2N/A/*
2N/A * CDDL HEADER START
2N/A *
2N/A * The contents of this file are subject to the terms of the
2N/A * Common Development and Distribution License (the "License").
2N/A * You may not use this file except in compliance with the License.
2N/A *
2N/A * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
2N/A * or http://www.opensolaris.org/os/licensing.
2N/A * See the License for the specific language governing permissions
2N/A * and limitations under the License.
2N/A *
2N/A * When distributing Covered Code, include this CDDL HEADER in each
2N/A * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
2N/A * If applicable, add the following below this CDDL HEADER, with the
2N/A * fields enclosed by brackets "[]" replaced with your own identifying
2N/A * information: Portions Copyright [yyyy] [name of copyright owner]
2N/A *
2N/A * CDDL HEADER END
2N/A */
2N/A/*
2N/A * Copyright (c) 1992, 2011, Oracle and/or its affiliates. All rights reserved.
2N/A */
2N/A
2N/A
2N/A#include <sys/types.h>
2N/A#include <sys/stat.h>
2N/A#include <unistd.h>
2N/A#include <bsm/audit.h>
2N/A#include <bsm/audit_record.h>
2N/A#include <bsm/libbsm.h>
2N/A#include <priv.h>
2N/A#include <sys/ipc.h>
2N/A#include <sys/param.h>
2N/A#include <sys/socket.h>
2N/A#include <sys/time.h>
2N/A#include <sys/vnode.h>
2N/A#include <malloc.h>
2N/A#include <net/route.h>
2N/A#include <netinet/in.h>
2N/A#include <netinet/in_pcb.h>
2N/A#include <string.h>
2N/A#include <ucred.h>
2N/A#include <zone.h>
2N/A#include <sys/tsol/label.h>
2N/A
2N/A#define NGROUPS 16 /* XXX - temporary */
2N/A
2N/Atoken_t *au_to_arg(char n, char *text, uint32_t v);
2N/A#pragma weak au_to_arg = au_to_arg32
2N/Atoken_t *au_to_return(char number, uint32_t value);
2N/A#pragma weak au_to_return = au_to_return32
2N/A
2N/Astatic token_t *au_to_exec(char **, char);
2N/A
2N/Astatic token_t *
2N/Aget_token(int s)
2N/A{
2N/A token_t *token; /* Resultant token */
2N/A
2N/A if ((token = (token_t *)malloc(sizeof (token_t))) == NULL)
2N/A return (NULL);
2N/A if ((token->tt_data = malloc(s)) == NULL) {
2N/A free(token);
2N/A return (NULL);
2N/A }
2N/A token->tt_size = s;
2N/A token->tt_next = NULL;
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_header
2N/A * return s:
2N/A * pointer to header token.
2N/A */
2N/Atoken_t *
2N/Aau_to_header(au_event_t e_type, au_emod_t e_mod)
2N/A{
2N/A adr_t adr; /* adr memory stream header */
2N/A token_t *token; /* token pointer */
2N/A char version = TOKEN_VERSION; /* version of token family */
2N/A int32_t byte_count;
2N/A struct timeval tv;
2N/A#ifdef _LP64
2N/A char data_header = AUT_HEADER64; /* header for this token */
2N/A
2N/A token = get_token(2 * sizeof (char) + sizeof (int32_t) +
2N/A 2 * sizeof (int64_t) + 2 * sizeof (short));
2N/A#else
2N/A char data_header = AUT_HEADER32;
2N/A
2N/A token = get_token(2 * sizeof (char) + 3 * sizeof (int32_t) +
2N/A 2 * sizeof (short));
2N/A#endif
2N/A
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1); /* token ID */
2N/A adr_int32(&adr, &byte_count, 1); /* length of audit record */
2N/A adr_char(&adr, &version, 1); /* version of audit tokens */
2N/A adr_ushort(&adr, &e_type, 1); /* event ID */
2N/A adr_ushort(&adr, &e_mod, 1); /* event ID modifier */
2N/A#ifdef _LP64
2N/A adr_int64(&adr, (int64_t *)&tv, 2); /* time & date */
2N/A#else
2N/A adr_int32(&adr, (int32_t *)&tv, 2); /* time & date */
2N/A#endif
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_header_ex
2N/A * return s:
2N/A * pointer to header token.
