/*
*
* IP address pool functions.
* Copyright (C) 2003, 2004, 2005 Mondru AB.
* Copyright (c) 2006-2007 David Bird <david@coova.com>
*
* The contents of this file may be used under the terms of the GNU
* General Public License Version 2, provided that the above copyright
* notice and this permission notice is included in all copies or
* substantial portions of the software.
*
*/
#include "system.h"
#include "syserr.h"
#include "radius.h"
#include "md5.h"
#include "dhcp.h"
#include "redir.h"
#include "ippool.h"
#include "lookup.h"
#include "chilli.h"
#include "options.h"
const unsigned int IPPOOL_STATSIZE = 0x10000;
int ippool_printaddr(struct ippool_t *this) {
int n;
printf("ippool_printaddr\n");
printf("Firstdyn %d\n", this->firstdyn - this->member);
printf("Lastdyn %d\n", this->lastdyn - this->member);
printf("Firststat %d\n", this->firststat - this->member);
printf("Laststat %d\n", this->laststat - this->member);
printf("Listsize %d\n", this->listsize);
for (n=0; n<this->listsize; n++) {
printf("Unit %d inuse %d prev %d next %d addr %s %x\n",
n,
this->member[n].inuse,
this->member[n].prev - this->member,
this->member[n].next - this->member,
inet_ntoa(this->member[n].addr),
this->member[n].addr.s_addr
);
}
return 0;
}
int ippool_hashadd(struct ippool_t *this, struct ippoolm_t *member) {
uint32_t hash;
struct ippoolm_t *p;
struct ippoolm_t *p_prev = NULL;
/* Insert into hash table */
hash = ippool_hash4(&member->addr) & this->hashmask;
for (p = this->hash[hash]; p; p = p->nexthash)
p_prev = p;
if (!p_prev)
this->hash[hash] = member;
else
p_prev->nexthash = member;
return 0; /* Always OK to insert */
}
int ippool_hashdel(struct ippool_t *this, struct ippoolm_t *member) {
uint32_t hash;
struct ippoolm_t *p;
struct ippoolm_t *p_prev = NULL;
/* Find in hash table */
hash = ippool_hash4(&member->addr) & this->hashmask;
for (p = this->hash[hash]; p; p = p->nexthash) {
if (p == member) {
break;
}
p_prev = p;
}
if (p!= member) {
log_err(0, "ippool_hashdel: Tried to delete member not in hash table");
return -1;
}
if (!p_prev)
this->hash[hash] = p->nexthash;
else
p_prev->nexthash = p->nexthash;
return 0;
}
uint32_t ippool_hash4(struct in_addr *addr) {
return lookup((unsigned char *)&addr->s_addr, sizeof(addr->s_addr), 0);
}
#ifndef IPPOOL_NOIP6
uint32_t ippool_hash6(struct in6_addr *addr) {
return lookup((unsigned char *)addr->u6_addr8, sizeof(addr->u6_addr8), 0);
}
#endif
/* Create new address pool */
int ippool_new(struct ippool_t **this,
char *dyn, int start, int end, char *stat,
int allowdyn, int allowstat) {
/* Parse only first instance of pool for now */
int i;
struct in_addr addr;
struct in_addr mask;
struct in_addr stataddr;
struct in_addr statmask;
struct in_addr naddr;
unsigned int m;
unsigned int listsize;
unsigned int dynsize;
unsigned int statsize;
if (!allowdyn) {
dynsize = 0;
}
else {
if (option_aton(&addr, &mask, dyn, 0)) {
log_err(0, "Failed to parse dynamic pool");
return -1;
}
m = ntohl(mask.s_addr);
dynsize = ((~m)+1);
if (start > 0 && end > 0) {
if (end < start) {
log_err(0, "Bad arguments dhcpstart=%d and dhcpend=%d", start, end);
return -1;
}
if ((end - start) > dynsize) {
log_err(0, "Too many IPs between dhcpstart=%d and dhcpend=%d for network", start, end);
return -1;
}
dynsize = end - start;
} else {
if (start > 0) {
/*
* if only dhcpstart is set, subtract that from count
*/
dynsize -= start;
dynsize--;/* no broadcast */
} else if (end > 0) {
/*
* if only dhcpend is set, ensure only that many
*/
if (dynsize > end)
dynsize = end;
dynsize--;/* no network */
} else {
dynsize-=2;/* no network, no broadcast */
}
dynsize--;/* no uamlisten */
}
}
if (!allowstat) {
statsize = 0;
stataddr.s_addr = 0;
statmask.s_addr = 0;
}
else {
if (option_aton(&stataddr, &statmask, stat, 0)) {
