeof buf);

    /* strcpy(buf, from); */
    for (from = base, to = buf; *from; ++from, ++to) {
       *to = *from;
    }
    /* strcat(buf, suffix); */
    for (from = suffix[mask >> 1]; *from; ++from, ++to) {
       *to = *from;
    }
    *to = '\0';

    return buf;
 }


 /* Common function used to construct a mnemonic based on a condition code
    mask. */
 static const HChar *
 construct_mnemonic(const HChar *prefix, const HChar *suffix, UInt mask)
 {
    HChar *to;
    const HChar *from;

    static HChar buf[S390_MAX_MNEMONIC_LEN + 1];

    static HChar mask_id[16][4] = {
       "", /* 0 -> unused */
       "o", "h", "nle", "l", "nhe", "lh", "ne",
       "e", "nlh", "he", "nl", "le", "nh", "no",
       ""  /* 15 -> unused */
    };

    /* Guard against buffer overflow */
    vassert(vex_strlen(prefix) + vex_strlen(suffix) +
            sizeof mask_id[0] <= sizeof buf);

    /* strcpy(buf, prefix); */
    for (from = prefix, to = buf; *from; ++from, ++to) {
       *to = *from;
    }
    /* strcat(buf, mask_id); */
    for (from = mask_id[mask]; *from; ++from, ++to) {
       *to = *from;
    }
    /* strcat(buf, suffix); */
    for (from = suffix; *from; ++from, ++to) {
       *to = *from;
    }
    *to = '\0';

    return buf;
 }


 /* Return the special mnemonic for the BCR opcode */
 static const HChar *
 bcr_operand(UInt m1)
 {
    if (m1 ==  0) return "nopr";
    if (m1 == 15) return "br";

    return construct_mnemonic("b", "r", m1);
 }


 /* Return the special mnemonic for the BC opcode */
 static const HChar *
 bc_operand(UInt m1)
 {
    if (m1 ==  0) return "nop";
    if (m1 == 15) return "b";

    return construct_mnemonic("b", "", m1);
 }


 /* Return the special mnemonic for the BRC opcode */
 static const HChar *
 brc_operand(UInt m1)
 {
    if (m1 == 0)  return "brc";
    if (m1 == 15) return "j";

    return construct_mnemonic("j", "", m1);
 }


 /* Return the special mnemonic for the BRCL opcode */
 static const HChar *
 brcl_operand(UInt m1)
 {
    if (m1 == 0)  return "brcl";
    if (m1 == 15) return "jg";

    return construct_mnemonic("jg", "", m1);
 }


 /* Return the special mnemonic for a conditional load/store  opcode */
 static const HChar *
 cls_operand(Int kind, UInt mask)
 {
    const HChar *prefix;

    switch (kind) {
    case S390_XMNM_LOCR:   prefix = "locr";  break;
    case S390_XMNM_LOCGR:  prefix = "locgr"; break;
    case S390_XMNM_LOC:    prefix = "loc";   break;
    case S390_XMNM_LOCG:   prefix = "locg";  break;
    case S390_XMNM_STOC:   prefix = "stoc";  break;
    case S390_XMNM_STOCG:  prefix = "stocg"; break;
    default:
       vpanic("cls_operand");
    }

    return construct_mnemonic(prefix, "", mask);
 }


 /* An operand with a base register, an index register, and a displacement.
    If the displacement is signed, the rightmost 20 bit of D need to be
    sign extended */
 static HChar *
 dxb_operand(HChar *p, UInt d, UInt x, UInt b, Bool displacement_is_signed)
 {
    if (displacement_is_signed) {
       Int displ = (Int)(d << 12) >> 12;  /* sign extend */

       p += vex_sprintf(p, "%d", displ);
    } else {
       p += vex_sprintf(p, "%u", d);
    }
    if (x != 0) {
       p += vex_sprintf(p, "(%s", gpr_operand(x));
       if (b != 0) {
          p += vex_sprintf(p, ",%s", gpr_operand(b));
       }
       p += vex_sprintf(p, ")");
    } else {
       if (b != 0) {
          p += vex_sprintf(p, "(%s)", gpr_operand(b));
       }
    }

