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|
/* $OpenBSD: memory.c,v 1.31 2022/01/28 06:33:27 guenther Exp $ */
/*
* Copyright (c) 1995, 1996, 1997, 1998 The Internet Software Consortium.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of The Internet Software Consortium nor the names
* of its contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE INTERNET SOFTWARE CONSORTIUM AND
* CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE INTERNET SOFTWARE CONSORTIUM OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
* USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* This software has been written for the Internet Software Consortium
* by Ted Lemon <mellon@fugue.com> in cooperation with Vixie
* Enterprises. To learn more about the Internet Software Consortium,
* see ``http://www.vix.com/isc''. To learn more about Vixie
* Enterprises, see ``http://www.vix.com''.
*/
#include <sys/types.h>
#include <sys/socket.h>
#include <arpa/inet.h>
#include <net/if.h>
#include <netdb.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "dhcp.h"
#include "tree.h"
#include "dhcpd.h"
#include "log.h"
#include "sync.h"
struct subnet *subnets;
static struct shared_network *shared_networks;
static struct hash_table *host_hw_addr_hash;
static struct hash_table *host_uid_hash;
static struct hash_table *lease_uid_hash;
static struct hash_table *lease_ip_addr_hash;
static struct hash_table *lease_hw_addr_hash;
static struct lease *dangling_leases;
static struct hash_table *vendor_class_hash;
static struct hash_table *user_class_hash;
extern int syncsend;
void
enter_host(struct host_decl *hd)
{
struct host_decl *hp = NULL, *np = NULL;
hd->n_ipaddr = NULL;
if (hd->interface.hlen) {
if (!host_hw_addr_hash)
host_hw_addr_hash = new_hash();
else
hp = (struct host_decl *)hash_lookup(host_hw_addr_hash,
hd->interface.haddr, hd->interface.hlen);
/*
* If there isn't already a host decl matching this
* address, add it to the hash table.
*/
if (!hp)
add_hash(host_hw_addr_hash, hd->interface.haddr,
hd->interface.hlen, (unsigned char *)hd);
}
/*
* If there was already a host declaration for this hardware
* address, add this one to the end of the list.
*/
if (hp) {
for (np = hp; np->n_ipaddr; np = np->n_ipaddr)
;
np->n_ipaddr = hd;
}
if (hd->group->options[DHO_DHCP_CLIENT_IDENTIFIER]) {
if (!tree_evaluate(
hd->group->options[DHO_DHCP_CLIENT_IDENTIFIER]))
return;
/* If there's no uid hash, make one; otherwise, see if
there's already an entry in the hash for this host. */
if (!host_uid_hash) {
host_uid_hash = new_hash();
hp = NULL;
} else
hp = (struct host_decl *)hash_lookup(host_uid_hash,
hd->group->options[DHO_DHCP_CLIENT_IDENTIFIER]->value,
hd->group->options[DHO_DHCP_CLIENT_IDENTIFIER]->len);
/*
* If there's already a host declaration for this
* client identifier, add this one to the end of the
* list. Otherwise, add it to the hash table.
*/
if (hp) {
/* Don't link it in twice... */
if (!np) {
for (np = hp; np->n_ipaddr;
np = np->n_ipaddr)
;
np->n_ipaddr = hd;
}
} else {
add_hash(host_uid_hash,
hd->group->options[DHO_DHCP_CLIENT_IDENTIFIER]->value,
hd->group->options[DHO_DHCP_CLIENT_IDENTIFIER]->len,
(unsigned char *)hd);
}
}
}
struct host_decl *
find_hosts_by_haddr(int htype, unsigned char *haddr, int hlen)
{
return (struct host_decl *)hash_lookup(host_hw_addr_hash,
haddr, hlen);
}
struct host_decl *
find_hosts_by_uid(unsigned char *data, int len)
{
return (struct host_decl *)hash_lookup(host_uid_hash, data, len);
}
/*
* More than one host_decl can be returned by find_hosts_by_haddr or
* find_hosts_by_uid, and each host_decl can have multiple addresses.
* Loop through the list of hosts, and then for each host, through the
* list of addresses, looking for an address that's in the same shared
* network as the one specified. Store the matching address through
* the addr pointer, update the host pointer to point at the host_decl
* that matched, and return the subnet that matched.
