/* * 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 2007 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /*LINTLIBRARY*/ #include #include #include #include #include #include #include #include #include #include #include #define ID_STR_MAX 20 /* digits in LONG_MAX */ #define APPENDED_ID_MAX ID_STR_MAX + 1 /* id + colon */ /* * yyinteractive controls whether yyparse should print out * error messages to stderr, and whether or not id's should be * allowed from acl_fromtext(). */ int yyinteractive; acl_t *yyacl; char *yybuf; extern acl_t *acl_alloc(enum acl_type); struct dynaclstr { size_t bufsize; /* current size of aclexport */ char *aclexport; }; static char *strappend(char *, char *); static char *convert_perm(char *, o_mode_t); static int increase_length(struct dynaclstr *, size_t); static void aclent_perms(int perm, char *txt_perms) { if (perm & S_IROTH) txt_perms[0] = 'r'; else txt_perms[0] = '-'; if (perm & S_IWOTH) txt_perms[1] = 'w'; else txt_perms[1] = '-'; if (perm & S_IXOTH) txt_perms[2] = 'x'; else txt_perms[2] = '-'; txt_perms[3] = '\0'; } static char * pruname(uid_t uid, char *uidp, size_t buflen, int noresolve) { struct passwd *passwdp = NULL; if (noresolve == 0) passwdp = getpwuid(uid); if (passwdp == (struct passwd *)NULL) { /* could not get passwd information: display uid instead */ (void) snprintf(uidp, buflen, "%u", uid); } else { (void) strlcpy(uidp, passwdp->pw_name, buflen); } return (uidp); } static char * prgname(gid_t gid, char *gidp, size_t buflen, int noresolve) { struct group *groupp = NULL; if (noresolve == 0) groupp = getgrgid(gid); if (groupp == (struct group *)NULL) { /* could not get group information: display gid instead */ (void) snprintf(gidp, buflen, "%u", gid); } else { (void) strlcpy(gidp, groupp->gr_name, buflen); } return (gidp); } static void aclent_printacl(acl_t *aclp) { aclent_t *tp; int aclcnt; int mask; int slot = 0; char perm[4]; char uidp[ID_STR_MAX]; char gidp[ID_STR_MAX]; /* display ACL: assume it is sorted. */ aclcnt = aclp->acl_cnt; for (tp = aclp->acl_aclp; tp && aclcnt--; tp++) { if (tp->a_type == CLASS_OBJ) mask = tp->a_perm; } aclcnt = aclp->acl_cnt; for (tp = aclp->acl_aclp; aclcnt--; tp++) { (void) printf(" %d:", slot++); switch (tp->a_type) { case USER: aclent_perms(tp->a_perm, perm); (void) printf("user:%s:%s\t\t", pruname(tp->a_id, uidp, sizeof (uidp), 0), perm); aclent_perms((tp->a_perm & mask), perm); (void) printf("#effective:%s\n", perm); break; case USER_OBJ: /* no need to display uid */ aclent_perms(tp->a_perm, perm); (void) printf("user::%s\n", perm); break; case GROUP: aclent_perms(tp->a_perm, perm); (void) printf("group:%s:%s\t\t", prgname(tp->a_id, gidp, sizeof (gidp), 0), perm); aclent_perms(tp->a_perm & mask, perm); (void) printf("#effective:%s\n", perm); break; case GROUP_OBJ: aclent_perms(tp->a_perm, perm); (void) printf("group::%s\t\t", perm); aclent_perms(tp->a_perm & mask, perm); (void) printf("#effective:%s\n", perm); break; case CLASS_OBJ: aclent_perms(tp->a_perm, perm); (void) printf("mask:%s\n", perm); break; case OTHER_OBJ: aclent_perms(tp->a_perm, perm); (void) printf("other:%s\n", perm); break; case