    return p;
 }


 /* An operand with base register, unsigned length, and a 12-bit
    unsigned displacement */
 static HChar *
 udlb_operand(HChar *p, UInt d, UInt length, UInt b)
 {
    p += vex_sprintf(p, "%u", d);
    p += vex_sprintf(p, "(%u", length + 1);  // actual length is +1
    if (b != 0) {
       p += vex_sprintf(p, ",%s", gpr_operand(b));
    }
    p += vex_sprintf(p, ")");

    return p;
 }


 /* The first argument is the command that says how to write the disassembled
    insn. It is understood that the mnemonic comes first and that arguments
    are separated by a ','. The command holds the arguments. Each argument is
    encoded using a 4-bit S390_ARG_xyz value. The first argument is placed
    in the least significant bits of the command and so on. There are at most
    5 arguments in an insn and a sentinel (S390_ARG_DONE) is needed to identify
    the end of the argument list. 6 * 4 = 24 bits are required for the
    command. */
 void
 s390_disasm(UInt command, ...)
 {
    va_list  args;
    UInt argkind;
    HChar buf[128];  /* holds the disassembled insn */
    HChar *p;
    HChar separator;
    Int mask_suffix = -1;

    va_start(args, command);

    p = buf;
    separator = 0;

    while (42) {
       argkind = command & 0xF;
       command >>= 4;

       if (argkind == S390_ARG_DONE) goto done;

       if (argkind == S390_ARG_CABM) separator = 0;  /* optional */

       /* Write out the separator */
       if (separator) *p++ = separator;

       /* argument */
       switch (argkind) {
       case S390_ARG_MNM:
          p += vex_sprintf(p, "%s", mnemonic(va_arg(args, HChar *)));
          separator = ' ';
          continue;

       case S390_ARG_XMNM: {
          UInt mask, kind;
          const HChar *mnm;

          kind = va_arg(args, UInt);

          separator = ' ';
          switch (kind) {
          case S390_XMNM_BC:
          case S390_XMNM_BCR:
             mask = va_arg(args, UInt);
             mnm = kind == S390_XMNM_BCR ? bcr_operand(mask) : bc_operand(mask);
             p  += vex_sprintf(p, "%s", mnemonic(mnm));
             /* mask == 0 is a NOP and has no argument */
             if (mask == 0) goto done;
             break;

          case S390_XMNM_BRC:
          case S390_XMNM_BRCL:
             mask = va_arg(args, UInt);
             mnm = kind == S390_XMNM_BRC ? brc_operand(mask) : brcl_operand(mask);
             p  += vex_sprintf(p, "%s", mnemonic(mnm));

             /* mask == 0 has no special mnemonic */
             if (mask == 0) {
                p += vex_sprintf(p, " 0");
                separator = ',';
             }
             break;

          case S390_XMNM_CAB:
             mnm  = va_arg(args, HChar *);
             mask = va_arg(args, UInt);
             p  += vex_sprintf(p, "%s", mnemonic(cab_operand(mnm, mask)));
             break;

          case S390_XMNM_LOCR:
          case S390_XMNM_LOCGR:
          case S390_XMNM_LOC:
          case S390_XMNM_LOCG:
          case S390_XMNM_STOC:
          case S390_XMNM_STOCG:
             mask = va_arg(args, UInt);
             mnm = cls_operand(kind, mask);
             p  += vex_sprintf(p, "%s", mnemonic(mnm));
             /* There are no special opcodes when mask == 0 or 15. In that case
                the integer mask is appended as the final operand */
             if (mask == 0 || mask == 15) mask_suffix = mask;
             break;
          }
       }
       continue;

       case S390_ARG_GPR:
          p += vex_sprintf(p, "%s", gpr_operand(va_arg(args, UInt)));
          break;

       case S390_ARG_FPR:
          p += vex_sprintf(p, "%s", fpr_operand(va_arg(args, UInt)));
          break;

       case S390_ARG_AR:
          p += vex_sprintf(p, "%s", ar_operand(va_arg(args, UInt)));
          break;

       case S390_ARG_UINT:
          p += vex_sprintf(p, "%u", va_arg(args, UInt));
          break;

       case S390_ARG_INT:
          p += vex_sprintf(p, "%d", (Int)(va_arg(args, UInt)));
          break;

       case S390_ARG_PCREL: {
          Long offset = va_arg(args, Int);

