xref: /illumos-gate/usr/src/cmd/cmd-inet/usr.sbin/snoop/snoop_nfs4.c (revision f44e1126)

/*
 * CDDL HEADER START
 *
 * The contents of this file are subject to the terms of the
 * Common Development and Distribution License (the "License").
 * You may not use this file except in compliance with the License.
 *
 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
 * or http://www.opensolaris.org/os/licensing.
 * See the License for the specific language governing permissions
 * and limitations under the License.
 *
 * When distributing Covered Code, include this CDDL HEADER in each
 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
 * If applicable, add the following below this CDDL HEADER, with the
 * fields enclosed by brackets "[]" replaced with your own identifying
 * information: Portions Copyright [yyyy] [name of copyright owner]
 *
 * CDDL HEADER END
 */

/*
 * Copyright 2015 Nexenta Systems, Inc.  All rights reserved.
 */

/*
 * Copyright 2009 Sun Microsystems, Inc.  All rights reserved.
 * Use is subject to license terms.
 */

#include <ctype.h>
#include <string.h>
#include <strings.h>
#include <stdlib.h>
#include <sys/types.h>
#include <sys/errno.h>
#include <sys/tiuser.h>
#include <setjmp.h>

#include <rpc/types.h>
#include <rpc/xdr.h>
#include <rpc/auth.h>
#include <rpc/clnt.h>
#include <rpc/rpc_msg.h>
#include "snoop.h"

#include <sys/stat.h>
#include <sys/param.h>
#include <sys/sysmacros.h>
#include <rpcsvc/nfs_prot.h>
/* use the same nfs4_prot.h as the xdr code */
#include "rpcsvc/nfs4_prot.h"

/*
 * XXX With NFS v2 and v3, we only need to xdr the pieces that we care
 * about.  Anything else we can ignore and just skip to the next packet.
 * So all the stuff that deals directly with XDR lives in snoop_display.c
 * With v4, we need to XDR entire structures so that we can skip over
 * uninteresting bits in a compound array, so we call XDR directly from
 * here.  We need to rethink how we're going to structure XDR access.  Do
 * we continue to hide it all in snoop_display.c, or do we expose it to all
 * the protocol modules?
 */
extern XDR xdrm;

#ifndef MIN
#define	MIN(a, b)	((a) < (b) ? (a) : (b))
#endif

/*
 * Maximum number of characters to display in compound4 summary line.
 */
#define	SUM_COMPND_MAX	100

/*
 * Maximum number of recognized attributes.
 */
#define	MAX_ATTRIBUTES	56

/*
 * This data structure provides a more convenient way to access an
 * attribute bitmask.  map[N] = value of bit N in a bitmap4.
 * It's defined as a struct so as to step around all the weird rules in C
 * about arrays, pointers, passing them as arguments, etc.
 */

typedef struct {
	char map[MAX_ATTRIBUTES];
} unpkd_attrmap_t;


static void sumarg_cb_getattr(char *buf, size_t buflen, void *obj);
static void dtlarg_cb_getattr(void *obj);
static void sumarg_cb_recall(char *buf, size_t buflen, void *obj);
static void dtlarg_cb_recall(void *obj);


static void sumarg_access(char *buf, size_t buflen, void *obj);
static void dtlarg_access(void *obj);
static void sumarg_close(char *buf, size_t buflen, void *obj);
static void dtlarg_close(void *obj);
static void sumarg_commit(char *buf, size_t buflen, void *obj);
static void dtlarg_commit(void *obj);
static void sumarg_compnt(char *buf, size_t buflen, void *obj);
static void dtlarg_compnt(void *obj);
static void sumarg_create(char *buf, size_t buflen, void *obj);
static void dtlarg_create(void *obj);
static void sumarg_delprge(char *buf, size_t buflen, void *obj);
static void dtlarg_delprge(void *obj);
static void sumarg_delret(char *buf, size_t buflen, void *obj);
static void dtlarg_delret(void *obj);
static void sumarg_getattr(char *buf, size_t buflen, void *obj);
static void dtlarg_getattr(void *obj);
static void sumarg_link(char *buf, size_t buflen, void *obj);
static void dtlarg_link(void *obj);
static void sum_open_to_lock_owner(char *buf, int buflen,
					open_to_lock_owner4 *own);
static void sum_exist_lock_owner(char *buf, int buflen,
					exist_lock_owner4 *own);
static void sum_locker(char *buf, size_t buflen, locker4 *lk);
static void sumarg_lock(char *buf, size_t buflen, void *obj);
static void detail_open_to_lock_owner(open_to_lock_owner4 *own);
static void detail_exist_lock_owner(exist_lock_owner4 *own);
static void detail_locker(locker4 *lk);
static void dtlarg_lock(void *obj);
static void sumarg_lockt(char *buf, size_t buflen, void *obj);
static void dtlarg_lockt(void *obj);
static void sumarg_locku(char *buf, size_t buflen, void *obj);
static void dtlarg_locku(void *obj);
static void sumarg_lookup(char *buf, size_t buflen, void *obj);
static void dtlarg_lookup(void *obj);
static void sumarg_open(char *buf, size_t buflen, void *obj);
static void dtlarg_open(void *obj);
static void sumarg_openattr(char *buf, size_t buflen, void *obj);
static void dtlarg_openattr(void *obj);
static void sumarg_open_confirm(char *buf, size_t buflen, void *obj);
static void dtlarg_open_confirm(void *obj);
static void sumarg_open_downgrd(char *buf, size_t buflen, void *obj);
static void dtlarg_open_downgrd(void *obj);
static void sumarg_putfh(char *buf, size_t buflen, void *obj);
static void dtlarg_putfh(void *obj);
static void sumarg_read(char *buf, size_t buflen, void *obj);
static void dtlarg_read(void *obj);
static void sumarg_readdir(char *buf, size_t buflen, void *obj);
static void dtlarg_readdir(void *obj);
static void sumarg_release_lkown(char *buf, size_t buflen, void *obj);
static void dtlarg_release_lkown(void *obj);
static void sumarg_rename(char *buf, size_t buflen, void *obj);
static void dtlarg_rename(void *obj);
static void sumarg_renew(char *buf, size_t buflen, void *obj);
static void dtlarg_renew(void *buf);
static void sumarg_secinfo(char *buf, size_t buflen, void *obj);
static void dtlarg_secinfo(void *obj);
static void sumarg_setattr(char *buf, size_t buflen, void *obj);
static void dtlarg_setattr(void *obj);
static void sumarg_setclid(char *buf, size_t buflen, void *obj);
static void dtlarg_setclid(void *obj);
static void sumarg_setclid_cfm(char *buf, size_t buflen, void *obj);
static void dtlarg_setclid_cfm(void *obj);
static void dtlarg_verify(void *obj);
static void sumarg_write(char *buf, size_t buflen, void *obj);
static void dtlarg_write(void *obj);

static void sumres_cb_getattr(char *buf, size_t buflen, void *obj);
static void dtlres_cb_getattr(void *obj);

static void sumres_access(char *buf, size_t buflen, void *obj);
static void dtlres_access(void *obj);
static void sumres_close(char *buf, size_t buflen, void *obj);
static void dtlres_close(void *obj);
static void sumres_commit(char *buf, size_t buflen, void *obj);
static void dtlres_commit(void *obj);
static void dtlres_create(void *obj);
static void sumres_getattr(char *buf, size_t buflen, void *obj);
static void dtlres_getattr(void *obj);
static void sumres_getfh(char *buf, size_t buflen, void *obj);
static void dtlres_getfh(void *obj);
static void dtlres_link(void *obj);
static void sumres_lock(char *buf, size_t buflen, void *obj);
static void dtlres_lock(void *obj);
static void sumres_lockt(char *buf, size_t buflen, void *obj);
static void dtlres_lockt(void *obj);
static void sumres_locku(char *buf, size_t buflen, void *obj);
static void dtlres_locku(void *obj);
static void sumres_open(char *buf, size_t buflen, void *obj);
static void dtlres_open(void *obj);
static void sumres_open_confirm(char *buf, size_t buflen, void *obj);
static void dtlres_open_confirm(void *obj);
static void sumres_open_downgrd(char *buf, size_t buflen, void *obj);
static void dtlres_open_downgrd(void *obj);
static void sumres_read(char *buf, size_t buflen, void *obj);
static void dtlres_read(void *obj);
static void sumres_readdir(char *buf, size_t buflen, void *obj);
static void dtlres_readdir(void *obj);
static void sumres_readlnk(char *buf, size_t buflen, void *obj);
static void dtlres_readlnk(void *obj);
static void dtlres_remove(void *obj);
static void dtlres_rename(void *obj);
static void sumres_secinfo(char *buf, size_t buflen, void *obj);
static void dtlres_secinfo(void *obj);
static void sumres_setattr(char *buf, size_t buflen, void *obj);
static void dtlres_setattr(void *obj);
static void sumres_setclid(char *buf, size_t buflen, void *obj);
static void dtlres_setclid(void *obj);
static void sumres_write(char *buf, size_t buflen, void *obj);
static void dtlres_write(void *obj);
static void sum_nfsstat4(char *buf, size_t buflen, void *obj);
static void dtl_nfsstat4(void *obj);
static uint32_t adler16(void *, int);
static void nfs4_xdr_skip(int nbytes);
static char *sum_lock_type_name(enum nfs_lock_type4 type);

int nfs4_pkt_start;
int nfs4_pkt_len;
int nfs4_skip_bytes;
int nfs4_fragged_rpc;
char *nfs4err_fragrpc = "<Fragmented RPC>";
char *nfs4err_xdrfrag = "<XDR Error or Fragmented RPC>";

/*
 * need a way to enable this if current testcases are parsing snoop
 * error text. -- maybe an env var would do as temp workaround until
 * testcases changed to grep for new error text.
 */
int nfs4_use_old_error_text = 0;

/*
 * Information about each operation that can appear in a compound call.
 * The function pointers are to formatting functions for summary arguments
 * and results, and detail arguments & results.
 */

typedef struct {
	char	*name;
	void	(*sumarg)(char *, size_t, void *);
	void	(*sumres)(char *, size_t, void *);
	void	(*dtlarg)(void *);
	void	(*dtlres)(void *);
} op_info_t;

static op_info_t cb_opcode_info[] = {
	{"OP_ZERO",	NULL,	NULL,	NULL,	NULL},	/* 0 */
	{"OP_ONE",	NULL,	NULL,	NULL,	NULL},
	{"OP_TWO",	NULL,	NULL,	NULL,	NULL},  /* minor vers */
	{"CB_GETATTR",
		sumarg_cb_getattr,	sumres_cb_getattr,
		dtlarg_cb_getattr,	dtlres_cb_getattr},
	{"CB_RECALL",
		sumarg_cb_recall,	sum_nfsstat4,
		dtlarg_cb_recall,	dtl_nfsstat4},
};
static uint_t cb_num_opcodes = ARRAY_SIZE(cb_opcode_info);

static op_info_t opcode_info[] = {
	{"OP_ZERO",	NULL,	NULL,	NULL,	NULL},	/* 0 */
	{"OP_ONE",	NULL,	NULL,	NULL,	NULL},
	{"OP_TWO",	NULL,	NULL,	NULL,	NULL},  /* minor vers */
	{"ACCESS",
	sumarg_access,	sumres_access,	dtlarg_access,	dtlres_access},
	{"CLOSE",
	sumarg_close,	sumres_close,	dtlarg_close,	dtlres_close},
	{"COMMIT",
	sumarg_commit,	sumres_commit,	dtlarg_commit,	dtlres_commit},
	{"CREATE",					/* 5 */
	sumarg_create,	sum_nfsstat4,	dtlarg_create,	dtlres_create},
	{"DELEGPURGE",
	sumarg_delprge,	sum_nfsstat4,	dtlarg_delprge,	dtl_nfsstat4},
	{"DELEGRETURN",
	sumarg_delret,	sum_nfsstat4,	dtlarg_delret,	dtl_nfsstat4},
	{"GETATTR",
	sumarg_getattr,	sumres_getattr,	dtlarg_getattr,	dtlres_getattr},
	{"GETFH",
	NULL,		sumres_getfh,	NULL,	dtlres_getfh},
	{"LINK",					/* 10 */
	sumarg_link,	sum_nfsstat4,	dtlarg_link,	dtlres_link},
	{"LOCK",
	sumarg_lock,	sumres_lock,	dtlarg_lock,	dtlres_lock},
	{"LOCKT",
	sumarg_lockt,	sumres_lockt,	dtlarg_lockt,	dtlres_lockt},
	{"LOCKU",
	sumarg_locku,	sumres_locku,	dtlarg_locku,	dtlres_locku},
	{"LOOKUP",
	sumarg_lookup,	sum_nfsstat4,	dtlarg_lookup,	dtl_nfsstat4},
	{"LOOKUPP",					/* 15 */
	NULL,		sum_nfsstat4,	NULL,		dtl_nfsstat4},
	{"NVERIFY",
	NULL,		sum_nfsstat4,	dtlarg_verify,	dtl_nfsstat4},
	{"OPEN",
	sumarg_open,	sumres_open,	dtlarg_open,	dtlres_open},
	{"OPENATTR",
	sumarg_openattr, sum_nfsstat4, dtlarg_openattr, dtl_nfsstat4},
	{"OPEN_CONFIRM",
	sumarg_open_confirm,
	sumres_open_confirm,
	dtlarg_open_confirm,
	dtlres_open_confirm},
	{"OPEN_DOWNGRADE",
	sumarg_open_downgrd,
	sumres_open_downgrd,
	dtlarg_open_downgrd,
	dtlres_open_downgrd},
	{"PUTFH",
	sumarg_putfh,	sum_nfsstat4,	dtlarg_putfh,	dtl_nfsstat4},
	{"PUTPUBFH",					/* 20 */
	NULL,		sum_nfsstat4,	NULL,		dtl_nfsstat4},
	{"PUTROOTFH",
	NULL,		sum_nfsstat4,	NULL,		dtl_nfsstat4},
	{"READ",
	sumarg_read,	sumres_read,	dtlarg_read,	dtlres_read},
	{"READDIR",
	sumarg_readdir,	sumres_readdir,	dtlarg_readdir,	dtlres_readdir},
	{"READLINK",
	NULL,		sumres_readlnk,	NULL,		dtlres_readlnk},
	{"REMOVE",					/* 25 */
	sumarg_compnt,	sum_nfsstat4,	dtlarg_compnt,	dtlres_remove},
	{"RENAME",
	sumarg_rename,	sum_nfsstat4,	dtlarg_rename,	dtlres_rename},
	{"RENEW",
	sumarg_renew,	sum_nfsstat4,	dtlarg_renew,	dtl_nfsstat4},
	{"RESTOREFH",
	NULL,		sum_nfsstat4,	NULL,		dtl_nfsstat4},
	{"SAVEFH",
	NULL,		sum_nfsstat4,	NULL,		dtl_nfsstat4},
	{"SECINFO",					/* 30 */
	sumarg_secinfo,	sumres_secinfo,	dtlarg_secinfo,	dtlres_secinfo},
	{"SETATTR",
	sumarg_setattr,	sumres_setattr,	dtlarg_setattr,	dtlres_setattr},
	{"SETCLIENTID",
	sumarg_setclid,	sumres_setclid,	dtlarg_setclid,	dtlres_setclid},
	{"SETCLIENTID_CONFIRM",
	sumarg_setclid_cfm,
	sum_nfsstat4,
	dtlarg_setclid_cfm,
	dtl_nfsstat4},
	{"VERIFY",
	NULL,		sum_nfsstat4,	dtlarg_verify,	dtl_nfsstat4},
	{"WRITE",
	sumarg_write,	sumres_write,	dtlarg_write,	dtlres_write},
	{"RELEASE_LOCKOWNER",
	sumarg_release_lkown, sum_nfsstat4,
	dtlarg_release_lkown, dtl_nfsstat4},
};
static uint_t num_opcodes = ARRAY_SIZE(opcode_info);

/*
 * File types.
 */

typedef struct {
	char *short_name;		/* for summary output */
	char *long_name;		/* for detail output */
} ftype_names_t;

static ftype_names_t ftype_names[] = {
	{"Type 0",	"Type 0"},
	{"REG",		"Regular File"},
	{"DIR",		"Directory"},
	{"BLK",		"Block Device"},
	{"CHR",		"Character Device"},
	{"LNK",		"Symbolic Link"},	/* 5 */
	{"SOCK",	"Socket"},
	{"FIFO",	"FIFO"},
	{"ATTRDIR",	"Attribute Directory"},
	{"NAMEDATTR",	"Named Attribute"},
};
static uint_t num_ftypes = sizeof (ftype_names) / sizeof (ftype_names_t);

static ftype_names_t	open_rflags[] = {
	{"?",	"UNKNOWN"},	/* 0 */
	{"CF",	"CONFIRM"},	/* 1 */
	{"PL",	"POSIX LOCK"},	/* 2 */
	{"?",	"UNKNOWN"},
};
static uint_t num_open_rflags =
	sizeof (open_rflags) / sizeof (ftype_names_t) - 1;

static char *get_flags(uint_t, ftype_names_t *, uint_t, int, char *);

#define	sum_open_rflags(flag) \
	get_flags((flag), open_rflags, num_open_rflags, 1, " RF=")