DEF_USER: aclent_perms(tp->a_perm, perm); (void) printf("default:user:%s:%s\n", pruname(tp->a_id, uidp, sizeof (uidp), 0), perm); break; case DEF_USER_OBJ: aclent_perms(tp->a_perm, perm); (void) printf("default:user::%s\n", perm); break; case DEF_GROUP: aclent_perms(tp->a_perm, perm); (void) printf("default:group:%s:%s\n", prgname(tp->a_id, gidp, sizeof (gidp), 0), perm); break; case DEF_GROUP_OBJ: aclent_perms(tp->a_perm, perm); (void) printf("default:group::%s\n", perm); break; case DEF_CLASS_OBJ: aclent_perms(tp->a_perm, perm); (void) printf("default:mask:%s\n", perm); break; case DEF_OTHER_OBJ: aclent_perms(tp->a_perm, perm); (void) printf("default:other:%s\n", perm); break; default: (void) fprintf(stderr, dgettext(TEXT_DOMAIN, "unrecognized entry\n")); break; } } } static void split_line(char *str, int cols) { char *ptr; int len; int i; int last_split; char *pad = ""; int pad_len; len = strlen(str); ptr = str; pad_len = 0; ptr = str; last_split = 0; for (i = 0; i != len; i++) { if ((i + pad_len + 4) >= cols) { (void) printf("%s%.*s\n", pad, last_split, ptr); ptr = &ptr[last_split]; len = strlen(ptr); i = 0; pad_len = 4; pad = " "; } else { if (ptr[i] == '/' || ptr[i] == ':') { last_split = i; } } } if (i == len) { (void) printf("%s%s\n", pad, ptr); } } #define OWNERAT_TXT "owner@" #define GROUPAT_TXT "group@" #define EVERYONEAT_TXT "everyone@" #define GROUP_TXT "group:" #define USER_TXT "user:" char * ace_type_txt(char *buf, char **endp, ace_t *acep, int flags) { char idp[ID_STR_MAX]; if (buf == NULL) return (NULL); switch (acep->a_flags & ACE_TYPE_FLAGS) { case ACE_OWNER: strcpy(buf, OWNERAT_TXT); *endp = buf + sizeof (OWNERAT_TXT) - 1; break; case ACE_GROUP|ACE_IDENTIFIER_GROUP: strcpy(buf, GROUPAT_TXT); *endp = buf + sizeof (GROUPAT_TXT) - 1; break; case ACE_IDENTIFIER_GROUP: strcpy(buf, GROUP_TXT); strcat(buf, prgname(acep->a_who, idp, sizeof (idp), flags & ACL_NORESOLVE)); *endp = buf + strlen(buf); break; case ACE_EVERYONE: strcpy(buf, EVERYONEAT_TXT); *endp = buf + sizeof (EVERYONEAT_TXT) - 1; break; case 0: strcpy(buf, USER_TXT); strcat(buf, pruname(acep->a_who, idp, sizeof (idp), flags & ACL_NORESOLVE)); *endp = buf + strlen(buf); break; } return (buf); } #define READ_DATA_TXT "read_data/" #define WRITE_DATA_TXT "write_data/" #define EXECUTE_TXT "execute/" #define READ_XATTR_TXT "read_xattr/" #define WRITE_XATTR_TXT "write_xattr/" #define READ_ATTRIBUTES_TXT "read_attributes/" #define WRITE_ATTRIBUTES_TXT "write_attributes/" #define DELETE_TXT "delete/" #define DELETE_CHILD_TXT "delete_child/" #define WRITE_OWNER_TXT "write_owner/" #define READ_ACL_TXT "read_acl/" #define WRITE_ACL_TXT "write_acl/" #define APPEND_DATA_TXT "append_data/" #define READ_DIR_TXT "list_directory/read_data/" #define ADD_DIR_TXT "add_subdirectory/append_data/" #define ADD_FILE_TXT "add_file/write_data/" #define SYNCHRONIZE_TXT "synchronize" /* not slash on this one */ char * ace_perm_txt(char *buf, char **endp, uint32_t mask, uint32_t iflags, int isdir, int flags) { char *lend = buf; /* local end */ if (buf == NULL) return (NULL); if (flags & ACL_COMPACT_FMT) { if (mask & ACE_READ_DATA) buf[0] = 'r'; else buf[0] = '-'; if (mask & ACE_WRITE_DATA) buf[1] = 'w'; else buf[1] = '-'; if (mask & ACE_EXECUTE) buf[2] = 'x'; else buf[2] = '-'; if (mask & ACE_APPEND_DATA) buf[3] = 'p'; else buf[3] = '-'; if (mask & ACE_DELETE) buf[4] = 'd'; else buf[4] = '-'; if (mask & ACE_DELETE_CHILD) buf[5] = 'D'; else buf[5] = '-'; if (mask & ACE_READ_ATTRIBUTES) buf[6] = 'a'; else buf[6] = '-'; if (mask & ACE_WRITE_ATTRIBUTES) buf[7] = 'A'; else buf[7] = '-'; if (mask & ACE_READ_NAMED_ATTRS) buf[8] = 'R'; else buf[8] = '-'; if (mask & ACE_WRITE_NAMED_ATTRS) buf[9] = 'W'; else buf[9] = '-'; if (mask & ACE_READ_ACL) buf[10] = 'c'; else buf[10] = '-'; if (mask & ACE_WRITE_ACL) buf[11] = 'C'; else buf[11] = '-'; if (mask & ACE_WRITE_OWNER) buf[12] = 'o'; else buf[12] = '-'; if (mask & ACE_SYNCHRONIZE) buf[13] = 's'; else buf[13] = '-'; buf[14] = '\0'; *endp = buf + 14; return (buf); } else { /* * If ACE is a directory, but inheritance indicates its * for a file then print permissions for file rather than * dir. */ if (isdir) { if (mask & ACE_LIST_DIRECTORY) { if (iflags == ACE_FILE_INHERIT_ACE) { strcpy(lend, READ_DATA_TXT); lend += sizeof (READ_DATA_TXT) - 1; } else { strcpy(lend, READ_DIR_TXT); lend += sizeof (READ_DIR_TXT) - 1; } } if (mask & ACE_ADD_FILE) { if (iflags == ACE_FILE_INHERIT_ACE) { strcpy(lend, WRITE_DATA_TXT); lend += sizeof (WRITE_DATA_TXT) - 1; } else { strcpy(lend, ADD_FILE_TXT); lend += sizeof (ADD_FILE_TXT) -1; } } if (mask & ACE_ADD_SUBDIRECTORY) { if (iflags == ACE_FILE_INHERIT_ACE) { strcpy(lend, APPEND_DATA_TXT); lend += sizeof (APPEND_DATA_TXT) - 1; } else { strcpy(lend, ADD_DIR_TXT); lend += sizeof (ADD_DIR_TXT) - 1; } } } else { if (mask & ACE_READ_DATA) { strcpy(lend, READ_DATA_TXT); lend += sizeof (READ_DATA_TXT) - 1; } if (mask & ACE_WRITE_DATA) { strcpy(lend, WRITE_DATA_TXT); lend += sizeof (WRITE_DATA_TXT) - 1; } if (mask & ACE_APPEND_DATA) { strcpy(lend, APPEND_DATA_TXT); lend += sizeof (APPEND_DATA_TXT) - 1; } } if (mask & ACE_READ_NAMED_ATTRS) { strcpy(lend, READ_XATTR_TXT); lend += sizeof (READ_XATTR_TXT) - 1; } if (mask & ACE_WRITE_NAMED_ATTRS) { strcpy(lend, WRITE_XATTR_TXT); lend += sizeof (WRITE_XATTR_TXT) - 1; } if (mask & ACE_EXECUTE) { strcpy(lend, EXECUTE_TXT); lend += sizeof (EXECUTE_TXT) - 1; } if (mask & ACE_DELETE_CHILD) { strcpy(lend, DELETE_CHILD_TXT); lend += sizeof (DELETE_CHILD_TXT) - 1; } if (mask & ACE_READ_ATTRIBUTES) { strcpy(lend, READ_ATTRIBUTES_TXT); lend += sizeof (READ_ATTRIBUTES_TXT) - 1; } if (mask & ACE_WRITE_ATTRIBUTES) { strcpy(lend, WRITE_ATTRIBUTES_TXT); lend += sizeof (WRITE_ATTRIBUTES_TXT) - 1; } if (mask & ACE_DELETE) { strcpy(lend, DELETE_TXT); lend += sizeof (DELETE_TXT) - 1; } if (mask & ACE_READ_ACL) { strcpy(lend, READ_ACL_TXT); lend += sizeof (READ_ACL_TXT) - 1; } if (mask & ACE_WRITE_ACL) { strcpy(lend, WRITE_ACL_TXT); lend += sizeof (WRITE_ACL_TXT) - 1; } if (mask & ACE_WRITE_OWNER) { strcpy(lend, WRITE_OWNER_TXT); lend += sizeof (WRITE_OWNER_TXT) - 1; } if (mask & ACE_SYNCHRONIZE) { strcpy(lend, SYNCHRONIZE_TXT); lend += sizeof (SYNCHRONIZE_TXT) - 