2N/A */
2N/Atoken_t *
2N/Aau_to_header_ex(au_event_t e_type, au_emod_t e_mod)
2N/A{
2N/A adr_t adr; /* adr memory stream header */
2N/A token_t *token; /* token pointer */
2N/A char version = TOKEN_VERSION; /* version of token family */
2N/A int32_t byte_count;
2N/A struct timeval tv;
2N/A auditinfo_addr_t audit_info;
2N/A au_tid_addr_t *host_info = &audit_info.ai_termid;
2N/A#ifdef _LP64
2N/A char data_header = AUT_HEADER64_EX; /* header for this token */
2N/A#else
2N/A char data_header = AUT_HEADER32_EX;
2N/A#endif
2N/A
2N/A /* If our host address can't be determined, revert to un-extended hdr */
2N/A
2N/A if (auditon(A_GETKAUDIT, (caddr_t)&audit_info,
2N/A sizeof (audit_info)) < 0)
2N/A return (au_to_header(e_type, e_mod));
2N/A
2N/A if (host_info->at_type == AU_IPv6)
2N/A if (IN6_IS_ADDR_UNSPECIFIED((in6_addr_t *)host_info->at_addr))
2N/A return (au_to_header(e_type, e_mod));
2N/A else
2N/A if (host_info->at_addr[0] == htonl(INADDR_ANY))
2N/A return (au_to_header(e_type, e_mod));
2N/A
2N/A#ifdef _LP64
2N/A token = get_token(2 * sizeof (char) + sizeof (int32_t) +
2N/A 2 * sizeof (int64_t) + 2 * sizeof (short) +
2N/A sizeof (int32_t) + host_info->at_type);
2N/A#else
2N/A token = get_token(2 * sizeof (char) + 3 * sizeof (int32_t) +
2N/A 2 * sizeof (short) + sizeof (int32_t) + host_info->at_type);
2N/A#endif
2N/A
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1); /* token ID */
2N/A adr_int32(&adr, &byte_count, 1); /* length of audit record */
2N/A adr_char(&adr, &version, 1); /* version of audit tokens */
2N/A adr_ushort(&adr, &e_type, 1); /* event ID */
2N/A adr_ushort(&adr, &e_mod, 1); /* event ID modifier */
2N/A adr_int32(&adr, (int32_t *)&host_info->at_type, 1);
2N/A adr_char(&adr, (char *)host_info->at_addr,
2N/A (int)host_info->at_type);
2N/A#ifdef _LP64
2N/A adr_int64(&adr, (int64_t *)&tv, 2); /* time & date */
2N/A#else
2N/A adr_int32(&adr, (int32_t *)&tv, 2); /* time & date */
2N/A#endif
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_trailer
2N/A * return s:
2N/A * pointer to a trailer token.
2N/A */
2N/Atoken_t *
2N/Aau_to_trailer(void)
2N/A{
2N/A adr_t adr; /* adr memory stream header */
2N/A token_t *token; /* token pointer */
2N/A char data_header = AUT_TRAILER; /* header for this token */
2N/A short magic = (short)AUT_TRAILER_MAGIC; /* trailer magic number */
2N/A int32_t byte_count;
2N/A
2N/A token = get_token(sizeof (char) + sizeof (int32_t) + sizeof (short));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1); /* token ID */
2N/A adr_short(&adr, &magic, 1); /* magic number */
2N/A adr_int32(&adr, &byte_count, 1); /* length of audit record */
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_arg32
2N/A * return s:
2N/A * pointer to an argument token.
2N/A */
2N/Atoken_t *
2N/Aau_to_arg32(char n, char *text, uint32_t v)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_ARG32; /* header for this token */
2N/A short bytes; /* length of string */
2N/A
2N/A bytes = strlen(text) + 1;
2N/A
2N/A token = get_token((int)(2 * sizeof (char) + sizeof (int32_t) +
2N/A sizeof (short) + bytes));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1); /* token type */
2N/A adr_char(&adr, &n, 1); /* argument id */
2N/A adr_int32(&adr, (int32_t *)&v, 1); /* argument value */
2N/A adr_short(&adr, &bytes, 1);
2N/A adr_char(&adr, text, bytes);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_arg64
2N/A * return s:
2N/A * pointer to an argument token.
2N/A */
2N/Atoken_t *
2N/Aau_to_arg64(char n, char *text, uint64_t v)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_ARG64; /* header for this token */
2N/A short bytes; /* length of string */
2N/A
2N/A bytes = strlen(text) + 1;
2N/A
2N/A token = get_token((int)(2 * sizeof (char) + sizeof (int64_t) +
2N/A sizeof (short) + bytes));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1); /* token type */
2N/A adr_char(&adr, &n, 1); /* argument id */
2N/A adr_int64(&adr, (int64_t *)&v, 1); /* argument value */
2N/A adr_short(&adr, &bytes, 1);
2N/A adr_char(&adr, text, bytes);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A
2N/A/*
2N/A * au_to_attr
2N/A * return s:
2N/A * pointer to an attribute token.
2N/A */
2N/Atoken_t *
2N/Aau_to_attr(struct stat64 *attr)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A int32_t value;
2N/A int64_t value64;
2N/A char data_header = AUT_ATTR64; /* header for this token */
2N/A
2N/A token = get_token(sizeof (char) +
2N/A sizeof (int32_t) * 4 +
2N/A sizeof (int64_t) * 2);
2N/A
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A value = (int32_t)attr->st_mode;
2N/A adr_int32(&adr, &value, 1);
2N/A value = (int32_t)attr->st_uid;
2N/A adr_int32(&adr, &value, 1);
2N/A value = (int32_t)attr->st_gid;
2N/A adr_int32(&adr, &value, 1);
2N/A adr_int32(&adr, (int32_t *)&(attr->st_dev), 1);
2N/A adr_int64(&adr, (int64_t *)&(attr->st_ino), 1);
2N/A value64 = (int64_t)attr->st_rdev;
2N/A adr_int64(&adr, &value64, 1);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_data
2N/A * return s:
2N/A * pointer to a data token.