#define	detail_open_rflags(flag) \
	get_flags((flag), open_rflags, num_open_rflags, 0, NULL)

static void prt_supported_attrs(XDR *);
static void prt_type(XDR *);
static void prt_fh_expire_type(XDR *);
static void prt_change(XDR *);
static void prt_size(XDR *);
static void prt_link_support(XDR *);
static void prt_symlink_support(XDR *);
static void prt_named_attr(XDR *);
static void prt_fsid(XDR *);
static void prt_unique_handles(XDR *);
static void prt_lease_time(XDR *);
static void prt_rdattr_error(XDR *);
static void prt_acl(XDR *);
static void prt_aclsupport(XDR *);
static void prt_archive(XDR *);
static void prt_cansettime(XDR *);
static void prt_case_insensitive(XDR *);
static void prt_case_preserving(XDR *);
static void prt_chown_restricted(XDR *);
static void prt_filehandle(XDR *);
static void prt_fileid(XDR *);
static void prt_mounted_on_fileid(XDR *);
static void prt_files_avail(XDR *);
static void prt_files_free(XDR *);
static void prt_files_total(XDR *);
static void prt_fs_locations(XDR *);
static void prt_hidden(XDR *);
static void prt_homogeneous(XDR *);
static void prt_maxfilesize(XDR *);
static void prt_maxlink(XDR *);
static void prt_maxname(XDR *);
static void prt_maxread(XDR *);
static void prt_maxwrite(XDR *);
static void prt_mimetype(XDR *);
static void prt_mode(XDR *);
static void prt_no_trunc(XDR *);
static void prt_numlinks(XDR *);
static void prt_owner(XDR *);
static void prt_owner_group(XDR *);
static void prt_quota_avail_hard(XDR *);
static void prt_quota_avail_soft(XDR *);
static void prt_quota_used(XDR *);
static void prt_rawdev(XDR *);
static void prt_space_avail(XDR *);
static void prt_space_free(XDR *);
static void prt_space_total(XDR *);
static void prt_space_used(XDR *);
static void prt_system(XDR *);
static void prt_time_access(XDR *);
static void prt_time_access_set(XDR *);
static void prt_time_backup(XDR *);
static void prt_time_create(XDR *);
static void prt_time_delta(XDR *);
static void prt_time_metadata(XDR *);
static void prt_time_modify(XDR *);
static void prt_time_modify_set(XDR *);



/*
 * Information for attributes.
 * name		name of the attribute.
 * prt_details	function to XDR decode the attribute and print it.
 *
 * XXX If this table ever gets extensively changed (including
 * reorganization to track changes to the spec), it would probably be a
 * good idea to change to a scheme where the table is mechanically
 * generated.  Look at $SRC/uts/common/rpcsvc for how this is done in the
 * kernel.
 */

typedef struct {
	char	*name;
	void	(*prt_details)(XDR *);
} attr_info_t;

static attr_info_t attr_info[MAX_ATTRIBUTES] = {
	{"SUPPORTED_ATTRS",	prt_supported_attrs},
	{"TYPE",		prt_type},
	{"FH_EXPIRE_TYPE",	prt_fh_expire_type},
	{"CHANGE",		prt_change},
	{"SIZE",		prt_size},
	{"LINK_SUPPORT",	prt_link_support},	/* 5 */
	{"SYMLINK_SUPPORT",	prt_symlink_support},
	{"NAMED_ATTR",		prt_named_attr},
	{"FSID",		prt_fsid},
	{"UNIQUE_HANDLES",	prt_unique_handles},
	{"LEASE_TIME",		prt_lease_time},	/* 10 */
	{"RDATTR_ERROR",	prt_rdattr_error},
	{"ACL",			prt_acl},
	{"ACLSUPPORT",		prt_aclsupport},
	{"ARCHIVE",		prt_archive},
	{"CANSETTIME",		prt_cansettime},	/* 15 */
	{"CASE_INSENSITIVE",	prt_case_insensitive},
	{"CASE_PRESERVING",	prt_case_preserving},
	{"CHOWN_RESTRICTED",	prt_chown_restricted},
	{"FILEHANDLE",		prt_filehandle},
	{"FILEID",		prt_fileid},		/* 20 */
	{"FILES_AVAIL",		prt_files_avail},
	{"FILES_FREE",		prt_files_free},
	{"FILES_TOTAL",		prt_files_total},
	{"FS_LOCATIONS",	prt_fs_locations},
	{"HIDDEN",		prt_hidden},		/* 25 */
	{"HOMOGENEOUS",		prt_homogeneous},
	{"MAXFILESIZE",		prt_maxfilesize},
	{"MAXLINK",		prt_maxlink},
	{"MAXNAME",		prt_maxname},
	{"MAXREAD",		prt_maxread},		/* 30 */
	{"MAXWRITE",		prt_maxwrite},
	{"MIMETYPE",		prt_mimetype},
	{"MODE",		prt_mode},
	{"NO_TRUNC",		prt_no_trunc},
	{"NUMLINKS",		prt_numlinks},		/* 35 */
	{"OWNER",		prt_owner},
	{"OWNER_GROUP",		prt_owner_group},
	{"QUOTA_AVAIL_HARD",	prt_quota_avail_hard},
	{"QUOTA_AVAIL_SOFT",	prt_quota_avail_soft},
	{"QUOTA_USED",		prt_quota_used},	/* 40 */
	{"RAWDEV",		prt_rawdev},
	{"SPACE_AVAIL",		prt_space_avail},
	{"SPACE_FREE",		prt_space_free},
	{"SPACE_TOTAL",		prt_space_total},
	{"SPACE_USED",		prt_space_used},	/* 45 */
	{"SYSTEM",		prt_system},
	{"TIME_ACCESS",		prt_time_access},
	{"TIME_ACCESS_SET",	prt_time_access_set},
	{"TIME_BACKUP",		prt_time_backup},
	{"TIME_CREATE",		prt_time_create},	/* 50 */
	{"TIME_DELTA",		prt_time_delta},
	{"TIME_METADATA",	prt_time_metadata},
	{"TIME_MODIFY",		prt_time_modify},
	{"TIME_MODIFY_SET",	prt_time_modify_set},
	{"MOUNTED_ON_FILEID",	prt_mounted_on_fileid},
};

extern char *get_sum_line();

extern jmp_buf xdr_err;

static void sum_comp4res(char *, char *(*)(void));
static char *sum_compound4args(void);
static char *sum_compound4res(void);
static char *sum_operand(nfs_argop4 *opp);
static char *sum_result(nfs_resop4 *resp);

static char *sum_cb_compound4args(void);
static char *sum_cb_compound4res(void);
static char *sum_cb_operand(nfs_cb_argop4 *opp);
static char *sum_cb_result(nfs_cb_resop4 *resp);

static void detail_acetype4(acetype4);
static void detail_uint32_bitmap(uint32_t, char *[], int);
static void detail_aceflag4(aceflag4);
static void detail_acemask4(acemask4);
static void detail_nfs_argop4(void);
static void detail_nfs_resop4(void);
static void detail_cb_argop4(void);
static void detail_cb_resop4(void);

static char *attr_name(uint_t);
static char *claim_name(enum open_claim_type4 claim_type);
static char *delegation_type_name(enum open_delegation_type4 type);
static char *flavor_name(uint_t flavor);
static char *gss_svc_name(rpc_gss_svc_t svc);
static char *limitby_name(enum limit_by4 limitby);
static char *lock_type_name(enum nfs_lock_type4);
static char *opcode_name(uint_t);
static char *cb_opcode_name(uint_t opnum);
static char *status_name(int);
static char *status_name_compat(int);
static char *status_name_pcol(int);
static char *sum_type_name(nfs_ftype4);
static void sum_access4(char *buf, size_t buflen, uint32_t bits);
static void detail_access4(char *, uint32_t);
static void sum_claim(char *buf, size_t buflen, open_claim4 *claim);
static void detail_claim(open_claim4 *claim);
static char *sum_clientid(clientid4 client);
static void detail_clientid(clientid4 client);
static char *_sum_stateid(stateid4 *, char *prefix);
static void sum_delegation(char *buf, size_t buflen, open_delegation4 *delp);
static void detail_delegation(open_delegation4 *delp);
static void detail_lock_owner(lock_owner4 *owner);
static void detail_open_owner(open_owner4 *owner);
static void sum_openflag(char *bufp, int buflen, openflag4 *flagp);
static char *get_deleg_typestr(open_delegation_type4 dt);
static void detail_openflag(openflag4 *flagp);
static void sum_name(char *buf, size_t buflen, open_claim4 *claim);
static void detail_rpcsec_gss(rpcsec_gss_info *);
static void detail_secinfo4(secinfo4 *infop);
static char *sum_space_limit(nfs_space_limit4 *limitp);
static void detail_space_limit(nfs_space_limit4 *limitp);
static char *detail_type_name(nfs_ftype4);
static char *createhow4_name(createhow4 *crtp);


static void showxdr_utf8string(char *);
static char *utf8localize(utf8string *);
static void utf8free(void);
static void sum_pathname4(char *, size_t, pathname4 *);
static void detail_pathname4(pathname4 *pathp, char *);
static void sum_compname4(char *buf, size_t buflen, component4 *comp);
static void detail_compname4(component4 *comp);

static void detail_fattr4(fattr4 *attrp);
static void detail_attr_bitmap(char *, bitmap4 *, unpkd_attrmap_t *);
static void sum_attr_bitmap(char *buf, size_t buflen, bitmap4 *mapp);
static void detail_fattr4_change(char *msg, fattr4_change chg);
static char *sum_fh4(nfs_fh4 *fhp);
static void detail_fh4(nfs_fh4 *fh);

#define	fh4_hash(fh) adler16((fh)->nfs_fh4_val, (fh)->nfs_fh4_len)
#define	stateid_hash(st) adler16((st)->other, sizeof ((st)->other))
#define	owner_hash(own) adler16((own)->owner_val, (own)->owner_len)

#define	sum_deleg_stateid(st)	_sum_stateid((st), "DST=")
#define	sum_open_stateid(st)	_sum_stateid((st), "OST=")
#define	sum_lock_stateid(st)	_sum_stateid((st), "LST=")
#define	sum_stateid(st)		_sum_stateid((st), "ST=")

#define	detail_deleg_stateid(st)	_detail_stateid((st), "Delegation ")
#define	detail_open_stateid(st)		_detail_stateid((st), "Open ")
#define	detail_lock_stateid(st)		_detail_stateid((st), "Lock ")
#define	detail_stateid(st)		_detail_stateid((st), "")

#define	SPECIAL_STATEID0	"SPC0"
#define	SPECIAL_STATEID1	"SPC1"

#define	DONT_CHANGE		0
#define	SET_TO_SERVER_TIME	1
#define	SET_TO_CLIENT_TIME	2

static stateid4 spec_stateid_0 =
	{0, {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}};
static stateid4 spec_stateid_1 =
	{0xFFFFFFFF, {-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1}};

static char *procnames_short[] = {
	"NULL4",	/*  0 */
	"COMPOUND4"	/*  1 */
};

static char *procnames_long[] = {
	"Null procedure",		/*  0 */
	"Compound",			/*  1 */
};

static char *cb_procnames_short[] = {
	"CB_NULL",	/*  0 */
	"CB_COMPOUND"	/*  1 */
};

static char *cb_procnames_long[] = {
	"Null CallBack procedure",	/*  0 */
	"CallBack compound",		/*  1 */
};

static char *acetype4_names[] = {
	"ACE4_ACCESS_ALLOWED_ACE_TYPE",
	"ACE4_ACCESS_DENIED_ACE_TYPE",
	"ACE4_SYSTEM_AUDIT_ACE_TYPE",
	"ACE4_SYSTEM_ALARM_ACE_TYPE"
};
#define	ACETYPE4_NAMES_MAX (sizeof (acetype4_names) / sizeof (char *))

static char *aceflag4_names[] = {
	"ACE4_FILE_INHERIT_ACE",
	"ACE4_DIRECTORY_INHERIT_ACE",
	"ACE4_NO_PROPAGATE_INHERIT_ACE",
	"ACE4_INHERIT_ONLY_ACE",
	"ACE4_SUCCESSFUL_ACCESS_ACE_FLAG",
	"ACE4_FAILED_ACCESS_ACE_FLAG",
	"ACE4_IDENTIFIER_GROUP"
};
#define	ACEFLAG4_NAMES_MAX (sizeof (aceflag4_names) / sizeof (char *))

static char *acemask4_names[] = {
	"ACE4_READ_DATA/ACE4_LIST_DIRECTORY",
	"ACE4_WRITE_DATA/ACE4_ADD_FILE",
	"ACE4_APPEND_DATA/ACE4_ADD_SUBDIRECTORY",
	"ACE4_READ_NAMED_ATTRS",
	"ACE4_WRITE_NAMED_ATTRS",
	"ACE4_EXECUTE",
	"ACE4_DELETE_CHILD",
	"ACE4_READ_ATTRIBUTES",
	"ACE4_WRITE_ATTRIBUTES",
	"UNDEFINED",	/* 0x00000200 */
	"UNDEFINED",	/* 0x00000400 */
	"UNDEFINED",	/* 0x00000800 */
	"UNDEFINED",	/* 0x00001000 */
	"UNDEFINED",	/* 0x00002000 */
	"UNDEFINED",	/* 0x00004000 */
	"UNDEFINED",	/* 0x00008000 */
	"ACE4_DELETE",
	"ACE4_READ_ACL",
	"ACE4_WRITE_ACL",
	"ACE4_WRITE_OWNER",
	"ACE4_SYNCHRONIZE"
};
#define	ACEMASK4_NAMES_MAX (sizeof (acemask4_names) / sizeof (char *))

#define	MAXPROC	1

/*ARGSUSED*/
void
interpret_nfs4_cb(int flags, int type, int xid, int vers, int proc,
    char *data, int len)
{
	char *line = NULL;

	if (proc < 0 || proc > MAXPROC)
		return;

	if (flags & F_SUM) {
		line = get_sum_line();

		if (type == CALL) {
			(void) sprintf(line, "NFS C %s",
			    proc == CB_COMPOUND ? "CB4" :
			    cb_procnames_short[proc]);
			line += strlen(line);

			if (proc == CB_COMPOUND) {
				static utf8string tag;

				if (!xdr_utf8string(&xdrm, &tag))
					longjmp(xdr_err, 1);
				sprintf(line, " (%.20s) %s",
				    utf8localize(&tag),
				    sum_cb_compound4args());
				xdr_free(xdr_utf8string, (char *)&tag);
			}
			check_retransmit(line, xid);
		} else {
			(void) sprintf(line, "NFS R %s ",
			    proc == CB_COMPOUND ? "CB4" :
			    cb_procnames_short[proc]);
			line += strlen(line);
			if (proc == CB_COMPOUND)
				sum_comp4res(line, sum_cb_compound4res);
		}
	}

	if (flags & F_DTAIL) {
		show_header("NFS:  ", "Sun NFS4 CallBack", len);
		show_space();
		(void) sprintf(get_line(0, 0), "Proc = %d (%s)",
		    proc, cb_procnames_long[proc]);
		if (proc == CB_COMPOUND) {
			if (type == CALL) {
				showxdr_utf8string("Tag = %s");
				detail_cb_argop4();
			} else {
				nfsstat4 status;

				status = getxdr_long();
				showxdr_utf8string("Tag = %s");
				sprintf(get_line(0, 0), "Status = %d (%s)",
				    status, status_name(status));
				detail_cb_resop4();
			}
		}
		show_trailer();
	}

	utf8free();			/* cf. utf8localize() */
}


/*ARGSUSED*/
void
interpret_nfs4(int flags, int type, int xid, int vers, int proc,
    char *data, int len)
{
	char *line = NULL;

	if (proc < 0 || proc > MAXPROC)
		return;

	nfs4_fragged_rpc = 0;
	nfs4_pkt_len = len;
	nfs4_pkt_start = xdr_getpos(&xdrm);

	if (flags & F_SUM) {
		line = get_sum_line();

		if (type == CALL) {
			(void) sprintf(line, "NFS C %s",
			    proc == NFSPROC4_COMPOUND ? "4" :
			    procnames_short[proc]);
			line += strlen(line);

			if (proc == NFSPROC4_COMPOUND) {
				static utf8string tag;

				if (!xdr_utf8string(&xdrm, &tag))
					longjmp(xdr_err, 1);
				sprintf(line, " (%.20s) %s",
				    utf8localize(&tag),
				    sum_compound4args());
				xdr_free(xdr_utf8string, (char *)&tag);
			}
			check_retransmit(line, xid);
		} else {
			(void) sprintf(line, "NFS R %s ",
			    proc == NFSPROC4_COMPOUND ? "4" :
			    procnames_short[proc]);
			line += strlen(line);

			if (proc == NFSPROC4_COMPOUND)
				sum_comp4res(line, sum_compound4res);
		}
	}

	if (flags & F_DTAIL) {
		show_header("NFS:  ", "Sun NFS", len);
		show_space();
		(void) sprintf(get_line(0, 0), "Proc = %d (%s)",
		    proc, procnames_long[proc]);
		if (proc == NFSPROC4_COMPOUND) {
			if (type == CALL) {
				showxdr_utf8string("Tag = %s");
				detail_nfs_argop4();
			} else {
				nfsstat4 status;

				status = getxdr_long();
				showxdr_utf8string("Tag = %s");
				sprintf(get_line(0, 0), "Status = %d (%s)",
				    status, status_name(status));
				detail_nfs_resop4();
			}
		}
		show_trailer();
	}

	utf8free();			/* cf. utf8localize() */
}



/*
 * Return the names and arguments of the oplist elements, up to
 * SUM_COMPND_MAX characters.  If the elements don't fit, include a "..."
 * at the end of the string.
 */

static char *
sum_compound4args(void)
{
	static char buf[SUM_COMPND_MAX + 2]; /* 1 for null, 1 for overflow */
	int numops;
	const size_t buflen = sizeof (buf);
	char *bp;
	nfs_argop4 one_op;
	uint32_t minor_version;

	buf[0] = '\0';

	if (setjmp(xdr_err)) {
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf),
		    nfs4_fragged_rpc ? nfs4err_fragrpc : nfs4err_xdrfrag);
		return (buf);
	}

	/*
	 * might be nice to print minor version, but doesn't
	 * seem like very useful info for summary mode
	 */
	if (!xdr_uint32_t(&xdrm, &minor_version))
		longjmp(xdr_err, 1);

	numops = getxdr_long();
	bp = buf;
	while (numops-- > 0) {
		char *operand;

		bzero(&one_op, sizeof (one_op));

		if (!xdr_nfs_argop4(&xdrm, &one_op)) {
			xdr_free(xdr_nfs_argop4, (char *)&one_op);
			longjmp(xdr_err, 1);
		}
		snprintf(bp, buflen - (bp - buf), "%s ",
		    opcode_name(one_op.argop));
		bp += strlen(bp);

		operand = sum_operand(&one_op);
		if (strlen(operand) > 0) {
			snprintf(bp, buflen - (bp - buf), "%s ", operand);
			bp += strlen(bp);
		}

		/* nfs4_skip_bytes set by xdr_nfs4_argop4 */
		if (nfs4_skip_bytes != 0)
			nfs4_xdr_skip(nfs4_skip_bytes);

		xdr_free(xdr_nfs_argop4, (char *)&one_op);