*/
struct subnet *
find_host_for_network(struct host_decl **host, struct iaddr *addr,
struct shared_network *share)
{
struct subnet *subnet;
struct iaddr ip_address;
struct host_decl *hp;
int i;
for (hp = *host; hp; hp = hp->n_ipaddr) {
if (!hp->fixed_addr || !tree_evaluate(hp->fixed_addr))
continue;
for (i = 0; i < hp->fixed_addr->len; i += 4) {
ip_address.len = 4;
memcpy(ip_address.iabuf, hp->fixed_addr->value + i, 4);
subnet = find_grouped_subnet(share, ip_address);
if (subnet) {
*addr = ip_address;
*host = hp;
return subnet;
}
}
}
return NULL;
}
void
new_address_range(struct iaddr low, struct iaddr high, struct subnet *subnet,
int dynamic)
{
struct lease *address_range, *lp, *plp;
struct iaddr net;
int min, max, i;
char lowbuf[16], highbuf[16], netbuf[16];
struct shared_network *share = subnet->shared_network;
struct hostent *h;
struct in_addr ia;
/* All subnets should have attached shared network structures. */
if (!share) {
strlcpy(netbuf, piaddr(subnet->net), sizeof(netbuf));
fatalx("No shared network for network %s (%s)",
netbuf, piaddr(subnet->netmask));
}
/* Initialize the hash table if it hasn't been done yet. */
if (!lease_uid_hash)
lease_uid_hash = new_hash();
if (!lease_ip_addr_hash)
lease_ip_addr_hash = new_hash();
if (!lease_hw_addr_hash)
lease_hw_addr_hash = new_hash();
/* Make sure that high and low addresses are in same subnet. */
net = subnet_number(low, subnet->netmask);
if (!addr_eq(net, subnet_number(high, subnet->netmask))) {
strlcpy(lowbuf, piaddr(low), sizeof(lowbuf));
strlcpy(highbuf, piaddr(high), sizeof(highbuf));
strlcpy(netbuf, piaddr(subnet->netmask), sizeof(netbuf));
fatalx("Address range %s to %s, netmask %s spans %s!",
lowbuf, highbuf, netbuf, "multiple subnets");
}
/* Make sure that the addresses are on the correct subnet. */
if (!addr_eq(net, subnet->net)) {
strlcpy(lowbuf, piaddr(low), sizeof(lowbuf));
strlcpy(highbuf, piaddr(high), sizeof(highbuf));
strlcpy(netbuf, piaddr(subnet->netmask), sizeof(netbuf));
fatalx("Address range %s to %s not on net %s/%s!",
lowbuf, highbuf, piaddr(subnet->net), netbuf);
}
/* Get the high and low host addresses... */
max = host_addr(high, subnet->netmask);
min = host_addr(low, subnet->netmask);
/* Allow range to be specified high-to-low as well as low-to-high. */
if (min > max) {
max = min;
min = host_addr(high, subnet->netmask);
}
/* Get a lease structure for each address in the range. */
address_range = calloc(max - min + 1, sizeof(struct lease));
if (!address_range) {
strlcpy(lowbuf, piaddr(low), sizeof(lowbuf));
strlcpy(highbuf, piaddr(high), sizeof(highbuf));
fatalx("No memory for address range %s-%s.", lowbuf, highbuf);
}
memset(address_range, 0, (sizeof *address_range) * (max - min + 1));
/* Fill in the last lease if it hasn't been already... */
if (!share->last_lease)
share->last_lease = &address_range[0];
/* Fill out the lease structures with some minimal information. */
for (i = 0; i < max - min + 1; i++) {
address_range[i].ip_addr = ip_addr(subnet->net,
subnet->netmask, i + min);
address_range[i].starts = address_range[i].timestamp =
MIN_TIME;
address_range[i].ends = MIN_TIME;
address_range[i].subnet = subnet;
address_range[i].shared_network = share;
address_range[i].flags = dynamic ? DYNAMIC_BOOTP_OK : 0;
memcpy(&ia, address_range[i].ip_addr.iabuf, 4);
if (subnet->group->get_lease_hostnames) {
h = gethostbyaddr((char *)&ia, sizeof ia, AF_INET);
if (!h)
log_warnx("No hostname for %s", inet_ntoa(ia));
else {