log_err(0, "Failed to parse static range");
return -1;
}
m = ntohl(statmask.s_addr);
statsize = ((~m)+1);
if (statsize > IPPOOL_STATSIZE)
statsize = IPPOOL_STATSIZE;
}
listsize = dynsize + statsize; /* Allocate space for static IP addresses */
if (!(*this = calloc(sizeof(struct ippool_t), 1))) {
log_err(0, "Failed to allocate memory for ippool");
return -1;
}
(*this)->allowdyn = allowdyn;
(*this)->allowstat = allowstat;
(*this)->stataddr = stataddr;
(*this)->statmask = statmask;
(*this)->listsize += listsize;
if (!((*this)->member = calloc(sizeof(struct ippoolm_t), listsize))){
log_err(0, "Failed to allocate memory for members in ippool");
return -1;
}
for ((*this)->hashlog = 0;
((1 << (*this)->hashlog) < listsize);
(*this)->hashlog++);
log_dbg("Hashlog %d %d %d\n", (*this)->hashlog, listsize, (1 << (*this)->hashlog));
/* Determine hashsize */
(*this)->hashsize = 1 << (*this)->hashlog; /* Fails if mask=0: All Internet*/
(*this)->hashmask = (*this)->hashsize -1;
/* Allocate hash table */
if (!((*this)->hash = calloc(sizeof(struct ippoolm_t), (*this)->hashsize))){
log_err(0, "Failed to allocate memory for hash members in ippool");
return -1;
}
if (start <= 0) /* adjust for skipping network */
start = 1;
(*this)->firstdyn = NULL;
(*this)->lastdyn = NULL;
for (i = 0; i<dynsize; i++) {
naddr.s_addr = htonl(ntohl(addr.s_addr) + i + start);
if (naddr.s_addr == options.uamlisten.s_addr) {
start++; /* skip the uamlisten address! */
naddr.s_addr = htonl(ntohl(addr.s_addr) + i + start);
}
(*this)->member[i].addr.s_addr = naddr.s_addr;
(*this)->member[i].inuse = 0;
/* Insert into list of unused */
(*this)->member[i].prev = (*this)->lastdyn;
if ((*this)->lastdyn) {
(*this)->lastdyn->next = &((*this)->member[i]);
}
else {
(*this)->firstdyn = &((*this)->member[i]);
}
(*this)->lastdyn = &((*this)->member[i]);
(*this)->member[i].next = NULL; /* Redundant */
ippool_hashadd(*this, &(*this)->member[i]);
}
(*this)->firststat = NULL;
(*this)->laststat = NULL;
for (i = dynsize; i<listsize; i++) {
(*this)->member[i].addr.s_addr = 0;
(*this)->member[i].inuse = 0;
/* Insert into list of unused */
(*this)->member[i].prev = (*this)->laststat;
if ((*this)->laststat) {
(*this)->laststat->next = &((*this)->member[i]);
}
else {
(*this)->firststat = &((*this)->member[i]);
}
(*this)->laststat = &((*this)->member[i]);
(*this)->member[i].next = NULL; /* Redundant */
}
if (0) ippool_printaddr(*this);
return 0;
}
/* Delete existing address pool */
int ippool_free(struct ippool_t *this) {
free(this->hash);
free(this->member);
free(this);
return 0; /* Always OK */
}
/* Find an IP address in the pool */
int ippool_getip(struct ippool_t *this, struct ippoolm_t **member,
struct in_addr *addr) {
struct ippoolm_t *p;
uint32_t hash;
/* Find in hash table */
hash = ippool_hash4(addr) & this->hashmask;
for (p = this->hash[hash]; p; p = p->nexthash) {
if ((p->addr.s_addr == addr->s_addr) && (p->inuse)) {
if (member) *member = p;
return 0;
}
}
if (member) *member = NULL;
return -1;
}
/**
* ippool_newip
* Get an IP address. If addr = 0.0.0.0 get a dynamic IP address. Otherwise
* check to see if the given address is available. If available within
* dynamic address space allocate it there, otherwise allocate within static
* address space.
**/
int ippool_newip(struct ippool_t *this, struct ippoolm_t **member,
struct in_addr *addr, int statip) {
struct ippoolm_t *p;
struct ippoolm_t *p2 = NULL;
uint32_t hash;
log_dbg("Requesting new %s ip: %s", statip ? "static" : "dynamic", inet_ntoa(*addr));
/* If static:
* Look in dynaddr.
* If found remove from firstdyn/lastdyn linked list.
* Else allocate from stataddr.
* Remove from firststat/laststat linked list.
* Insert into hash table.
*
* If dynamic
* Remove from firstdyn/lastdyn linked list.