		/* add "..." if past the "end" of the buffer */
		if (bp - buf > SUM_COMPND_MAX) {
			strcpy(buf + SUM_COMPND_MAX - strlen("..."),
			    "...");
			break;
		}
	}

	return (buf);
}

static void
nfs4_xdr_skip(int nbytes)
{
	int resid, off, len, cur_pos, new_pos;

	len = RNDUP(nbytes);
	cur_pos = xdr_getpos(&xdrm);

	/*
	 * Time to skip over the rd/wr data.  If the
	 * rd/wr data is completely contained in the first
	 * frag, we must skip over it to process the rest of
	 * the packet.
	 *
	 * nfs4_pkt_start: XDR position of start of NFS4 compound
	 * nfs4_pkt_len: number of bytes in pkt relative to
	 *		 nfs4_pkt_start
	 *
	 * cur_pos: current XDR position
	 * off: current XDR position relative to nfs4_pkt_start
	 * resid: number of unprocessed bytes in current pkt
	 *	  (relative to cur_pos/off)
	 *
	 * If nbytes <= resid, then we must skip over the rd/wr
	 * bytes so we can read the next op/compound in this
	 * packet.  Otherwise, set the fragged flag so we can
	 * display the fragged_rpc message.
	 */
	off = cur_pos - nfs4_pkt_start;
	resid = nfs4_pkt_len - off;

	/*
	 * set nfs4_fragged_rpc if the requested number of "skip"
	 * bytes is larger than the bytes remaining in the XDR
	 * stream/current packet.  The global is reset to 0 at
	 * start of interpret_nfs4.
	 */
	new_pos = cur_pos + ((nfs4_fragged_rpc = len > resid) ? resid : len);

	/* there's nothing to do for error case (if it fails pkt is doomed) */
	xdr_setpos(&xdrm, new_pos);
}


/*
 * Return the names and arguments of the oplist elements, up to
 * SUM_COMPND_MAX characters.  If the elements don't fit, include a "..."
 * at the end of the string.
 */
static char *
sum_cb_compound4args(void)
{
	static char buf[SUM_COMPND_MAX + 2]; /* 1 for null, 1 for overflow */
	int numops;
	const size_t buflen = sizeof (buf);
	char *bp;
	nfs_cb_argop4 one_op;
	uint32_t minor_version, callback_ident;

	buf[0] = '\0';
	if (setjmp(xdr_err)) {
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf), "<XDR Error or Fragmented"
		    " RPC>");
		return (buf);
	}

	/*
	 * might be nice to print minor version, but doesn't
	 * seem like very useful info for summary mode
	 */
	if (!xdr_uint32_t(&xdrm, &minor_version))
		longjmp(xdr_err, 1);

	/* print callback_ident */
	if (!xdr_uint32_t(&xdrm, &callback_ident))
		longjmp(xdr_err, 1);
	snprintf(buf, buflen, "CBID=%u ", callback_ident);

	bp = buf + strlen(buf);
	numops = getxdr_long();

	while (numops-- > 0) {
		char *operand;

		bzero(&one_op, sizeof (one_op));
		if (!xdr_nfs_cb_argop4(&xdrm, &one_op)) {
			xdr_free(xdr_nfs_cb_argop4, (char *)&one_op);
			longjmp(xdr_err, 1);
		}

		snprintf(bp, buflen - (bp - buf), "%s ",
		    cb_opcode_name(one_op.argop));
		bp += strlen(bp);
		operand = sum_cb_operand(&one_op);
		if (strlen(operand) > 0) {
			snprintf(bp, buflen - (bp - buf), "%s ", operand);
			bp += strlen(bp);
		}

		xdr_free(xdr_nfs_cb_argop4, (char *)&one_op);

		/* add "..." if past the "end" of the buffer */
		if (bp - buf > SUM_COMPND_MAX) {
			strcpy(buf + SUM_COMPND_MAX - strlen("..."),
			    "...");
			break;
		}
	}

	return (buf);
}

/*
 * Return the summarized argument list for the given nfs_argop4.
 */

static char *
sum_operand(nfs_argop4 *opp)
{
	static char buf[1024];
	void (*fmtproc)(char *, size_t, void *);

	buf[0] = '\0';
	if (opp->argop < num_opcodes) {
		fmtproc = opcode_info[opp->argop].sumarg;
		if (fmtproc != NULL)
			fmtproc(buf, sizeof (buf), &opp->nfs_argop4_u);
	}

	return (buf);
}

/*
 * Return the summarized argument list for the given nfs_argop4.
 */

static char *
sum_cb_operand(nfs_cb_argop4 *opp)
{
	static char buf[1024];
	void (*fmtproc)(char *, size_t, void *);

	buf[0] = '\0';
	if (opp->argop < cb_num_opcodes) {
		fmtproc = cb_opcode_info[opp->argop].sumarg;
		if (fmtproc != NULL)
			fmtproc(buf, sizeof (buf), &opp->nfs_cb_argop4_u);
	}

	return (buf);
}

/*
 * Print details about the nfs_argop4 that is next in the XDR stream.
 */

static void
detail_nfs_argop4(void)
{
	int numops;
	nfs_argop4 one_op;
	void (*fmtproc)(void *);
	uint32_t minor_version;

	if (!xdr_uint32_t(&xdrm, &minor_version))
		longjmp(xdr_err, 1);

	(void) sprintf(get_line(0, 0), "Minor version = %u",
	    minor_version);

	numops = getxdr_long();
	(void) sprintf(get_line(0, 0), "Number of operations = %d",
	    numops);

	while (numops-- > 0) {
		bzero(&one_op, sizeof (one_op));

		if (!xdr_nfs_argop4(&xdrm, &one_op)) {
			xdr_free(xdr_nfs_argop4, (char *)&one_op);
			longjmp(xdr_err, 1);
		}

		get_line(0, 0);		/* blank line to separate ops */
		sprintf(get_line(0, 0), "Op = %d (%s)",
		    one_op.argop, opcode_name(one_op.argop));
		if (one_op.argop < num_opcodes) {
			fmtproc = opcode_info[one_op.argop].dtlarg;
			if (fmtproc != NULL)
				fmtproc(&one_op.nfs_argop4_u);
		}

		/* nfs4_skip_bytes set by xdr_nfs_argop4() */
		if (nfs4_skip_bytes)
			nfs4_xdr_skip(nfs4_skip_bytes);

		xdr_free(xdr_nfs_argop4, (char *)&one_op);
	}
}


/*
 * Print details about the nfs_argop4 that is next in the XDR stream.
 */
static void
detail_cb_argop4(void)
{
	int numops;
	nfs_cb_argop4 one_op;
	void (*fmtproc)(void *);
	uint32_t minor_version, callback_ident;

	if (!xdr_uint32_t(&xdrm, &minor_version))
		longjmp(xdr_err, 1);
	(void) sprintf(get_line(0, 0), "Minor version = %u",
	    minor_version);

	if (!xdr_uint32_t(&xdrm, &callback_ident))
		longjmp(xdr_err, 1);
	(void) sprintf(get_line(0, 0), "Callback Ident = %u",
	    callback_ident);

	numops = getxdr_long();
	(void) sprintf(get_line(0, 0), "Number of operations = %d",
	    numops);

	while (numops-- > 0) {
		bzero(&one_op, sizeof (one_op));
		if (!xdr_nfs_cb_argop4(&xdrm, &one_op)) {
			xdr_free(xdr_nfs_cb_argop4, (char *)&one_op);
			longjmp(xdr_err, 1);
		}

		get_line(0, 0);		/* blank line to separate ops */
		sprintf(get_line(0, 0), "Op = %d (%s)",
		    one_op.argop, cb_opcode_name(one_op.argop));
		if (one_op.argop < cb_num_opcodes) {
			fmtproc = cb_opcode_info[one_op.argop].dtlarg;
			if (fmtproc != NULL)
				fmtproc(&one_op.nfs_cb_argop4_u);
		}

		xdr_free(xdr_nfs_cb_argop4, (char *)&one_op);
	}
}

/*
 * component_name: return a printable string for the given component4.  I'm
 * leaving this as a separate function (as opposed to having the callers
 * call utf8localize() directly) in case the definition of component4
 * changes.
 */

static char *
component_name(component4 *cp)
{
	return (utf8localize(cp));
}

/*
 * linktext_name.  cf. component_name().
 */

static char *
linktext_name(linktext4 *lp)
{
	return (utf8localize((utf8string *)lp));
}

/*
 * stable_how4_name: return a string for "how".
 */

static char *
stable_how4_name(stable_how4 how)
{
	char *result;

	switch (how) {
	case UNSTABLE4:
		result = "ASYNC";
		break;
	case DATA_SYNC4:
		result = "DSYNC";
		break;
	case FILE_SYNC4:
		result = "FSYNC";
		break;
	default:
		result = "?";
		break;
	}

	return (result);
}

/*
 * sum_open_share_access: return a string corresponding to the
 * given OPEN share access bitmask.
 */

static char *
sum_open_share_access(int32_t mask)
{
	char *result;

	switch (mask) {
	case 0:
		result = "N";
		break;
	case OPEN4_SHARE_ACCESS_READ:
		result = "R";
		break;
	case OPEN4_SHARE_ACCESS_WRITE:
		result = "W";
		break;
	case OPEN4_SHARE_ACCESS_BOTH:
		result = "RW";
		break;
	default:
		result = "?";
		break;
	}

	return (result);
}

/*
 * sum_open_share_deny: return a string corresponding to the
 * given OPEN share deny bitmask.
 */

static char *
sum_open_share_deny(int32_t mask)
{
	char *result;

	switch (mask) {
	case OPEN4_SHARE_DENY_NONE:
		result = "N";
		break;
	case OPEN4_SHARE_DENY_READ:
		result = "R";
		break;
	case OPEN4_SHARE_DENY_WRITE:
		result = "W";
		break;
	case OPEN4_SHARE_DENY_BOTH:
		result = "RW";
		break;
	default:
		result = "?";
		break;
	}

	return (result);
}

static int
special_stateid(stateid4 *stateid)
{

	if (! memcmp(stateid, &spec_stateid_0, sizeof (*stateid)))
		return (0);

	if (! memcmp(stateid, &spec_stateid_1, sizeof (*stateid)))
		return (1);

	return (-1);
}

static char *
_sum_stateid(stateid4 *stateid, char *prefix)
{
	static char buf[32];
	int spec;

	if ((spec = special_stateid(stateid)) < 0)
		snprintf(buf, sizeof (buf), "%s%04X:%u", prefix,
		    stateid_hash(stateid), stateid->seqid);
	else
		snprintf(buf, sizeof (buf), "%s%s", prefix,
		    spec == 0 ? "SPC0" : (spec == 1 ? "SPC1" : "SPC?"));
	return (buf);
}

static void
_detail_stateid(stateid4 *stateid, char *prefix)
{
	int spec;
	char seqstr[32] = {0};

	spec = special_stateid(stateid);

	if (spec < 0)
		sprintf(get_line(0, 0), "%sState ID hash = %04X",
		    prefix, stateid_hash(stateid));
	else
		sprintf(get_line(0, 0), "%sState ID hash = %s",	prefix,
		    spec == 0 ? "SPECIAL_0" :
		    (spec == 1 ? "SPECIAL_1" : "SPECIAL_?"));

	sprintf(get_line(0, 0), "    len = %u    val = %s",
	    sizeof (stateid->other),
	    tohex(stateid->other, sizeof (stateid->other)));

	/*
	 * If spec 0/1 stateid, print seqid in hex; otherwise,
	 * use decimal.  This makes it more clear how spec stateids
	 * are constructed [obvious that either all bits are 0, or all
	 * bits are 1].
	 */
	if (spec == -1)
		sprintf(seqstr, "%d", stateid->seqid);
	else
		sprintf(seqstr, "%08X", stateid->seqid);

	sprintf(get_line(0, 0), "    %sState ID Sequence ID = %s",
	    prefix, seqstr);
}


static char *
sum_lock_denied(LOCK4denied *denied)
{
	static char buf[64];

	sprintf(buf, "%s %llu:%llu LO=%04X",
	    sum_lock_type_name(denied->locktype),
	    denied->offset, denied->length,
	    owner_hash(&denied->owner.owner));

	return (buf);
}

static void
detail_lock_denied(LOCK4denied *denied)
{
	sprintf(get_line(0, 0), "Type = %s", lock_type_name(denied->locktype));
	detail_lock_owner(&denied->owner);
	sprintf(get_line(0, 0), "Offset = %llu", denied->offset);
	sprintf(get_line(0, 0), "Length = %llu", denied->length);
}

/*
 * sum_createhow4: return the string name of "how".
 */

static char *
createhow4_name(createhow4 *crtp)
{
	char *result;

	switch (crtp->mode) {
	case UNCHECKED4:
		result = "UNCHECKED";
		break;
	case GUARDED4:
		result = "GUARDED";
		break;
	case EXCLUSIVE4:
		result = "EXCLUSIVE";
		break;
	default:
		result = "?";
		break;
	}

	return (result);
}

/*
 * detail_createhow4: print detail information about "how".
 */

static void
detail_createhow4(createhow4 *crtp)
{
	sprintf(get_line(0, 0), "Method = %s",
	    createhow4_name(crtp));

	switch (crtp->mode) {
	case UNCHECKED4:
	case GUARDED4:
		detail_fattr4(&crtp->createhow4_u.createattrs);
		break;
	case EXCLUSIVE4:
		sprintf(get_line(0, 0), "  Verifier = %s",
		    tohex(crtp->createhow4_u.createverf,
		    NFS4_VERIFIER_SIZE));
		break;
	}
}

static void
detail_createtype4(createtype4 *crtp)
{
	sprintf(get_line(0, 0), "Type = %s",
	    detail_type_name(crtp->type));
	switch (crtp->type) {
	case NF4LNK:
		sprintf(get_line(0, 0), "Linkdata = %s",
		    utf8localize((utf8string *)&crtp->createtype4_u.linkdata));
		break;
	case NF4BLK:
	case NF4CHR:
		sprintf(get_line(0, 0), "Specdata1 = %04x Specdata2 = %04x",
		    crtp->createtype4_u.devdata.specdata1,
		    crtp->createtype4_u.devdata.specdata2);
		break;
	default:
		break;
	}
}

static void
sumarg_access(char *buf, size_t buflen, void *obj)
{
	ACCESS4args *args = (ACCESS4args *)obj;

	sum_access4(buf, buflen, args->access);
}

static void
dtlarg_access(void *obj)
{
	ACCESS4args *args = (ACCESS4args *)obj;

	detail_access4("Access bits", args->access);
}

static void
sumarg_close(char *buf, size_t buflen, void *obj)
{
	CLOSE4args *args = (CLOSE4args *)obj;

	snprintf(buf, buflen, "SQ=%u %s",
	    args->seqid, sum_open_stateid(&args->open_stateid));
}

static void
dtlarg_close(void *obj)
{
	CLOSE4args *args = (CLOSE4args *)obj;

	detail_open_stateid(&args->open_stateid);
	sprintf(get_line(0, 0), "Sequence ID = %u", args->seqid);
}

static void
sumarg_commit(char *buf, size_t buflen, void *obj)
{
	COMMIT4args *args = (COMMIT4args *)obj;

	snprintf(buf, buflen, "at %llu for %u ", args->offset,
	    args->count);
}

static void
dtlarg_commit(void *obj)
{
	COMMIT4args *args = (COMMIT4args *)obj;

	sprintf(get_line(0, 0), "Offset = %llu", args->offset);
	sprintf(get_line(0, 0), "Count = %u", args->count);
}

static void
sumarg_compnt(char *buf, size_t buflen, void *obj)
{
	component4 *comp = (component4 *)obj;

	snprintf(buf, buflen, "%s", component_name(comp));
}

static void
dtlarg_compnt(void *obj)
{
	component4 *comp = (component4 *)obj;

	sprintf(get_line(0, 0), "Name = %s", component_name(comp));
}

static void
sumarg_create(char *buf, size_t buflen, void *obj)
{
	CREATE4args *args = (CREATE4args *)obj;

	snprintf(buf, buflen, "%s %s ", component_name(&args->objname),
	    sum_type_name(args->objtype.type));
}

static void
dtlarg_create(void *obj)
{
	CREATE4args *args = (CREATE4args *)obj;

	sprintf(get_line(0, 0), "Name = %s", component_name(&args->objname));
	detail_createtype4(&args->objtype);
	detail_fattr4(&args->createattrs);
}

static void
sumarg_delprge(char *buf, size_t buflen, void *obj)
{
	DELEGPURGE4args *args = (DELEGPURGE4args *)obj;

	snprintf(buf, buflen, "%s", sum_clientid(args->clientid));
}

static void
dtlarg_delprge(void *obj)
{
	DELEGPURGE4args *args = (DELEGPURGE4args *)obj;

	detail_clientid(args->clientid);
}

static void
sumarg_delret(char *buf, size_t buflen, void *obj)
{
	DELEGRETURN4args *args = (DELEGRETURN4args *)obj;

	snprintf(buf, buflen, "%s", sum_deleg_stateid(&args->deleg_stateid));
}

static void
dtlarg_delret(void *obj)
{
	DELEGRETURN4args *args = (DELEGRETURN4args *)obj;

	detail_deleg_stateid(&args->deleg_stateid);
}

static void
sumarg_getattr(char *buf, size_t buflen, void *obj)
{
	GETATTR4args *args = (GETATTR4args *)obj;

	sum_attr_bitmap(buf, buflen, &args->attr_request);
}

static void
dtlarg_getattr(void *obj)
{
	GETATTR4args *args = (GETATTR4args *)obj;

	detail_attr_bitmap("", &args->attr_request, NULL);
}

static void
sumarg_cb_getattr(char *buf, size_t buflen, void *obj)
{
	CB_GETATTR4args *args = (CB_GETATTR4args *)obj;
	char *bp = buf;

	snprintf(bp, buflen, "%s ", sum_fh4(&args->fh));
	bp += strlen(bp);
	sum_attr_bitmap(bp, buflen - (bp - buf), &args->attr_request);
}

static void
dtlarg_cb_getattr(void *obj)
{
	CB_GETATTR4args *args = (CB_GETATTR4args *)obj;

	detail_fh4(&args->fh);
	detail_attr_bitmap("", &args->attr_request, NULL);
}

static void
sumarg_cb_recall(char *buf, size_t buflen, void *obj)
{
	CB_RECALL4args *args = (CB_RECALL4args *)obj;
	char *bp = buf;

	snprintf(bp, buflen, "%s %s TR=%s", sum_fh4(&args->fh),
	    sum_stateid(&args->stateid), args->truncate ? "T" : "F");
}

static void
dtlarg_cb_recall(void *obj)
{
	CB_RECALL4args *args = (CB_RECALL4args *)obj;

	detail_fh4(&args->fh);
	detail_stateid(&args->stateid);
	sprintf(get_line(0, 0), "Truncate = %s",
	    args->truncate ? "True" : "False");
}