address_range[i].hostname = strdup(h->h_name);
if (address_range[i].hostname == NULL)
fatalx("no memory for hostname %s.",
h->h_name);
}
}
/* Link this entry into the list. */
address_range[i].next = share->leases;
address_range[i].prev = NULL;
share->leases = &address_range[i];
if (address_range[i].next)
address_range[i].next->prev = share->leases;
add_hash(lease_ip_addr_hash, address_range[i].ip_addr.iabuf,
address_range[i].ip_addr.len,
(unsigned char *)&address_range[i]);
}
/* Find out if any dangling leases are in range... */
plp = NULL;
for (lp = dangling_leases; lp; lp = lp->next) {
struct iaddr lnet;
int lhost;
lnet = subnet_number(lp->ip_addr, subnet->netmask);
lhost = host_addr(lp->ip_addr, subnet->netmask);
/* If it's in range, fill in the real lease structure with
the dangling lease's values, and remove the lease from
the list of dangling leases. */
if (addr_eq(lnet, subnet->net) && lhost >= i && lhost <= max) {
if (plp) {
plp->next = lp->next;
} else {
dangling_leases = lp->next;
}
lp->next = NULL;
address_range[lhost - i].hostname = lp->hostname;
address_range[lhost - i].client_hostname =
lp->client_hostname;
supersede_lease(&address_range[lhost - i], lp, 0);
free(lp);
return;
} else
plp = lp;
}
}
struct subnet *
find_subnet(struct iaddr addr)
{
struct subnet *rv;
for (rv = subnets; rv; rv = rv->next_subnet) {
if (addr_eq(subnet_number(addr, rv->netmask), rv->net))
return rv;
}
return NULL;
}
struct subnet *
find_grouped_subnet(struct shared_network *share, struct iaddr addr)
{
struct subnet *rv;
for (rv = share->subnets; rv; rv = rv->next_sibling) {
if (addr_eq(subnet_number(addr, rv->netmask), rv->net))
return rv;
}
return NULL;
}
int
subnet_inner_than(struct subnet *subnet, struct subnet *scan, int warnp)
{
if (addr_eq(subnet_number(subnet->net, scan->netmask), scan->net) ||
addr_eq(subnet_number(scan->net, subnet->netmask), subnet->net)) {
char n1buf[16];
int i, j;
for (i = 0; i < 32; i++)
if (subnet->netmask.iabuf[3 - (i >> 3)] &
(1 << (i & 7)))
break;
for (j = 0; j < 32; j++)
if (scan->netmask.iabuf[3 - (j >> 3)] &
(1 << (j & 7)))
break;
strlcpy(n1buf, piaddr(subnet->net), sizeof(n1buf));
if (warnp)
log_warnx("%ssubnet %s/%d conflicts with subnet %s/%d",
"Warning: ", n1buf, 32 - i,
piaddr(scan->net), 32 - j);
if (i < j)
return 1;
}
return 0;
}
/* Enter a new subnet into the subnet list. */
void
enter_subnet(struct subnet *subnet)
{
struct subnet *scan, *prev = NULL;
/* Check for duplicates... */
for (scan = subnets; scan; scan = scan->next_subnet) {
/*
* When we find a conflict, make sure that the
* subnet with the narrowest subnet mask comes
* first.
*/
if (subnet_inner_than(subnet, scan, 1)) {
if (prev) {
prev->next_subnet = subnet;
} else
subnets = subnet;
subnet->next_subnet = scan;
return;
}
prev = scan;
}
/* XXX use the BSD radix tree code instead of a linked list. */
subnet->next_subnet = subnets;
subnets = subnet;
}
/* Enter a new shared network into the shared network list. */
void
enter_shared_network(struct shared_network *share)
{
/* XXX Sort the nets into a balanced tree to make searching quicker. */
share->next = shared_networks;
shared_networks = share;
}
/*
* Enter a lease into the system. This is called by the parser each
* time it reads in a new lease. If the subnet for that lease has
* already been read in (usually the case), just update that lease;
* otherwise, allocate temporary storage for the lease and keep it around
* until we're done reading in the config file.
