/* db.c Persistent database management routines for DHCPD... */ /* * Copyright (c) 2004-2010,2012 by Internet Systems Consortium, Inc. ("ISC") * Copyright (c) 1995-2003 by Internet Software Consortium * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT * OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. * * Internet Systems Consortium, Inc. * 950 Charter Street * Redwood City, CA 94063 * * https://www.isc.org/ * * This software has been written for Internet Systems Consortium * by Ted Lemon in cooperation with Vixie Enterprises and Nominum, Inc. * To learn more about Internet Systems Consortium, see * ``https://www.isc.org/''. To learn more about Vixie Enterprises, * see ``http://www.vix.com''. To learn more about Nominum, Inc., see * ``http://www.nominum.com''. */ #include "dhcpd.h" #include #include #define LEASE_REWRITE_PERIOD 3600 static isc_result_t write_binding_scope(FILE *db_file, struct binding *bnd, char *prepend); FILE *db_file; static int counting = 0; static int count = 0; TIME write_time; int lease_file_is_corrupt = 0; /* Write a single binding scope value in parsable format. */ static isc_result_t write_binding_scope(FILE *db_file, struct binding *bnd, char *prepend) { char *s; if ((db_file == NULL) || (bnd == NULL) || (prepend == NULL)) return DHCP_R_INVALIDARG; if (bnd->value->type == binding_data) { if (bnd->value->value.data.data != NULL) { s = quotify_buf(bnd->value->value.data.data, bnd->value->value.data.len, MDL); if (s != NULL) { errno = 0; fprintf(db_file, "%sset %s = \"%s\";", prepend, bnd->name, s); dfree(s, MDL); if (errno) return ISC_R_FAILURE; } else { return ISC_R_FAILURE; } } } else if (bnd->value->type == binding_numeric) { errno = 0; fprintf(db_file, "%sset %s = %%%ld;", prepend, bnd->name, bnd->value->value.intval); if (errno) return ISC_R_FAILURE; } else if (bnd->value->type == binding_boolean) { errno = 0; fprintf(db_file, "%sset %s = %s;", prepend, bnd->name, bnd->value->value.intval ? "true" : "false"); if (errno) return ISC_R_FAILURE; } else if (bnd->value->type == binding_dns) { log_error("%s: persistent dns values not supported.", bnd->name); } else if (bnd->value->type == binding_function) { log_error("%s: persistent functions not supported.", bnd->name); } else { log_fatal("%s: unknown binding type %d", bnd->name, bnd->value->type); } return ISC_R_SUCCESS; } /* Write the specified lease to the current lease database file. */ int write_lease (lease) struct lease *lease; { int errors = 0; struct binding *b; char *s; const char *tval; /* If the lease file is corrupt, don't try to write any more leases until we've written a good lease file. */ if (lease_file_is_corrupt) if (!new_lease_file ()) return 0; if (counting) ++count; errno = 0; fprintf (db_file, "lease %s {", piaddr (lease -> ip_addr)); if (errno) { ++errors; } if (lease->starts && ((tval = print_time(lease->starts)) == NULL || fprintf(db_file, "\n starts %s", tval) < 0)) ++errors; if (lease->ends && ((tval = print_time(lease->ends)) == NULL || fprintf(db_file, "\n ends %s", tval) < 0)) ++errors; if (lease->tstp && ((tval = print_time(lease->tstp)) == NULL || fprintf(db_file, "\n tstp %s", tval) < 0)) ++errors; if (lease->tsfp && ((tval = print_time(lease->tsfp)) == NULL || fprintf(db_file, "\n tsfp %s", tval) < 0)) ++errors; if (lease->atsfp && ((tval = print_time(lease->atsfp)) == NULL || fprintf(db_file, "\n atsfp %s", tval) < 0)) ++errors; if (lease->cltt && ((tval = print_time(lease->cltt)) == NULL || fprintf(db_file, "\n cltt %s", tval) < 0)) ++errors; if (fprintf (db_file, "\n binding state %s;", ((lease -> binding_state > 0 && lease -> binding_state <= FTS_LAST) ? binding_state_names [lease -> binding_state - 1] : "abandoned")) < 0) ++errors; if (lease -> binding_state != lease -> next_binding_state) if (fprintf (db_file, "\n next binding state %s;", ((lease -> next_binding_state > 0 && lease -> next_binding_state <= FTS_LAST) ? (binding_state_names [lease -> next_binding_state - 1]) : "abandoned")) < 0) ++errors; /* * In this case, if the rewind state is not present in the lease file, * the reader will use the current binding state as the most * conservative (safest) state. So if the in-memory rewind state is * for some reason invalid, the best thing to do is not to write a * state and let the reader take on a safe state. */ if ((lease->binding_state != lease->rewind_binding_state) && (lease->rewind_binding_state > 0) && (lease->rewind_binding_state <= FTS_LAST) && (fprintf(db_file, "\n rewind binding state %s;", binding_state_names[lease->rewind_binding_state-1])) < 0) ++errors; if (lease->flags & RESERVED_LEASE) if (fprintf(db_file, "\n reserved;") < 0) ++errors; if (lease->flags & BOOTP_LEASE) if (fprintf(db_file, "\n dynamic-bootp;") < 0) ++errors; /* If this lease is billed to a class and is still valid, write it out. */ if (lease -> billing_class && lease -> ends > cur_time) { if (!write_billing_class (lease -> billing_class)) { log_error ("unable to write class %s", lease -> billing_class -> name); ++errors; } } if (lease -> hardware_addr.hlen) { errno = 0; fprintf (db_file, "\n hardware %s %s;", hardware_types [lease -> hardware_addr.hbuf [0]], print_hw_addr (lease -> hardware_addr.hbuf [0], lease -> hardware_addr.hlen - 1, &lease -> hardware_addr.hbuf [1])); if (errno) ++errors; } if (lease -> uid_len) { s = quotify_buf (lease -> uid, lease -> uid_len, MDL); if (s) { errno = 0; fprintf (db_file, "\n uid \"%s\";", s); if (errno) ++errors; dfree (s, MDL); } else ++errors; } if (lease->scope != NULL) { for (b = lease->scope->bindings; b; b = b->next) { if (!b->value) continue; if (write_binding_scope(db_file, b, "\n ") != ISC_R_SUCCESS) ++errors; } } if (lease -> agent_options) { struct option_cache *oc; struct data_string ds; pair p; memset (&ds, 0, sizeof ds); for (p = lease -> agent_options -> first; p; p = p -> cdr) { oc = (struct option_cache *)p -> car; if (oc -> data.len) { errno = 0; fprintf (db_file, "\n option agent.%s %s;", oc -> option -> name, pretty_print_option (oc -> option, oc -> data.data, oc -> data.len, 1, 1)); if (errno) ++errors; } } } if (lease -> client_hostname && db_printable((unsigned char *)lease->client_hostname)) { s = quotify_string (lease -> client_hostname, MDL); if (s) { errno = 0; fprintf (db_file, "\n client-hostname \"%s\";", s); if (errno) ++errors; dfree (s, MDL); } else ++errors; } if (lease -> on_expiry) { errno = 0; fprintf (db_file, "\n on expiry%s {", lease -> on_expiry == lease -> on_release ? " or release" : ""); write_statements (db_file, lease -> on_expiry, 4); /* XXX */ fprintf (db_file, "\n }"); if (errno) ++errors; } if (lease -> on_release && lease -> on_release != lease -> on_expiry) { errno = 0; fprintf (db_file, "\n on release {"); write_statements (db_file, lease -> on_release, 4); /* XXX */ fprintf (db_file, "\n }"); if (errno) ++errors; } errno = 0; fputs ("\n}\n", db_file); if (errno) ++errors; if (errors) { log_info ("write_lease: unable to write lease %s", piaddr (lease -> ip_addr)); lease_file_is_corrupt = 1; } return !errors; } int write_host (host) struct host_decl *host; { int errors = 0; int i; struct data_string ip_addrs; /* If the lease file is corrupt, don't try to write any more leases until we've written a good lease file. */ if (lease_file_is_corrupt) if (!new_lease_file ()) return 0; if (!db_printable((unsigned char *)host->name)) return 0; if (counting) ++count; errno = 0; fprintf (db_file, "host %s {", host -> name); if (errno) ++errors; if (host -> flags & HOST_DECL_DYNAMIC) { errno = 0; fprintf (db_file, "\n dynamic;"); if (errno) ++errors; } if (host -> flags & HOST_DECL_DELETED) { errno = 0; fprintf (db_file, "\n deleted;"); if (errno) ++errors; } else { if (host -> interface.hlen) { errno = 0; fprintf (db_file, "\n hardware %s %s;", hardware_types [host -> interface.hbuf [0]], print_hw_addr (host -> interface.hbuf [0], host -> interface.hlen - 1, &host -> interface.hbuf [1])); if (errno) ++errors; } if (host -> client_identifier.len) { int i; errno = 0; if (db_printable_len (host -> client_identifier.data, host -> client_identifier.len)) { fprintf (db_file, "\n uid \"%.*s\";", (int)host -> client_identifier.len, host -> client_identifier.data); if (errno) ++errors; } else { fprintf (db_file, "\n uid %2.2x", host -> client_identifier.data [0]); if (errno) ++errors; for (i = 1; i < host -> client_identifier.len; i++) { errno = 0; fprintf (db_file, ":%2.2x", host -> client_identifier.data [i]); if (errno) ++errors; } errno = 0; fputc (';', db_file); if (errno) ++errors; } } memset (&ip_addrs, 0, sizeof ip_addrs); if (host -> fixed_addr && evaluate_option_cache (&ip_addrs, (struct packet *)0, (struct lease *)0, (struct client_state *)0, (struct option_state *)0, (struct option_state *)0, &global_scope, host -> fixed_addr, MDL)) { errno = 0; fprintf (db_file, "\n fixed-address "); if (errno) ++errors; for (i = 0; i < ip_addrs.len - 3; i += 4) { errno = 0; fprintf (db_file, "%u.%u.%u.%u%s", ip_addrs.data [i] & 0xff, ip_addrs.data [i + 1] & 0xff, ip_addrs.data [i + 2] & 0xff, ip_addrs.data [i + 3] & 0xff, i + 7 < ip_addrs.len ? "," : ""); if (errno) ++errors; } errno = 0; fputc (';', db_file); if (errno) ++errors; } if (host -> named_group) { errno = 0; fprintf (db_file, "\n group \"%s\";", host -> named_group -> name); if (errno) ++errors; } if (host -> group && (!host -> named_group || host -> group != host -> named_group -> group) && host -> group != root_group) { errno = 0; write_statements (db_file, host -> group -> statements, 8); if (errno) ++errors; } } errno = 0; fputs ("\n}\n", db_file); if (errno) ++errors; if (errors) { log_info ("write_host: unable to write host %s", host -> name); lease_file_is_corrupt = 1; } return !errors; } int write_group (group) struct group_object *group; { int errors = 0; /* If the lease file is corrupt, don't try to write any more leases until we've written a good lease file. */ if (lease_file_is_corrupt) if (!new_lease_file ()) return 0; if (!db_printable((unsigned char *)group->name)) return 0; if (counting) ++count; errno = 0; fprintf (db_file, "group %s {", group -> name); if (errno) ++errors; if (group -> flags & GROUP_OBJECT_DYNAMIC) { errno = 0; fprintf (db_file, "\n dynamic;"); if (errno) ++errors; } if (group -> flags & GROUP_OBJECT_STATIC) { errno = 0; fprintf (db_file, "\n static;"); if (errno) ++errors; } if (group -> flags & GROUP_OBJECT_DELETED) { errno = 0; fprintf (db_file, "\n deleted;"); if (errno) ++errors; } else { if (group -> group) { errno = 0; write_statements (db_file, group -> group -> statements, 8); if (errno) ++errors; } } errno = 0; fputs ("\n}\n", db_file); if (errno) ++errors; if (errors) { log_info ("write_group: unable to write group %s", group -> name); lease_file_is_corrupt = 1; } return !errors; } /* * Write an IA and the options it has. */ int write_ia(const struct ia_xx *ia) { struct iasubopt *iasubopt; struct