freebsd-src/lib/libsysdecode/flags.c

/*
 * Copyright (c) 2006 "David Kirchner" <dpk@dpk.net>. All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 * SUCH DAMAGE.
 */

#include <sys/cdefs.h>
#define L2CAP_SOCKET_CHECKED

#include <sys/types.h>
#include <sys/acl.h>
#include <sys/capsicum.h>
#include <sys/event.h>
#include <sys/extattr.h>
#include <sys/linker.h>
#include <sys/mman.h>
#include <sys/mount.h>
#include <sys/poll.h>
#include <sys/procctl.h>
#include <sys/ptrace.h>
#include <sys/reboot.h>
#include <sys/resource.h>
#include <sys/rtprio.h>
#include <sys/sem.h>
#include <sys/shm.h>
#include <sys/socket.h>
#include <sys/stat.h>
#include <sys/thr.h>
#include <sys/umtx.h>
#include <machine/sysarch.h>
#include <netinet/in.h>
#include <netinet/sctp.h>
#include <netinet/tcp.h>
#include <netinet/udp.h>
#include <netinet/udplite.h>
#include <nfsserver/nfs.h>
#include <ufs/ufs/quota.h>
#include <vm/vm.h>
#include <vm/vm_param.h>
#include <aio.h>
#include <fcntl.h>
#include <sched.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <strings.h>
#include <sysdecode.h>
#include <unistd.h>
#include <sys/bitstring.h>
#include <netgraph/bluetooth/include/ng_hci.h>
#include <netgraph/bluetooth/include/ng_l2cap.h>
#include <netgraph/bluetooth/include/ng_btsocket.h>

#include "support.h"

#define	X(a)	{ a, #a },
#define	XEND	{ 0, NULL }

#define	TABLE_START(n)	static struct name_table n[] = {
#define	TABLE_ENTRY	X
#define	TABLE_END	XEND };

#include "tables.h"

#undef TABLE_START
#undef TABLE_ENTRY
#undef TABLE_END

const char *
sysdecode_atfd(int fd)
{

	if (fd == AT_FDCWD)
		return ("AT_FDCWD");
	return (NULL);
}

bool
sysdecode_atflags(FILE *fp, int flag, int *rem)
{

	return (print_mask_int(fp, atflags, flag, rem));
}

static struct name_table semctlops[] = {
	X(GETNCNT) X(GETPID) X(GETVAL) X(GETALL) X(GETZCNT) X(SETVAL) X(SETALL)
	X(IPC_RMID) X(IPC_SET) X(IPC_STAT) XEND
};

const char *
sysdecode_semctl_cmd(int cmd)
{

	return (lookup_value(semctlops, cmd));
}

static struct name_table shmctlops[] = {
	X(IPC_RMID) X(IPC_SET) X(IPC_STAT) XEND
};

const char *
sysdecode_shmctl_cmd(int cmd)
{

	return (lookup_value(shmctlops, cmd));
}

const char *
sysdecode_msgctl_cmd(int cmd)
{

	return (sysdecode_shmctl_cmd(cmd));
}

static struct name_table semgetflags[] = {
	X(IPC_CREAT) X(IPC_EXCL) X(SEM_R) X(SEM_A) X((SEM_R>>3)) X((SEM_A>>3))
	X((SEM_R>>6)) X((SEM_A>>6)) XEND
};

bool
sysdecode_semget_flags(FILE *fp, int flag, int *rem)
{

	return (print_mask_int(fp, semgetflags, flag, rem));
}

static struct name_table idtypes[] = {
	X(P_PID) X(P_PPID) X(P_PGID) X(P_SID) X(P_CID) X(P_UID) X(P_GID)
	X(P_ALL) X(P_LWPID) X(P_TASKID) X(P_PROJID) X(P_POOLID) X(P_JAILID)
	X(P_CTID) X(P_CPUID) X(P_PSETID) XEND
};