/*
 * name openhow seqid claim access deny owner
 */
static void
sumarg_open(char *buf, size_t buflen, void *obj)
{
	OPEN4args *args = (OPEN4args *)obj;
	char *bp = buf;
	int blen = buflen, len;

	sum_name(bp, buflen, &args->claim);
	bp += (len = strlen(bp));
	blen -= len;

	sum_openflag(bp, blen, &args->openhow);
	bp += (len = strlen(bp));
	blen -= len;

	snprintf(bp, blen, " SQ=%u", args->seqid);
	bp += (len = strlen(bp));
	blen -= len;

	sum_claim(bp, blen, &args->claim);
	bp += (len = strlen(bp));
	blen -= len;

	snprintf(bp, blen, " AC=%s DN=%s OO=%04X",
	    sum_open_share_access(args->share_access),
	    sum_open_share_deny(args->share_deny),
	    owner_hash(&args->owner.owner));
}

static void
dtlarg_open(void *obj)
{
	OPEN4args *args = (OPEN4args *)obj;

	detail_claim(&args->claim);
	detail_openflag(&args->openhow);
	detail_open_owner(&args->owner);
	sprintf(get_line(0, 0), "Sequence ID = %u", args->seqid);
	sprintf(get_line(0, 0), "Access = 0x%x (%s)",
	    args->share_access, sum_open_share_access(args->share_access));
	sprintf(get_line(0, 0), "Deny   = 0x%x (%s)",
	    args->share_deny, sum_open_share_access(args->share_deny));
}

static void
sumarg_openattr(char *buf, size_t buflen, void *obj)
{
	OPENATTR4args *args = (OPENATTR4args *)obj;

	snprintf(buf, buflen, "CD=%s",
	    args->createdir ? "T" : "F");
}

static void
dtlarg_openattr(void *obj)
{
	OPENATTR4args *args = (OPENATTR4args *)obj;

	sprintf(get_line(0, 0), "CreateDir = %s",
	    args->createdir ? "True" : "False");
}

static void
sumarg_open_confirm(char *buf, size_t buflen, void *obj)
{
	char *bp = buf;
	OPEN_CONFIRM4args *args = (OPEN_CONFIRM4args *)obj;

	snprintf(bp, buflen, "SQ=%u %s", args->seqid,
	    sum_open_stateid(&args->open_stateid));
}

static void
dtlarg_open_confirm(void *obj)
{
	OPEN_CONFIRM4args *args = (OPEN_CONFIRM4args *)obj;

	sprintf(get_line(0, 0), "Sequence ID = %u", args->seqid);
	detail_open_stateid(&args->open_stateid);
}

static void
sumarg_open_downgrd(char *buf, size_t buflen, void *obj)
{
	OPEN_DOWNGRADE4args *args = (OPEN_DOWNGRADE4args *)obj;

	snprintf(buf, buflen, "SQ=%u %s AC=%s DN=%s",
	    args->seqid, sum_open_stateid(&args->open_stateid),
	    sum_open_share_access(args->share_access),
	    sum_open_share_deny(args->share_deny));
}

static void
dtlarg_open_downgrd(void *obj)
{
	OPEN_DOWNGRADE4args *args = (OPEN_DOWNGRADE4args *)obj;

	sprintf(get_line(0, 0), "Open Sequence ID = %u", args->seqid);
	detail_open_stateid(&args->open_stateid);
	sprintf(get_line(0, 0), "Access = 0x%x (%s)",
	    args->share_access, sum_open_share_access(args->share_access));
	sprintf(get_line(0, 0), "Deny   = 0x%x (%s)",
	    args->share_deny, sum_open_share_access(args->share_deny));
}

static void
sumarg_putfh(char *buf, size_t buflen, void *obj)
{
	PUTFH4args *args = (PUTFH4args *)obj;

	snprintf(buf, buflen, "%s", sum_fh4(&args->object));
}

static void
dtlarg_putfh(void *obj)
{
	PUTFH4args *args = (PUTFH4args *)obj;

	detail_fh4(&args->object);
}

static void
sumarg_link(char *buf, size_t buflen, void *obj)
{
	LINK4args *args = (LINK4args *)obj;

	snprintf(buf, buflen, "%s", component_name(&args->newname));
}

static void
dtlarg_link(void *obj)
{
	LINK4args *args = (LINK4args *)obj;

	sprintf(get_line(0, 0), "New name = %s",
	    component_name(&args->newname));
}

static void
sum_open_to_lock_owner(char *buf, int buflen, open_to_lock_owner4 *own)
{
	snprintf(buf, buflen, " OSQ=%u %s LSQ=%u LO=%04X", own->open_seqid,
	    sum_open_stateid(&own->open_stateid), own->lock_seqid,
	    owner_hash(&own->lock_owner.owner));
}

static void
sum_exist_lock_owner(char *buf, int buflen, exist_lock_owner4 *own)
{
	snprintf(buf, buflen, " LSQ=%u %s", own->lock_seqid,
	    sum_lock_stateid(&own->lock_stateid));
}

static void
sum_locker(char *buf, size_t len, locker4 *lk)
{
	if (lk->new_lock_owner == TRUE)
		sum_open_to_lock_owner(buf, len, &lk->locker4_u.open_owner);
	else
		sum_exist_lock_owner(buf, len, &lk->locker4_u.lock_owner);
}

static char *
sum_lock_type_name(enum nfs_lock_type4 type)
{
	char *result;

	switch (type) {
	case READ_LT:
		result = "RD";
		break;
	case WRITE_LT:
		result = "WR";
		break;
	case READW_LT:
		result = "RDW";
		break;
	case WRITEW_LT:
		result = "WRW";
		break;
	default:
		result = "?";
		break;
	}

	return (result);
}

static void
sumarg_lock(char *buf, size_t buflen, void *obj)
{
	LOCK4args *args = (LOCK4args *)obj;
	char *bp = buf;

	snprintf(buf, buflen, "%s%s%llu:%llu",
	    sum_lock_type_name(args->locktype),
	    args->reclaim ? " reclaim " : " ",
	    args->offset, args->length);

	bp += strlen(buf);
	sum_locker(bp, buflen - (bp - buf), &args->locker);
}

static void
detail_open_to_lock_owner(open_to_lock_owner4 *own)
{
	sprintf(get_line(0, 0), "Open Sequence ID = %u", own->open_seqid);
	detail_open_stateid(&own->open_stateid);
	sprintf(get_line(0, 0), "Lock Sequence ID = %u", own->lock_seqid);
	detail_lock_owner(&own->lock_owner);
}

static void
detail_exist_lock_owner(exist_lock_owner4 *own)
{
	detail_lock_stateid(&own->lock_stateid);
	sprintf(get_line(0, 0), "Lock Sequence ID = %u", own->lock_seqid);
}

static void
detail_locker(locker4 *lk)
{
	if (lk->new_lock_owner == TRUE)
		detail_open_to_lock_owner(&lk->locker4_u.open_owner);
	else
		detail_exist_lock_owner(&lk->locker4_u.lock_owner);
}

static void
dtlarg_lock(void *obj)
{
	LOCK4args *args = (LOCK4args *)obj;

	sprintf(get_line(0, 0), "Type = %s", lock_type_name(args->locktype));
	sprintf(get_line(0, 0), "Reclaim = %s",
	    args->reclaim ? "TRUE" : "FALSE");
	sprintf(get_line(0, 0), "Offset = %llu", args->offset);
	sprintf(get_line(0, 0), "Length = %llu", args->length);
	detail_locker(&args->locker);
}

static void
sumarg_lockt(char *buf, size_t buflen, void *obj)
{
	LOCKT4args *args = (LOCKT4args *)obj;

	snprintf(buf, buflen, "%s %llu:%llu",
	    sum_lock_type_name(args->locktype),
	    args->offset, args->length);
}

static void
dtlarg_lockt(void *obj)
{
	LOCKT4args *args = (LOCKT4args *)obj;

	sprintf(get_line(0, 0), "Type = %s", lock_type_name(args->locktype));
	detail_lock_owner(&args->owner);
	sprintf(get_line(0, 0), "Offset = %llu", args->offset);
	sprintf(get_line(0, 0), "Length = %llu", args->length);
}

static void
sumarg_locku(char *buf, size_t buflen, void *obj)
{
	LOCKU4args *args = (LOCKU4args *)obj;

	snprintf(buf, buflen, "%llu:%llu LSQ=%u %s",
	    args->offset, args->length, args->seqid,
	    sum_lock_stateid(&args->lock_stateid));
}


static void
dtlarg_locku(void *obj)
{
	LOCKU4args *args = (LOCKU4args *)obj;

	sprintf(get_line(0, 0), "Type = %s", lock_type_name(args->locktype));
	sprintf(get_line(0, 0), "Sequence ID = %u", args->seqid);
	detail_lock_stateid(&args->lock_stateid);
	sprintf(get_line(0, 0), "Offset = %llu", args->offset);
	sprintf(get_line(0, 0), "Length = %llu", args->length);
}

static void
sumarg_lookup(char *buf, size_t buflen, void *obj)
{
	LOOKUP4args *args = (LOOKUP4args *)obj;

	sum_compname4(buf, buflen, &args->objname);
}

static void
dtlarg_lookup(void *obj)
{
	LOOKUP4args *args = (LOOKUP4args *)obj;

	detail_compname4(&args->objname);
}

static void
sumarg_read(char *buf, size_t buflen, void *obj)
{
	READ4args *args = (READ4args *)obj;

	snprintf(buf, buflen, "%s at %llu for %u",
	    sum_stateid(&args->stateid), args->offset, args->count);
}

static void
dtlarg_read(void *obj)
{
	READ4args *args = (READ4args *)obj;

	sprintf(get_line(0, 0), "Offset = %llu", args->offset);
	sprintf(get_line(0, 0), "Count = %u", args->count);
	detail_stateid(&args->stateid);
}

static void
sumarg_readdir(char *buf, size_t buflen, void *obj)
{
	READDIR4args *args = (READDIR4args *)obj;

	snprintf(buf, buflen, "Cookie=%llu (%s) for %u/%u",
	    args->cookie, tohex(args->cookieverf, NFS4_VERIFIER_SIZE),
	    args->dircount, args->maxcount);
}

static void
dtlarg_readdir(void *obj)
{
	READDIR4args *args = (READDIR4args *)obj;

	sprintf(get_line(0, 0), "Cookie = %llu", args->cookie);
	sprintf(get_line(0, 0), "Verifier = %s",
	    tohex(args->cookieverf, NFS4_VERIFIER_SIZE));
	sprintf(get_line(0, 0), "Dircount = %u", args->dircount);
	sprintf(get_line(0, 0), "Maxcount = %u", args->maxcount);
	detail_attr_bitmap("", &args->attr_request, NULL);
}

static void
dtlarg_release_lkown(void *obj)
{
	RELEASE_LOCKOWNER4args *args = (RELEASE_LOCKOWNER4args *)obj;

	detail_lock_owner(&args->lock_owner);
}

static void
sumarg_release_lkown(char *buf, size_t buflen, void *obj)
{
	RELEASE_LOCKOWNER4args *args = (RELEASE_LOCKOWNER4args *)obj;

	snprintf(buf, buflen, "LO=%04X", owner_hash(&args->lock_owner.owner));
}

static void
sumarg_rename(char *buf, size_t buflen, void *obj)
{
	RENAME4args *args = (RENAME4args *)obj;

	snprintf(buf, buflen, "%s to %s",
	    component_name(&args->oldname),
	    component_name(&args->newname));
}

static void
dtlarg_rename(void *obj)
{
	RENAME4args *args = (RENAME4args *)obj;

	sprintf(get_line(0, 0), "Old name = %s",
	    component_name(&args->oldname));
	sprintf(get_line(0, 0), "New name = %s",
	    component_name(&args->newname));
}

static void
sumarg_renew(char *buf, size_t buflen, void *obj)
{
	RENEW4args *args = (RENEW4args *)obj;

	snprintf(buf, buflen, "%s", sum_clientid(args->clientid));
}
static void
dtlarg_renew(void *obj)
{
	RENEW4args *args = (RENEW4args *)obj;

	detail_clientid(args->clientid);
}

static void
sumarg_secinfo(char *buf, size_t buflen, void *obj)
{
	SECINFO4args *args = (SECINFO4args *)obj;

	snprintf(buf, buflen, "%s",
	    component_name(&args->name));
}

static void
dtlarg_secinfo(void *obj)
{
	SECINFO4args *args = (SECINFO4args *)obj;

	sprintf(get_line(0, 0), "Name = %s",
	    component_name(&args->name));
}

static void
sumarg_setattr(char *buf, size_t buflen, void *obj)
{
	SETATTR4args *args = (SETATTR4args *)obj;

	snprintf(buf, buflen, "%s", sum_stateid(&args->stateid));
}

static void
dtlarg_setattr(void *obj)
{
	SETATTR4args *args = (SETATTR4args *)obj;

	detail_stateid(&args->stateid);
	detail_fattr4(&args->obj_attributes);
}

static void
sumarg_setclid(char *buf, size_t buflen, void *obj)
{
	SETCLIENTID4args *args = (SETCLIENTID4args *)obj;

	snprintf(buf, buflen, "Prog=%u ID=%s Addr=%s CBID=%u",
	    args->callback.cb_program,
	    args->callback.cb_location.na_r_netid,
	    args->callback.cb_location.na_r_addr, args->callback_ident);
}

static void
dtlarg_setclid(void *obj)
{
	SETCLIENTID4args *args = (SETCLIENTID4args *)obj;

	sprintf(get_line(0, 0), "Verifier=%s",
	    tohex(args->client.verifier, NFS4_VERIFIER_SIZE));
	sprintf(get_line(0, 0), "ID = (%d) %s",
	    args->client.id.id_len,
	    tohex(args->client.id.id_val, args->client.id.id_len));

	sprintf(get_line(0, 0), "Callback Program = %u",
	    args->callback.cb_program);
	sprintf(get_line(0, 0), "Callback Net ID = %s",
	    args->callback.cb_location.na_r_netid);
	sprintf(get_line(0, 0), "Callback Addr = %s",
	    args->callback.cb_location.na_r_addr);
	sprintf(get_line(0, 0), "Callback Ident = %u", args->callback_ident);
}

static void
sumarg_setclid_cfm(char *buf, size_t buflen, void *obj)
{
	SETCLIENTID_CONFIRM4args *args = (SETCLIENTID_CONFIRM4args *)obj;

	snprintf(buf, buflen, "%s CFV=%s", sum_clientid(args->clientid),
	    tohex(args->setclientid_confirm, NFS4_VERIFIER_SIZE));
}

static void
dtlarg_setclid_cfm(void *obj)
{
	SETCLIENTID_CONFIRM4args *args = (SETCLIENTID_CONFIRM4args *)obj;

	detail_clientid(args->clientid);
	sprintf(get_line(0, 0), "Set Client ID Confirm Verifier = %s",
	    tohex(args->setclientid_confirm, NFS4_VERIFIER_SIZE));
}


static void
dtlarg_verify(void *obj)
{
	NVERIFY4args *args = (NVERIFY4args *)obj;

	detail_fattr4(&args->obj_attributes);
}

static void
sumarg_write(char *buf, size_t buflen, void *obj)
{
	WRITE4args *args = (WRITE4args *)obj;

	snprintf(buf, buflen, "%s at %llu for %u",
	    sum_stateid(&args->stateid), args->offset, args->data.data_len);
}

static void
dtlarg_write(void *obj)
{
	WRITE4args *args = (WRITE4args *)obj;

	sprintf(get_line(0, 0), "Offset = %llu", args->offset);
	sprintf(get_line(0, 0), "Count = %u", args->data.data_len);
	sprintf(get_line(0, 0), "Stable = %s", stable_how4_name(args->stable));
	detail_stateid(&args->stateid);
}

static char *
sum_fh4(nfs_fh4 *fh)
{
	static char buf[20];

	sprintf(buf, "FH=%04X", fh4_hash(fh));

	return (buf);
}

static void
detail_fh4(nfs_fh4 *fh)
{
	int i;
	uchar_t *cp;
	char *bufp;

	sprintf(get_line(0, 0), "File handle = [%04X]", fh4_hash(fh));
	bufp = get_line(0, 0);
	sprintf(bufp, "(%d) ", fh->nfs_fh4_len);
	bufp += strlen(bufp);
	/* XXX use tohex()? */
	for (i = 0, cp = (uchar_t *)fh->nfs_fh4_val;
	    i < fh->nfs_fh4_len;
	    i++, cp++) {
		if (i != 0 && i % 32 == 0)
			bufp = get_line(0, 0);
		sprintf(bufp, "%02x", *cp);
		bufp += strlen(bufp);
	}
}

static void
detail_fattr4(fattr4 *attrp)
{
	unpkd_attrmap_t provided;
	uint_t attrnum;
	XDR attrxdr;
	jmp_buf old_errbuf;

	xdrmem_create(&attrxdr, attrp->attr_vals.attrlist4_val,
	    attrp->attr_vals.attrlist4_len, XDR_DECODE);

	bcopy(xdr_err, old_errbuf, sizeof (old_errbuf));
	if (setjmp(xdr_err)) {
		sprintf(get_line(0, 0), "<attr_vals too short>");
		goto done;
	}

	detail_attr_bitmap("", &attrp->attrmask, &provided);
	for (attrnum = 0; attrnum < MAX_ATTRIBUTES; attrnum++) {
		if (provided.map[attrnum]) {
			attr_info[attrnum].prt_details(&attrxdr);
		}
	}

done:
	bcopy(old_errbuf, xdr_err, sizeof (old_errbuf));
}

static void
sum_attr_bitmap(char *buf, size_t buflen, bitmap4 *mapp)
{
	uint_t num_words;
	char *bp;
	size_t curlen, remaining;

	buf[0] = '\0';
	for (num_words = 0; num_words < mapp->bitmap4_len; num_words++) {
		curlen = strlen(buf);
		if (curlen + sizeof ("<Too Long>") >= buflen) {
			strcpy(buf + buflen - sizeof ("<Too Long>"),
			    "<Too Long>");
			return;
		}
		bp = buf + curlen;
		remaining = buflen - curlen;
		snprintf(bp, remaining,
		    num_words == 0 ? "%x" : " %x",
		    mapp->bitmap4_val[num_words]);
	}
}