binding *bnd; int i; char addr_buf[sizeof("ffff:ffff:ffff:ffff:ffff:ffff.255.255.255.255")]; const char *binding_state; const char *tval; char *s; int fprintf_ret; /* * If the lease file is corrupt, don't try to write any more * leases until we've written a good lease file. */ if (lease_file_is_corrupt) { if (!new_lease_file()) { return 0; } } if (counting) { ++count; } s = quotify_buf(ia->iaid_duid.data, ia->iaid_duid.len, MDL); if (s == NULL) { goto error_exit; } switch (ia->ia_type) { case D6O_IA_NA: fprintf_ret = fprintf(db_file, "ia-na \"%s\" {\n", s); break; case D6O_IA_TA: fprintf_ret = fprintf(db_file, "ia-ta \"%s\" {\n", s); break; case D6O_IA_PD: fprintf_ret = fprintf(db_file, "ia-pd \"%s\" {\n", s); break; default: log_error("Unknown ia type %u for \"%s\" at %s:%d", (unsigned)ia->ia_type, s, MDL); fprintf_ret = -1; } dfree(s, MDL); if (fprintf_ret < 0) { goto error_exit; } if (ia->cltt != MIN_TIME) { tval = print_time(ia->cltt); if (tval == NULL) { goto error_exit; } if (fprintf(db_file, " cltt %s\n", tval) < 0) { goto error_exit; } } for (i=0; inum_iasubopt; i++) { iasubopt = ia->iasubopt[i]; inet_ntop(AF_INET6, &iasubopt->addr, addr_buf, sizeof(addr_buf)); if ((ia->ia_type != D6O_IA_PD) && (fprintf(db_file, " iaaddr %s {\n", addr_buf) < 0)) { goto error_exit; } if ((ia->ia_type == D6O_IA_PD) && (fprintf(db_file, " iaprefix %s/%d {\n", addr_buf, (int)iasubopt->plen) < 0)) { goto error_exit; } if ((iasubopt->state <= 0) || (iasubopt->state > FTS_LAST)) { log_fatal("Unknown iasubopt state %d at %s:%d", iasubopt->state, MDL); } binding_state = binding_state_names[iasubopt->state-1]; if (fprintf(db_file, " binding state %s;\n", binding_state) < 0) { goto error_exit; } if (fprintf(db_file, " preferred-life %u;\n", (unsigned)iasubopt->prefer) < 0) { goto error_exit; } if (fprintf(db_file, " max-life %u;\n", (unsigned)iasubopt->valid) < 0) { goto error_exit; } /* Note that from here on out, the \n is prepended to the * next write, rather than appended to the current write. */ if ((iasubopt->state == FTS_ACTIVE) || (iasubopt->state == FTS_ABANDONED) || (iasubopt->hard_lifetime_end_time != 0)) { tval = print_time(iasubopt->hard_lifetime_end_time); } else { tval = print_time(iasubopt->soft_lifetime_end_time); } if (tval == NULL) { goto error_exit; } if (fprintf(db_file, " ends %s", tval) < 0) { goto error_exit; } /* Write out any binding scopes: note that 'ends' above does * not have \n on the end! We want that. */ if (iasubopt->scope != NULL) bnd = iasubopt->scope->bindings; else bnd = NULL; for (; bnd != NULL ; bnd = bnd->next) { if (bnd->value == NULL) continue; /* We don't do a regular error_exit because the * lease db is not corrupt in this case. */ if (write_binding_scope(db_file, bnd, "\n ") != ISC_R_SUCCESS) goto error_exit; } if (fprintf(db_file, "\n }\n") < 0) goto error_exit; } if (fprintf(db_file, "}\n\n") < 0) goto error_exit; fflush(db_file); return 1; error_exit: log_info("write_ia: unable to write ia"); lease_file_is_corrupt = 1; return 0; } #ifdef DHCPv6 /* * Put a copy of the server DUID in the leases file. */ int write_server_duid(void) { struct data_string server_duid; char *s; int fprintf_ret; /* * Only write the DUID if it's been set. */ if (!server_duid_isset()) { return 1; } /* * If the lease file is corrupt, don't try to write any more * leases until we've written a good lease file. */ if (lease_file_is_corrupt) { if (!new_lease_file()) { return 0; } } /* * Get a copy of our server DUID and convert to a quoted string. */ memset(&server_duid, 0, sizeof(server_duid)); copy_server_duid(&server_duid, MDL); s = quotify_buf(server_duid.data, server_duid.len, MDL); data_string_forget(&server_duid, MDL); if (s == NULL) { goto error_exit; } /* * Write to the leases file. */ fprintf_ret = fprintf(db_file, "server-duid \"%s\";\n\n", s); dfree(s, MDL); if (fprintf_ret < 0) { goto error_exit; } /* * Check if we actually managed to write. */ fflush(db_file); return 1; error_exit: log_info("write_server_duid: unable to write server-duid"); lease_file_is_corrupt = 1; return 0; } #endif /* DHCPv6 */ #if defined (FAILOVER_PROTOCOL) int write_failover_state (dhcp_failover_state_t *state) { int errors = 0; const char *tval; if (lease_file_is_corrupt) if (!new_lease_file ()) return 0; errno = 0; fprintf (db_file, "\nfailover peer \"%s\" state {", state -> name); if (errno) ++errors; tval = print_time(state->me.stos); if (tval == NULL || fprintf(db_file, "\n my state %s at %s", (state->me.state == startup) ? dhcp_failover_state_name_print(state->saved_state) : dhcp_failover_state_name_print(state->me.state), tval) < 0) ++errors; tval = print_time(state->partner.stos); if (tval == NULL || fprintf(db_file, "\n partner state %s at %s", dhcp_failover_state_name_print(state->partner.state), tval) < 0) ++errors; if (state -> i_am == secondary) { errno = 0; fprintf (db_file, "\n mclt %ld;", (unsigned long)state -> mclt); if (errno) ++errors; } errno = 0; fprintf (db_file, "\n}\n"); if (errno) ++errors; if (errors) { log_info ("write_failover_state: unable to write state %s", state -> name); lease_file_is_corrupt = 1; return 0; } return 1; } #endif int db_printable (s) const unsigned char *s; { int i; for (i = 0; s [i]; i++) if (!isascii (s [i]) || !isprint (s [i]) || s [i] == '"' || s [i] == '\\') return 0; return 1; } int db_printable_len (s, len) const unsigned char *s; unsigned len; { int i; for (i = 0; i < len; i++) if (!isascii (s [i]) || !isprint (s [i]) || s [i] == '"' || s [i] == '\\') return 0; return 1; } static int print_hash_string(FILE *fp, struct class *class) { int i; for (i = 0 ; i < class->hash_string.len ; i++) if (!isascii(class->hash_string.data[i]) || !isprint(class->hash_string.data[i])) break; if (i == class->hash_string.len) { if (fprintf(fp, " \"%.*s\"", (int)class->hash_string.len, class->hash_string.data) <= 0) { log_error("Failure writing hash string: %m"); return 0; } } else { if (fprintf(fp, " %2.2x", class->hash_string.data[0]) <= 0) { log_error("Failure writing hash string: %m"); return 0; } for (i = 1 ; i < class->hash_string.len ; i++) { if (fprintf(fp, ":%2.2x", class->hash_string.data[i]) <= 0) { log_error("Failure writing hash string: %m"); return 0; } } } return 1; } isc_result_t write_named_billing_class(const void *key, unsigned len, void *object) { const unsigned char *name = key; struct class *class = object; if (class->flags & CLASS_DECL_DYNAMIC) { numclasseswritten++; if (class->superclass == 0) { if (fprintf(db_file, "class \"%s\" {\n", name) <= 0) return ISC_R_IOERROR; } else { if (fprintf(db_file, "subclass \"%s\"", class->superclass->name) <= 0) return ISC_R_IOERROR; if (!print_hash_string(db_file, class)) return ISC_R_IOERROR; if (fprintf(db_file, " {\n") <= 0) return ISC_R_IOERROR; } if ((class->flags & CLASS_DECL_DELETED) != 0) { if (fprintf(db_file, " deleted;\n") <= 0) return ISC_R_IOERROR; } else { if (fprintf(db_file, " dynamic;\n") <= 0) return ISC_R_IOERROR; } if (class->lease_limit > 0) { if (fprintf(db_file, " lease limit %d;\n", class->lease_limit) <= 0) return ISC_R_IOERROR; } if (class->expr != 0) { if (fprintf(db_file, " match if ") <= 0) return ISC_R_IOERROR; errno = 0; write_expression(db_file, class->expr, 5, 5, 0); if (errno) return ISC_R_IOERROR; if (fprintf(db_file, ";\n") <= 0) return ISC_R_IOERROR; } if (class->submatch != 0) { if (class->spawning) { if (fprintf(db_file, " spawn ") <= 0) return ISC_R_IOERROR; } else { if (fprintf(db_file, " match ") <= 0) return ISC_R_IOERROR; } errno = 0; write_expression(db_file, class->submatch, 5, 5, 0); if (errno) return ISC_R_IOERROR; if (fprintf(db_file, ";\n") <= 0) return ISC_R_IOERROR; } if (class->statements != 0) { errno = 0; write_statements(db_file, class->statements, 8); if (errno) return ISC_R_IOERROR; } /* XXXJAB this isn't right, but classes read in off the leases file don't get the root group assigned to them (due to clone_group() call). */ if (class->group != 0 && class->group->authoritative != 0) { errno = 0; write_statements(db_file, class->group->statements, 8); if (errno) return ISC_R_IOERROR; } if (fprintf(db_file, "}\n\n") <= 0) return ISC_R_IOERROR; } if (class->hash != NULL) { /* yep. recursive. god help us. */ /* XXX - cannot check error status of this... * foo_hash_foreach returns a count of operations completed. */ class_hash_foreach(class->hash, write_named_billing_class); } return ISC_R_SUCCESS; } void write_billing_classes () { struct collection *lp; struct class *cp; for (lp = collections; lp; lp = lp -> next) { for (cp = lp -> classes; cp; cp = cp -> nic) { if (cp -> spawning && cp -> hash) { class_hash_foreach (cp -> hash, write_named_billing_class); } } } } /* Write a spawned class to the database file. */ int write_billing_class (class) struct class *class; { int errors = 0; if (lease_file_is_corrupt) if (!new_lease_file ()) return 0; if (!class -> superclass) { errno = 0; fprintf (db_file, "\n billing class \"%s\";", class -> name); return !errno; } if (fprintf(db_file, "\n billing subclass \"%s\"", class -> superclass -> name) < 0) ++errors; if (!print_hash_string(db_file, class)) ++errors; if (fprintf(db_file, ";") < 0) ++errors; class -> dirty = !errors; if (errors) lease_file_is_corrupt = 1; return !errors; } /* Commit leases after a timeout. */ void commit_leases_timeout (void *foo) { commit_leases (); } /* Commit any leases that have been written out... */ int commit_leases () { /* Commit any outstanding writes to the lease database file. We need to do this even if we're rewriting the file below, just in case the rewrite fails. */ if (fflush (db_file) == EOF) { log_info ("commit_leases: unable to commit, fflush(): %m"); return 0; } if (fsync (fileno (db_file)) < 0) { log_info ("commit_leases: unable to commit, fsync(): %m"); return 0; } /* send out all deferred ACKs now */ flush_ackqueue(NULL); /* If we haven't rewritten the lease database in over an hour, rewrite it now. (The length of time should probably be configurable. */ if (count && cur_time - write_time > LEASE_REWRITE_PERIOD) { count = 0; write_time = cur_time; new_lease_file (); } return 1; } /* * rewrite the lease file about once an hour * This is meant as a quick patch for ticket 24887. It allows * us to rotate the v6 lease file without adding too many fsync() * calls. In the future wes should revisit this area and add * something similar to the delayed ack code for v4. */ int commit_leases_timed() { if ((count != 0) && (cur_time - write_time > LEASE_REWRITE_PERIOD)) { return (commit_leases()); } return (1); } void db_startup (testp) int testp; { isc_result_t status; #if defined (TRACING) if (!trace_playback ()) { #endif /* Read in the existing lease file... */ status = read_conf_file (path_dhcpd_db, (struct group *)0, 0, 1); if (status != ISC_R_SUCCESS) { /* XXX ignore status? */ ; } #if defined (TRACING) } #endif #if defined (TRACING) /* If we're playing