/* XXX: idtype is really an idtype_t */
const char *
sysdecode_idtype(int idtype)
{

	return (lookup_value(idtypes, idtype));
}

/*
 * [g|s]etsockopt's level argument can either be SOL_SOCKET or a
 * protocol-specific value.
 */
const char *
sysdecode_sockopt_level(int level)
{
	const char *str;

	if (level == SOL_SOCKET)
		return ("SOL_SOCKET");

	/* SOL_* constants for Bluetooth sockets. */
	str = lookup_value(ngbtsolevel, level);
	if (str != NULL)
		return (str);

	/*
	 * IP and Infiniband sockets use IP protocols as levels.  Not all
	 * protocols are valid but it is simpler to just allow all of them.
	 *
	 * XXX: IPPROTO_IP == 0, but UNIX domain sockets use a level of 0
	 * for private options.
	 */
	str = sysdecode_ipproto(level);
	if (str != NULL)
		return (str);

	return (NULL);
}

bool
sysdecode_vmprot(FILE *fp, int type, int *rem)
{

	return (print_mask_int(fp, vmprot, type, rem));
}

static struct name_table sockflags[] = {
	X(SOCK_CLOEXEC) X(SOCK_NONBLOCK) XEND
};

bool
sysdecode_socket_type(FILE *fp, int type, int *rem)
{
	const char *str;
	uintmax_t val;
	bool printed;

	str = lookup_value(socktype, type & ~(SOCK_CLOEXEC | SOCK_NONBLOCK));
	if (str != NULL) {
		fputs(str, fp);
		*rem = 0;
		printed = true;
	} else {
		*rem = type & ~(SOCK_CLOEXEC | SOCK_NONBLOCK);
		printed = false;
	}
	val = type & (SOCK_CLOEXEC | SOCK_NONBLOCK);
	print_mask_part(fp, sockflags, &val, &printed);
	return (printed);
}

bool
sysdecode_access_mode(FILE *fp, int mode, int *rem)
{

	return (print_mask_int(fp, accessmode, mode, rem));
}

/* XXX: 'type' is really an acl_type_t. */
const char *
sysdecode_acltype(int type)
{

	return (lookup_value(acltype, type));
}

bool
sysdecode_cap_fcntlrights(FILE *fp, uint32_t rights, uint32_t *rem)
{

	return (print_mask_int(fp, capfcntl, rights, rem));
}

bool
sysdecode_close_range_flags(FILE *fp, int flags, int *rem)
{

	return (print_mask_int(fp, closerangeflags, flags, rem));
}

const char *
sysdecode_extattrnamespace(int namespace)
{

	return (lookup_value(extattrns, namespace));
}

const char *
sysdecode_fadvice(int advice)
{

	return (lookup_value(fadvisebehav, advice));
}

bool
sysdecode_open_flags(FILE *fp, int flags, int *rem)
{
	bool printed;
	int mode;
	uintmax_t val;

	mode = flags & O_ACCMODE;
	flags &= ~O_ACCMODE;
	switch (mode) {
	case O_RDONLY:
		if (flags & O_EXEC) {
			flags &= ~O_EXEC;
			fputs("O_EXEC", fp);
		} else
			fputs("O_RDONLY", fp);
		printed = true;
		mode = 0;
		break;
	case O_WRONLY:
		fputs("O_WRONLY", fp);
		printed = true;
		mode = 0;
		break;
	case O_RDWR:
		fputs("O_RDWR", fp);
		printed = true;
		mode = 0;
		break;
	default:
		printed = false;
	}
	val = (unsigned)flags;
	print_mask_part(fp, openflags, &val, &printed);
	if (rem != NULL)
		*rem = val | mode;
	return (printed);
}

bool
sysdecode_fcntl_fileflags(FILE *fp, int flags, int *rem)
{
	bool printed;
	int oflags;