          /* Convert # halfwords to # bytes */
          offset <<= 1;

          if (offset < 0) {
             p += vex_sprintf(p, ".%lld", offset);
          } else {
             p += vex_sprintf(p, ".+%lld", offset);
          }
          break;
       }

       case S390_ARG_SDXB: {
          UInt dh, dl, x, b;

          dh = va_arg(args, UInt);
          dl = va_arg(args, UInt);
          x  = va_arg(args, UInt);
          b  = va_arg(args, UInt);

          p = dxb_operand(p, (dh << 12) | dl, x, b, 1 /* signed_displacement */);
          break;
       }

       case S390_ARG_UDXB: {
          UInt d, x, b;

          d = va_arg(args, UInt);
          x = va_arg(args, UInt);
          b = va_arg(args, UInt);

          p = dxb_operand(p, d, x, b, 0 /* signed_displacement */);
          break;
       }

       case S390_ARG_UDLB: {
          UInt d, l, b;

          d = va_arg(args, UInt);
          l = va_arg(args, UInt);
          b = va_arg(args, UInt);

          p = udlb_operand(p, d, l, b);
          break;
       }

       case S390_ARG_CABM: {
          UInt mask;

          mask = va_arg(args, UInt) & 0xE;
          if (mask == 0 || mask == 14) {
             p += vex_sprintf(p, ",%u", mask);
          }
          break;
       }
       }

       separator = ',';
    }

  done:
    va_end(args);

    if (mask_suffix != -1)
       p += vex_sprintf(p, ",%d", mask_suffix);
    *p = '\0';

    vassert(p < buf + sizeof buf);  /* detect buffer overwrite */

    /* Finally, write out the disassembled insn */
    vex_printf("%s\n", buf);
 }

 /*---------------------------------------------------------------*/
 /*--- end                                       s390_disasm.c ---*/
 /*---------------------------------------------------------------*/
	/* -- mode: C; c-basic-offset: 3; -- */

	/---------------------------------------------------------------/
	/--- begin s390_disasm.c ---/
	/---------------------------------------------------------------/

	/*
	This file is part of Valgrind, a dynamic binary instrumentation
	framework.

	Copyright IBM Corp. 2010-2013

	This program is free software; you can redistribute it and/or
	modify it under the terms of the GNU General Public License as
	published by the Free Software Foundation; either version 2 of the
	License, or (at your option) any later version.

	This program is distributed in the hope that it will be useful, but
	WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with this program; if not, write to the Free Software
	Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
	02110-1301, USA.

	The GNU General Public License is contained in the file COPYING.
	*/

	/* Contributed by Florian Krohm */

	#include <stdarg.h>
	#include "libvex_basictypes.h"
	#include "main_util.h" // vassert
	#include "main_globals.h" // vex_traceflags
	#include "s390_defs.h" // S390_MAX_MNEMONIC_LEN
	#include "s390_disasm.h"


	/* Return the mnemonic padded with blanks to its right */
	static const HChar *
	mnemonic(const HChar *mnm)
	{
	vassert(vex_strlen(mnm) <= S390_MAX_MNEMONIC_LEN);

	static HChar buf[S390_MAX_MNEMONIC_LEN + 1];

	vex_sprintf(buf, "%-*s", S390_MAX_MNEMONIC_LEN, mnm);

	return buf;
	}


	/* Return the name of a general purpose register for dis-assembly purposes. */
	static const HChar *
	gpr_operand(UInt archreg)
	{
	static const HChar names[16][5] = {
	"%r0", "%r1", "%r2", "%r3",
	"%r4", "%r5", "%r6", "%r7",
	"%r8", "%r9", "%r10", "%r11",
	"%r12", "%r13", "%r14", "%r15",
	};