/*
 * Print detail information for the given attribute bitmap, and fill in the
 * unpacked version of the map if "unpacked" is non-null.  Returns the
 * number of bytes in the bitmap.  "prefix" is an initial string that is
 * printed at the front of each line.
 */

static void
detail_attr_bitmap(char *prefix, bitmap4 *bitp, unpkd_attrmap_t *unpacked)
{
	uint_t num_words;
	uint32_t *wp;
	uint_t byte_num;

	if (unpacked != NULL)
		memset(unpacked, 0, sizeof (unpkd_attrmap_t));

	/*
	 * Break the bitmap into octets, then print in hex and
	 * symbolically.
	 */

	for (num_words = 0, wp = bitp->bitmap4_val;
	    num_words < bitp->bitmap4_len;
	    num_words++, wp++) {
		for (byte_num = 0; byte_num < 4; byte_num++) {
			uchar_t val = (*wp) >> (byte_num * 8);
			char *buf = get_line(0, 0);
			uint_t attrnum;
			int bit;

			sprintf(buf, "%s  0x%02x  ", prefix, val);
			attrnum = num_words * 32 + byte_num * 8;
			for (bit = 7; bit >= 0; bit--) {
				if (val & (1 << bit)) {
					strcat(buf, " ");
					strcat(buf,
					    attr_name(attrnum + bit));
					if (unpacked != NULL)
						unpacked->map[attrnum + bit] =
						    1;
				}
			}
		}
	}
}

/*
 * Format the summary line results from a COMPOUND4 call.
 */

static void
sum_comp4res(char *line, char *(*sumres_fn)(void))
{
	nfsstat4 status;
	static utf8string tag;

	status = getxdr_long();
	if (!xdr_utf8string(&xdrm, &tag))
		longjmp(xdr_err, 1);

	sprintf(line, "(%.20s) %s %s", utf8localize(&tag),
	    status_name(status), sumres_fn());

	xdr_free(xdr_utf8string, (char *)&tag);
}


/*
 * Return a set of summary strings for the result data that's next in the
 * XDR stream, up to SUM_COMPND_MAX characters.  If the strings don't fit,
 * include a "..." at the end of the string.
 */

static char *
sum_compound4res(void)
{
	static char buf[SUM_COMPND_MAX + 2]; /* 1 for null, 1 for overflow */
	int numres;
	const size_t buflen = sizeof (buf);
	char *bp;
	nfs_resop4 one_res;

	buf[0] = '\0';
	if (setjmp(xdr_err)) {
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf),
		    nfs4_fragged_rpc ? nfs4err_fragrpc : nfs4err_xdrfrag);
		return (buf);
	}

	numres = getxdr_long();
	bp = buf;
	while (numres-- > 0) {
		char *result;

		bzero(&one_res, sizeof (one_res));

		if (!xdr_nfs_resop4(&xdrm, &one_res)) {
			xdr_free(xdr_nfs_resop4, (char *)&one_res);
			longjmp(xdr_err, 1);
		}

		snprintf(bp, buflen - (bp - buf), "%s ",
		    opcode_name(one_res.resop));
		bp += strlen(bp);

		result = sum_result(&one_res);
		if (strlen(result) > 0) {
			snprintf(bp, buflen - (bp - buf), "%s ", result);
			bp += strlen(bp);
		}

		/* nfs4_skip_bytes set by xdr_nfs4_argop4() */
		if (nfs4_skip_bytes != 0)
			nfs4_xdr_skip(nfs4_skip_bytes);

		xdr_free(xdr_nfs_resop4, (char *)&one_res);
		/* add "..." if past the "end" of the buffer */
		if (bp - buf > SUM_COMPND_MAX) {
			strcpy(buf + SUM_COMPND_MAX - strlen("..."),
			    "...");
			break;
		}
	}

	return (buf);
}


/*
 * Return a set of summary strings for the result data that's next in the
 * XDR stream, up to SUM_COMPND_MAX characters.  If the strings don't fit,
 * include a "..." at the end of the string.
 */

static char *
sum_cb_compound4res(void)
{
	static char buf[SUM_COMPND_MAX + 2]; /* 1 for null, 1 for overflow */
	int numres;
	const size_t buflen = sizeof (buf);
	char *bp;
	nfs_cb_resop4 one_res;

	buf[0] = '\0';
	if (setjmp(xdr_err)) {
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf), "<XDR Error or Fragmented"
		    " RPC>");
		return (buf);
	}

	numres = getxdr_long();
	bp = buf;
	while (numres-- > 0) {
		bzero(&one_res, sizeof (one_res));
		if (!xdr_nfs_cb_resop4(&xdrm, &one_res)) {
			xdr_free(xdr_nfs_cb_resop4, (char *)&one_res);
			longjmp(xdr_err, 1);
		}
		snprintf(bp, buflen - (bp - buf), "%s %s ",
		    cb_opcode_name(one_res.resop),
		    sum_cb_result(&one_res));
		bp += strlen(bp);

		xdr_free(xdr_nfs_cb_resop4, (char *)&one_res);

		/* add "..." if past the "end" of the buffer */
		if (bp - buf > SUM_COMPND_MAX) {
			strcpy(buf + SUM_COMPND_MAX - strlen("..."),
			    "...");
			break;
		}
	}

	return (buf);
}


/*
 * Return the summarized results for the given resultdata.
 */

static char *
sum_result(nfs_resop4 *resp)
{
	static char buf[1024];
	void (*fmtproc)(char *, size_t, void *);

	buf[0] = '\0';
	if (resp->resop < num_opcodes)
		fmtproc = opcode_info[resp->resop].sumres;
	else if (resp->resop == OP_ILLEGAL)
		fmtproc = sum_nfsstat4;
	else
		fmtproc = NULL;

	if (fmtproc != NULL)
		fmtproc(buf, sizeof (buf), &resp->nfs_resop4_u);

	return (buf);
}

/*
 * Return the summarized results for the given resultdata.
 */

static char *
sum_cb_result(nfs_cb_resop4 *resp)
{
	static char buf[1024];
	void (*fmtproc)(char *, size_t, void *);

	buf[0] = '\0';
	if (resp->resop < cb_num_opcodes)
		fmtproc = cb_opcode_info[resp->resop].sumres;
	else if (resp->resop == OP_CB_ILLEGAL)
		fmtproc = sum_nfsstat4;
	else
		fmtproc = NULL;

	if (fmtproc != NULL)
		fmtproc(buf, sizeof (buf), &resp->nfs_cb_resop4_u);

	return (buf);
}


static void
dtl_change_info(char *msg, change_info4 *infop)
{
	sprintf(get_line(0, 0), "%s:", msg);
	sprintf(get_line(0, 0), "  Atomic = %s",
	    infop->atomic ? "TRUE" : "FALSE");
	detail_fattr4_change("  Before", infop->before);
	detail_fattr4_change("  After", infop->after);
}

static void
detail_fattr4_change(char *msg, fattr4_change chg)
{
	sprintf(get_line(0, 0), "%s: 0x%llx", msg, chg);
					/* XXX print as time_t, too? */
}

static void
sum_nfsstat4(char *buf, size_t buflen, void *obj)
{
	nfsstat4 status = *(nfsstat4 *)obj;

	strncpy(buf, status_name(status), buflen);
}

static void
dtl_nfsstat4(void *obj)
{
	nfsstat4 status = *(nfsstat4 *)obj;

	sprintf(get_line(0, 0), "Status = %d (%s)", status,
	    status_name(status));
}

static void
sumres_access(char *buf, size_t buflen, void *obj)
{
	ACCESS4res *res = (ACCESS4res *)obj;
	char *bp = buf;
	int len, blen = buflen;

	strcpy(bp, status_name(res->status));
	if (res->status == NFS4_OK) {
		bp += (len = strlen(bp));
		blen -= len;

		snprintf(bp, blen, " Supp=");
		bp += (len = strlen(bp));
		blen -= len;

		sum_access4(bp, blen, res->ACCESS4res_u.resok4.supported);
		bp += (len = strlen(bp));
		blen -= len;

		snprintf(bp, blen, " Allow=");
		bp += (len = strlen(bp));
		blen -= len;

		sum_access4(bp, blen, res->ACCESS4res_u.resok4.access);
	}
}

static void
dtlres_access(void *obj)
{
	ACCESS4res *res = (ACCESS4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		detail_access4("Supported Attributes",
		    res->ACCESS4res_u.resok4.supported);
		detail_access4("Allowed Attributes",
		    res->ACCESS4res_u.resok4.access);
	}
}

static void
sumres_close(char *buf, size_t buflen, void *obj)
{
	CLOSE4res *res = (CLOSE4res *)obj;

	if (res->status == NFS4_OK)
		snprintf(buf, buflen, "%s",
		    sum_open_stateid(&res->CLOSE4res_u.open_stateid));
}

static void
dtlres_close(void *obj)
{
	CLOSE4res *res = (CLOSE4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		detail_open_stateid(&res->CLOSE4res_u.open_stateid);
	}
}

static void
sumres_commit(char *buf, size_t buflen, void *obj)
{
	COMMIT4res *res = (COMMIT4res *)obj;

	if (res->status == NFS4_OK)
		snprintf(buf, buflen, "Verf=%s",
		    tohex(res->COMMIT4res_u.resok4.writeverf,
		    NFS4_VERIFIER_SIZE));
}

static void
dtlres_commit(void *obj)
{
	COMMIT4res *res = (COMMIT4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		sprintf(get_line(0, 0), "Verifier = %s",
		    tohex(res->COMMIT4res_u.resok4.writeverf,
		    NFS4_VERIFIER_SIZE));
	}
}

static void
dtlres_create(void *obj)
{
	CREATE4res *res = (CREATE4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		dtl_change_info("Change Information",
		    &res->CREATE4res_u.resok4.cinfo);
		detail_attr_bitmap("", &res->CREATE4res_u.resok4.attrset,
		    NULL);
	}
}

static void
sumres_getattr(char *buf, size_t buflen, void *obj)
{
	GETATTR4res *res = (GETATTR4res *)obj;

	strncpy(buf, status_name(res->status), buflen);
}

static void
dtlres_getattr(void *obj)
{
	GETATTR4res *res = (GETATTR4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		detail_fattr4(&res->GETATTR4res_u.resok4.obj_attributes);
	}
}

static void
sumres_cb_getattr(char *buf, size_t buflen, void *obj)
{
	CB_GETATTR4res *res = (CB_GETATTR4res *)obj;

	strncpy(buf, status_name(res->status), buflen);
}

static void
dtlres_cb_getattr(void *obj)
{
	CB_GETATTR4res *res = (CB_GETATTR4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		detail_fattr4(&res->CB_GETATTR4res_u.resok4.obj_attributes);
	}
}


static void
sumres_getfh(char *buf, size_t buflen, void *obj)
{
	char *bp;
	GETFH4res *res = (GETFH4res *)obj;

	strncpy(buf, status_name(res->status), buflen);
	if (res->status == NFS4_OK) {
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf), " %s",
		    sum_fh4(&res->GETFH4res_u.resok4.object));
	}
}

static void
dtlres_getfh(void *obj)
{
	GETFH4res *res = (GETFH4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		detail_fh4(&res->GETFH4res_u.resok4.object);
	}
}

static void
dtlres_link(void *obj)
{
	LINK4res *res = (LINK4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		dtl_change_info("Change Information",
		    &res->LINK4res_u.resok4.cinfo);
	}
}

static void
sumres_lock(char *buf, size_t buflen, void *obj)
{
	char *bp;
	LOCK4res *res = (LOCK4res *)obj;

	strncpy(buf, status_name(res->status), buflen);
	if (res->status == NFS4_OK) {
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf), " %s",
		    sum_lock_stateid(&res->LOCK4res_u.resok4.lock_stateid));
	}
	if (res->status == NFS4ERR_DENIED) {
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf), " %s",
		    sum_lock_denied(&res->LOCK4res_u.denied));
	}
}

static void
dtlres_lock(void *obj)
{
	LOCK4res *res = (LOCK4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		detail_lock_stateid(&res->LOCK4res_u.resok4.lock_stateid);
	}
	if (res->status == NFS4ERR_DENIED) {
		detail_lock_denied(&res->LOCK4res_u.denied);
	}
}

static void
sumres_lockt(char *buf, size_t buflen, void *obj)
{
	char *bp;
	LOCKT4res *res = (LOCKT4res *)obj;

	strcpy(buf, status_name(res->status));
	if (res->status == NFS4ERR_DENIED) {
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf), " %s",
		    sum_lock_denied(&res->LOCKT4res_u.denied));
	}
}

static void
dtlres_lockt(void *obj)
{
	LOCKT4res *res = (LOCKT4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4ERR_DENIED) {
		detail_lock_denied(&res->LOCKT4res_u.denied);
	}
}

static void
sumres_locku(char *buf, size_t buflen, void *obj)
{
	char *bp;
	LOCKU4res *res = (LOCKU4res *)obj;

	strncpy(buf, status_name(res->status), buflen);
	bp = buf + strlen(buf);
	if (res->status == NFS4_OK)
		snprintf(bp, buflen - (bp - buf), " %s",
		    sum_lock_stateid(&res->LOCKU4res_u.lock_stateid));
}

static void
dtlres_locku(void *obj)
{
	LOCKU4res *res = (LOCKU4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK)
		detail_lock_stateid(&res->LOCKU4res_u.lock_stateid);
}

static void
sumres_open(char *buf, size_t buflen, void *obj)
{
	char *bp = buf;
	OPEN4res *res = (OPEN4res *)obj;
	uint_t rflags;
	int len, blen = buflen;

	strncpy(bp, status_name(res->status), blen);

	if (res->status == NFS4_OK) {
		bp += (len = strlen(bp));
		blen -= len;

		snprintf(bp, blen, " %s",
		    sum_stateid(&res->OPEN4res_u.resok4.stateid));
		bp += (len = strlen(bp));
		blen -= len;

		if ((rflags = res->OPEN4res_u.resok4.rflags) != 0) {
			snprintf(bp, blen, "%s", sum_open_rflags(rflags));
			bp += (len = strlen(bp));
			blen -= len;
		}

		sum_delegation(bp, blen, &res->OPEN4res_u.resok4.delegation);
	}
}

static void
dtlres_open(void *obj)
{
	OPEN4res *res = (OPEN4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		detail_stateid(&res->OPEN4res_u.resok4.stateid);
		dtl_change_info("Change Information",
		    &res->OPEN4res_u.resok4.cinfo);
		sprintf(get_line(0, 0), "Flags = 0x%x (%s)",
		    res->OPEN4res_u.resok4.rflags,
		    detail_open_rflags(res->OPEN4res_u.resok4.rflags));
		detail_attr_bitmap("", &res->OPEN4res_u.resok4.attrset,
		    NULL);
		detail_delegation(&res->OPEN4res_u.resok4.delegation);
	}
}

static void
sumres_open_confirm(char *buf, size_t buflen, void *obj)
{
	char *bp;
	OPEN_CONFIRM4res *res = (OPEN_CONFIRM4res *)obj;

	strncpy(buf, status_name(res->status), buflen);
	if (res->status == NFS4_OK) {
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf), " %s",
		    sum_open_stateid(&res->OPEN_CONFIRM4res_u.resok4.
		    open_stateid));
	}
}

static void
dtlres_open_confirm(void *obj)
{
	OPEN_CONFIRM4res *res = (OPEN_CONFIRM4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		detail_open_stateid(&res->OPEN_CONFIRM4res_u.resok4.
		    open_stateid);
	}
}

static void
sumres_open_downgrd(char *buf, size_t buflen, void *obj)
{
	char *bp;
	OPEN_DOWNGRADE4res *res = (OPEN_DOWNGRADE4res *)obj;

	strncpy(buf, status_name(res->status), buflen);
	if (res->status == NFS4_OK) {
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf), " %s",
		    sum_open_stateid(&res->OPEN_DOWNGRADE4res_u.resok4.
		    open_stateid));
	}
}

static void
dtlres_open_downgrd(void *obj)
{
	OPEN_DOWNGRADE4res *res = (OPEN_DOWNGRADE4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		detail_open_stateid(&res->OPEN_DOWNGRADE4res_u.resok4.
		    open_stateid);
	}
}

static void
sumres_read(char *buf, size_t buflen, void *obj)
{
	char *bp;
	READ4res *res = (READ4res *)obj;

	strncpy(buf, status_name(res->status), buflen);
	if (res->status == NFS4_OK) {
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf), " (%u bytes) %s",
		    res->READ4res_u.resok4.data.data_len,
		    res->READ4res_u.resok4.eof ? "EOF" : "");
	}
}

static void
dtlres_read(void *obj)
{
	READ4res *res = (READ4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		sprintf(get_line(0, 0), "Count = %u bytes read",
		    res->READ4res_u.resok4.data.data_len);
		sprintf(get_line(0, 0), "End of file = %s",
		    res->READ4res_u.resok4.eof ? "TRUE" : "FALSE");
	}
}

static void
sumres_readdir(char *buf, size_t buflen, void *obj)
{
	char *bp;
	READDIR4res *res = (READDIR4res *)obj;
	int num_entries = 0;
	entry4 *ep;

	strncpy(buf, status_name(res->status), buflen);
	if (res->status == NFS4_OK) {
		for (ep = res->READDIR4res_u.resok4.reply.entries;
		    ep != NULL;
		    ep = ep->nextentry)
			num_entries++;
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf), " %d entries (%s)",
		    num_entries,
		    res->READDIR4res_u.resok4.reply.eof
		    ? "No more" : "More");
	}
}