	/*
	 * The file flags used with F_GETFL/F_SETFL mostly match the
	 * flags passed to open(2).  However, a few open-only flag
	 * bits have been repurposed for fcntl-only flags.
	 */
	oflags = flags & ~(O_NOFOLLOW | FRDAHEAD);
	printed = sysdecode_open_flags(fp, oflags, rem);
	if (flags & O_NOFOLLOW) {
		fprintf(fp, "%sFPOIXSHM", printed ? "|" : "");
		printed = true;
	}
	if (flags & FRDAHEAD) {
		fprintf(fp, "%sFRDAHEAD", printed ? "|" : "");
		printed = true;
	}
	return (printed);
}

bool
sysdecode_flock_operation(FILE *fp, int operation, int *rem)
{

	return (print_mask_int(fp, flockops, operation, rem));
}

static struct name_table getfsstatmode[] = {
	X(MNT_WAIT) X(MNT_NOWAIT) XEND
};

const char *
sysdecode_getfsstat_mode(int mode)
{

	return (lookup_value(getfsstatmode, mode));
}

const char *
sysdecode_getrusage_who(int who)
{

	return (lookup_value(rusage, who));
}

static struct name_table kevent_user_ffctrl[] = {
	X(NOTE_FFNOP) X(NOTE_FFAND) X(NOTE_FFOR) X(NOTE_FFCOPY)
	XEND
};

static struct name_table kevent_rdwr_fflags[] = {
	X(NOTE_LOWAT) X(NOTE_FILE_POLL) XEND
};

static struct name_table kevent_vnode_fflags[] = {
	X(NOTE_DELETE) X(NOTE_WRITE) X(NOTE_EXTEND) X(NOTE_ATTRIB)
	X(NOTE_LINK) X(NOTE_RENAME) X(NOTE_REVOKE) X(NOTE_OPEN) X(NOTE_CLOSE)
	X(NOTE_CLOSE_WRITE) X(NOTE_READ) XEND
};

static struct name_table kevent_proc_fflags[] = {
	X(NOTE_EXIT) X(NOTE_FORK) X(NOTE_EXEC) X(NOTE_TRACK) X(NOTE_TRACKERR)
	X(NOTE_CHILD) XEND
};

static struct name_table kevent_timer_fflags[] = {
	X(NOTE_SECONDS) X(NOTE_MSECONDS) X(NOTE_USECONDS) X(NOTE_NSECONDS)
	X(NOTE_ABSTIME) XEND
};

void
sysdecode_kevent_fflags(FILE *fp, short filter, int fflags, int base)
{
	int rem;

	if (fflags == 0) {
		fputs("0", fp);
		return;
	}

	switch (filter) {
	case EVFILT_READ:
	case EVFILT_WRITE:
		if (!print_mask_int(fp, kevent_rdwr_fflags, fflags, &rem))
			fprintf(fp, "%#x", rem);
		else if (rem != 0)
			fprintf(fp, "|%#x", rem);
		break;
	case EVFILT_VNODE:
		if (!print_mask_int(fp, kevent_vnode_fflags, fflags, &rem))
			fprintf(fp, "%#x", rem);
		else if (rem != 0)
			fprintf(fp, "|%#x", rem);
		break;
	case EVFILT_PROC:
	case EVFILT_PROCDESC:
		if (!print_mask_int(fp, kevent_proc_fflags, fflags, &rem))
			fprintf(fp, "%#x", rem);
		else if (rem != 0)
			fprintf(fp, "|%#x", rem);
		break;
	case EVFILT_TIMER:
		if (!print_mask_int(fp, kevent_timer_fflags, fflags, &rem))
			fprintf(fp, "%#x", rem);
		else if (rem != 0)
			fprintf(fp, "|%#x", rem);
		break;
	case EVFILT_USER: {
		unsigned int ctrl, data;

		ctrl = fflags & NOTE_FFCTRLMASK;
		data = fflags & NOTE_FFLAGSMASK;

		if (fflags & NOTE_TRIGGER) {
			fputs("NOTE_TRIGGER", fp);
			if (fflags == NOTE_TRIGGER)
				return;
			fputc('|', fp);
		}