back, there is no lease file, so we can't append it, so we create one immediately (maybe this isn't the best solution... */ if (trace_playback ()) { new_lease_file (); } #endif if (!testp) { db_file = fopen (path_dhcpd_db, "a"); if (!db_file) log_fatal ("Can't open %s for append.", path_dhcpd_db); expire_all_pools (); #if defined (TRACING) if (trace_playback ()) write_time = cur_time; else #endif time(&write_time); new_lease_file (); } #if defined(REPORT_HASH_PERFORMANCE) log_info("Host HW hash: %s", host_hash_report(host_hw_addr_hash)); log_info("Host UID hash: %s", host_hash_report(host_uid_hash)); log_info("Lease IP hash: %s", lease_ip_hash_report(lease_ip_addr_hash)); log_info("Lease UID hash: %s", lease_id_hash_report(lease_uid_hash)); log_info("Lease HW hash: %s", lease_id_hash_report(lease_hw_addr_hash)); #endif } int new_lease_file () { char newfname [512]; char backfname [512]; TIME t; int db_fd; int db_validity; FILE *new_db_file; /* Make a temporary lease file... */ time(&t); db_validity = lease_file_is_corrupt; /* %Audit% Truncated filename causes panic. %2004.06.17,Safe% * This should never happen since the path is a configuration * variable from build-time or command-line. But if it should, * either by malice or ignorance, we panic, since the potential * for havoc is high. */ if (snprintf (newfname, sizeof newfname, "%s.%d", path_dhcpd_db, (int)t) >= sizeof newfname) log_fatal("new_lease_file: lease file path too long"); db_fd = open (newfname, O_WRONLY | O_TRUNC | O_CREAT, 0664); if (db_fd < 0) { log_error ("Can't create new lease file: %m"); return 0; } if ((new_db_file = fdopen(db_fd, "w")) == NULL) { log_error("Can't fdopen new lease file: %m"); close(db_fd); goto fdfail; } /* Close previous database, if any. */ if (db_file) fclose(db_file); db_file = new_db_file; errno = 0; fprintf (db_file, "# The format of this file is documented in the %s", "dhcpd.leases(5) manual page.\n"); if (errno) goto fail; fprintf (db_file, "# This lease file was written by isc-dhcp-%s\n\n", PACKAGE_VERSION); if (errno) goto fail; /* At this point we have a new lease file that, so far, could not * be described as either corrupt nor valid. */ lease_file_is_corrupt = 0; /* Write out all the leases that we know of... */ counting = 0; if (!write_leases ()) goto fail; #if defined (TRACING) if (!trace_playback ()) { #endif /* %Audit% Truncated filename causes panic. %2004.06.17,Safe% * This should never happen since the path is a configuration * variable from build-time or command-line. But if it should, * either by malice or ignorance, we panic, since the potential * for havoc is too high. */ if (snprintf (backfname, sizeof backfname, "%s~", path_dhcpd_db) >= sizeof backfname) log_fatal("new_lease_file: backup lease file path too long"); /* Get the old database out of the way... */ if (unlink (backfname) < 0 && errno != ENOENT) { log_error ("Can't remove old lease database backup %s: %m", backfname); goto fail; } if (link(path_dhcpd_db, backfname) < 0) { if (errno == ENOENT) { log_error("%s is missing - no lease db to backup.", path_dhcpd_db); } else { log_error("Can't backup lease database %s to %s: %m", path_dhcpd_db, backfname); goto fail; } } #if defined (TRACING) } #endif /* Move in the new file... */ if (rename (newfname, path_dhcpd_db) < 0) { log_error ("Can't install new lease database %s to %s: %m", newfname, path_dhcpd_db); goto fail; } counting = 1; return 1; fail: lease_file_is_corrupt = db_validity; fdfail: unlink (newfname); return 0; } int group_writer (struct group_object *group) { if (!write_group (group)) return 0; if (!commit_leases ()) return 0; return 1; }