/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (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 2005 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* * This file contains public functions for managing legacy DHCP network * containers. For the semantics of these functions, please see the * Enterprise DHCP Architecture Document. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "dhcp_network.h" #include "util.h" static void net2path(char *, size_t, const char *, ipaddr_t, const char *); static boolean_t record_match(char *[], dn_rec_t *, const dn_rec_t *, uint_t); static int write_rec(int, dn_rec_t *, off_t); /* ARGSUSED */ int open_dn(void **handlep, const char *location, uint_t flags, const struct in_addr *netp, const struct in_addr *maskp) { char dnpath[MAXPATHLEN]; dn_handle_t *dhp; int retval; int fd; dhp = malloc(sizeof (dn_handle_t)); if (dhp == NULL) return (DSVC_NO_MEMORY); dhp->dh_net = netp->s_addr; dhp->dh_oflags = flags; (void) strlcpy(dhp->dh_location, location, MAXPATHLEN); /* * This is a legacy format which has no header, so we neither write * nor verify a header (we just create the file or make sure it * exists, depending on the value of `flags'). */ net2path(dnpath, MAXPATHLEN, location, netp->s_addr, ""); retval = open_file(dnpath, flags, &fd); if (retval != DSVC_SUCCESS) { free(dhp); return (retval); } (void) close(fd); *handlep = dhp; return (DSVC_SUCCESS); } int close_dn(void **handlep) { free(*handlep); return (DSVC_SUCCESS); } int remove_dn(const char *dir, const struct in_addr *netp) { char dnpath[MAXPATHLEN]; net2path(dnpath, MAXPATHLEN, dir, netp->s_addr, ""); if (unlink(dnpath) == -1) return (syserr_to_dsvcerr(errno)); return (DSVC_SUCCESS); } static int find_dn(FILE *fp, uint_t flags, uint_t query, int count, const dn_rec_t *targetp, dn_rec_list_t **recordsp, uint_t *nrecordsp) { int retval = DSVC_SUCCESS; char *commentp, *fields[DNF_MAX_FIELDS]; char *buf = NULL; uint_t nrecords; dn_rec_t dn, *recordp; dn_rec_list_t *records, *new_records; unsigned int nfields; off_t recoff; if (fseek(fp, 0, SEEK_SET) == -1) return (DSVC_INTERNAL); records = NULL; for (nrecords = 0; count < 0 || nrecords < count; ) { free(buf); if (flags & FIND_POSITION) recoff = ftello(fp); buf = read_entry(fp); if (buf == NULL) { if (!feof(fp)) retval = DSVC_NO_MEMORY; break; } /* * Skip pure comment lines; for now this just skips the * header information at the top of the container. */ if (buf[0] == DNF_COMMENT_CHAR) continue; /* * Tell field_split() that there's one less field than * there really is. We do this so that the comment and the * macro field both end up in the DNF_MACRO field, since * both fields are optional and it requires some fancy * footwork (below) to tell which (if any) the record * contains. */ nfields = field_split(buf, DNF_MAX_FIELDS - 1, fields, " \t"); if (nfields < DNF_REQ_FIELDS) continue; if (nfields == DNF_REQ_FIELDS) { fields[DNF_MACRO] = ""; fields[DNF_COMMENT] = ""; } else { /* * Assume there is a comment; if we hit a comment * delimiter char (DNF_COMMENT_CHAR), then simply * change it to a NUL and advance commentp. If we * hit whitespace, replace the first instance with * NUL, and go searching for DNF_COMMENT_CHAR. * This step is important since it efficiently * handles the common case where a comment is * preceded by a space. */ commentp = fields[DNF_MACRO]; while (!isspace(*commentp) && *commentp != DNF_COMMENT_CHAR && *commentp != '\0') commentp++; if (isspace(*commentp)) { *commentp++ = '\0'; commentp = strchr(commentp, DNF_COMMENT_CHAR); if (commentp == NULL) commentp = ""; } if (*commentp == DNF_COMMENT_CHAR) *commentp++ = '\0'; fields[DNF_COMMENT] = commentp; } /* * See if we've got a match, filling in dnf.dnf_rec as * we go. If