		/*
		 * An event with 'ctrl' == NOTE_FFNOP is either a reported
		 * (output) event for which only 'data' should be output
		 * or a pointless input event.  Assume that pointless
		 * input events don't occur in practice.  An event with
		 * NOTE_TRIGGER is always an input event.
		 */
		if (ctrl != NOTE_FFNOP || fflags & NOTE_TRIGGER) {
			fprintf(fp, "%s|%#x",
			    lookup_value(kevent_user_ffctrl, ctrl), data);
		} else {
			print_integer(fp, data, base);
		}
		break;
	}
	default:
		print_integer(fp, fflags, base);
		break;
	}
}

bool
sysdecode_kevent_flags(FILE *fp, int flags, int *rem)
{

	return (print_mask_int(fp, keventflags, flags, rem));
}

const char *
sysdecode_kevent_filter(int filter)
{

	return (lookup_value(keventfilters, filter));
}

const char *
sysdecode_kldsym_cmd(int cmd)
{

	return (lookup_value(kldsymcmd, cmd));
}

const char *
sysdecode_kldunload_flags(int flags)
{

	return (lookup_value(kldunloadfflags, flags));
}

const char *
sysdecode_lio_listio_mode(int mode)
{

	return (lookup_value(lio_listiomodes, mode));
}

const char *
sysdecode_madvice(int advice)
{

	return (lookup_value(madvisebehav, advice));
}

const char *
sysdecode_minherit_inherit(int inherit)
{

	return (lookup_value(minheritflags, inherit));
}

bool
sysdecode_mlockall_flags(FILE *fp, int flags, int *rem)
{

	return (print_mask_int(fp, mlockallflags, flags, rem));
}

bool
sysdecode_mmap_prot(FILE *fp, int prot, int *rem)
{
	int protm;
	bool printed;

	printed = false;
	protm = PROT_MAX_EXTRACT(prot);
	prot &= ~PROT_MAX(protm);
	if (protm != 0) {
		fputs("PROT_MAX(", fp);
		printed = print_mask_int(fp, mmapprot, protm, rem);
		fputs(")|", fp);
	}
	return (print_mask_int(fp, mmapprot, prot, rem) || printed);
}

bool
sysdecode_fileflags(FILE *fp, fflags_t flags, fflags_t *rem)
{

	return (print_mask_0(fp, fileflags, flags, rem));
}

bool
sysdecode_filemode(FILE *fp, int mode, int *rem)
{

	return (print_mask_0(fp, filemode, mode, rem));
}

bool
sysdecode_mount_flags(FILE *fp, int flags, int *rem)
{

	return (print_mask_int(fp, mountflags, flags, rem));
}

bool
sysdecode_msync_flags(FILE *fp, int flags, int *rem)
{

	return (print_mask_int(fp, msyncflags, flags, rem));
}

const char *
sysdecode_nfssvc_flags(int flags)
{

	return (lookup_value(nfssvcflags, flags));
}

static struct name_table pipe2flags[] = {
	X(O_CLOEXEC) X(O_NONBLOCK) XEND
};

bool
sysdecode_pipe2_flags(FILE *fp, int flags, int *rem)
{

	return (print_mask_0(fp, pipe2flags, flags, rem));
}

bool
sysdecode_pollfd_events(FILE *fp, int flags, int *rem)
{

	return (print_mask_int(fp, pollfdevents, flags, rem));
}

const char *
sysdecode_prio_which(int which)
{

	return (lookup_value(prio, which));
}

const char *
sysdecode_procctl_cmd(int cmd)
{

	return (lookup_value(procctlcmd, cmd));
}

const char *
sysdecode_ptrace_request(int request)
{

	return (lookup_value(ptraceop, request));
}

static struct name_table quotatypes[] = {
	X(GRPQUOTA) X(USRQUOTA) XEND
};

bool
sysdecode_quotactl_cmd(FILE *fp, int cmd)
{
	const char *primary, *type;

	primary = lookup_value(quotactlcmds, cmd >> SUBCMDSHIFT);
	if (primary == NULL)
		return (false);
	fprintf(fp, "QCMD(%s,", primary);
	type = lookup_value(quotatypes, cmd & SUBCMDMASK);
	if (type != NULL)
		fprintf(fp, "%s", type);
	else
		fprintf(fp, "%#x", cmd & SUBCMDMASK);
	fprintf(fp, ")");
	return (true);
}

bool
sysdecode_reboot_howto(FILE *fp, int howto, int *rem)
{
	bool printed;