2N/A */
2N/Atoken_t *
2N/Aau_to_data(char unit_print, char unit_type, char unit_count, char *p)
2N/A{
2N/A adr_t adr; /* adr memory stream header */
2N/A token_t *token; /* token pointer */
2N/A char data_header = AUT_DATA; /* header for this token */
2N/A int byte_count; /* number of bytes */
2N/A
2N/A if (p == NULL || unit_count < 1)
2N/A return (NULL);
2N/A
2N/A /*
2N/A * Check validity of print type
2N/A */
2N/A if (unit_print < AUP_BINARY || unit_print > AUP_STRING)
2N/A return (NULL);
2N/A
2N/A switch (unit_type) {
2N/A case AUR_SHORT:
2N/A byte_count = unit_count * sizeof (short);
2N/A break;
2N/A case AUR_INT32:
2N/A byte_count = unit_count * sizeof (int32_t);
2N/A break;
2N/A case AUR_INT64:
2N/A byte_count = unit_count * sizeof (int64_t);
2N/A break;
2N/A /* case AUR_CHAR: */
2N/A case AUR_BYTE:
2N/A byte_count = unit_count * sizeof (char);
2N/A break;
2N/A default:
2N/A return (NULL);
2N/A }
2N/A
2N/A token = get_token((int)(4 * sizeof (char) + byte_count));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_char(&adr, &unit_print, 1);
2N/A adr_char(&adr, &unit_type, 1);
2N/A adr_char(&adr, &unit_count, 1);
2N/A
2N/A switch (unit_type) {
2N/A case AUR_SHORT:
2N/A /* LINTED */
2N/A adr_short(&adr, (short *)p, unit_count);
2N/A break;
2N/A case AUR_INT32:
2N/A /* LINTED */
2N/A adr_int32(&adr, (int32_t *)p, unit_count);
2N/A break;
2N/A case AUR_INT64:
2N/A /* LINTED */
2N/A adr_int64(&adr, (int64_t *)p, unit_count);
2N/A break;
2N/A /* case AUR_CHAR: */
2N/A case AUR_BYTE:
2N/A adr_char(&adr, p, unit_count);
2N/A break;
2N/A }
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_privset
2N/A *
2N/A * priv_type (LIMIT, INHERIT...) is the first string and privilege
2N/A * in translated into the second string. The format is as follows:
2N/A *
2N/A * token id adr_char
2N/A * priv type adr_string (short, string)
2N/A * priv set adr_string (short, string)
2N/A *
2N/A * return s:
2N/A * pointer to a AUT_PRIV token.
2N/A */
2N/Atoken_t *
2N/Aau_to_privset(const char *priv_type, const priv_set_t *privilege)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_PRIV; /* header for this token */
2N/A short t_bytes; /* length of type string */
2N/A short p_bytes; /* length of privilege string */
2N/A char *priv_string; /* privilege string */
2N/A
2N/A t_bytes = strlen(priv_type) + 1;
2N/A
2N/A if ((privilege == NULL) || (priv_string =
2N/A priv_set_to_str(privilege, ',',
2N/A PRIV_STR_LIT)) == NULL)
2N/A return (NULL);
2N/A
2N/A p_bytes = strlen(priv_string) + 1;
2N/A
2N/A token = get_token((int)(sizeof (char) + (2 * sizeof (short)) + t_bytes
2N/A + p_bytes));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_short(&adr, &t_bytes, 1);
2N/A adr_char(&adr, (char *)priv_type, t_bytes);
2N/A adr_short(&adr, &p_bytes, 1);
2N/A adr_char(&adr, priv_string, p_bytes);
2N/A
2N/A free(priv_string);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_process
2N/A * return s:
2N/A * pointer to a process token.
2N/A */
2N/A
2N/Atoken_t *
2N/Aau_to_process(au_id_t auid, uid_t euid, gid_t egid, uid_t ruid, gid_t rgid,
2N/A pid_t pid, au_asid_t sid, au_tid_t *tid)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A#ifdef _LP64
2N/A char data_header = AUT_PROCESS64; /* header for this token */
2N/A
2N/A token = get_token(sizeof (char) + 8 * sizeof (int32_t) +
2N/A sizeof (int64_t));
2N/A#else
2N/A char data_header = AUT_PROCESS32;
2N/A
2N/A token = get_token(sizeof (char) + 9 * sizeof (int32_t));
2N/A#endif
2N/A
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_int32(&adr, (int32_t *)&auid, 1);
2N/A adr_int32(&adr, (int32_t *)&euid, 1);
2N/A adr_int32(&adr, (int32_t *)&egid, 1);
2N/A adr_int32(&adr, (int32_t *)&ruid, 1);
2N/A adr_int32(&adr, (int32_t *)&rgid, 1);
2N/A adr_int32(&adr, (int32_t *)&pid, 1);
2N/A adr_int32(&adr, (int32_t *)&sid, 1);
2N/A#ifdef _LP64
2N/A adr_int64(&adr, (int64_t *)&tid->port, 1);
2N/A#else
2N/A adr_int32(&adr, (int32_t *)&tid->port, 1);
2N/A#endif
2N/A adr_int32(&adr, (int32_t *)&tid->machine, 1);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_process_ex
2N/A * return s:
2N/A * pointer to a process_ex token.