*/
void
enter_lease(struct lease *lease)
{
struct lease *comp = find_lease_by_ip_addr(lease->ip_addr);
/* If we don't have a place for this lease yet, save it for later. */
if (!comp) {
comp = calloc(1, sizeof(struct lease));
if (!comp)
fatalx("No memory for lease %s\n",
piaddr(lease->ip_addr));
*comp = *lease;
comp->next = dangling_leases;
comp->prev = NULL;
dangling_leases = comp;
} else {
/* Record the hostname information in the lease. */
comp->hostname = lease->hostname;
comp->client_hostname = lease->client_hostname;
supersede_lease(comp, lease, 0);
}
}
static inline int
hwaddrcmp(struct hardware *a, struct hardware *b)
{
return ((a->htype != b->htype) || (a->hlen != b->hlen) ||
memcmp(a->haddr, b->haddr, b->hlen));
}
static inline int
uidcmp(struct lease *a, struct lease *b)
{
return (a->uid_len != b->uid_len || memcmp(a->uid, b->uid,
b->uid_len));
}
static inline int
uid_or_hwaddr_cmp(struct lease *a, struct lease *b)
{
if (a->uid && b->uid)
return uidcmp(a, b);
return hwaddrcmp(&a->hardware_addr, &b->hardware_addr);
}
/*
* Replace the data in an existing lease with the data in a new lease;
* adjust hash tables to suit, and insertion sort the lease into the
* list of leases by expiry time so that we can always find the oldest
* lease.
*/
int
supersede_lease(struct lease *comp, struct lease *lease, int commit)
{
int enter_uid = 0;
int enter_hwaddr = 0;
int do_pftable = 0;
struct lease *lp;
/* Static leases are not currently kept in the database... */
if (lease->flags & STATIC_LEASE)
return 1;
/*
* If the existing lease hasn't expired and has a different
* unique identifier or, if it doesn't have a unique
* identifier, a different hardware address, then the two
* leases are in conflict. If the existing lease has a uid
* and the new one doesn't, but they both have the same
* hardware address, and dynamic bootp is allowed on this
* lease, then we allow that, in case a dynamic BOOTP lease is
* requested *after* a DHCP lease has been assigned.
*/
if (!(lease->flags & ABANDONED_LEASE) &&
comp->ends > cur_time && uid_or_hwaddr_cmp(comp, lease)) {
log_warnx("Lease conflict at %s", piaddr(comp->ip_addr));
return 0;
} else {
/* If there's a Unique ID, dissociate it from the hash
table and free it if necessary. */
if (comp->uid) {
uid_hash_delete(comp);
enter_uid = 1;
if (comp->uid != &comp->uid_buf[0]) {
if (comp->uid != lease->uid)
free(comp->uid);
comp->uid_max = 0;
comp->uid_len = 0;
}
comp->uid = NULL;
} else
enter_uid = 1;
if (comp->hardware_addr.htype &&
hwaddrcmp(&comp->hardware_addr, &lease->hardware_addr)) {
hw_hash_delete(comp);
enter_hwaddr = 1;
do_pftable = 1;
} else if (!comp->hardware_addr.htype) {
enter_hwaddr = 1;
do_pftable = 1;
}
/* Copy the data files, but not the linkages. */
comp->starts = lease->starts;
if (lease->uid) {
if (lease->uid_len <= sizeof (lease->uid_buf)) {
memcpy(comp->uid_buf, lease->uid,
lease->uid_len);
comp->uid = &comp->uid_buf[0];
comp->uid_max = sizeof comp->uid_buf;
} else if (lease->uid != &lease->uid_buf[0]) {
comp->uid = lease->uid;
comp->uid_max = lease->uid_max;
lease->uid = NULL;
lease->uid_max = 0;
} else {
fatalx("corrupt lease uid."); /* XXX */
}
} else {
comp->uid = NULL;
comp->uid_max = 0;
}
comp->uid_len = lease->uid_len;
comp->host = lease->host;
comp->hardware_addr = lease->hardware_addr;
comp->flags = ((lease->flags & ~PERSISTENT_FLAGS) |
(comp->flags & ~EPHEMERAL_FLAGS));
/* Record the lease in the uid hash if necessary. */
if (enter_uid && lease->uid)
uid_hash_add(comp);
/* Record it in the hardware address hash if necessary. */
if (enter_hwaddr && lease->hardware_addr.htype)
hw_hash_add(comp);
/* Remove the lease from its current place in the
timeout sequence. */
if (comp->prev)
comp->prev->next = comp->next;
else
comp->shared_network->leases = comp->next;
if (comp->next)
comp->next->prev = comp->prev;
if (comp->shared_network->last_lease == comp)