	/*
	 * RB_AUTOBOOT is special in that its value is zero, but it is
	 * also an implied argument if a different operation is not
	 * requested via RB_HALT, RB_POWERCYCLE, RB_POWEROFF, or
	 * RB_REROOT.
	 */
	if (howto != 0 && (howto & (RB_HALT | RB_POWEROFF | RB_REROOT |
	    RB_POWERCYCLE)) == 0) {
		fputs("RB_AUTOBOOT|", fp);
		printed = true;
	} else
		printed = false;
	return (print_mask_int(fp, rebootopt, howto, rem) || printed);
}

bool
sysdecode_rfork_flags(FILE *fp, int flags, int *rem)
{

	return (print_mask_int(fp, rforkflags, flags, rem));
}

const char *
sysdecode_rlimit(int resource)
{

	return (lookup_value(rlimit, resource));
}

const char *
sysdecode_scheduler_policy(int policy)
{

	return (lookup_value(schedpolicy, policy));
}

bool
sysdecode_sendfile_flags(FILE *fp, int flags, int *rem)
{

	return (print_mask_int(fp, sendfileflags, flags, rem));
}

bool
sysdecode_shmat_flags(FILE *fp, int flags, int *rem)
{

	return (print_mask_int(fp, shmatflags, flags, rem));
}

const char *
sysdecode_shutdown_how(int how)
{

	return (lookup_value(shutdownhow, how));
}

const char *
sysdecode_sigbus_code(int si_code)
{

	return (lookup_value(sigbuscode, si_code));
}

const char *
sysdecode_sigchld_code(int si_code)
{

	return (lookup_value(sigchldcode, si_code));
}

const char *
sysdecode_sigfpe_code(int si_code)
{

	return (lookup_value(sigfpecode, si_code));
}

const char *
sysdecode_sigill_code(int si_code)
{

	return (lookup_value(sigillcode, si_code));
}

const char *
sysdecode_sigsegv_code(int si_code)
{

	return (lookup_value(sigsegvcode, si_code));
}

const char *
sysdecode_sigtrap_code(int si_code)
{

	return (lookup_value(sigtrapcode, si_code));
}

const char *
sysdecode_sigprocmask_how(int how)
{

	return (lookup_value(sigprocmaskhow, how));
}

const char *
sysdecode_socketdomain(int domain)
{

	return (lookup_value(sockdomain, domain));
}

const char *
sysdecode_socket_protocol(int domain, int protocol)
{

	switch (domain) {
	case PF_INET:
	case PF_INET6:
		return (lookup_value(sockipproto, protocol));
	default:
		return (NULL);
	}
}

const char *
sysdecode_sockaddr_family(int sa_family)
{

	return (lookup_value(sockfamily, sa_family));
}

const char *
sysdecode_ipproto(int protocol)
{

	return (lookup_value(sockipproto, protocol));
}

const char *
sysdecode_sockopt_name(int level, int optname)
{

	if (level == SOL_SOCKET)
		return (lookup_value(sockopt, optname));
	if (level == IPPROTO_IP)
		/* XXX: UNIX domain socket options use a level of 0 also. */
		return (lookup_value(sockoptip, optname));
	if (level == IPPROTO_IPV6)
		return (lookup_value(sockoptipv6, optname));
	if (level == IPPROTO_SCTP)
		return (lookup_value(sockoptsctp, optname));
	if (level == IPPROTO_TCP)
		return (lookup_value(sockopttcp, optname));
	if (level == IPPROTO_UDP)
		return (lookup_value(sockoptudp, optname));
	if (level == IPPROTO_UDPLITE)
		return (lookup_value(sockoptudplite, optname));
	return (NULL);
}

bool
sysdecode_thr_create_flags(FILE *fp, int flags, int *rem)
{

	return (print_mask_int(fp, thrcreateflags, flags, rem));
}

const char *
sysdecode_umtx_op(int op)
{

	return (lookup_value(umtxop, op));
}

bool
sysdecode_umtx_op_flags(FILE *fp, int op, int *rem)
{
	uintmax_t val;
	bool printed;

	printed = false;
	val = (unsigned)op;
	print_mask_part(fp, umtxopflags, &val, &printed);
	if (rem != NULL)
		*rem = val;
	return (printed);
}

const char *
sysdecode_vmresult(int result)
{

	return (lookup_value(vmresult, result));
}

bool
sysdecode_wait4_options(FILE *fp, int options, int *rem)
{
	bool printed;
	int opt6;