static void
dtlres_readdir(void *obj)
{
	READDIR4res *res = (READDIR4res *)obj;
	int num_entries = 0;
	entry4 *ep;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		for (ep = res->READDIR4res_u.resok4.reply.entries;
		    ep != NULL;
		    ep = ep->nextentry) {
			num_entries++;
			sprintf(get_line(0, 0),
			    "------------------ entry #%d",
			    num_entries);
			sprintf(get_line(0, 0), "Cookie = %llu",
			    ep->cookie);
			sprintf(get_line(0, 0), "Name = %s",
			    component_name(&ep->name));
			detail_fattr4(&ep->attrs);
		}
		if (num_entries == 0)
			sprintf(get_line(0, 0), "(No entries)");
		sprintf(get_line(0, 0), "EOF = %s",
		    res->READDIR4res_u.resok4.reply.eof ? "TRUE" : "FALSE");
		sprintf(get_line(0, 0), "Verifer = %s",
		    tohex(res->READDIR4res_u.resok4.cookieverf,
		    NFS4_VERIFIER_SIZE));
	}
}

static void
sumres_readlnk(char *buf, size_t buflen, void *obj)
{
	char *bp;
	READLINK4res *res = (READLINK4res *)obj;

	strncpy(buf, status_name(res->status), buflen);
	if (res->status == NFS4_OK) {
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf), " %s",
		    linktext_name(&res->READLINK4res_u.resok4.link));
	}
}

static void
dtlres_readlnk(void *obj)
{
	READLINK4res *res = (READLINK4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		sprintf(get_line(0, 0), "Link = %s",
		    linktext_name(&res->READLINK4res_u.resok4.link));
	}
}

static void
dtlres_remove(void *obj)
{
	REMOVE4res *res = (REMOVE4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		dtl_change_info("Change Information",
		    &res->REMOVE4res_u.resok4.cinfo);
	}
}

static void
dtlres_rename(void *obj)
{
	RENAME4res *res = (RENAME4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		dtl_change_info("Source Change Information",
		    &res->RENAME4res_u.resok4.source_cinfo);
		dtl_change_info("Target Change Information",
		    &res->RENAME4res_u.resok4.target_cinfo);
	}
}

static void
sumres_secinfo(char *buf, size_t buflen, void *obj)
{
	char *bp;
	SECINFO4res *res = (SECINFO4res *)obj;

	strncpy(buf, status_name(res->status), buflen);
	bp = buf + strlen(buf);
	if (res->status == NFS4_OK) {
		uint_t numinfo = res->SECINFO4res_u.resok4.SECINFO4resok_len;
		secinfo4 *infop;

		for (infop = res->SECINFO4res_u.resok4.SECINFO4resok_val;
		    numinfo != 0;
		    infop++, numinfo--) {
			snprintf(bp, buflen - (bp - buf), " %s",
			    flavor_name(infop->flavor));
			bp += strlen(bp);
		}
	}
}

static void
dtlres_secinfo(void *obj)
{
	SECINFO4res *res = (SECINFO4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		uint_t numinfo =
		    res->SECINFO4res_u.resok4.SECINFO4resok_len;
		secinfo4 *infop;

		for (infop = res->SECINFO4res_u.resok4.SECINFO4resok_val;
		    numinfo != 0;
		    infop++, numinfo--) {
			detail_secinfo4(infop);
		}
	}
}

static void
sumres_setattr(char *buf, size_t buflen, void *obj)
{
	SETATTR4res *res = (SETATTR4res *)obj;
	size_t len;

	(void) snprintf(buf, buflen, "%s ", status_name(res->status));
	len = strlen(buf);
	sum_attr_bitmap(buf + len, buflen - len, &res->attrsset);
}

static void
dtlres_setattr(void *obj)
{
	SETATTR4res *res = (SETATTR4res *)obj;

	dtl_nfsstat4(obj);
	detail_attr_bitmap("", &res->attrsset, NULL);
}

static void
sumres_setclid(char *buf, size_t buflen, void *obj)
{
	char *bp;
	SETCLIENTID4res *res = (SETCLIENTID4res *)obj;

	strncpy(buf, status_name(res->status), buflen);
	switch (res->status) {
	case NFS_OK:
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf), " %s CFV=%s",
		    sum_clientid(res->SETCLIENTID4res_u.resok4.clientid),
		    tohex(res->SETCLIENTID4res_u.resok4.setclientid_confirm,
		    NFS4_VERIFIER_SIZE));
		break;
	case NFS4ERR_CLID_INUSE:
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf), " ID=%s Addr=%s",
		    res->SETCLIENTID4res_u.client_using.na_r_netid,
		    res->SETCLIENTID4res_u.client_using.na_r_addr);
		break;
	}
}

static void
dtlres_setclid(void *obj)
{
	SETCLIENTID4res *res = (SETCLIENTID4res *)obj;

	dtl_nfsstat4(obj);
	switch (res->status) {
	case NFS_OK:
		detail_clientid(res->SETCLIENTID4res_u.resok4.clientid);
		sprintf(get_line(0, 0), "Set Client ID Confirm Verifier = %s",
		    tohex(res->SETCLIENTID4res_u.resok4.setclientid_confirm,
		    NFS4_VERIFIER_SIZE));
		break;
	case NFS4ERR_CLID_INUSE:
		sprintf(get_line(0, 0), "Used by Net ID = %s",
		    res->SETCLIENTID4res_u.client_using.na_r_netid);
		sprintf(get_line(0, 0), "Used by Addr = %s",
		    res->SETCLIENTID4res_u.client_using.na_r_addr);
		break;
	}
}

static void
sumres_write(char *buf, size_t buflen, void *obj)
{
	char *bp;
	WRITE4res *res = (WRITE4res *)obj;

	strncpy(buf, status_name(res->status), buflen);
	if (res->status == NFS4_OK) {
		bp = buf + strlen(buf);
		snprintf(bp, buflen - (bp - buf), " %u (%s)",
		    res->WRITE4res_u.resok4.count,
		    stable_how4_name(res->WRITE4res_u.resok4.committed));
	}
}

static void
dtlres_write(void *obj)
{
	WRITE4res *res = (WRITE4res *)obj;

	dtl_nfsstat4(obj);
	if (res->status == NFS4_OK) {
		sprintf(get_line(0, 0), "Count = %u bytes written",
		    res->WRITE4res_u.resok4.count);
		sprintf(get_line(0, 0), "Stable = %s",
		    stable_how4_name(res->WRITE4res_u.resok4.committed));
		sprintf(get_line(0, 0), "Verifier = %s",
		    tohex(res->WRITE4res_u.resok4.writeverf,
		    NFS4_VERIFIER_SIZE));
	}
}

/*
 * Print details about the nfs_resop4 that is next in the XDR stream.
 */

static void
detail_nfs_resop4(void)
{
	int numres;
	nfs_resop4 one_res;
	void (*fmtproc)(void *);

	numres = getxdr_long();
	(void) sprintf(get_line(0, 0), "Number of results = %d",
	    numres);

	while (numres-- > 0) {
		bzero(&one_res, sizeof (one_res));

		if (!xdr_nfs_resop4(&xdrm, &one_res)) {
			xdr_free(xdr_nfs_resop4, (char *)&one_res);
			longjmp(xdr_err, 1);
		}

		get_line(0, 0);		/* blank line to separate ops */
		sprintf(get_line(0, 0), "Op = %d (%s)",
		    one_res.resop, opcode_name(one_res.resop));
		if (one_res.resop < num_opcodes)
			fmtproc = opcode_info[one_res.resop].dtlres;
		else if (one_res.resop == OP_ILLEGAL)
			fmtproc = dtl_nfsstat4;
		else
			fmtproc = NULL;

		if (fmtproc != NULL)
			fmtproc(&one_res.nfs_resop4_u);

		/* nfs4_skip_bytes set by xdr_nfs_resop4()() */
		if (nfs4_skip_bytes)
			nfs4_xdr_skip(nfs4_skip_bytes);

		xdr_free(xdr_nfs_resop4, (char *)&one_res);
	}
}


/*
 * Print details about the nfs_cb_resop4 that is next in the XDR stream.
 */

static void
detail_cb_resop4(void)
{
	int numres;
	nfs_cb_resop4 one_res;
	void (*fmtproc)(void *);

	numres = getxdr_long();
	(void) sprintf(get_line(0, 0), "Number of results = %d",
	    numres);

	while (numres-- > 0) {
		bzero(&one_res, sizeof (one_res));
		if (!xdr_nfs_cb_resop4(&xdrm, &one_res))
			longjmp(xdr_err, 1);

		get_line(0, 0);		/* blank line to separate ops */
		sprintf(get_line(0, 0), "Op = %d (%s)",
		    one_res.resop, cb_opcode_name(one_res.resop));
		if (one_res.resop < cb_num_opcodes)
			fmtproc = cb_opcode_info[one_res.resop].dtlres;
		else if (one_res.resop == OP_CB_ILLEGAL)
			fmtproc = dtl_nfsstat4;
		else
			fmtproc = NULL;

		if (fmtproc != NULL)
			fmtproc(&one_res.nfs_cb_resop4_u);

		xdr_free(xdr_nfs_cb_resop4, (char *)&one_res);
	}
}


/*
 * Return the name of a lock type.
 */
static char *
lock_type_name(enum nfs_lock_type4 type)
{
	char *result;

	switch (type) {
	case READ_LT:
		result = "READ";
		break;
	case WRITE_LT:
		result = "WRITE";
		break;
	case READW_LT:
		result = "READW";
		break;
	case WRITEW_LT:
		result = "WRITEW";
		break;
	default:
		result = "?";
		break;
	}

	return (result);
}

/*
 * Return the name of an opcode.
 */

static char *
opcode_name(uint_t opnum)
{
	static char buf[20];

	if (opnum < num_opcodes)
		return (opcode_info[opnum].name);

	if (opnum == OP_ILLEGAL)
		return ("ILLEGAL");

	sprintf(buf, "op %d", opnum);
	return (buf);
}

/*
 * Return the name of an opcode.
 */
static char *
cb_opcode_name(uint_t opnum)
{
	static char buf[20];

	if (opnum < cb_num_opcodes)
		return (cb_opcode_info[opnum].name);

	if (opnum == OP_CB_ILLEGAL)
		return ("CB_ILLEGAL");

	sprintf(buf, "op %d", opnum);
	return (buf);
}


/*
 * Fill in a summary string for the given access bitmask.
 */

static void
sum_access4(char *buf, size_t buflen, uint32_t bits)
{
	buf[0] = '\0';

	if (bits & ACCESS4_READ)
		(void) strncat(buf, "rd,", buflen);
	if (bits & ACCESS4_LOOKUP)
		(void) strncat(buf, "lk,", buflen);
	if (bits & ACCESS4_MODIFY)
		(void) strncat(buf, "mo,", buflen);
	if (bits & ACCESS4_EXTEND)
		(void) strncat(buf, "ext,", buflen);
	if (bits & ACCESS4_DELETE)
		(void) strncat(buf, "dl,", buflen);
	if (bits & ACCESS4_EXECUTE)
		(void) strncat(buf, "exc,", buflen);
	if (buf[0] != '\0')
		buf[strlen(buf) - 1] = '\0';
}

/*
 * Print detail information about the given access bitmask.
 */

static void
detail_access4(char *descrip, uint32_t bits)
{
	sprintf(get_line(0, 0), "%s = 0x%08x", descrip, bits);

	(void) sprintf(get_line(0, 0), "	%s",
	    getflag(bits, ACCESS4_READ, "Read", "(no read)"));
	(void) sprintf(get_line(0, 0), "	%s",
	    getflag(bits, ACCESS4_LOOKUP, "Lookup", "(no lookup)"));
	(void) sprintf(get_line(0, 0), "	%s",
	    getflag(bits, ACCESS4_MODIFY, "Modify", "(no modify)"));
	(void) sprintf(get_line(0, 0), "	%s",
	    getflag(bits, ACCESS4_EXTEND, "Extend", "(no extend)"));
	(void) sprintf(get_line(0, 0), "	%s",
	    getflag(bits, ACCESS4_DELETE, "Delete", "(no delete)"));
	(void) sprintf(get_line(0, 0), "	%s",
	    getflag(bits, ACCESS4_EXECUTE, "Execute", "(no execute)"));
}


/*
 * Fill in a summary string for the given open_claim4.
 */
static void
sum_name(char *buf, size_t buflen, open_claim4 *claim)
{
	char *bp = buf;

	switch (claim->claim) {
	case CLAIM_NULL:
		snprintf(bp, buflen, "%s ",
		    component_name(&claim->open_claim4_u.file));
		break;
	case CLAIM_PREVIOUS:
		break;
	case CLAIM_DELEGATE_CUR:
		snprintf(bp, buflen, "%s ",
		    component_name(&claim->open_claim4_u.
		    delegate_cur_info.file));
		break;
	case CLAIM_DELEGATE_PREV:
		snprintf(bp, buflen, "%s ",
		    component_name(&claim->open_claim4_u.
		    file_delegate_prev));
		break;
	}
}

/*
 * Fill in a summary string for the given open_claim4.
 */
static void
sum_claim(char *buf, size_t buflen, open_claim4 *claim)
{
	char *bp = buf;

	switch (claim->claim) {
	case CLAIM_NULL:
		snprintf(bp, buflen, " CT=N");
		break;
	case CLAIM_PREVIOUS:
		snprintf(bp, buflen, " CT=P DT=%s",
		    get_deleg_typestr(claim->open_claim4_u.delegate_type));
		break;
	case CLAIM_DELEGATE_CUR:
		snprintf(bp, buflen, " CT=DC %s",
		    sum_deleg_stateid(&claim->open_claim4_u.
		    delegate_cur_info.delegate_stateid));
		break;
	case CLAIM_DELEGATE_PREV:
		snprintf(bp, buflen, " CT=DP");
		break;
	default:
		snprintf(bp, buflen, " CT=?");
		break;
	}
}

static char *
get_deleg_typestr(open_delegation_type4 dt)
{
	char *str = "";

	switch (dt) {
	case OPEN_DELEGATE_NONE:
		str = "N";
		break;
	case OPEN_DELEGATE_READ:
		str = "R";
		break;
	case OPEN_DELEGATE_WRITE:
		str = "W";
		break;
	default:
		str = "?";
	}

	return (str);
}

/*
 * Print detail information for the given open_claim4.
 */

static void
detail_claim(open_claim4 *claim)
{
	sprintf(get_line(0, 0), "Claim Type = %d (%s)",
	    claim->claim, claim_name(claim->claim));

	switch (claim->claim) {
	case CLAIM_NULL:
		detail_compname4(&claim->open_claim4_u.file);
		break;
	case CLAIM_PREVIOUS:
		sprintf(get_line(0, 0), "Delegate Type = %s (val = %d)",
		    get_deleg_typestr(claim->open_claim4_u.delegate_type),
		    claim->open_claim4_u.delegate_type);
		break;
	case CLAIM_DELEGATE_CUR:
		detail_compname4(&claim->open_claim4_u.delegate_cur_info.file);
		detail_deleg_stateid(&claim->open_claim4_u.delegate_cur_info.
		    delegate_stateid);
		break;
	case CLAIM_DELEGATE_PREV:
		detail_compname4(&claim->open_claim4_u.file_delegate_prev);
		break;
	}
}

/*
 * Return a summary string for the given clientid4.
 */
static char *
sum_clientid(clientid4 client)
{
	static char buf[50];

	snprintf(buf, sizeof (buf), "CL=%llx", client);

	return (buf);
}

/*
 * Print a detail string for the given clientid4.
 */
static void
detail_clientid(clientid4 client)
{
	sprintf(get_line(0, 0), "Client ID = %llx", client);
}

/*
 * Write a summary string for the given delegation into buf.
 */

static void
sum_delegation(char *buf, size_t buflen, open_delegation4 *delp)
{
	switch (delp->delegation_type) {
	case OPEN_DELEGATE_NONE:
		snprintf(buf, buflen, " DT=N");
		break;
	case OPEN_DELEGATE_READ:
		snprintf(buf, buflen, " DT=R %s",
		    sum_deleg_stateid(&delp->open_delegation4_u.write.
		    stateid));
		break;
	case OPEN_DELEGATE_WRITE:
		snprintf(buf, buflen, " DT=W %s %s",
		    sum_deleg_stateid(&delp->open_delegation4_u.write.
		    stateid),
		    sum_space_limit(&delp->open_delegation4_u.write.
		    space_limit));
		break;
	default:
		snprintf(buf, buflen, " DT=?");
		break;
	}
}

static void
detail_delegation(open_delegation4 *delp)
{
	sprintf(get_line(0, 0), "Delegation Type = %d (%s)",
	    delp->delegation_type,
	    delegation_type_name(delp->delegation_type));

	switch (delp->delegation_type) {
	case OPEN_DELEGATE_NONE:
		/* no-op */
		break;
	case OPEN_DELEGATE_READ:
		detail_deleg_stateid(&delp->open_delegation4_u.read.stateid);
		sprintf(get_line(0, 0), "Recall = %s",
		    delp->open_delegation4_u.read.recall ?
		    "TRUE" : "FALSE");
		sprintf(get_line(0, 0), "[nfsacl4]");
		break;
	case OPEN_DELEGATE_WRITE:
		detail_deleg_stateid(&delp->open_delegation4_u.write.stateid);
		sprintf(get_line(0, 0), "Recall = %s",
		    delp->open_delegation4_u.write.recall ?
		    "TRUE" : "FALSE");
		detail_space_limit(&delp->open_delegation4_u.write.
		    space_limit);
		sprintf(get_line(0, 0), "[nfsacl4]");
		break;
	}
}


static void
detail_open_owner(open_owner4 *owner)
{
	sprintf(get_line(0, 0), "Open Owner hash = [%04X] ",
	    owner_hash(&owner->owner));
	sprintf(get_line(0, 0), "    len = %u   val = %s ",
	    owner->owner.owner_len,
	    tohex(owner->owner.owner_val, owner->owner.owner_len));
	detail_clientid(owner->clientid);
}

static void
detail_lock_owner(lock_owner4 *owner)
{
	sprintf(get_line(0, 0), "Lock Owner hash = [%04X] ",
	    owner_hash(&owner->owner));
	sprintf(get_line(0, 0), "    len = %u   val = %s ",
	    owner->owner.owner_len,
	    tohex(owner->owner.owner_val, owner->owner.owner_len));
	detail_clientid(owner->clientid);
}

static void
sum_openflag(char *bufp, int buflen, openflag4 *flagp)
{
	if (flagp->opentype == OPEN4_CREATE) {
		switch (flagp->openflag4_u.how.mode) {
		case UNCHECKED4:
			snprintf(bufp, buflen, "OT=CR(U)");
			break;
		case GUARDED4:
			snprintf(bufp, buflen, "OT=CR(G)");
			break;
		case EXCLUSIVE4:
			snprintf(bufp, buflen, "OT=CR(E)");
			break;
		default:
			snprintf(bufp, buflen, "OT=CR(?:%d)",
			    flagp->openflag4_u.how.mode);
			break;
		}
	} else
		snprintf(bufp, buflen, "OT=NC");
}

static void
detail_openflag(openflag4 *flagp)
{
	sprintf(get_line(0, 0), "Open Type = %s",
	    flagp->opentype == OPEN4_CREATE ? "CREATE" : "NOCREATE");
	if (flagp->opentype == OPEN4_CREATE)
		detail_createhow4(&flagp->openflag4_u.how);
}