comp->shared_network->last_lease = comp->prev;
/* Find the last insertion point... */
if (comp == comp->shared_network->insertion_point ||
!comp->shared_network->insertion_point)
lp = comp->shared_network->leases;
else
lp = comp->shared_network->insertion_point;
if (!lp) {
/* Nothing on the list yet? Just make comp the
head of the list. */
comp->shared_network->leases = comp;
comp->shared_network->last_lease = comp;
} else if (lp->ends > lease->ends) {
/* Skip down the list until we run out of list
or find a place for comp. */
while (lp->next && lp->ends > lease->ends) {
lp = lp->next;
}
if (lp->ends > lease->ends) {
/* If we ran out of list, put comp
at the end. */
lp->next = comp;
comp->prev = lp;
comp->next = NULL;
comp->shared_network->last_lease = comp;
} else {
/* If we didn't, put it between lp and
the previous item on the list. */
if ((comp->prev = lp->prev))
comp->prev->next = comp;
comp->next = lp;
lp->prev = comp;
}
} else {
/* Skip up the list until we run out of list
or find a place for comp. */
while (lp->prev && lp->ends < lease->ends) {
lp = lp->prev;
}
if (lp->ends < lease->ends) {
/* If we ran out of list, put comp
at the beginning. */
lp->prev = comp;
comp->next = lp;
comp->prev = NULL;
comp->shared_network->leases = comp;
} else {
/* If we didn't, put it between lp and
the next item on the list. */
if ((comp->next = lp->next))
comp->next->prev = comp;
comp->prev = lp;
lp->next = comp;
}
}
comp->shared_network->insertion_point = comp;
comp->ends = lease->ends;
}
pfmsg('L', lease); /* address is leased. remove from purgatory */
if (do_pftable) /* address changed hwaddr. remove from overload */
pfmsg('C', lease);
/* Return zero if we didn't commit the lease to permanent storage;
nonzero if we did. */
return commit && write_lease(comp) && commit_leases();
}
/* Release the specified lease and re-hash it as appropriate. */
void
release_lease(struct lease *lease)
{
struct lease lt;
lt = *lease;
if (lt.ends > cur_time) {
lt.ends = cur_time;
supersede_lease(lease, <, 1);
log_info("Released lease for IP address %s",
piaddr(lease->ip_addr));
pfmsg('R', lease);
}
}
/*
* Abandon the specified lease for the specified time. sets its
* particulars to zero, the end time appropriately and re-hash it as
* appropriate. abandons permanently if abtime is 0
*/
void
abandon_lease(struct lease *lease, char *message)
{
struct lease lt;
time_t abtime;
abtime = lease->subnet->group->default_lease_time;
lease->flags |= ABANDONED_LEASE;
lt = *lease;
lt.ends = cur_time + abtime;
log_warnx("Abandoning IP address %s for %lld seconds: %s",
piaddr(lease->ip_addr), (long long)abtime, message);
lt.hardware_addr.htype = 0;
lt.hardware_addr.hlen = 0;
lt.uid = NULL;
lt.uid_len = 0;
supersede_lease(lease, <, 1);
pfmsg('A', lease); /* address is abandoned. send to purgatory */
return;
}
/* Locate the lease associated with a given IP address... */
struct lease *
find_lease_by_ip_addr(struct iaddr addr)
{
return (struct lease *)hash_lookup(lease_ip_addr_hash,
addr.iabuf, addr.len);
}
struct lease *
find_lease_by_uid(unsigned char *uid, int len)
{
return (struct lease *)hash_lookup(lease_uid_hash, uid, len);
}
struct lease *
find_lease_by_hw_addr(unsigned char *hwaddr, int hwlen)
{
return (struct lease *)hash_lookup(lease_hw_addr_hash, hwaddr, hwlen);
}
/* Add the specified lease to the uid hash. */
void
uid_hash_add(struct lease *lease)
{
struct lease *head = find_lease_by_uid(lease->uid, lease->uid_len);
struct lease *scan;
/* If it's not in the hash, just add it. */
if (!head)
add_hash(lease_uid_hash, lease->uid,
lease->uid_len, (unsigned char *)lease);
else {
/* Otherwise, attach it to the end of the list. */
for (scan = head; scan->n_uid; scan = scan->n_uid)
;
scan->n_uid = lease;
}
}
/* Delete the specified lease from the uid hash. */
void
uid_hash_delete(struct lease *lease)
{