	/* A flags value of 0 is normal. */
	if (options == 0) {
		fputs("0", fp);
		if (rem != NULL)
			*rem = 0;
		return (true);
	}

	/*
	 * These flags are implicit and aren't valid flags for wait4()
	 * directly (though they don't fail with EINVAL).
	 */
	opt6 = options & (WEXITED | WTRAPPED);
	options &= ~opt6;
	printed = print_mask_int(fp, wait6opt, options, rem);
	if (rem != NULL)
		*rem |= opt6;
	return (printed);
}

bool
sysdecode_wait6_options(FILE *fp, int options, int *rem)
{

	return (print_mask_int(fp, wait6opt, options, rem));
}

const char *
sysdecode_whence(int whence)
{

	return (lookup_value(seekwhence, whence));
}

const char *
sysdecode_fcntl_cmd(int cmd)
{

	return (lookup_value(fcntlcmd, cmd));
}

static struct name_table fcntl_fd_arg[] = {
	X(FD_CLOEXEC) X(0) XEND
};

bool
sysdecode_fcntl_arg_p(int cmd)
{

	switch (cmd) {
	case F_GETFD:
	case F_GETFL:
	case F_GETOWN:
		return (false);
	default:
		return (true);
	}
}

void
sysdecode_fcntl_arg(FILE *fp, int cmd, uintptr_t arg, int base)
{
	int rem;

	switch (cmd) {
	case F_SETFD:
		if (!print_value(fp, fcntl_fd_arg, arg))
		    print_integer(fp, arg, base);
		break;
	case F_SETFL:
		if (!sysdecode_fcntl_fileflags(fp, arg, &rem))
			fprintf(fp, "%#x", rem);
		else if (rem != 0)
			fprintf(fp, "|%#x", rem);
		break;
	case F_GETLK:
	case F_SETLK:
	case F_SETLKW:
		fprintf(fp, "%p", (void *)arg);
		break;
	default:
		print_integer(fp, arg, base);
		break;
	}
}

bool
sysdecode_mmap_flags(FILE *fp, int flags, int *rem)
{
	uintmax_t val;
	bool printed;
	int align;

	/*
	 * MAP_ALIGNED can't be handled directly by print_mask_int().
	 */
	printed = false;
	align = flags & MAP_ALIGNMENT_MASK;
	val = (unsigned)flags & ~MAP_ALIGNMENT_MASK;
	print_mask_part(fp, mmapflags, &val, &printed);
	if (align != 0) {
		if (printed)
			fputc('|', fp);
		if (align == MAP_ALIGNED_SUPER)
			fputs("MAP_ALIGNED_SUPER", fp);
		else
			fprintf(fp, "MAP_ALIGNED(%d)",
			    align >> MAP_ALIGNMENT_SHIFT);
		printed = true;
	}
	if (rem != NULL)
		*rem = val;
	return (printed);
}

const char *
sysdecode_pathconf_name(int name)
{

	return (lookup_value(pathconfname, name));
}

const char *
sysdecode_rtprio_function(int function)
{

	return (lookup_value(rtpriofuncs, function));
}

bool
sysdecode_msg_flags(FILE *fp, int flags, int *rem)
{

	return (print_mask_0(fp, msgflags, flags, rem));
}

const char *
sysdecode_sigcode(int sig, int si_code)
{
	const char *str;

	str = lookup_value(sigcode, si_code);
	if (str != NULL)
		return (str);
	