2N/A */
2N/Atoken_t *
2N/Aau_to_process_ex(au_id_t auid, uid_t euid, gid_t egid, uid_t ruid, gid_t rgid,
2N/A pid_t pid, au_asid_t sid, au_tid_addr_t *tid)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header; /* header for this token */
2N/A
2N/A#ifdef _LP64
2N/A if (tid->at_type == AU_IPv6) {
2N/A data_header = AUT_PROCESS64_EX;
2N/A token = get_token(sizeof (char) + sizeof (int64_t) +
2N/A 12 * sizeof (int32_t));
2N/A } else {
2N/A data_header = AUT_PROCESS64;
2N/A token = get_token(sizeof (char) + sizeof (int64_t) +
2N/A 8 * sizeof (int32_t));
2N/A }
2N/A#else
2N/A if (tid->at_type == AU_IPv6) {
2N/A data_header = AUT_PROCESS32_EX;
2N/A token = get_token(sizeof (char) + 13 * sizeof (int32_t));
2N/A } else {
2N/A data_header = AUT_PROCESS32;
2N/A token = get_token(sizeof (char) + 9 * sizeof (int32_t));
2N/A }
2N/A#endif
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_int32(&adr, (int32_t *)&auid, 1);
2N/A adr_int32(&adr, (int32_t *)&euid, 1);
2N/A adr_int32(&adr, (int32_t *)&egid, 1);
2N/A adr_int32(&adr, (int32_t *)&ruid, 1);
2N/A adr_int32(&adr, (int32_t *)&rgid, 1);
2N/A adr_int32(&adr, (int32_t *)&pid, 1);
2N/A adr_int32(&adr, (int32_t *)&sid, 1);
2N/A#ifdef _LP64
2N/A adr_int64(&adr, (int64_t *)&tid->at_port, 1);
2N/A#else
2N/A adr_int32(&adr, (int32_t *)&tid->at_port, 1);
2N/A#endif
2N/A if (tid->at_type == AU_IPv6) {
2N/A adr_int32(&adr, (int32_t *)&tid->at_type, 1);
2N/A adr_char(&adr, (char *)tid->at_addr, 16);
2N/A } else {
2N/A adr_char(&adr, (char *)tid->at_addr, 4);
2N/A }
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_seq
2N/A * return s:
2N/A * pointer to token chain containing a sequence token
2N/A */
2N/Atoken_t *
2N/Aau_to_seq(int audit_count)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_SEQ; /* header for this token */
2N/A
2N/A token = get_token(sizeof (char) + sizeof (int32_t));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_int32(&adr, (int32_t *)&audit_count, 1);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_subject
2N/A * return s:
2N/A * pointer to a process token.
2N/A */
2N/A
2N/Atoken_t *
2N/Aau_to_subject(au_id_t auid, uid_t euid, gid_t egid, uid_t ruid, gid_t rgid,
2N/A pid_t pid, au_asid_t sid, au_tid_t *tid)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A#ifdef _LP64
2N/A char data_header = AUT_SUBJECT64; /* header for this token */
2N/A
2N/A token = get_token(sizeof (char) + sizeof (int64_t) +
2N/A 8 * sizeof (int32_t));
2N/A#else
2N/A char data_header = AUT_SUBJECT32;
2N/A
2N/A token = get_token(sizeof (char) + 9 * sizeof (int32_t));
2N/A#endif
2N/A
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_int32(&adr, (int32_t *)&auid, 1);
2N/A adr_int32(&adr, (int32_t *)&euid, 1);
2N/A adr_int32(&adr, (int32_t *)&egid, 1);
2N/A adr_int32(&adr, (int32_t *)&ruid, 1);
2N/A adr_int32(&adr, (int32_t *)&rgid, 1);
2N/A adr_int32(&adr, (int32_t *)&pid, 1);
2N/A adr_int32(&adr, (int32_t *)&sid, 1);
2N/A#ifdef _LP64
2N/A adr_int64(&adr, (int64_t *)&tid->port, 1);
2N/A#else
2N/A adr_int32(&adr, (int32_t *)&tid->port, 1);
2N/A#endif
2N/A adr_int32(&adr, (int32_t *)&tid->machine, 1);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_subject_ex
2N/A * return s:
2N/A * pointer to a process token.
2N/A */
2N/A
2N/Atoken_t *
2N/Aau_to_subject_ex(au_id_t auid, uid_t euid, gid_t egid, uid_t ruid, gid_t rgid,
2N/A pid_t pid, au_asid_t sid, au_tid_addr_t *tid)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A#ifdef _LP64
2N/A char data_header; /* header for this token */
2N/A
2N/A if (tid->at_type == AU_IPv6) {
2N/A data_header = AUT_SUBJECT64_EX;
2N/A token = get_token(sizeof (char) + sizeof (int64_t) +
2N/A 12 * sizeof (int32_t));
2N/A } else {
2N/A data_header = AUT_SUBJECT64;
2N/A token = get_token(sizeof (char) + sizeof (int64_t) +
2N/A 8 * sizeof (int32_t));
2N/A }
2N/A#else
2N/A char data_header; /* header for this token */
2N/A
2N/A if (tid->at_type == AU_IPv6) {
2N/A data_header = AUT_SUBJECT32_EX;
2N/A token = get_token(sizeof (char) + 13 * sizeof (int32_t));
2N/A } else {
2N/A data_header = AUT_SUBJECT32;
2N/A token = get_token(sizeof (char) + 9 * sizeof (int32_t));
2N/A }
2N/A#endif
2N/A
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_int32(&adr, (int32_t *)&auid, 1);
2N/A adr_int32(&adr, (int32_t *)&euid, 1);
2N/A adr_int32(&adr, (int32_t *)&egid, 1);
2N/A adr_int32(&adr, (int32_t *)&ruid, 1);
2N/A adr_int32(&adr, (int32_t *)&rgid, 1);
2N/A adr_int32(&adr, (int32_t *)&pid, 1);
2N/A adr_int32(&adr, (int32_t *)&sid, 1);
2N/A#ifdef _LP64
2N/A adr_int64(&adr, (int64_t *)&tid->at_port, 1);
2N/A#else
2N/A adr_int32(&adr, (int32_t *)&tid->at_port, 1);
2N/A#endif
2N/A if (tid->at_type == AU_IPv6) {
2N/A adr_int32(&adr, (int32_t *)&tid->at_type, 1);
2N/A adr_char(&adr, (char *)tid->at_addr, 16);
2N/A } else {
2N/A adr_char(&adr, (char *)tid->at_addr, 4);
2N/A }
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_me
2N/A * return s:
2N/A * pointer to a process token.