	vassert(archreg < 16);

	return names[archreg];
	}


	/* Return the name of a floating point register for dis-assembly purposes. */
	static const HChar *
	fpr_operand(UInt archreg)
	{
	static const HChar names[16][5] = {
	"%f0", "%f1", "%f2", "%f3",
	"%f4", "%f5", "%f6", "%f7",
	"%f8", "%f9", "%f10", "%f11",
	"%f12", "%f13", "%f14", "%f15",
	};

	vassert(archreg < 16);

	return names[archreg];
	}


	/* Return the name of an access register for dis-assembly purposes. */
	static const HChar *
	ar_operand(UInt archreg)
	{
	static const HChar names[16][5] = {
	"%a0", "%a1", "%a2", "%a3",
	"%a4", "%a5", "%a6", "%a7",
	"%a8", "%a9", "%a10", "%a11",
	"%a12", "%a13", "%a14", "%a15",
	};

	vassert(archreg < 16);

	return names[archreg];
	}


	/* Build and return the extended mnemonic for the compare and branch
	opcodes as introduced by z10. See also the opcodes in file
	opcodes/s390-opc.txt (from binutils) that have a '$' in their name. */
	static const HChar *
	cab_operand(const HChar *base, UInt mask)
	{
	HChar *to;
	const HChar *from;

	static HChar buf[S390_MAX_MNEMONIC_LEN + 1];

	static const HChar suffix[8][3] = {
	"", "h", "l", "ne", "e", "nl", "nh", ""
	};

	/* Guard against buffer overflow */
	vassert(vex_strlen(base) + sizeof suffix[0] <= sizeof buf);

	/* strcpy(buf, from); */
	for (from = base, to = buf; *from; ++from, ++to) {
	to = from;
	}
	/* strcat(buf, suffix); */
	for (from = suffix[mask >> 1]; *from; ++from, ++to) {
	to = from;
	}
	*to = '\0';

	return buf;
	}


	/* Common function used to construct a mnemonic based on a condition code
	mask. */
	static const HChar *
	construct_mnemonic(const HChar prefix, const HChar suffix, UInt mask)
	{
	HChar *to;
	const HChar *from;

	static HChar buf[S390_MAX_MNEMONIC_LEN + 1];

	static HChar mask_id[16][4] = {
	"", /* 0 -> unused */
	"o", "h", "nle", "l", "nhe", "lh", "ne",
	"e", "nlh", "he", "nl", "le", "nh", "no",
	"" /* 15 -> unused */
	};

	/* Guard against buffer overflow */
	vassert(vex_strlen(prefix) + vex_strlen(suffix) +
	sizeof mask_id[0] <= sizeof buf);

	/* strcpy(buf, prefix); */
	for (from = prefix, to = buf; *from; ++from, ++to) {
	to = from;
	}
	/* strcat(buf, mask_id); */
	for (from = mask_id[mask]; *from; ++from, ++to) {
	to = from;
	}
	/* strcat(buf, suffix); */
	for (from = suffix; *from; ++from, ++to) {
	to = from;
	}
	*to = '\0';

	return buf;
	}


	/* Return the special mnemonic for the BCR opcode */
	static const HChar *
	bcr_operand(UInt m1)
	{
	if (m1 == 0) return "nopr";
	if (m1 == 15) return "br";

	return construct_mnemonic("b", "r", m1);
	}


	/* Return the special mnemonic for the BC opcode */
	static const HChar *
	bc_operand(UInt m1)
	{
	if (m1 == 0) return "nop";
	if (m1 == 15) return "b";

	return construct_mnemonic("b", "", m1);
	}


	/* Return the special mnemonic for the BRC opcode */
	static const HChar *
	brc_operand(UInt m1)
	{
	if (m1 == 0) return "brc";
	if (m1 == 15) return "j";