	switch (sig) {
	case SIGILL:
		return (sysdecode_sigill_code(si_code));
	case SIGBUS:
		return (sysdecode_sigbus_code(si_code));
	case SIGSEGV:
		return (sysdecode_sigsegv_code(si_code));
	case SIGFPE:
		return (sysdecode_sigfpe_code(si_code));
	case SIGTRAP:
		return (sysdecode_sigtrap_code(si_code));
	case SIGCHLD:
		return (sysdecode_sigchld_code(si_code));
	default:
		return (NULL);
	}
}

const char *
sysdecode_sysarch_number(int number)
{

	return (lookup_value(sysarchnum, number));
}

bool
sysdecode_umtx_cvwait_flags(FILE *fp, u_long flags, u_long *rem)
{

	return (print_mask_0ul(fp, umtxcvwaitflags, flags, rem));
}

bool
sysdecode_umtx_rwlock_flags(FILE *fp, u_long flags, u_long *rem)
{

	return (print_mask_0ul(fp, umtxrwlockflags, flags, rem));
}

void
sysdecode_cap_rights(FILE *fp, cap_rights_t *rightsp)
{
	cap_rights_t diff, sum, zero;
	const struct name_table *t;
	int i;
	bool comma;

	for (i = 0; i < CAPARSIZE(rightsp); i++) {
		if (CAPIDXBIT(rightsp->cr_rights[i]) != 1 << i) {
			fprintf(fp, "invalid cap_rights_t");
			return;
		}
	}
	cap_rights_init(&sum);
	diff = *rightsp;
	for (t = caprights, comma = false; t->str != NULL; t++) {
		if (cap_rights_is_set(rightsp, t->val)) {
			cap_rights_clear(&diff, t->val);
			if (cap_rights_is_set(&sum, t->val)) {
				/* Don't print redundant rights. */
				continue;
			}
			cap_rights_set(&sum, t->val);

			fprintf(fp, "%s%s", comma ? "," : "", t->str);
			comma = true;
		}
	}
	if (!comma)
		fprintf(fp, "CAP_NONE");

	/*
	 * Provide a breadcrumb if some of the provided rights are not included
	 * in the table, likely due to a bug in the mktables script.
	 */
	CAP_NONE(&zero);
	if (!cap_rights_contains(&zero, &diff))
		fprintf(fp, ",unknown rights");
}

/*
 * Pre-sort the set of rights, which has a partial ordering defined by the
 * subset relation.  This lets sysdecode_cap_rights() print a list of minimal
 * length with a single pass over the "caprights" table.
 */
static void __attribute__((constructor))
sysdecode_cap_rights_init(void)
{
	cap_rights_t tr, qr;
	struct name_table *t, *q, tmp;
	bool swapped;

	do {
		for (t = caprights, swapped = false; t->str != NULL; t++) {
			cap_rights_init(&tr, t->val);
			for (q = t + 1; q->str != NULL; q++) {
				cap_rights_init(&qr, q->val);
				if (cap_rights_contains(&qr, &tr)) {
					tmp = *t;
					*t = *q;
					*q = tmp;
					swapped = true;
				}
			}
		}
	} while (swapped);
}

static struct name_table cmsgtypeip[] = {
	X(IP_RECVDSTADDR) X(IP_RECVTTL) X(IP_RECVOPTS) X(IP_RECVRETOPTS)
	X(IP_RECVIF) X(IP_RECVTOS) X(IP_FLOWID) X(IP_FLOWTYPE)
	X(IP_RSSBUCKETID) XEND
};

static struct name_table cmsgtypeipv6[] = {
#if 0
	/* The RFC 2292 defines are kernel space only. */
	X(IPV6_2292PKTINFO) X(IPV6_2292HOPLIMIT) X(IPV6_2292HOPOPTS)
	X(IPV6_2292DSTOPTS) X(IPV6_2292RTHDR) X(IPV6_2292NEXTHOP)
#endif
	X(IPV6_PKTINFO)  X(IPV6_HOPLIMIT) X(IPV6_HOPOPTS)
	X(IPV6_DSTOPTS) X(IPV6_RTHDR) X(IPV6_NEXTHOP)
	X(IPV6_TCLASS) X(IPV6_FLOWID) X(IPV6_FLOWTYPE) X(IPV6_RSSBUCKETID)
	X(IPV6_PATHMTU) X(IPV6_RTHDRDSTOPTS) X(IPV6_USE_MIN_MTU)
	X(IPV6_DONTFRAG) X(IPV6_PREFER_TEMPADDR) XEND
};