/*
 * Fill in buf with the given path.
 */
static void
sum_pathname4(char *buf, size_t buflen, pathname4 *pathp)
{
	char *bp = buf;
	uint_t component;

	for (component = 0; component < pathp->pathname4_len;
	    component++) {
		snprintf(bp, buflen - (bp - buf),
		    component == 0 ? "%s" : "/%s",
		    component_name(&pathp->pathname4_val[component]));
		bp += strlen(bp);
	}
}

static void
sum_compname4(char *buf, size_t buflen, component4 *comp)
{
	snprintf(buf, buflen, "%s", component_name(comp));
}

static void
detail_compname4(component4 *comp)
{
	sprintf(get_line(0, 0), "%s", component_name(comp));
}

static void
detail_pathname4(pathname4 *pathp, char *what)
{
	char *bp = get_line(0, 0);
	uint_t component;

	sprintf(bp, what);
	bp += strlen(bp);

	for (component = 0; component < pathp->pathname4_len; component++) {
		sprintf(bp, component == 0 ? "%s" : "/%s",
		    component_name(&pathp->pathname4_val[component]));
		bp += strlen(bp);
	}
}

/*
 * Print detail information about the rpcsec_gss_info that is XDR-encoded
 * at mem.
 */

static void
detail_rpcsec_gss(rpcsec_gss_info *info)
{
	sprintf(get_line(0, 0), "OID = %s",
	    tohex(info->oid.sec_oid4_val, info->oid.sec_oid4_len));
	sprintf(get_line(0, 0), "QOP = %u", info->qop);
	sprintf(get_line(0, 0), "Service = %d (%s)",
	    info->service, gss_svc_name(info->service));
}

/*
 * Print detail information about the given secinfo4.
 */

static void
detail_secinfo4(secinfo4 *infop)
{
	sprintf(get_line(0, 0), "Flavor = %d (%s)",
	    infop->flavor, flavor_name(infop->flavor));
	switch (infop->flavor) {
	case RPCSEC_GSS:
		detail_rpcsec_gss(&infop->secinfo4_u.flavor_info);
		break;
	}
}


/*
 * Return a summary string corresponding to the given nfs_space_limit4.
 */

static char *
sum_space_limit(nfs_space_limit4 *limitp)
{
	static char buf[64];
	int buflen = sizeof (buf);

	buf[0] = '\0';
	switch (limitp->limitby) {
	case NFS_LIMIT_SIZE:
		snprintf(buf, buflen, "LB=SZ(%llu)",
		    limitp->nfs_space_limit4_u.filesize);
		break;
	case NFS_LIMIT_BLOCKS:
		snprintf(buf, buflen, "LB=BL(%u*%u)",
		    limitp->nfs_space_limit4_u.mod_blocks.num_blocks,
		    limitp->nfs_space_limit4_u.mod_blocks.bytes_per_block);
		break;
	default:
		snprintf(buf, buflen, "LB=?(%d)", limitp->limitby);
		break;
	}

	return (buf);
}

/*
 * Print detail information about the given nfs_space_limit4.
 */

static void
detail_space_limit(nfs_space_limit4 *limitp)
{
	sprintf(get_line(0, 0), "LimitBy = %d (%s)",
	    limitp->limitby,
	    limitby_name(limitp->limitby));

	switch (limitp->limitby) {
	case NFS_LIMIT_SIZE:
		sprintf(get_line(0, 0), "Bytes = %llu",
		    limitp->nfs_space_limit4_u.filesize);
		break;
	case NFS_LIMIT_BLOCKS:
		sprintf(get_line(0, 0), "Blocks = %u",
		    limitp->nfs_space_limit4_u.mod_blocks.num_blocks);
		sprintf(get_line(0, 0), "Bytes Per Block = %u",
		    limitp->nfs_space_limit4_u.mod_blocks.bytes_per_block);
		break;
	}
}


/*
 * Return the short name of a file type.
 */

static char *
sum_type_name(nfs_ftype4 type)
{
	static char buf[20];

	if (type < num_ftypes)
		return (ftype_names[type].short_name);
	else {
		sprintf(buf, "type %d", type);
		return (buf);
	}
}


/*
 * Return string with long/short flag names
 */

static char *
get_flags(uint_t flag, ftype_names_t *names, uint_t num_flags, int shortname,
    char *prefix)
{
	static char buf[200];
	char *bp = buf, *str;
	int i, len, blen = sizeof (buf);
	ftype_names_t *fn = NULL;

	*bp = '\0';

	if (prefix) {
		snprintf(bp, blen, "%s", prefix);
		bp += (len = sizeof (bp));
		blen -= len;
	}

	for (i = 0; i < 32; i++)
		if (flag & (1 << i)) {
			fn = names + (i < num_flags ? i : num_flags);
			str = (shortname ? fn->short_name : fn->long_name);

			snprintf(bp, blen, "%s,", str);
			bp += (len = strlen(bp));
			blen -= len;
		}

	if (fn)
		*(bp - 1) = '\0';
	else
		*buf = '\0';

	return (buf);
}


/*
 * Return the long name of a file type.
 */

static char *
detail_type_name(nfs_ftype4 type)
{
	static char buf[20];

	if (type < num_ftypes)
		return (ftype_names[type].long_name);
	else {
		sprintf(buf, "type %d", type);
		return (buf);
	}
}

/*
 * Return the name of an attribute.
 */

static char *
attr_name(uint_t attrnum)
{
	static char buf[20];

	if (attrnum < MAX_ATTRIBUTES)
		return (attr_info[attrnum].name);
	else {
		sprintf(buf, "attr #%d", attrnum);
		return (buf);
	}
}

/*
 * Return the name of the given open_claim_type4.
 */

static char *
claim_name(enum open_claim_type4 claim_type)
{
	char *result;

	switch (claim_type) {
	case CLAIM_NULL:
		result = "NULL";
		break;
	case CLAIM_PREVIOUS:
		result = "PREVIOUS";
		break;
	case CLAIM_DELEGATE_CUR:
		result = "DELEGATE CURRENT";
		break;
	case CLAIM_DELEGATE_PREV:
		result = "DELEGATE PREVIOUS";
		break;
	default:
		result = "?";
		break;
	}

	return (result);
}

/*
 * Return a string naming the given delegation.
 */

static char *
delegation_type_name(enum open_delegation_type4 type)
{
	char *result;

	switch (type) {
	case OPEN_DELEGATE_NONE:
		result = "NONE";
		break;
	case OPEN_DELEGATE_READ:
		result = "READ";
		break;
	case OPEN_DELEGATE_WRITE:
		result = "WRITE";
		break;
	default:
		result = "?";
		break;
	}

	return (result);
}

/*
 * Return the name of the given authentication flavor.
 */

static char *
flavor_name(uint_t flavor)
{
	char *result;
	static char buf[50];

	switch (flavor) {
	case AUTH_SYS:
		result = "AUTH_SYS";
		break;
	case AUTH_NONE:
		result = "AUTH_NONE";
		break;
	case AUTH_DH:
		result = "AUTH_DH";
		break;
	case RPCSEC_GSS:
		result = "RPCSEC_GSS";
		break;
	default:
		sprintf(buf, "[flavor %d]", flavor);
		result = buf;
		break;
	}

	return (result);
}

/*
 * Return the name of the given rpc_gss_svc_t.
 */

static char *
gss_svc_name(rpc_gss_svc_t svc)
{
	char *result;
	static char buf[50];

	switch (svc) {
	case RPC_GSS_SVC_NONE:
		result = "NONE";
		break;
	case RPC_GSS_SVC_INTEGRITY:
		result = "INTEGRITY";
		break;
	case RPC_GSS_SVC_PRIVACY:
		result = "PRIVACY";
		break;
	default:
		sprintf(buf, "Service %d", svc);
		result = buf;
		break;
	}

	return (result);
}

/*
 * Return a string name for the given limit_by4.
 */

static char *
limitby_name(enum limit_by4 limitby)
{
	char *result;

	switch (limitby) {
	case NFS_LIMIT_SIZE:
		result = "SIZE";
		break;
	case NFS_LIMIT_BLOCKS:
		result = "BLOCKS";
		break;
	default:
		result = "?";
		break;
	}

	return (result);
}

static char *
status_name(int status)
{
	char *p;

	switch (status) {
	case NFS4_OK:		p = "NFS4_OK"; break;
	case NFS4ERR_PERM:	p = "NFS4ERR_PERM"; break;
	case NFS4ERR_NOENT:	p = "NFS4ERR_NOENT"; break;
	case NFS4ERR_IO:	p = "NFS4ERR_IO"; break;
	case NFS4ERR_NXIO:	p = "NFS4ERR_NXIO"; break;
	case NFS4ERR_ACCESS:	p = "NFS4ERR_ACCESS"; break;
	case NFS4ERR_EXIST:	p = "NFS4ERR_EXIST"; break;
	case NFS4ERR_XDEV:	p = "NFS4ERR_XDEV"; break;
	case NFS4ERR_NOTDIR:	p = "NFS4ERR_NOTDIR"; break;
	case NFS4ERR_ISDIR:	p = "NFS4ERR_ISDIR"; break;
	case NFS4ERR_INVAL:	p = "NFS4ERR_INVAL"; break;
	case NFS4ERR_FBIG:	p = "NFS4ERR_FBIG"; break;
	case NFS4ERR_NOSPC:	p = "NFS4ERR_NOSPC"; break;
	case NFS4ERR_ROFS:	p = "NFS4ERR_ROFS"; break;
	case NFS4ERR_MLINK:	p = "NFS4ERR_MLINK"; break;
	case NFS4ERR_NAMETOOLONG:p = "NFS4ERR_NAMETOOLONG"; break;
	case NFS4ERR_NOTEMPTY:	p = "NFS4ERR_NOTEMPTY"; break;
	case NFS4ERR_DQUOT:	p = "NFS4ERR_DQUOT"; break;
	case NFS4ERR_STALE:	p = "NFS4ERR_STALE"; break;
	case NFS4ERR_BADHANDLE:	p = "NFS4ERR_BADHANDLE"; break;
	case NFS4ERR_BAD_COOKIE:p = "NFS4ERR_BAD_COOKIE"; break;
	case NFS4ERR_NOTSUPP:	p = "NFS4ERR_NOTSUPP"; break;
	case NFS4ERR_TOOSMALL:	p = "NFS4ERR_TOOSMALL"; break;
	case NFS4ERR_SERVERFAULT:p = "NFS4ERR_SERVERFAULT"; break;
	case NFS4ERR_BADTYPE:	p = "NFS4ERR_BADTYPE"; break;
	case NFS4ERR_DELAY:	p = "NFS4ERR_DELAY"; break;
	case NFS4ERR_SAME:	p = "NFS4ERR_SAME"; break;
	case NFS4ERR_DENIED:	p = "NFS4ERR_DENIED"; break;
	case NFS4ERR_EXPIRED:	p = "NFS4ERR_EXPIRED"; break;
	case NFS4ERR_LOCKED:	p = "NFS4ERR_LOCKED"; break;
	case NFS4ERR_GRACE:	p = "NFS4ERR_GRACE"; break;
	case NFS4ERR_FHEXPIRED:	p = "NFS4ERR_FHEXPIRED"; break;
	case NFS4ERR_SHARE_DENIED: p = "NFS4ERR_SHARE_DENIED"; break;
	case NFS4ERR_WRONGSEC:	p = "NFS4ERR_WRONGSEC"; break;
	case NFS4ERR_CLID_INUSE: p = "NFS4ERR_CLID_INUSE"; break;
	case NFS4ERR_RESOURCE:	p = "NFS4ERR_RESOURCE"; break;
	case NFS4ERR_MOVED:	p = "NFS4ERR_MOVED"; break;
	case NFS4ERR_NOFILEHANDLE: p = "NFS4ERR_NOFILEHANDLE"; break;
	case NFS4ERR_MINOR_VERS_MISMATCH: p = "NFS4ERR_MINOR_VERS_MISMATCH";
	break;
	case NFS4ERR_STALE_CLIENTID: p = "NFS4ERR_STALE_CLIENTID"; break;
	case NFS4ERR_STALE_STATEID: p = "NFS4ERR_STALE_STATEID"; break;
	case NFS4ERR_OLD_STATEID: p = "NFS4ERR_OLD_STATEID"; break;
	case NFS4ERR_BAD_STATEID: p = "NFS4ERR_BAD_STATEID"; break;
	case NFS4ERR_BAD_SEQID: p = "NFS4ERR_BAD_SEQID"; break;
	case NFS4ERR_NOT_SAME: p = "NFS4ERR_NOT_SAME"; break;
	case NFS4ERR_LOCK_RANGE: p = "NFS4ERR_LOCK_RANGE"; break;
	case NFS4ERR_SYMLINK: p = "NFS4ERR_SYMLINK"; break;
	case NFS4ERR_RESTOREFH: p = "NFS4ERR_RESTOREFH"; break;
	case NFS4ERR_LEASE_MOVED: p = "NFS4ERR_LEASE_MOVED"; break;
	case NFS4ERR_ATTRNOTSUPP: p = "NFS4ERR_ATTRNOTSUPP"; break;
	case NFS4ERR_NO_GRACE: p = "NFS4ERR_NO_GRACE"; break;
	case NFS4ERR_RECLAIM_BAD: p = "NFS4ERR_RECLAIM_BAD"; break;
	case NFS4ERR_RECLAIM_CONFLICT: p = "NFS4ERR_RECLAIM_CONFLICT"; break;
	case NFS4ERR_BADXDR: p = "NFS4ERR_BADXDR"; break;
	case NFS4ERR_LOCKS_HELD: p = "NFS4ERR_LOCKS_HELD"; break;
	case NFS4ERR_OPENMODE: p = "NFS4ERR_OPENMODE"; break;
	case NFS4ERR_BADOWNER: p = "NFS4ERR_BADOWNER"; break;
	case NFS4ERR_BADCHAR: p = "NFS4ERR_BADCHAR"; break;
	case NFS4ERR_BADNAME: p = "NFS4ERR_BADNAME"; break;
	case NFS4ERR_BAD_RANGE: p = "NFS4ERR_BAD_RANGE"; break;
	case NFS4ERR_LOCK_NOTSUPP: p = "NFS4ERR_LOCK_NOTSUPP"; break;
	case NFS4ERR_OP_ILLEGAL: p = "NFS4ERR_OP_ILLEGAL"; break;
	case NFS4ERR_DEADLOCK: p = "NFS4ERR_DEADLOCK"; break;
	case NFS4ERR_FILE_OPEN: p = "NFS4ERR_FILE_OPEN"; break;
	case NFS4ERR_ADMIN_REVOKED: p = "NFS4ERR_ADMIN_REVOKED"; break;
	case NFS4ERR_CB_PATH_DOWN: p = "NFS4ERR_CB_PATH_DOWN"; break;
	default:		p = "(unknown error)"; break;
	}

	return (p);
}

char *
nfsstat4_to_name(int status)
{
	return (status_name(status));
}

/*
 * Attribute print functions.  See attr_info_t.
 */

static void
prt_supported_attrs(XDR *xdr)
{
	static bitmap4 val;

	if (!xdr_bitmap4(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Supported Attributes:");
	detail_attr_bitmap("\t", &val, NULL);
	xdr_free(xdr_bitmap4, (char *)&val);
}

static void
prt_type(XDR *xdr)
{
	nfs_ftype4 val;

	if (!xdr_nfs_ftype4(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Type = %s", sum_type_name(val));
}

static void
prt_fh_expire_type(XDR *xdr)
{
	fattr4_fh_expire_type val;
	char *buf;
	bool_t first = TRUE;

	if (!xdr_fattr4_fh_expire_type(xdr, &val))
		longjmp(xdr_err, 1);
	buf = get_line(0, 0);

	sprintf(buf, "Filehandle expire type = ");
	if ((val & (FH4_NOEXPIRE_WITH_OPEN | FH4_VOLATILE_ANY |
	    FH4_VOL_MIGRATION | FH4_VOL_RENAME)) == 0) {
		strcat(buf, "Persistent");
		return;
	}
	if (val & FH4_NOEXPIRE_WITH_OPEN) {
		strcat(buf, "No Expire With OPEN");
		first = FALSE;
	}
	if (val & FH4_VOLATILE_ANY) {
		if (first)
			first = FALSE;
		else
			strcat(buf, ", ");
		strcat(buf, "Volatile at any time");
	}
	if (val & FH4_VOL_MIGRATION) {
		if (first)
			first = FALSE;
		else
			strcat(buf, ", ");
		strcat(buf, "Volatile at Migration");
	}
	if (val & FH4_VOL_RENAME) {
		if (first)
			first = FALSE;
		else
			strcat(buf, ", ");
		strcat(buf, "Volatile at Rename");
	}
}

static void
prt_change(XDR *xdr)
{
	changeid4 val;

	if (!xdr_changeid4(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Change ID = 0x%llx", val);
					/* XXX print as time_t, too? */
}

static void
prt_size(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Size = %llu", val);
}

static void
prt_link_support(XDR *xdr)
{
	bool_t val;

	if (!xdr_bool(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Link Support = %s",
	    val ? "TRUE" : "FALSE");
}

static void
prt_symlink_support(XDR *xdr)
{
	bool_t val;

	if (!xdr_bool(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Symlink Support = %s",
	    val ? "TRUE" : "FALSE");
}

static void
prt_named_attr(XDR *xdr)
{
	bool_t val;