*
*/
/*if(0)(void)ippool_printaddr(this);*/
/* First check to see if this type of address is allowed */
if ((addr) && (addr->s_addr) && statip) { /* IP address given */
if (!options.uamanyip) {
if (!this->allowstat) {
log_dbg("Static IP address not allowed");
return -1;
}
if ((addr->s_addr & this->statmask.s_addr) != this->stataddr.s_addr) {
log_err(0, "Static out of range");
return -1;
}
}
}
else {
if (!this->allowdyn) {
log_err(0, "Dynamic IP address not allowed");
return -1;
}
}
/* If IP address given try to find it in address pool */
if ((addr) && (addr->s_addr)) { /* IP address given */
/* Find in hash table */
hash = ippool_hash4(addr) & this->hashmask;
for (p = this->hash[hash]; p; p = p->nexthash) {
if ((p->addr.s_addr == addr->s_addr)) {
p2 = p;
break;
}
}
}
/* if anyip is set and statip return the same ip */
if (statip && options.uamanyip && p2 && p2->inuse == 2) {
log_dbg("Found already allocated static ip");
*member = p2;
return 0;
}
/* If IP was already allocated we can not use it */
if ((!statip) && (p2) && (p2->inuse)) {
p2 = NULL;
}
/* If not found yet and dynamic IP then allocate dynamic IP */
if ((!p2) && (!statip) /*XXX: && (!addr || !addr->s_addr)*/) {
if (!this->firstdyn) {
log_err(0, "No more IP addresses available");
return -1;
}
else
p2 = this->firstdyn;
}
if (p2) { /* Was allocated from dynamic address pool */
if (p2->inuse) {
log_err(0, "IP address allready in use");
return -1; /* Allready in use / Should not happen */
}
/* Remove from linked list of free dynamic addresses */
if (p2->prev)
p2->prev->next = p2->next;
else
this->firstdyn = p2->next;
if (p2->next)
p2->next->prev = p2->prev;
else
this->lastdyn = p2->prev;
p2->next = NULL;
p2->prev = NULL;
p2->inuse = 1; /* Dynamic address in use */
*member = p2;
if (0) (void)ippool_printaddr(this);
return 0; /* Success */
}
/* It was not possible to allocate from dynamic address pool */
/* Try to allocate from static address space */
if ((addr) && (addr->s_addr) && (statip||options.uamanyip)) { /* IP address given */
if (!this->firststat) {
log_err(0, "No more IP addresses available");
return -1; /* No more available */
}
else
p2 = this->firststat;
/* Remove from linked list of free static addresses */
if (p2->prev)
p2->prev->next = p2->next;
else
this->firststat = p2->next;
if (p2->next)
p2->next->prev = p2->prev;
else
this->laststat = p2->prev;
p2->next = NULL;
p2->prev = NULL;
p2->inuse = 2; /* Static address in use */
memcpy(&p2->addr, addr, sizeof(addr));
*member = p2;
log_dbg("Assigned a static ip to: %s", inet_ntoa(*addr));
ippool_hashadd(this, *member);
if (0) (void)ippool_printaddr(this);
return 0; /* Success */
}
return -1;
}
int ippool_freeip(struct ippool_t *this, struct ippoolm_t *member) {
if (0) ippool_printaddr(this);
if (!member->inuse) {
log_err(0, "Address not in use");
return -1; /* Not in use: Should not happen */
}
switch (member->inuse) {
case 0: /* Not in use: Should not happen */
log_err(0, "Address not in use");
return -1;
case 1: /* Allocated from dynamic address space */
/* Insert into list of unused */
member->prev = this->lastdyn;
if (this->lastdyn) {
this->lastdyn->next = member;
}
else {
this->firstdyn = member;
}
this->lastdyn = member;
member->inuse = 0;
member->peer = NULL;
if (0) (void)ippool_printaddr(this);
return 0;
case 2: /* Allocated from static address space */
if (ippool_hashdel(this, member))
return -1;
/* Insert into list of unused */
member->prev = this->laststat;
if (this->laststat) {
this->laststat->next = member;
}
else {
this->firststat = member;
}
this->laststat = member;
member->inuse = 0;
member->addr.s_addr = 0;
member->peer = NULL;
member->nexthash = NULL;
if (0) (void)ippool_printaddr(this);
return 0;
default: /* Should not happen */
log_err(0, "Could not free IP address");
return -1;
}
}
#ifndef IPPOOL_NOIP6
extern uint32_t ippool_hash6(struct in6_addr *addr);
extern int ippool_getip6(struct ippool_t *this, struct in6_addr *addr);
extern int ippool_returnip6(struct ippool_t *this, struct in6_addr *addr);
#endif
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