struct lease *head = find_lease_by_uid(lease->uid, lease->uid_len);
struct lease *scan;
/* If it's not in the hash, we have no work to do. */
if (!head) {
lease->n_uid = NULL;
return;
}
/* If the lease we're freeing is at the head of the list,
remove the hash table entry and add a new one with the
next lease on the list (if there is one). */
if (head == lease) {
delete_hash_entry(lease_uid_hash, lease->uid, lease->uid_len);
if (lease->n_uid)
add_hash(lease_uid_hash, lease->n_uid->uid,
lease->n_uid->uid_len,
(unsigned char *)(lease->n_uid));
} else {
/* Otherwise, look for the lease in the list of leases
attached to the hash table entry, and remove it if
we find it. */
for (scan = head; scan->n_uid; scan = scan->n_uid) {
if (scan->n_uid == lease) {
scan->n_uid = scan->n_uid->n_uid;
break;
}
}
}
lease->n_uid = NULL;
}
/* Add the specified lease to the hardware address hash. */
void
hw_hash_add(struct lease *lease)
{
struct lease *head = find_lease_by_hw_addr(lease->hardware_addr.haddr,
lease->hardware_addr.hlen);
struct lease *scan;
/* If it's not in the hash, just add it. */
if (!head)
add_hash(lease_hw_addr_hash, lease->hardware_addr.haddr,
lease->hardware_addr.hlen, (unsigned char *)lease);
else {
/* Otherwise, attach it to the end of the list. */
for (scan = head; scan->n_hw; scan = scan->n_hw)
;
scan->n_hw = lease;
}
}
/* Delete the specified lease from the hardware address hash. */
void
hw_hash_delete(struct lease *lease)
{
struct lease *head = find_lease_by_hw_addr(lease->hardware_addr.haddr,
lease->hardware_addr.hlen);
struct lease *scan;
/* If it's not in the hash, we have no work to do. */
if (!head) {
lease->n_hw = NULL;
return;
}
/* If the lease we're freeing is at the head of the list,
remove the hash table entry and add a new one with the
next lease on the list (if there is one). */
if (head == lease) {
delete_hash_entry(lease_hw_addr_hash,
lease->hardware_addr.haddr, lease->hardware_addr.hlen);
if (lease->n_hw)
add_hash(lease_hw_addr_hash,
lease->n_hw->hardware_addr.haddr,
lease->n_hw->hardware_addr.hlen,
(unsigned char *)(lease->n_hw));
} else {
/*
* Otherwise, look for the lease in the list of leases
* attached to the hash table entry, and remove it if
* we find it.
*/
for (scan = head; scan->n_hw; scan = scan->n_hw) {
if (scan->n_hw == lease) {
scan->n_hw = scan->n_hw->n_hw;
break;
}
}
}
lease->n_hw = NULL;
}
struct class *
add_class(int type, char *name)
{
struct class *class;
char *tname;
class = calloc(1, sizeof(*class));
tname = strdup(name);
if (!vendor_class_hash)
vendor_class_hash = new_hash();
if (!user_class_hash)
user_class_hash = new_hash();
if (!tname || !class || !vendor_class_hash || !user_class_hash) {
log_warnx("No memory for %s.", name);
free(class);
free(tname);
return NULL;
}
class->name = tname;
if (type)
add_hash(user_class_hash, (unsigned char *)tname,
strlen(tname), (unsigned char *)class);
else
add_hash(vendor_class_hash, (unsigned char *)tname,
strlen(tname), (unsigned char *)class);
return class;
}
struct class *
find_class(int type, unsigned char *name, int len)
{
return (struct class *)hash_lookup(type ? user_class_hash :
vendor_class_hash, name, len);
}
struct group *
clone_group(struct group *group, char *caller)
{
struct group *g;
g = calloc(1, sizeof(struct group));
if (!g)
fatalx("%s: can't allocate new group", caller);
*g = *group;
return g;
}
/* Write all interesting leases to permanent storage. */
void
write_leases(void)
{
struct lease *l;
struct shared_network *s;
for (s = shared_networks; s; s = s->next) {
for (l = s->leases; l; l = l->next) {
if (l->hardware_addr.hlen || l->uid_len ||
(l->flags & ABANDONED_LEASE)) {
if (!write_lease(l))
fatalx("Can't rewrite lease database");
if (syncsend)
sync_lease(l);
}
}
}
if (!commit_leases())
fatal("Can't commit leases to new database");
}
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