	return construct_mnemonic("j", "", m1);
	}


	/* Return the special mnemonic for the BRCL opcode */
	static const HChar *
	brcl_operand(UInt m1)
	{
	if (m1 == 0) return "brcl";
	if (m1 == 15) return "jg";

	return construct_mnemonic("jg", "", m1);
	}


	/* Return the special mnemonic for a conditional load/store opcode */
	static const HChar *
	cls_operand(Int kind, UInt mask)
	{
	const HChar *prefix;

	switch (kind) {
	case S390_XMNM_LOCR: prefix = "locr"; break;
	case S390_XMNM_LOCGR: prefix = "locgr"; break;
	case S390_XMNM_LOC: prefix = "loc"; break;
	case S390_XMNM_LOCG: prefix = "locg"; break;
	case S390_XMNM_STOC: prefix = "stoc"; break;
	case S390_XMNM_STOCG: prefix = "stocg"; break;
	default:
	vpanic("cls_operand");
	}

	return construct_mnemonic(prefix, "", mask);
	}


	/* An operand with a base register, an index register, and a displacement.
	If the displacement is signed, the rightmost 20 bit of D need to be
	sign extended */
	static HChar *
	dxb_operand(HChar *p, UInt d, UInt x, UInt b, Bool displacement_is_signed)
	{
	if (displacement_is_signed) {
	Int displ = (Int)(d << 12) >> 12; /* sign extend */

	p += vex_sprintf(p, "%d", displ);
	} else {
	p += vex_sprintf(p, "%u", d);
	}
	if (x != 0) {
	p += vex_sprintf(p, "(%s", gpr_operand(x));
	if (b != 0) {
	p += vex_sprintf(p, ",%s", gpr_operand(b));
	}
	p += vex_sprintf(p, ")");
	} else {
	if (b != 0) {
	p += vex_sprintf(p, "(%s)", gpr_operand(b));
	}
	}

	return p;
	}


	/* An operand with base register, unsigned length, and a 12-bit
	unsigned displacement */
	static HChar *
	udlb_operand(HChar *p, UInt d, UInt length, UInt b)
	{
	p += vex_sprintf(p, "%u", d);
	p += vex_sprintf(p, "(%u", length + 1); // actual length is +1
	if (b != 0) {
	p += vex_sprintf(p, ",%s", gpr_operand(b));
	}
	p += vex_sprintf(p, ")");

	return p;
	}


	/* The first argument is the command that says how to write the disassembled
	insn. It is understood that the mnemonic comes first and that arguments
	are separated by a ','. The command holds the arguments. Each argument is
	encoded using a 4-bit S390_ARG_xyz value. The first argument is placed
	in the least significant bits of the command and so on. There are at most
	5 arguments in an insn and a sentinel (S390_ARG_DONE) is needed to identify
	the end of the argument list. 6 * 4 = 24 bits are required for the
	command. */
	void
	s390_disasm(UInt command, ...)
	{
	va_list args;
	UInt argkind;
	HChar buf[128]; /* holds the disassembled insn */
	HChar *p;
	HChar separator;
	Int mask_suffix = -1;

	va_start(args, command);

	p = buf;
	separator = 0;

	while (42) {
	argkind = command & 0xF;
	command >>= 4;

	if (argkind == S390_ARG_DONE) goto done;

	if (argkind == S390_ARG_CABM) separator = 0; /* optional */

	/* Write out the separator */
	if (separator) *p++ = separator;

	/* argument */
	switch (argkind) {
	case S390_ARG_MNM:
	p += vex_sprintf(p, "%s", mnemonic(va_arg(args, HChar *)));
	separator = ' ';
	continue;

	case S390_ARG_XMNM: {
	UInt mask, kind;
	const HChar *mnm;

	kind = va_arg(args, UInt);

	separator = ' ';
	switch (kind) {
	case S390_XMNM_BC:
	case S390_XMNM_BCR:
	mask = va_arg(args, UInt);
	mnm = kind == S390_XMNM_BCR ? bcr_operand(mask) : bc_operand(mask);
	p += vex_sprintf(p, "%s", mnemonic(mnm));
	/* mask == 0 is a NOP and has no argument */
	if (mask == 0) goto done;
	break;

	case S390_XMNM_BRC:
	case S390_XMNM_BRCL:
	mask = va_arg(args, UInt);
	mnm = kind == S390_XMNM_BRC ? brc_operand(mask) : brcl_operand(mask);
	p += vex_sprintf(p, "%s", mnemonic(mnm));