2N/A */
2N/A
2N/Atoken_t *
2N/Aau_to_me(void)
2N/A{
2N/A auditinfo_addr_t info;
2N/A
2N/A if (getaudit_addr(&info, sizeof (info)))
2N/A return (NULL);
2N/A return (au_to_subject_ex(info.ai_auid, geteuid(), getegid(), getuid(),
2N/A getgid(), getpid(), info.ai_asid, &info.ai_termid));
2N/A}
2N/A/*
2N/A * au_to_text
2N/A * return s:
2N/A * pointer to a text token.
2N/A */
2N/Atoken_t *
2N/Aau_to_text(char *text)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_TEXT; /* header for this token */
2N/A short bytes; /* length of string */
2N/A
2N/A bytes = strlen(text) + 1;
2N/A token = get_token((int)(sizeof (char) + sizeof (short) + bytes));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_short(&adr, &bytes, 1);
2N/A adr_char(&adr, text, bytes);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_path
2N/A * return s:
2N/A * pointer to a path token.
2N/A */
2N/Atoken_t *
2N/Aau_to_path(char *path)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_PATH; /* header for this token */
2N/A short bytes; /* length of string */
2N/A
2N/A bytes = (short)strlen(path) + 1;
2N/A
2N/A token = get_token((int)(sizeof (char) + sizeof (short) + bytes));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_short(&adr, &bytes, 1);
2N/A adr_char(&adr, path, bytes);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_cmd
2N/A * return s:
2N/A * pointer to an command line argument token
2N/A */
2N/Atoken_t *
2N/Aau_to_cmd(uint_t argc, char **argv, char **envp)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_CMD; /* header for this token */
2N/A short len = 0;
2N/A short cnt = 0;
2N/A short envc = 0;
2N/A short largc = (short)argc;
2N/A
2N/A /*
2N/A * one char for the header, one short for argc,
2N/A * one short for # envp strings.
2N/A */
2N/A len = sizeof (char) + sizeof (short) + sizeof (short);
2N/A
2N/A /* get sizes of strings */
2N/A
2N/A for (cnt = 0; cnt < argc; cnt++) {
2N/A len += (short)sizeof (short) + (short)(strlen(argv[cnt]) + 1);
2N/A }
2N/A
2N/A if (envp != NULL) {
2N/A for (envc = 0; envp[envc] != NULL; envc++) {
2N/A len += (short)sizeof (short) +
2N/A (short)(strlen(envp[envc]) + 1);
2N/A }
2N/A }
2N/A
2N/A token = get_token(len);
2N/A if (token == NULL)
2N/A return (NULL);
2N/A
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A
2N/A adr_short(&adr, &largc, 1);
2N/A
2N/A for (cnt = 0; cnt < argc; cnt++) {
2N/A len = (short)(strlen(argv[cnt]) + 1);
2N/A adr_short(&adr, &len, 1);
2N/A adr_char(&adr, argv[cnt], len);
2N/A }
2N/A
2N/A adr_short(&adr, &envc, 1);
2N/A
2N/A for (cnt = 0; cnt < envc; cnt++) {
2N/A len = (short)(strlen(envp[cnt]) + 1);
2N/A adr_short(&adr, &len, 1);
2N/A adr_char(&adr, envp[cnt], len);
2N/A }
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_exit
2N/A * return s:
2N/A * pointer to a exit value token.
2N/A */
2N/Atoken_t *
2N/Aau_to_exit(int retval, int err)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_EXIT; /* header for this token */
2N/A
2N/A token = get_token(sizeof (char) + (2 * sizeof (int32_t)));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_int32(&adr, (int32_t *)&retval, 1);
2N/A adr_int32(&adr, (int32_t *)&err, 1);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_return
2N/A * return s:
2N/A * pointer to a return value token.
2N/A */
2N/Atoken_t *
2N/Aau_to_return32(char number, uint32_t value)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_RETURN32; /* header for this token */
2N/A
2N/A token = get_token(2 * sizeof (char) + sizeof (int32_t));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_char(&adr, &number, 1);
2N/A adr_int32(&adr, (int32_t *)&value, 1);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_return
2N/A * return s:
2N/A * pointer to a return value token.
2N/A */
2N/Atoken_t *
2N/Aau_to_return64(char number, uint64_t value)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_RETURN64; /* header for this token */
2N/A
2N/A token = get_token(2 * sizeof (char) + sizeof (int64_t));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_char(&adr, &number, 1);
2N/A adr_int64(&adr, (int64_t *)&value, 1);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A
2N/A/*
2N/A * au_to_opaque
2N/A * return s:
2N/A * pointer to a opaque token.