1; } if (*(lend - 1) == '/') *--lend = '\0'; } *endp = lend; return (buf); } #define ALLOW_TXT "allow" #define DENY_TXT "deny" #define ALARM_TXT "alarm" #define AUDIT_TXT "audit" #define UNKNOWN_TXT "unknown" char * ace_access_txt(char *buf, char **endp, int type) { if (buf == NULL) return (NULL); if (type == ACE_ACCESS_ALLOWED_ACE_TYPE) { strcpy(buf, ALLOW_TXT); *endp += sizeof (ALLOW_TXT) - 1; } else if (type == ACE_ACCESS_DENIED_ACE_TYPE) { strcpy(buf, DENY_TXT); *endp += sizeof (DENY_TXT) - 1; } else if (type == ACE_SYSTEM_AUDIT_ACE_TYPE) { strcpy(buf, AUDIT_TXT); *endp += sizeof (AUDIT_TXT) - 1; } else if (type == ACE_SYSTEM_ALARM_ACE_TYPE) { strcpy(buf, ALARM_TXT); *endp += sizeof (ALARM_TXT) - 1; } else { strcpy(buf, UNKNOWN_TXT); *endp += sizeof (UNKNOWN_TXT) - 1; } return (buf); } static char * ace_inherit_txt(char *buf, char **endp, uint32_t iflags, int flags) { char *lend = buf; if (buf == NULL) { return (NULL); } if (flags & ACL_COMPACT_FMT) { if (iflags & ACE_FILE_INHERIT_ACE) buf[0] = 'f'; else buf[0] = '-'; if (iflags & ACE_DIRECTORY_INHERIT_ACE) buf[1] = 'd'; else buf[1] = '-'; if (iflags & ACE_INHERIT_ONLY_ACE) buf[2] = 'i'; else buf[2] = '-'; if (iflags & ACE_NO_PROPAGATE_INHERIT_ACE) buf[3] = 'n'; else buf[3] = '-'; if (iflags & ACE_SUCCESSFUL_ACCESS_ACE_FLAG) buf[4] = 'S'; else buf[4] = '-'; if (iflags & ACE_FAILED_ACCESS_ACE_FLAG) buf[5] = 'F'; else buf[5] = '-'; buf[6] = '\0'; *endp = buf + 6; } else { if (iflags & ACE_FILE_INHERIT_ACE) { strcpy(lend, "file_inherit/"); lend += sizeof ("file_inherit/") - 1; } if (iflags & ACE_DIRECTORY_INHERIT_ACE) { strcpy(lend, "dir_inherit/"); lend += sizeof ("dir_inherit/") - 1; } if (iflags & ACE_NO_PROPAGATE_INHERIT_ACE) { strcpy(lend, "no_propagate/"); lend += sizeof ("no_propagate/") - 1; } if (iflags & ACE_INHERIT_ONLY_ACE) { strcpy(lend, "inherit_only/"); lend += sizeof ("inherit_only/") - 1; } if (*(lend - 1) == '/') *--lend = '\0'; *endp = lend; } return (buf); } /* * Convert internal acl representation to external representation. * * The length of a non-owning user name or non-owning group name ie entries * of type DEF_USER, USER, DEF_GROUP or GROUP, can exceed LOGNAME_MAX. We * thus check the length of these entries, and if greater than LOGNAME_MAX, * we realloc() via increase_length(). * * The LOGNAME_MAX, ENTRYTYPELEN and PERMS limits are otherwise always * adhered to. */ /* * acltotext() converts each ACL entry to look like this: * * entry_type:uid^gid^name:perms[:id] * * The maximum length of entry_type is 14 ("defaultgroup::" and * "defaultother::") hence ENTRYTYPELEN is set to 14. * * The max length of a uid^gid^name entry (in theory) is 8, hence we use, * however the ID could be a number so we therefore use ID_STR_MAX * * The length of a perms entry is 4 to allow for the comma appended to each * to each acl entry. Hence PERMS is set to 4. */ #define ENTRYTYPELEN 14 #define PERMS 4 #define ACL_ENTRY_SIZE (ENTRYTYPELEN + ID_STR_MAX + PERMS + APPENDED_ID_MAX) #define UPDATE_WHERE where = dstr->aclexport + strlen(dstr->aclexport) char * aclent_acltotext(aclent_t *aclp, int aclcnt, int