record_match() succeeds, dnf.dnf_rec will * be completely filled in. */ if (!record_match(fields, &dn, targetp, query)) continue; /* * Caller just wants a count of the number of matching * records, not the records themselves; continue. */ if (recordsp == NULL) { nrecords++; continue; } /* * Allocate record; if FIND_POSITION flag is set, then * we need to allocate an extended (dn_recpos_t) record. */ if (flags & FIND_POSITION) recordp = malloc(sizeof (dn_recpos_t)); else recordp = malloc(sizeof (dn_rec_t)); if (recordp == NULL) { if ((flags & FIND_PARTIAL) == 0) retval = DSVC_NO_MEMORY; break; } /* * Fill in record; do a structure copy from our automatic * dn. If FIND_POSITION flag is on, pass back additional * position information. */ *recordp = dn; if (flags & FIND_POSITION) { ((dn_recpos_t *)recordp)->dnp_off = recoff; ((dn_recpos_t *)recordp)->dnp_size = ftello(fp) - recoff; } /* * Chuck the record on the list and up the counter. */ new_records = add_dnrec_to_list(recordp, records); if (new_records == NULL) { free(recordp); if ((flags & FIND_PARTIAL) == 0) retval = DSVC_NO_MEMORY; break; } records = new_records; nrecords++; } free(buf); if (retval == DSVC_SUCCESS) { *nrecordsp = nrecords; if (recordsp != NULL) *recordsp = records; return (DSVC_SUCCESS); } if (records != NULL) free_dnrec_list(records); return (retval); } int lookup_dn(void *handle, boolean_t partial, uint_t query, int count, const dn_rec_t *targetp, dn_rec_list_t **recordsp, uint_t *nrecordsp) { int retval; char dnpath[MAXPATHLEN]; FILE *fp; dn_handle_t *dhp = (dn_handle_t *)handle; if ((dhp->dh_oflags & DSVC_READ) == 0) return (DSVC_ACCESS); net2path(dnpath, MAXPATHLEN, dhp->dh_location, dhp->dh_net, ""); fp = fopen(dnpath, "r"); if (fp == NULL) return (syserr_to_dsvcerr(errno)); retval = find_dn(fp, partial ? FIND_PARTIAL : 0, query, count, targetp, recordsp, nrecordsp); (void) fclose(fp); return (retval); } /* * Compares the fields in fields[] agains the fields in target `targetp', * using `query' to decide what fields to compare. Returns B_TRUE if `dnp' * matches `targetp', B_FALSE if not. On success, `dnp' is completely * filled in. */ static boolean_t record_match(char *fields[], dn_rec_t *dnp, const dn_rec_t *targetp, uint_t query) { unsigned int qflags[] = { DN_QFDYNAMIC, DN_QFAUTOMATIC, DN_QFMANUAL, DN_QFUNUSABLE, DN_QFBOOTP_ONLY }; unsigned int flags[] = { DN_FDYNAMIC, DN_FAUTOMATIC, DN_FMANUAL, DN_FUNUSABLE, DN_FBOOTP_ONLY }; unsigned int i; uint_t dn_cid_len; dnp->dn_cip.s_addr = ntohl(inet_addr(fields[DNF_CIP])); if (DSVC_QISEQ(query, DN_QCIP) && dnp->dn_cip.s_addr != targetp->dn_cip.s_addr) return (B_FALSE); if (DSVC_QISNEQ(query, DN_QCIP) && dnp->dn_cip.s_addr == targetp->dn_cip.s_addr) return (B_FALSE); dnp->dn_lease = atoi(fields[DNF_LEASE]); if (DSVC_QISEQ(query, DN_QLEASE) && targetp->dn_lease != dnp->dn_lease) return (B_FALSE); if (DSVC_QISNEQ(query, DN_QLEASE) && targetp->dn_lease == dnp->dn_lease) return (B_FALSE); /* * We use dn_cid_len since dnp->dn_cid_len is of type uchar_t but * hexascii_to_octet() expects a uint_t * */ dn_cid_len = DN_MAX_CID_LEN; if (hexascii_to_octet(fields[DNF_CID], strlen(fields[DNF_CID]), dnp->dn_cid, &dn_cid_len) != 0) return (B_FALSE); dnp->dn_cid_len = dn_cid_len; if (DSVC_QISEQ(query, DN_QCID) && (dnp->dn_cid_len != targetp->dn_cid_len || (memcmp(dnp->dn_cid, targetp->dn_cid, dnp->dn_cid_len) != 0))) return (B_FALSE); if (DSVC_QISNEQ(query, DN_QCID) && (dnp->dn_cid_len == targetp->dn_cid_len && (memcmp(dnp->dn_cid, targetp->dn_cid, dnp->dn_cid_len) == 0))) return (B_FALSE); dnp->dn_sip.s_addr = ntohl(inet_addr(fields[DNF_SIP])); if (DSVC_QISEQ(query, DN_QSIP) && dnp->dn_sip.s_addr != targetp->dn_sip.s_addr) return (B_FALSE); if (DSVC_QISNEQ(query, DN_QSIP) && dnp->dn_sip.s_addr == targetp->dn_sip.s_addr) return (B_FALSE); (void) strlcpy(dnp->dn_macro, fields[DNF_MACRO], sizeof (dnp->dn_macro)); if (DSVC_QISEQ(query, DN_QMACRO) && strcmp(targetp->dn_macro, dnp->dn_macro) != 0) return (B_FALSE); if (DSVC_QISNEQ(query, DN_QMACRO) && strcmp(targetp->dn_macro, dnp->dn_macro) == 0) return (B_FALSE); dnp->dn_flags = atoi(fields[DNF_FLAGS]); for (i = 0; i < sizeof (qflags) / sizeof (unsigned int); i++) { if (DSVC_QISEQ(query, qflags[i]) && (dnp->dn_flags & flags[i]) != (targetp->dn_flags & flags[i])) return (B_FALSE); if (DSVC_QISNEQ(query, qflags[i]) && (dnp->dn_flags & flags[i]) == (targetp->dn_flags & flags[i])) return (B_FALSE); } (void) strlcpy(dnp->dn_comment, fields[DNF_COMMENT], sizeof (dnp->dn_comment)); return (B_TRUE); } /* * Internal dhcp_network record update routine, used to factor out the * common code between add_dn(), delete_dn(), and modify_dn(). If `origp' * is NULL, then act like add_dn(); if `newp' is NULL, then act like * delete_dn(); otherwise act like modify_dn(). */ static int update_dn(const dn_handle_t *dhp, const dn_rec_t *origp, dn_rec_t *newp) { char dnpath[MAXPATHLEN], newpath[MAXPATHLEN]; int retval = DSVC_SUCCESS; off_t recoff, recnext; dn_rec_list_t *reclist; FILE *fp; int newfd; uint_t found; int query; struct stat st; if ((dhp->dh_oflags & DSVC_WRITE) == 0) return (DSVC_ACCESS); /* * Open the container to update and a new container file which we * will store the updated version of the container in. When the * update is done, rename the new file to be the real container. */ net2path(dnpath, MAXPATHLEN, dhp->dh_location, dhp->dh_net, ""); fp = fopen(dnpath, "r"); if (fp == NULL) return (syserr_to_dsvcerr(errno)); net2path(newpath, MAXPATHLEN, dhp->dh_location, dhp->dh_net, ".new"); newfd = open(newpath, O_CREAT|O_TRUNC|O_WRONLY, 0644); if (newfd == -1) { (void) fclose(fp); return (syserr_to_dsvcerr(errno)); } DSVC_QINIT(query); DSVC_QEQ(query, DN_QCIP); /* * If we're adding a new record or changing a key for an existing * record, bail if the record we want to add already exists. */ if (newp != NULL) { if (origp == NULL || origp->dn_cip.s_addr != newp->dn_cip.s_addr) { retval = find_dn(fp, 0, query, 1, newp, NULL, &found); if (retval != DSVC_SUCCESS) goto out; if (found != 0) { retval = DSVC_EXISTS; goto out; } } } /* * If we're deleting or modifying record, make sure the record * still exists. Note that we don't check signatures because this * is a legacy format that has no signatures. */ if (origp != NULL) { retval = find_dn(fp, FIND_POSITION, query, 1, origp, &reclist, &found); if (retval != DSVC_SUCCESS) goto out; if (found == 0) { retval = DSVC_NOENT; goto out; } /* * Note the offset of the record we're modifying or deleting * for use down below. */ recoff = ((dn_recpos_t *)reclist->dnl_rec)->dnp_off; recnext = recoff + ((dn_recpos_t *)reclist->dnl_rec)->dnp_size; free_dnrec_list(reclist); } else { /* * No record to modify or delete, so set `recoff' and * `recnext' appropriately. */ recoff = 0; recnext = 0; } /* * Make a new copy of the container. If we're deleting or * modifying a record, don't copy that record to the new container. */ if (fstat(fileno(fp), &st) == -1) { retval = DSVC_INTERNAL; goto out; } retval = copy_range(fileno(fp), 0, newfd, 0, recoff); if (retval != DSVC_SUCCESS) goto out; retval = copy_range(fileno(fp), recnext, newfd, recoff, st.st_size - recnext); if (retval != DSVC_SUCCESS) goto out; /* * If there's a new/modified record, append it to the new container. */ if (newp != NULL) { retval = write_rec(newfd, newp, recoff + st.st_size - recnext); if (retval != DSVC_SUCCESS) goto out; } /* * Note: we close these descriptors before the rename(2) (rather * than just having the `out:' label clean them up) to save NFS * some work (otherwise, NFS has to save `dnpath' to an alternate * name since its vnode would still be active). */ (void) fclose(fp); (void) close(newfd); if (rename(newpath, dnpath) == -1) retval = syserr_to_dsvcerr(errno); return (retval); out: (void) fclose(fp); (void) close(newfd); (void) unlink(newpath); return (retval); } int add_dn(void *handle, dn_rec_t *addp) { return (update_dn((dn_handle_t *)handle, NULL, addp)); } int modify_dn(void *handle, const dn_rec_t *origp, dn_rec_t *newp) { return (update_dn((dn_handle_t *)handle, origp, newp)); } int delete_dn(void *handle, const dn_rec_t *delp) { return (update_dn((dn_handle_t *)handle, delp, NULL)); } int list_dn(const char *location, char ***listppp, uint_t *countp) { char ipaddr[INET_ADDRSTRLEN]; struct dirent *result; DIR *dirp; unsigned int i, count = 0; char *re, **new_listpp, **listpp = NULL; int error; dirp = opendir(location); if (dirp == NULL) { switch (errno) { case EACCES: case EPERM: return (DSVC_ACCESS); case ENOENT: return (DSVC_NO_LOCATION); default: break; } return (DSVC_INTERNAL); } /* * Compile a regular expression matching an IP address delimited by * underscores. Note that the `$0' at the end allows us to save the * IP address in ipaddr when calling regex(3C). */ re = regcmp("^(([0-9]{1,3}\\_){3}[0-9]{1,3})$0$", (char *)0); if (re == NULL) return (DSVC_NO_MEMORY); while ((result = readdir(dirp)) != NULL) { if (regex(re, result->d_name, ipaddr) != NULL) { new_listpp = realloc(listpp, (sizeof (char **)) * (count + 1)); if (new_listpp == NULL) { error = DSVC_NO_MEMORY; goto fail; } listpp = new_listpp; listpp[count] = strdup(ipaddr); if (listpp[count] == NULL) { error = DSVC_NO_MEMORY; goto fail; } /* * Change all underscores to dots. */ for (i = 0; listpp[count][i] != '\0'; i++) { if (listpp[count][i] == '_') listpp[count][i] = '.'; } count++; } } free(re); (void) closedir(dirp); *countp = count; *listppp = listpp; return (DSVC_SUCCESS); fail: free(re); (void) closedir(dirp); for (i = 0; i < count; i++) free(listpp[i]); free(listpp); return (error); } /* * Given a buffer `path' of `pathlen' bytes, fill it in with a path to the * DHCP Network table for IP network `ip' located in directory `dir' with a * suffix of `suffix'. */ static void net2path(char *path, size_t pathlen, const char *dir, ipaddr_t ip, const char *suffix) { (void) snprintf(path, pathlen, "%s/%d_%d_%d_%d%s", dir, ip >> 24, (ip >> 16) & 0xff, (ip >> 8) & 0xff, ip & 0xff, suffix); } /* * Write the dn_rec_t `recp' into the open container `fd' at offset * `recoff'. Returns DSVC_* error code. */ static int write_rec(int fd, dn_rec_t *recp, off_t recoff) { char entbuf[1024], *ent = entbuf; size_t entsize = sizeof (entbuf); int entlen; char dn_cip[INET_ADDRSTRLEN], dn_sip[INET_ADDRSTRLEN]; char dn_cid[DN_MAX_CID_LEN * 2 + 1]; unsigned int dn_cid_len = sizeof (dn_cid); struct in_addr nip; if (octet_to_hexascii(recp->dn_cid, recp->dn_cid_len, dn_cid, &dn_cid_len) != 0) return (DSVC_INTERNAL); nip.s_addr = htonl(recp->dn_cip.s_addr); (void) inet_ntop(AF_INET, &nip, dn_cip, sizeof (dn_cip)); nip.s_addr = htonl(recp->dn_sip.s_addr); (void) inet_ntop(AF_INET, &nip, dn_sip, sizeof (dn_sip)); again: if (recp->dn_comment[0] != '\0') { entlen = snprintf(ent, entsize, "%s %02hu %s %s %u %s %c%s\n", dn_cid, recp->dn_flags, dn_cip, dn_sip, recp->dn_lease, recp->dn_macro, DNF_COMMENT_CHAR, recp->dn_comment); } else { entlen = snprintf(ent, entsize, "%s %02hu %s %s %u %s\n", dn_cid, recp->dn_flags, dn_cip, dn_sip, recp->dn_lease, recp->dn_macro); } if (entlen == -1) return (syserr_to_dsvcerr(errno)); if (entlen > entsize) { entsize = entlen; ent = alloca(entlen); goto again; } if (pnwrite(fd, ent, entlen, recoff) == -1) return (syserr_to_dsvcerr(errno)); return (DSVC_SUCCESS); }