	/* mask == 0 has no special mnemonic */
	if (mask == 0) {
	p += vex_sprintf(p, " 0");
	separator = ',';
	}
	break;

	case S390_XMNM_CAB:
	mnm = va_arg(args, HChar *);
	mask = va_arg(args, UInt);
	p += vex_sprintf(p, "%s", mnemonic(cab_operand(mnm, mask)));
	break;

	case S390_XMNM_LOCR:
	case S390_XMNM_LOCGR:
	case S390_XMNM_LOC:
	case S390_XMNM_LOCG:
	case S390_XMNM_STOC:
	case S390_XMNM_STOCG:
	mask = va_arg(args, UInt);
	mnm = cls_operand(kind, mask);
	p += vex_sprintf(p, "%s", mnemonic(mnm));
	/* There are no special opcodes when mask == 0 or 15. In that case
	the integer mask is appended as the final operand */
	if (mask == 0 \|\| mask == 15) mask_suffix = mask;
	break;
	}
	}
	continue;

	case S390_ARG_GPR:
	p += vex_sprintf(p, "%s", gpr_operand(va_arg(args, UInt)));
	break;

	case S390_ARG_FPR:
	p += vex_sprintf(p, "%s", fpr_operand(va_arg(args, UInt)));
	break;

	case S390_ARG_AR:
	p += vex_sprintf(p, "%s", ar_operand(va_arg(args, UInt)));
	break;

	case S390_ARG_UINT:
	p += vex_sprintf(p, "%u", va_arg(args, UInt));
	break;

	case S390_ARG_INT:
	p += vex_sprintf(p, "%d", (Int)(va_arg(args, UInt)));
	break;

	case S390_ARG_PCREL: {
	Long offset = va_arg(args, Int);

	/* Convert # halfwords to # bytes */
	offset <<= 1;

	if (offset < 0) {
	p += vex_sprintf(p, ".%lld", offset);
	} else {
	p += vex_sprintf(p, ".+%lld", offset);
	}
	break;
	}

	case S390_ARG_SDXB: {
	UInt dh, dl, x, b;

	dh = va_arg(args, UInt);
	dl = va_arg(args, UInt);
	x = va_arg(args, UInt);
	b = va_arg(args, UInt);

	p = dxb_operand(p, (dh << 12) \| dl, x, b, 1 /* signed_displacement */);
	break;
	}

	case S390_ARG_UDXB: {
	UInt d, x, b;

	d = va_arg(args, UInt);
	x = va_arg(args, UInt);
	b = va_arg(args, UInt);

	p = dxb_operand(p, d, x, b, 0 /* signed_displacement */);
	break;
	}

	case S390_ARG_UDLB: {
	UInt d, l, b;

	d = va_arg(args, UInt);
	l = va_arg(args, UInt);
	b = va_arg(args, UInt);

	p = udlb_operand(p, d, l, b);
	break;
	}

	case S390_ARG_CABM: {
	UInt mask;

	mask = va_arg(args, UInt) & 0xE;
	if (mask == 0 \|\| mask == 14) {
	p += vex_sprintf(p, ",%u", mask);
	}
	break;
	}
	}

	separator = ',';
	}

	done:
	va_end(args);

	if (mask_suffix != -1)
	p += vex_sprintf(p, ",%d", mask_suffix);
	*p = '\0';

	vassert(p < buf + sizeof buf); /* detect buffer overwrite */

	/* Finally, write out the disassembled insn */
	vex_printf("%s\n", buf);
	}

	/---------------------------------------------------------------/
	/--- end s390_disasm.c ---/
	/---------------------------------------------------------------/