flags) { char *aclexport; char *where; struct group *groupp = NULL; struct passwd *passwdp = NULL; struct dynaclstr *dstr; int i, rtn; size_t excess = 0; char id[ID_STR_MAX], *idstr; if (aclp == NULL) return (NULL); if ((dstr = malloc(sizeof (struct dynaclstr))) == NULL) return (NULL); dstr->bufsize = aclcnt * ACL_ENTRY_SIZE; if ((dstr->aclexport = malloc(dstr->bufsize)) == NULL) { free(dstr); return (NULL); } *dstr->aclexport = '\0'; where = dstr->aclexport; for (i = 0; i < aclcnt; i++, aclp++) { switch (aclp->a_type) { case DEF_USER_OBJ: case USER_OBJ: if (aclp->a_type == USER_OBJ) where = strappend(where, "user::"); else where = strappend(where, "defaultuser::"); where = convert_perm(where, aclp->a_perm); break; case DEF_USER: case USER: if (aclp->a_type == USER) where = strappend(where, "user:"); else where = strappend(where, "defaultuser:"); if ((flags & ACL_NORESOLVE) == 0) passwdp = getpwuid(aclp->a_id); if (passwdp == (struct passwd *)NULL) { /* put in uid instead */ (void) sprintf(where, "%d", aclp->a_id); UPDATE_WHERE; } else { excess = strlen(passwdp->pw_name) - LOGNAME_MAX; if (excess > 0) { rtn = increase_length(dstr, excess); if (rtn == 1) { UPDATE_WHERE; } else { free(dstr->aclexport); free(dstr); return (NULL); } } where = strappend(where, passwdp->pw_name); } where = strappend(where, ":"); where = convert_perm(where, aclp->a_perm); break; case DEF_GROUP_OBJ: case GROUP_OBJ: if (aclp->a_type == GROUP_OBJ) where = strappend(where, "group::"); else where = strappend(where, "defaultgroup::"); where = convert_perm(where, aclp->a_perm); break; case DEF_GROUP: case GROUP: if (aclp->a_type == GROUP) where = strappend(where, "group:"); else where = strappend(where, "defaultgroup:"); if ((flags & ACL_NORESOLVE) == 0) groupp = getgrgid(aclp->a_id); if (groupp == (struct group *)NULL) { /* put in gid instead */ (void) sprintf(where, "%d", aclp->a_id); UPDATE_WHERE; } else { excess = strlen(groupp->gr_name) - LOGNAME_MAX; if (excess > 0) { rtn = increase_length(dstr, excess); if (rtn == 1) { UPDATE_WHERE; } else { free(dstr->aclexport); free(dstr); return (NULL); } } where = strappend(where, groupp->gr_name); } where = strappend(where, ":"); where = convert_perm(where, aclp->a_perm); break; case DEF_CLASS_OBJ: case CLASS_OBJ: if (aclp->a_type == CLASS_OBJ) where = strappend(where, "mask:"); else where = strappend(where, "defaultmask:"); where = convert_perm(where, aclp->a_perm); break; case DEF_OTHER_OBJ: case OTHER_OBJ: if (aclp->a_type == OTHER_OBJ) where = strappend(where, "other:"); else where = strappend(where, "defaultother:"); where = convert_perm(where, aclp->a_perm); break; default: free(dstr->aclexport); free(dstr); return (NULL); } if ((flags & ACL_APPEND_ID) && ((aclp->a_type == USER) || (aclp->a_type == DEF_USER) || (aclp->a_type == GROUP) || (aclp->a_type == DEF_GROUP))) { where = strappend(where, ":"); id[ID_STR_MAX - 1] = '\0'; /* null terminate buffer */ idstr = lltostr(aclp->a_id, &id[ID_STR_MAX - 1]); where = strappend(where, idstr); } if (i < aclcnt - 1) where = strappend(where, ","); } aclexport = dstr->aclexport; free(dstr); return (aclexport); } char * acltotext(aclent_t *aclp, int aclcnt) { return (aclent_acltotext(aclp, aclcnt, 0)); } aclent_t * aclfromtext(char *aclstr, int *aclcnt) { acl_t *aclp; aclent_t *aclentp; int error; error = acl_fromtext(aclstr, &aclp); if (error) return (NULL); aclentp = aclp->acl_aclp; aclp->acl_aclp = NULL; *aclcnt = aclp->acl_cnt; acl_free(aclp); return (aclentp); } static char * strappend(char *where, char *newstr) { (void) strcat(where, newstr); return (where + strlen(newstr)); } static char * convert_perm(char *where, o_mode_t perm) { if (perm & S_IROTH) where = strappend(where, "r"); else where = strappend(where, "-"); if (perm & S_IWOTH) where = strappend(where, "w"); else where = strappend(where, "-"); if (perm & S_IXOTH) where = strappend(where, "x"); else where = strappend(where, "-"); /* perm is the last field */ return (where); } /* * Callers should check the return code as this routine may change the string * pointer in dynaclstr. */ static int increase_length(struct dynaclstr *dacl, size_t increase) { char *tptr; size_t newsize; newsize = dacl->bufsize + increase; tptr = realloc(dacl->aclexport, newsize); if (tptr != NULL) { dacl->aclexport = tptr; dacl->bufsize = newsize; return (1); } else return (0); } /* * ace_acltotext() convert each ace formatted acl to look like this: * * entry_type:uid^gid^name:perms[:flags]:[:id][,] * * The maximum length of entry_type is 5 ("group") * * The max length of a uid^gid^name entry (in theory) is 8, * however id could be a number so we therefore use ID_STR_MAX * * The length of a perms entry is 144 i.e read_data/write_data... * to each acl entry. * * iflags: file_inherit/dir_inherit/inherit_only/no_propagate * */ #define ACE_ENTRYTYPLEN 6 #define IFLAGS_SIZE 51 #define ACCESS_TYPE_SIZE 7 /* if unknown */ #define COLON_CNT 3 #define PERMS_LEN 216 #define ACE_ENTRY_SIZE (ACE_ENTRYTYPLEN + ID_STR_MAX + PERMS_LEN +\ ACCESS_TYPE_SIZE + IFLAGS_SIZE + COLON_CNT + APPENDED_ID_MAX) static char * ace_acltotext(acl_t *aceaclp, int flags) { ace_t *aclp = aceaclp->acl_aclp; int aclcnt = aceaclp->acl_cnt; char *aclexport; char *endp; int i; char id[ID_STR_MAX], *idstr; int isdir = (aceaclp->acl_flags & ACL_IS_DIR); if (aclp == NULL) return (NULL); if ((aclexport = malloc(aclcnt * ACE_ENTRY_SIZE)) == NULL) return (NULL); aclexport[0] = '\0'; endp = aclexport; for (i = 0; i < aclcnt; i++, aclp++) { (void) ace_type_txt(endp, &endp, aclp, flags); *endp++ = ':'; *endp = '\0'; (void) ace_perm_txt(endp, &endp, aclp->a_access_mask, aclp->a_flags, isdir, flags); *endp++ = ':'; *endp = '\0'; (void) ace_inherit_txt(endp, &endp, aclp->a_flags, flags); if (flags & ACL_COMPACT_FMT || aclp->a_flags & (ACE_FILE_INHERIT_ACE | ACE_DIRECTORY_INHERIT_ACE | (ACE_INHERIT_ONLY_ACE | ACE_NO_PROPAGATE_INHERIT_ACE))) { *endp++ = ':'; *endp = '\0'; } (void) ace_access_txt(endp, &endp, aclp->a_type); if ((flags & ACL_APPEND_ID) && (((aclp->a_flags & ACE_TYPE_FLAGS) == 0) || ((aclp->a_flags & ACE_TYPE_FLAGS) == ACE_IDENTIFIER_GROUP))) { *endp++ = ':'; *endp = '\0'; id[ID_STR_MAX -1] = '\0'; /* null terminate buffer */ idstr = lltostr(aclp->a_who, &id[ID_STR_MAX - 1]); strcpy(endp, idstr); endp += strlen(idstr); } if (i < aclcnt - 1) { *endp++ = ','; *(endp + 1) = '\0'; } } return (aclexport); } char * acl_totext(acl_t *aclp, int flags) { char *txtp; if (aclp == NULL) return (NULL); switch (aclp->acl_type) { case ACE_T: txtp = ace_acltotext(aclp, flags); break; case ACLENT_T: txtp = aclent_acltotext(aclp->acl_aclp, aclp->acl_cnt, flags); break; } return (txtp); } int acl_fromtext(const char *acltextp, acl_t **ret_aclp) { int error; char *buf; buf = malloc(strlen(acltextp) + 2); if (buf == NULL) return (EACL_MEM_ERROR); strcpy(buf, acltextp); strcat(buf, "\n"); yybuf = buf; yyreset(); error = yyparse(); free(buf); if (yyacl) { if (error == 0) *ret_aclp = yyacl; else { acl_free(yyacl); } yyacl = NULL; } return (error); } int acl_parse(const char *acltextp, acl_t **aclp) { int error; yyinteractive = 1; error = acl_fromtext(acltextp, aclp); yyinteractive = 0; return (error); } static void ace_compact_printacl(acl_t *aclp) { int cnt; ace_t *acep; char *endp; char buf[ACE_ENTRY_SIZE]; for (cnt = 0, acep = aclp->acl_aclp; cnt != aclp->acl_cnt; cnt++, acep++) { buf[0] = '\0'; (void) printf(" %14s:", ace_type_txt(buf, &endp, acep, 0)); (void) printf("%s:", ace_perm_txt(endp, &endp, acep->a_access_mask, acep->a_flags, aclp->acl_flags & ACL_IS_DIR, ACL_COMPACT_FMT)); (void) printf("%s:", ace_inherit_txt(endp, &endp, acep->a_flags, ACL_COMPACT_FMT)); (void) printf("%s\n", ace_access_txt(endp, &endp, acep->a_type)); } } static void ace_printacl(acl_t *aclp, int cols, int compact) { int slot = 0; char *token; char *acltext; if (compact) { ace_compact_printacl(aclp); return; } acltext = acl_totext(aclp, 0); if (acltext == NULL) return; token = strtok(acltext, ","); if (token == NULL) { free(acltext); return; } do { (void) printf(" %d:", slot++); split_line(token, cols - 5); } while (token = strtok(NULL, ",")); free(acltext); } /* * pretty print an ACL. * For aclent_t ACL's the format is * similar to the old format used by getfacl, * with the addition of adding a "slot" number * before each entry. * * for ace_t ACL's the cols variable will break up * the long lines into multiple lines and will also * print a "slot" number. */ void acl_printacl(acl_t *aclp, int cols, int compact) { switch (aclp->acl_type) { case ACLENT_T: aclent_printacl(aclp); break; case ACE_T: ace_printacl(aclp, cols, compact); break; } } typedef struct value_table { char p_letter; /* perm letter such as 'r' */ uint32_t p_value; /* value for perm when pletter found */ } value_table_t; #define ACE_PERM_COUNT 14 /* * The permission tables are layed out in positional order * a '-' character will indicate a permission at a given * position is not specified. The '-' is not part of the * table, but will be checked for in the permission computation * routine. */ value_table_t ace_perm_table[ACE_PERM_COUNT] = { { 'r', ACE_READ_DATA}, { 'w', ACE_WRITE_DATA}, { 'x', ACE_EXECUTE}, { 'p', ACE_APPEND_DATA}, { 'd', ACE_DELETE}, { 'D', ACE_DELETE_CHILD}, { 'a', ACE_READ_ATTRIBUTES}, { 'A', ACE_WRITE_ATTRIBUTES}, { 'R', ACE_READ_NAMED_ATTRS}, { 'W', ACE_WRITE_NAMED_ATTRS}, { 