2N/A */
2N/Atoken_t *
2N/Aau_to_opaque(char *opaque, short bytes)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_OPAQUE; /* header for this token */
2N/A
2N/A if (bytes < 1)
2N/A return (NULL);
2N/A
2N/A token = get_token((int)(sizeof (char) + sizeof (short) + bytes));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_short(&adr, &bytes, 1);
2N/A adr_char(&adr, opaque, bytes);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_in_addr
2N/A * return s:
2N/A * pointer to an internet address token
2N/A */
2N/Atoken_t *
2N/Aau_to_in_addr(struct in_addr *internet_addr)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_IN_ADDR; /* header for this token */
2N/A
2N/A token = get_token(sizeof (char) + sizeof (struct in_addr));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_char(&adr, (char *)internet_addr, sizeof (struct in_addr));
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_in_addr_ex
2N/A * return s:
2N/A * pointer to an internet extended token
2N/A */
2N/Atoken_t *
2N/Aau_to_in_addr_ex(struct in6_addr *addr)
2N/A{
2N/A token_t *token;
2N/A adr_t adr;
2N/A
2N/A if (IN6_IS_ADDR_V4MAPPED(addr)) {
2N/A ipaddr_t in4;
2N/A
2N/A /*
2N/A * An IPv4-mapped IPv6 address is really an IPv4 address
2N/A * in IPv6 format.
2N/A */
2N/A
2N/A IN6_V4MAPPED_TO_IPADDR(addr, in4);
2N/A return (au_to_in_addr((struct in_addr *)&in4));
2N/A
2N/A } else {
2N/A char data_header = AUT_IN_ADDR_EX;
2N/A int32_t type = AU_IPv6;
2N/A
2N/A if ((token = get_token(sizeof (char) + sizeof (int32_t) +
2N/A sizeof (struct in6_addr))) == NULL) {
2N/A return (NULL);
2N/A }
2N/A
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_int32(&adr, &type, 1);
2N/A adr_char(&adr, (char *)addr, sizeof (struct in6_addr));
2N/A }
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_iport
2N/A * return s:
2N/A * pointer to token chain containing a ip port address token
2N/A */
2N/Atoken_t *
2N/Aau_to_iport(ushort_t iport)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_IPORT; /* header for this token */
2N/A
2N/A token = get_token(sizeof (char) + sizeof (short));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_short(&adr, (short *)&iport, 1);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/Atoken_t *
2N/Aau_to_ipc(char type, int id)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_IPC; /* header for this token */
2N/A
2N/A token = get_token((2 * sizeof (char)) + sizeof (int32_t));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_char(&adr, &type, 1);
2N/A adr_int32(&adr, (int32_t *)&id, 1);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_tid
2N/A *
2N/A * output format depends on type; at present only IP v4 and v6 addresses
2N/A * are defined.
2N/A *
2N/A * IPv4 -- tid type, 16 bit remote port, 16 bit local port, ip type,
2N/A * 32 bit IP address.
2N/A * IPv6 -- tid type, 16 bit remote port, 16 bit local port, ip type,
2N/A * 4 x 32 bit IP address.
2N/A *
2N/A */
2N/Atoken_t *
2N/Aau_to_tid(au_generic_tid_t *tid)
2N/A{
2N/A char data_header = AUT_TID; /* header for this token */
2N/A adr_t adr; /* adr memory stream header */
2N/A token_t *token; /* local token */
2N/A au_ip_t *ip;
2N/A
2N/A switch (tid->gt_type) {
2N/A case AU_IPADR:
2N/A ip = &(tid->gt_adr.at_ip);
2N/A token = get_token((int)(2 * sizeof (char) + 2 * sizeof (short) +
2N/A sizeof (uint32_t) + ip->at_type));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_char(&adr, (char *)&(tid->gt_type), 1);
2N/A adr_short(&adr, (short *)&(ip->at_r_port), 1);
2N/A adr_short(&adr, (short *)&(ip->at_l_port), 1);
2N/A adr_int32(&adr, (int32_t *)&(ip->at_type), 1);
2N/A
2N/A adr_char(&adr, (char *)ip->at_addr, ip->at_type);
2N/A
2N/A break;
2N/A default:
2N/A return (NULL);
2N/A }
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * The Modifier tokens
2N/A */
2N/A
2N/A/*
2N/A * au_to_groups
2N/A * return s:
2N/A * pointer to a group list token.
2N/A *
2N/A * This function is obsolete. Please use au_to_newgroups.
2N/A */
2N/Atoken_t *
2N/Aau_to_groups(int *groups)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_GROUPS; /* header for this token */
2N/A
2N/A token = get_token(sizeof (char) + NGROUPS * sizeof (int32_t));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_int32(&adr, (int32_t *)groups, NGROUPS);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_newgroups
2N/A * return s:
2N/A * pointer to a group list token.
2N/A */
2N/Atoken_t *
2N/Aau_to_newgroups(int n, gid_t *groups)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_NEWGROUPS; /* header for this token */
2N/A short n_groups;
2N/A
2N/A if (n < 0 || n > SHRT_MAX || groups == NULL)
2N/A return (NULL);
2N/A token = get_token(sizeof (char) + sizeof (short) + n * sizeof (gid_t));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A n_groups = (short)n;
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_short(&adr, &n_groups, 1);
2N/A adr_int32(&adr, (int32_t *)groups, n_groups);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_exec_args
2N/A * returns:
2N/A * pointer to an exec args token.