	if (!xdr_bool(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Has Named Attributes = %s",
	    val ? "TRUE" : "FALSE");
}

static void
prt_fsid(XDR *xdr)
{
	fsid4 val;

	if (!xdr_fsid4(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "FS ID: Major = %llx, Minor = %llx",
	    val.major, val.minor);
}

static void
prt_unique_handles(XDR *xdr)
{
	bool_t val;

	if (!xdr_bool(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Unique Handles = %s",
	    val ? "TRUE" : "FALSE");
}

static void
prt_lease_time(XDR *xdr)
{
	uint32_t val;

	if (!xdr_uint32_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Lease Time = %u", val);
}

static void
prt_rdattr_error(XDR *xdr)
{
	nfsstat4 val;

	if (!xdr_nfsstat4(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Rdattr Error = %u (%s)",
	    val, status_name(val));
}

static void
prt_acl(XDR *xdr)
{
	static fattr4_acl val;
	char buffy[NFS4_OPAQUE_LIMIT];
	int i, len;

	if (!xdr_fattr4_acl(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "ACL of %d entries", val.fattr4_acl_len);
	for (i = 0; i < val.fattr4_acl_len; i++) {
		sprintf(get_line(0, 0), "nfsace4[%d]", i);

		sprintf(get_line(0, 0), "  type = %x",
		    val.fattr4_acl_val[i].type);
		detail_acetype4(val.fattr4_acl_val[i].type);

		sprintf(get_line(0, 0), "  flags = %x",
		    val.fattr4_acl_val[i].flag);
		detail_aceflag4(val.fattr4_acl_val[i].flag);

		sprintf(get_line(0, 0), "  mask = %x",
		    val.fattr4_acl_val[i].access_mask);
		detail_acemask4(val.fattr4_acl_val[i].access_mask);

		len = val.fattr4_acl_val[i].who.utf8string_len;
		if (len >= NFS4_OPAQUE_LIMIT)
			len = NFS4_OPAQUE_LIMIT - 1;
		(void) strncpy(buffy, val.fattr4_acl_val[i].who.utf8string_val,
		    len);
		buffy[len] = '\0';
		sprintf(get_line(0, 0), "  who = %s", buffy);
	}
	xdr_free(xdr_fattr4_acl, (char *)&val);
}

static void
detail_acetype4(acetype4 type)
{
	if (type >= ACETYPE4_NAMES_MAX) {
		sprintf(get_line(0, 0), "     unknown type");
	} else {
		sprintf(get_line(0, 0), "     %s", acetype4_names[type]);
	}
}

static void
detail_uint32_bitmap(uint32_t mask, char *mask_names[], int names_max)
{
	char buffy[BUFSIZ], *name;
	char *indent = "     ";
	char *spacer = "  ";
	int pending = 0;
	int bit;
	int len, namelen, spacelen;

	strcpy(buffy, indent);
	len = strlen(buffy);
	spacelen = strlen(spacer);

	for (bit = 0; bit < names_max; bit++) {
		if (mask & (1 << bit)) {
			name = mask_names[bit];
			namelen = strlen(name);
			/* 80 - 6 for "NFS:  " = 74 */
			if ((len + spacelen + namelen) >= 74) {
				sprintf(get_line(0, 0), "%s", buffy);
				strcpy(buffy, indent);
				len = strlen(buffy);
				pending = 0;
			}
			(void) strlcat(buffy, spacer, sizeof (buffy));
			(void) strlcat(buffy, name, sizeof (buffy));
			pending = 1;
			len += spacelen + namelen;
		}
	}
	if (pending)
		sprintf(get_line(0, 0), "%s", buffy);
}

static void
detail_aceflag4(aceflag4 flag)
{
	detail_uint32_bitmap(flag, aceflag4_names, ACEFLAG4_NAMES_MAX);
}

static void
detail_acemask4(acemask4 mask)
{
	detail_uint32_bitmap(mask, acemask4_names, ACEMASK4_NAMES_MAX);
}

static void
prt_aclsupport(XDR *xdr)
{
	fattr4_aclsupport val;

	if (!xdr_fattr4_aclsupport(xdr, &val))
		longjmp(xdr_err, 1);
	if (val & ACL4_SUPPORT_ALLOW_ACL)
		sprintf(get_line(0, 0), "ALLOW ACL Supported");
	if (val & ACL4_SUPPORT_DENY_ACL)
		sprintf(get_line(0, 0), "DENY ACL Supported");
	if (val & ACL4_SUPPORT_AUDIT_ACL)
		sprintf(get_line(0, 0), "AUDIT ACL Supported");
	if (val & ACL4_SUPPORT_ALARM_ACL)
		sprintf(get_line(0, 0), "ALARM ACL Supported");
}

static void
prt_archive(XDR *xdr)
{
	bool_t val;

	if (!xdr_bool(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Archived = %s",
	    val ? "TRUE" : "FALSE");
}

static void
prt_cansettime(XDR *xdr)
{
	bool_t val;

	if (!xdr_bool(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Server Can Set Time = %s",
	    val ? "TRUE" : "FALSE");
}

static void
prt_case_insensitive(XDR *xdr)
{
	bool_t val;

	if (!xdr_bool(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Case Insensitive Lookups = %s",
	    val ? "TRUE" : "FALSE");
}

static void
prt_case_preserving(XDR *xdr)
{
	bool_t val;

	if (!xdr_bool(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Case Preserving = %s",
	    val ? "TRUE" : "FALSE");
}

static void
prt_chown_restricted(XDR *xdr)
{
	bool_t val;

	if (!xdr_bool(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Chown Is Restricted = %s",
	    val ? "TRUE" : "FALSE");
}

static void
prt_filehandle(XDR *xdr)
{
	static nfs_fh4 val;

	if (!xdr_nfs_fh4(xdr, &val))
		longjmp(xdr_err, 1);
	detail_fh4(&val);
	xdr_free(xdr_nfs_fh4, (char *)&val);
}

static void
prt_fileid(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "File ID = %llu", val);
}

static void
prt_mounted_on_fileid(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Mounted On File ID = %llu", val);
}

static void
prt_files_avail(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Files Available = %llu", val);
}

static void
prt_files_free(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Files Free = %llu", val);
}

static void
prt_files_total(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Files Total = %llu", val);
}

static void
prt_fs_location(fs_location4 *fsl)
{
	int i;

	for (i = 0; i < fsl->server.server_len; i++)
		sprintf(get_line(0, 0), "server: %s",
		    utf8localize(&fsl->server.server_val[i]));

	detail_pathname4(&fsl->rootpath, "rootpath: ");
}

static void
prt_fs_locations(XDR *xdr)
{
	static fs_locations4 val;
	int i;

	if (!xdr_fs_locations4(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "[fs_locations]");
	detail_pathname4(&val.fs_root, "fs_root: ");
	for (i = 0; i < val.locations.locations_len; i++)
		prt_fs_location(&val.locations.locations_val[i]);
	xdr_free(xdr_fs_locations4, (char *)&val);
}

static void
prt_hidden(XDR *xdr)
{
	bool_t val;

	if (!xdr_bool(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Hidden = %s",
	    val ? "TRUE" : "FALSE");
}

static void
prt_homogeneous(XDR *xdr)
{
	bool_t val;

	if (!xdr_bool(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "FS Is Homogeneous = %s",
	    val ? "TRUE" : "FALSE");
}

static void
prt_maxfilesize(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Maximum File Size = %llu", val);
}

static void
prt_maxlink(XDR *xdr)
{
	uint32_t val;

	if (!xdr_uint32_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Maximum Number of Links = %u", val);
}

static void
prt_maxname(XDR *xdr)
{
	uint32_t val;

	if (!xdr_uint32_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Maximum File Name Length = %u", val);
}

static void
prt_maxread(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Maximum Read Size = %llu", val);
}

static void
prt_maxwrite(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);

	sprintf(get_line(0, 0), "Maximum Write Size = %llu", val);
}

static void
prt_mimetype(XDR *xdr)
{
	static utf8string val;

	if (!xdr_utf8string(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "MIME Type = %s", utf8localize(&val));
	xdr_free(xdr_utf8string, (char *)&val);
}

static void
prt_mode(XDR *xdr)
{
	mode4 val;

	if (!xdr_mode4(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Mode = 0%03o", val);
}

static void
prt_no_trunc(XDR *xdr)
{
	bool_t val;

	if (!xdr_bool(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Long Names Are Error (no_trunc) = %s",
	    val ? "TRUE" : "FALSE");
}

static void
prt_numlinks(XDR *xdr)
{
	uint32_t val;

	if (!xdr_uint32_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Number of Links = %u", val);
}

static void
prt_owner(XDR *xdr)
{
	static utf8string val;

	if (!xdr_utf8string(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Owner = %s", utf8localize(&val));
	xdr_free(xdr_utf8string, (char *)&val);
}

static void
prt_owner_group(XDR *xdr)
{
	static utf8string val;

	if (!xdr_utf8string(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Group = %s", utf8localize(&val));
	xdr_free(xdr_utf8string, (char *)&val);
}

static void
prt_quota_avail_hard(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Quota Hard Limit = %llu", val);
}

static void
prt_quota_avail_soft(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Quota Soft Limit = %llu", val);
}

static void
prt_quota_used(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Quota Used = %llu", val);
}

static void
prt_rawdev(XDR *xdr)
{
	specdata4 val;

	if (!xdr_specdata4(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Raw Device ID = %u, %u",
	    val.specdata1, val.specdata2);
}

static void
prt_space_avail(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Space Available = %llu", val);
}

static void
prt_space_free(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Space Free = %llu", val);
}

static void
prt_space_total(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Total Disk Space = %llu", val);
}

static void
prt_space_used(XDR *xdr)
{
	uint64_t val;

	if (!xdr_uint64_t(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Space Used (this object) = %llu", val);
}

static void
prt_system(XDR *xdr)
{
	bool_t val;

	if (!xdr_bool(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "System File = %s",
	    val ? "TRUE" : "FALSE");
}

static void
prt_time_access(XDR *xdr)
{
	nfstime4 val;

	if (!xdr_nfstime4(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Last Access Time = %s",
	    format_time(val.seconds, val.nseconds));
}

static void
prt_time_access_set(XDR *xdr)
{
	settime4 val;

	if (!xdr_settime4(xdr, &val))
		longjmp(xdr_err, 1);
	if (val.set_it == SET_TO_CLIENT_TIME4) {
		sprintf(get_line(0, 0), "Access Time = %s (set to client time)",
		    format_time(val.settime4_u.time.seconds,
		    val.settime4_u.time.nseconds));
	} else if (val.set_it == SET_TO_SERVER_TIME4) {
		sprintf(get_line(0, 0), "Access Time (set to server time)");
	} else
		longjmp(xdr_err, 1);
}

static void
prt_time_backup(XDR *xdr)
{
	nfstime4 val;

	if (!xdr_nfstime4(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Last Backup Time = %s",
	    format_time(val.seconds, val.nseconds));
}

static void
prt_time_create(XDR *xdr)
{
	nfstime4 val;

	if (!xdr_nfstime4(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Creation Time = %s",
	    format_time(val.seconds, val.nseconds));
}

static void
prt_time_delta(XDR *xdr)
{
	nfstime4 val;

	if (!xdr_nfstime4(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Server Time Granularity = %lld.%09d sec",
	    val.seconds, val.nseconds);
}

static void
prt_time_metadata(XDR *xdr)
{
	nfstime4 val;

	if (!xdr_nfstime4(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Last Metadata Change Time = %s",
	    format_time(val.seconds, val.nseconds));
}

static void
prt_time_modify(XDR *xdr)
{
	nfstime4 val;

	if (!xdr_nfstime4(xdr, &val))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), "Last Modification Time = %s",
	    format_time(val.seconds, val.nseconds));
}

static void
prt_time_modify_set(XDR *xdr)
{
	settime4 val;

	if (!xdr_settime4(xdr, &val))
		longjmp(xdr_err, 1);
	if (val.set_it == SET_TO_CLIENT_TIME4) {
		sprintf(get_line(0, 0),
		    "Modification Time = %s (set to client time)",
		    format_time(val.settime4_u.time.seconds,
		    val.settime4_u.time.nseconds));
	} else if (val.set_it == SET_TO_SERVER_TIME4) {
		sprintf(get_line(0, 0),
		    "Modification Time (set to server time)");
	} else
		longjmp(xdr_err, 1);
}

/*
 * Display the UTF8 string that is next in the XDR stream.
 */

static void
showxdr_utf8string(char *fmt)
{
	static utf8string string;

	if (!xdr_utf8string(&xdrm, &string))
		longjmp(xdr_err, 1);
	sprintf(get_line(0, 0), fmt, utf8localize(&string));
	xdr_free(xdr_utf8string, (char *)&string);
}

/*
 * utf8string is defined in nfs4_prot.x as an opaque array, which means
 * when it is decoded into a string, the string might not have a trailing
 * null.  Also, the string will still be encoded in UTF-8, rather than
 * whatever character encoding is associated with the current locale.  This
 * routine converts a utf8string into a (null-terminated) C string.  One day
 * it will convert into the current character encoding, too.  To avoid
 * dealing with storage management issues, it allocates storage for each
 * new string, then this storage is "freed" when the packet has been
 * processed.
 */

#define	MAX_UTF8_STRINGS	512

static char *utf_buf[MAX_UTF8_STRINGS];
static size_t utf_buflen[MAX_UTF8_STRINGS];
static uint_t cur_utf_buf = 0;

static char *
utf8localize(utf8string *utf8str)
{
	size_t newsize, oldsize, len;
	char *result, *cp;

	len = utf8str->utf8string_len;
	if (len == 0)
		return ("");
	if (cur_utf_buf >= MAX_UTF8_STRINGS)
		return ("[Too Many UTF-8 Strings]");

	newsize = oldsize = utf_buflen[cur_utf_buf];


	if (oldsize < len + 1) {
		/* truncate opaques at NFS4_OPAQUE_LIMIT */
		if (len > NFS4_OPAQUE_LIMIT)
			len = NFS4_OPAQUE_LIMIT;
		newsize = len + 1;
	}
	if (newsize != oldsize) {
		utf_buf[cur_utf_buf] = realloc(utf_buf[cur_utf_buf],
		    newsize);
		if (utf_buf[cur_utf_buf] == NULL) {
			pr_err("out of memory\n");
			utf_buflen[cur_utf_buf] = 0;
			return ("");
		}
		utf_buflen[cur_utf_buf] = newsize;
	}

	result = utf_buf[cur_utf_buf];
	strncpy(result, utf8str->utf8string_val, len);
	result[len] = '\0';
	for (cp = result; cp < result + len; cp++) {
		if (!isprint(*cp)) {
			*cp = '.';
		}
	}

	cur_utf_buf++;

	return (result);
}

static void
utf8free()
{
	cur_utf_buf = 0;
}


/*
 * adler16(): adler32 hash code shamelessly copied and mutiliated from
 * usr/src/uts/common/io/ppp/spppcomp/zlib.[ch]
 *
 * The alg was originally created to provide a running
 * checksum, but we don't need that -- we just want to
 * chksum data described by buf,len; therefore, the first
 * parameter was removed (held the running checksum),
 * and s1/s2 are always set to their required initial
 * values (1 and 0).  I also ripped out code which only
 * applied to large data sets (bufs larger than 5k).  All
 * I wanted was their core checksum alg (which is supposed
 * to do really well).  The v2/v3 hash alg didn't work well
 * at all for v4 stuff -- it produced too many collisions.
 *
 * The copyright info from uts/common/io/ppp/spppcomp/zlib.[ch]
 * is included below.
 */

/* -----zlib.c copyright info below */
/*
 * Copyright 2000 Sun Microsystems, Inc.
 * All rights reserved.
 *
 * Updated from zlib-1.0.4 to zlib-1.1.3 by James Carlson.
 *
 * This file is derived from various .h and .c files from the zlib-1.0.4
 * distribution by Jean-loup Gailly and Mark Adler, with some additions
 * by Paul Mackerras to aid in implementing Deflate compression and
 * decompression for PPP packets.  See zlib.h for conditions of
 * distribution and use.
 *
 * Changes that have been made include:
 * - added Z_PACKET_FLUSH (see zlib.h for details)
 * - added inflateIncomp and deflateOutputPending
 * - allow strm->next_out to be NULL, meaning discard the output
 *
 * $Id: zlib.c,v 1.11 1998/09/13 23:37:12 paulus Exp $
 */
/* +++ adler32.c */
/*
 * adler32.c -- compute the Adler-32 checksum of a data stream
 * Copyright (C) 1995-1998 Mark Adler
 * For conditions of distribution and use, see copyright notice in zlib.h
 */
/* From: adler32.c,v 1.10 1996/05/22 11:52:18 me Exp $ */
/* -----zlib.c copyright info above */

/* -----zlib.h copyright info below */
/*
 * Copyright 2000 Sun Microsystems, Inc.
 * All rights reserved.
 *
 * Permission to use, copy, modify, and distribute this software and
 * its documentation is hereby granted, provided that the above
 * copyright notice appears in all copies.
 *
 * SUN MAKES NO REPRESENTATION OR WARRANTIES ABOUT THE SUITABILITY OF
 * THE SOFTWARE, EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED
 * TO THE IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
 * PARTICULAR PURPOSE, OR NON-INFRINGEMENT.  SUN SHALL NOT BE LIABLE
 * FOR ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING,
 * MODIFYING OR DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES
 *
 * This file has been altered from its original by Sun Microsystems to
 * fit local coding style.
 */
/* -----zlib.h copyright info above */

#define	DO1(buf, i)  {s1 += buf[i]; s2 += s1; }
#define	DO2(buf, i)  DO1(buf, i); DO1(buf, i+1);
#define	DO4(buf, i)  DO2(buf, i); DO2(buf, i+2);
#define	DO8(buf, i)  DO4(buf, i); DO4(buf, i+4);
#define	DO16(buf)   DO8(buf, 0); DO8(buf, 8);

static uint32_t
adler16(void *p, int len)
{
	uint32_t s1 = 1;
	uint32_t s2 = 0;
	uchar_t *buf = p;

	while (len >= 16) {
		DO16(buf);
		buf += 16;
		len -= 16;
	}

	while (len > 0) {
		s1 += *buf++;
		s2 += s1;
		len--;
	}

	return ((uint32_t)(s2 ^ s1) & 0xFFFFU);
}