static struct name_table cmsgtypesctp[] = {
	X(SCTP_INIT) X(SCTP_SNDRCV) X(SCTP_EXTRCV) X(SCTP_SNDINFO)
	X(SCTP_RCVINFO) X(SCTP_NXTINFO) X(SCTP_PRINFO) X(SCTP_AUTHINFO)
	X(SCTP_DSTADDRV4) X(SCTP_DSTADDRV6) XEND
};

const char *
sysdecode_cmsg_type(int cmsg_level, int cmsg_type)
{

	if (cmsg_level == SOL_SOCKET)
		return (lookup_value(cmsgtypesocket, cmsg_type));
	if (cmsg_level == IPPROTO_IP)
		return (lookup_value(cmsgtypeip, cmsg_type));
	if (cmsg_level == IPPROTO_IPV6)
		return (lookup_value(cmsgtypeipv6, cmsg_type));
	if (cmsg_level == IPPROTO_SCTP)
		return (lookup_value(cmsgtypesctp, cmsg_type));
	return (NULL);
}

const char *
sysdecode_sctp_pr_policy(int policy)
{

	return (lookup_value(sctpprpolicy, policy));
}

static struct name_table sctpsndflags[] = {
	X(SCTP_EOF) X(SCTP_ABORT) X(SCTP_UNORDERED) X(SCTP_ADDR_OVER)
	X(SCTP_SENDALL) X(SCTP_EOR) X(SCTP_SACK_IMMEDIATELY) XEND
};

bool
sysdecode_sctp_snd_flags(FILE *fp, int flags, int *rem)
{

	return (print_mask_int(fp, sctpsndflags, flags, rem));
}

static struct name_table sctprcvflags[] = {
	X(SCTP_UNORDERED) XEND
};

bool
sysdecode_sctp_rcv_flags(FILE *fp, int flags, int *rem)
{

	return (print_mask_int(fp, sctprcvflags, flags, rem));
}

static struct name_table sctpnxtflags[] = {
	X(SCTP_UNORDERED) X(SCTP_COMPLETE) X(SCTP_NOTIFICATION) XEND
};

bool
sysdecode_sctp_nxt_flags(FILE *fp, int flags, int *rem)
{

	return (print_mask_int(fp, sctpnxtflags, flags, rem));
}

static struct name_table sctpsinfoflags[] = {
	X(SCTP_EOF) X(SCTP_ABORT) X(SCTP_UNORDERED) X(SCTP_ADDR_OVER)
	X(SCTP_SENDALL) X(SCTP_EOR) X(SCTP_SACK_IMMEDIATELY) XEND
};

void
sysdecode_sctp_sinfo_flags(FILE *fp, int sinfo_flags)
{
	const char *temp;
	int rem;
	bool printed;

	printed = print_mask_0(fp, sctpsinfoflags, sinfo_flags, &rem);
	if (rem & ~SCTP_PR_SCTP_ALL) {
		fprintf(fp, "%s%#x", printed ? "|" : "", rem & ~SCTP_PR_SCTP_ALL);
		printed = true;
		rem &= ~SCTP_PR_SCTP_ALL;
	}
	if (rem != 0) {
		temp = sysdecode_sctp_pr_policy(rem);
		if (temp != NULL) {
			fprintf(fp, "%s%s", printed ? "|" : "", temp);
		} else {
			fprintf(fp, "%s%#x", printed ? "|" : "", rem);
		}
	}
}

bool
sysdecode_shmflags(FILE *fp, int flags, int *rem)
{

	return (print_mask_0(fp, shmflags, flags, rem));
}

const char *
sysdecode_itimer(int which)
{

	return (lookup_value(itimerwhich, which));
}