2N/A */
2N/Atoken_t *
2N/Aau_to_exec_args(char **argv)
2N/A{
2N/A return (au_to_exec(argv, AUT_EXEC_ARGS));
2N/A}
2N/A
2N/A/*
2N/A * au_to_exec_env
2N/A * returns:
2N/A * pointer to an exec args token.
2N/A */
2N/Atoken_t *
2N/Aau_to_exec_env(char **envp)
2N/A{
2N/A return (au_to_exec(envp, AUT_EXEC_ENV));
2N/A}
2N/A
2N/A/*
2N/A * au_to_exec
2N/A * returns:
2N/A * pointer to an exec args token.
2N/A */
2N/Astatic token_t *
2N/Aau_to_exec(char **v, char data_header)
2N/A{
2N/A token_t *token;
2N/A adr_t adr;
2N/A char **p;
2N/A int32_t n = 0;
2N/A int len = 0;
2N/A
2N/A for (p = v; *p != NULL; p++) {
2N/A len += strlen(*p) + 1;
2N/A n++;
2N/A }
2N/A token = get_token(sizeof (char) + sizeof (int32_t) + len);
2N/A if (token == (token_t *)NULL)
2N/A return ((token_t *)NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_int32(&adr, &n, 1);
2N/A for (p = v; *p != NULL; p++) {
2N/A adr_char(&adr, *p, strlen(*p) + 1);
2N/A }
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_uauth
2N/A * return s:
2N/A * pointer to a uauth token.
2N/A */
2N/Atoken_t *
2N/Aau_to_uauth(char *text)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_UAUTH; /* header for this token */
2N/A short bytes; /* length of string */
2N/A
2N/A bytes = strlen(text) + 1;
2N/A
2N/A token = get_token((int)(sizeof (char) + sizeof (short) + bytes));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_short(&adr, &bytes, 1);
2N/A adr_char(&adr, text, bytes);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_upriv
2N/A * return s:
2N/A * pointer to a use of privilege token.
2N/A */
2N/Atoken_t *
2N/Aau_to_upriv(char sorf, char *priv)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_UAUTH; /* header for this token */
2N/A short bytes; /* length of string */
2N/A
2N/A bytes = strlen(priv) + 1;
2N/A
2N/A token = get_token(sizeof (char) + sizeof (char) + sizeof (short) +
2N/A bytes);
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_char(&adr, &sorf, 1); /* success/failure */
2N/A adr_short(&adr, &bytes, 1);
2N/A adr_char(&adr, priv, bytes);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_user
2N/A * return s:
2N/A * pointer to a user token.
2N/A */
2N/Atoken_t *
2N/Aau_to_user(uid_t uid, char *username)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_USER; /* header for this token */
2N/A short bytes; /* length of string */
2N/A
2N/A bytes = (short)strlen(username) + 1;
2N/A
2N/A token = get_token(sizeof (char) + sizeof (uid_t) + sizeof (short) +
2N/A bytes);
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_uid(&adr, &uid, 1);
2N/A adr_short(&adr, &bytes, 1);
2N/A adr_char(&adr, username, bytes);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_xatom
2N/A * return s:
2N/A * pointer to a xatom token.
2N/A */
2N/Atoken_t *
2N/Aau_to_xatom(char *atom)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_XATOM; /* header for this token */
2N/A short len;
2N/A
2N/A len = strlen(atom) + 1;
2N/A
2N/A token = get_token(sizeof (char) + sizeof (short) + len);
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_short(&adr, (short *)&len, 1);
2N/A adr_char(&adr, atom, len);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_xselect
2N/A * return s:
2N/A * pointer to a X select token.
2N/A */
2N/Atoken_t *
2N/Aau_to_xselect(char *propname, char *proptype, char *windata)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_XSELECT; /* header for this token */
2N/A short proplen;
2N/A short typelen;
2N/A short datalen;
2N/A
2N/A proplen = strlen(propname) + 1;
2N/A typelen = strlen(proptype) + 1;
2N/A datalen = strlen(windata) + 1;
2N/A
2N/A token = get_token(sizeof (char) + (sizeof (short) * 3) +
2N/A proplen + typelen + datalen);
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_short(&adr, &proplen, 1);
2N/A adr_char(&adr, propname, proplen);
2N/A adr_short(&adr, &typelen, 1);
2N/A adr_char(&adr, proptype, typelen);
2N/A adr_short(&adr, &datalen, 1);
2N/A adr_char(&adr, windata, datalen);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * x_common
2N/A * return s:
2N/A * pointer to a common X token.
2N/A */
2N/A
2N/Astatic token_t *
2N/Ax_common(char data_header, int32_t xid, uid_t cuid)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A
2N/A token = get_token(sizeof (char) + sizeof (int32_t) + sizeof (uid_t));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_int32(&adr, &xid, 1);
2N/A adr_uid(&adr, &cuid, 1);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_xcolormap
2N/A * return s:
2N/A * pointer to a X Colormap token.
2N/A */
2N/A
2N/Atoken_t *
2N/Aau_to_xcolormap(int32_t xid, uid_t cuid)
2N/A{
2N/A return (x_common(AUT_XCOLORMAP, xid, cuid));
2N/A}
2N/A
2N/A/*
2N/A * au_to_xcursor
2N/A * return s:
2N/A * pointer to a X Cursor token.