'c', ACE_READ_ACL}, { 'C', ACE_WRITE_ACL}, { 'o', ACE_WRITE_OWNER}, { 's', ACE_SYNCHRONIZE} }; #define ACLENT_PERM_COUNT 3 value_table_t aclent_perm_table[ACLENT_PERM_COUNT] = { { 'r', S_IROTH}, { 'w', S_IWOTH}, { 'x', S_IXOTH} }; #define IFLAG_COUNT 6 value_table_t inherit_table[IFLAG_COUNT] = { {'f', ACE_FILE_INHERIT_ACE}, {'d', ACE_DIRECTORY_INHERIT_ACE}, {'i', ACE_INHERIT_ONLY_ACE}, {'n', ACE_NO_PROPAGATE_INHERIT_ACE}, {'S', ACE_SUCCESSFUL_ACCESS_ACE_FLAG}, {'F', ACE_FAILED_ACCESS_ACE_FLAG} }; /* * compute value from a permission table or inheritance table * based on string passed in. If positional is set then * string must match order in permtab, otherwise any order * is allowed. */ int compute_values(value_table_t *permtab, int count, char *permstr, int positional, uint32_t *mask) { uint32_t perm_val = 0; char *pstr; int i, found; if (count < 0) return (1); if (positional) { for (i = 0, pstr = permstr; i != count && pstr && *pstr; i++, pstr++) { if (*pstr == permtab[i].p_letter) { perm_val |= permtab[i].p_value; } else if (*pstr != '-') { return (1); } } } else { /* random order single letters with no '-' */ for (pstr = permstr; pstr && *pstr; pstr++) { for (found = 0, i = 0; i != count; i++) { if (*pstr == permtab[i].p_letter) { perm_val |= permtab[i].p_value; found = 1; break; } } if (found == 0) return (1); } } *mask = perm_val; return (0); } /* * compute value for inheritance flags. */ int compute_ace_inherit(char *str, uint32_t *imask) { int error; int positional = 0; if (strlen(str) == IFLAG_COUNT) positional = 1; error = compute_values(inherit_table, IFLAG_COUNT, str, positional, imask); if (error) return (EACL_INHERIT_ERROR); return (error); } /* * compute value for ACE permissions. */ int compute_ace_perms(char *str, uint32_t *mask) { int positional = 0; int error; if (strlen(str) == ACE_PERM_COUNT) positional = 1; error = compute_values(ace_perm_table, ACE_PERM_COUNT, str, positional, mask); if (error && positional) { /* * If positional was set, then make sure permissions * aren't actually valid in non positional case where * all permissions are specified, just in random order. */ error = compute_values(ace_perm_table, ACE_PERM_COUNT, str, 0, mask); } if (error) error = EACL_PERM_MASK_ERROR; return (error); } /* * compute values for aclent permissions. */ int compute_aclent_perms(char *str, o_mode_t *mask) { int error; uint32_t pmask; if (strlen(str) != ACLENT_PERM_COUNT) return (EACL_PERM_MASK_ERROR); *mask = 0; error = compute_values(aclent_perm_table, ACLENT_PERM_COUNT, str, 1, &pmask); if (error == 0) { *mask = (o_mode_t)pmask; } else error = EACL_PERM_MASK_ERROR; return (error); } /* * determine ACE permissions. */ int ace_perm_mask(struct acl_perm_type *aclperm, uint32_t *mask) { int error; if (aclperm->perm_style == PERM_TYPE_EMPTY) { *mask = 0; return (0); } if (aclperm->perm_style == PERM_TYPE_ACE) { *mask = aclperm->perm_val; return (0); } error = compute_ace_perms(aclperm->perm_str, mask); if (error) { acl_error(dgettext(TEXT_DOMAIN, "Invalid permission(s) '%s' specified\n"), aclperm->perm_str); return (EACL_PERM_MASK_ERROR); } return (0); }