2N/A */
2N/A
2N/Atoken_t *
2N/Aau_to_xcursor(int32_t xid, uid_t cuid)
2N/A{
2N/A return (x_common(AUT_XCURSOR, xid, cuid));
2N/A}
2N/A
2N/A/*
2N/A * au_to_xfont
2N/A * return s:
2N/A * pointer to a X Font token.
2N/A */
2N/A
2N/Atoken_t *
2N/Aau_to_xfont(int32_t xid, uid_t cuid)
2N/A{
2N/A return (x_common(AUT_XFONT, xid, cuid));
2N/A}
2N/A
2N/A/*
2N/A * au_to_xgc
2N/A * return s:
2N/A * pointer to a X Graphic Context token.
2N/A */
2N/A
2N/Atoken_t *
2N/Aau_to_xgc(int32_t xid, uid_t cuid)
2N/A{
2N/A return (x_common(AUT_XGC, xid, cuid));
2N/A}
2N/A
2N/A/*
2N/A * au_to_xpixmap
2N/A * return s:
2N/A * pointer to a X Pixal Map token.
2N/A */
2N/A
2N/Atoken_t *
2N/Aau_to_xpixmap(int32_t xid, uid_t cuid)
2N/A{
2N/A return (x_common(AUT_XPIXMAP, xid, cuid));
2N/A}
2N/A
2N/A/*
2N/A * au_to_xwindow
2N/A * return s:
2N/A * pointer to a X Window token.
2N/A */
2N/A
2N/Atoken_t *
2N/Aau_to_xwindow(int32_t xid, uid_t cuid)
2N/A{
2N/A return (x_common(AUT_XWINDOW, xid, cuid));
2N/A}
2N/A
2N/A/*
2N/A * au_to_xproperty
2N/A * return s:
2N/A * pointer to a X Property token.
2N/A */
2N/A
2N/Atoken_t *
2N/Aau_to_xproperty(int32_t xid, uid_t cuid, char *propname)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_XPROPERTY; /* header for this token */
2N/A short proplen;
2N/A
2N/A proplen = strlen(propname) + 1;
2N/A
2N/A token = get_token(sizeof (char) + sizeof (int32_t) + sizeof (uid_t) +
2N/A sizeof (short) + proplen);
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_int32(&adr, &xid, 1);
2N/A adr_uid(&adr, &cuid, 1);
2N/A adr_short(&adr, &proplen, 1);
2N/A adr_char(&adr, propname, proplen);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_xclient
2N/A * return s:
2N/A * pointer to a X Client token
2N/A */
2N/A
2N/Atoken_t *
2N/Aau_to_xclient(uint32_t client)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_XCLIENT; /* header for this token */
2N/A
2N/A token = get_token(sizeof (char) + sizeof (uint32_t));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_int32(&adr, (int32_t *)&client, 1);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_label
2N/A * return s:
2N/A * pointer to a label token.
2N/A */
2N/Atoken_t *
2N/Aau_to_label(m_label_t *label)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_LABEL; /* header for this token */
2N/A size32_t llen = blabel_size();
2N/A
2N/A token = get_token(sizeof (char) + llen);
2N/A if (token == NULL) {
2N/A return (NULL);
2N/A } else if (label == NULL) {
2N/A free(token);
2N/A return (NULL);
2N/A }
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_char(&adr, (char *)label, llen);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_mylabel
2N/A * return s:
2N/A * pointer to a label token.
2N/A */
2N/Atoken_t *
2N/Aau_to_mylabel(void)
2N/A{
2N/A ucred_t *uc;
2N/A token_t *token;
2N/A
2N/A if ((uc = ucred_get(P_MYID)) == NULL) {
2N/A return (NULL);
2N/A }
2N/A
2N/A token = au_to_label(ucred_getlabel(uc));
2N/A ucred_free(uc);
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_zonename
2N/A * return s:
2N/A * pointer to a zonename token.
2N/A */
2N/Atoken_t *
2N/Aau_to_zonename(char *name)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_ZONENAME; /* header for this token */
2N/A short bytes; /* length of string */
2N/A
2N/A if (name == NULL)
2N/A return (NULL);
2N/A
2N/A bytes = strlen(name) + 1;
2N/A token = get_token((int)(sizeof (char) + sizeof (short) + bytes));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_short(&adr, &bytes, 1);
2N/A adr_char(&adr, name, bytes);
2N/A
2N/A return (token);
2N/A}
2N/A
2N/A/*
2N/A * au_to_fmri
2N/A * return s:
2N/A * pointer to a fmri token.
2N/A */
2N/Atoken_t *
2N/Aau_to_fmri(char *fmri)
2N/A{
2N/A token_t *token; /* local token */
2N/A adr_t adr; /* adr memory stream header */
2N/A char data_header = AUT_FMRI; /* header for this token */
2N/A short bytes; /* length of string */
2N/A
2N/A if (fmri == NULL)
2N/A return (NULL);
2N/A
2N/A bytes = strlen(fmri) + 1;
2N/A token = get_token((int)(sizeof (char) + sizeof (short) + bytes));
2N/A if (token == NULL)
2N/A return (NULL);
2N/A adr_start(&adr, token->tt_data);
2N/A adr_char(&adr, &data_header, 1);
2N/A adr_short(&adr, &bytes, 1);
2N/A adr_char(&adr, fmri, bytes);
2N/A
2N/A return (token);
2N/A}