/* * IP address pool functions. * Copyright (C) 2003, 2004 Mondru AB. * Copyright (C) 2017 by Harald Welte * * 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 #include /* in_addr */ #include /* calloc */ #include /* sscanf */ #include #include #include #include #include "syserr.h" #include "ippool.h" #include "lookup.h" int ippool_printaddr(struct ippool_t *this) { unsigned 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++) { char s[256]; in46a_ntop(&this->member[n].addr, s, sizeof(s)); printf("Unit %d inuse %d prev %d next %d addr %s\n", n, this->member[n].inuse, this->member[n].prev - this->member, this->member[n].next - this->member, s); } 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_hash(&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_hash(&member->addr) & this->hashmask; for (p = this->hash[hash]; p; p = p->nexthash) { if (p == member) { break; } p_prev = p; } if (p != member) { SYS_ERR(DIP, LOGL_ERROR, 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; } static unsigned long int ippool_hash4(struct in_addr *addr) { return lookup((unsigned char *)&addr->s_addr, sizeof(addr->s_addr), 0); } static unsigned long int ippool_hash6(struct in6_addr *addr, unsigned int len) { /* TODO: Review hash spread for IPv6 */ return lookup((unsigned char *)addr->s6_addr, len, 0); } unsigned long int ippool_hash(struct in46_addr *addr) { if (addr->len == 4) return ippool_hash4(&addr->v4); else return ippool_hash6(&addr->v6, addr->len); } /* Get IP address and mask */ int ippool_aton(struct in46_addr *addr, size_t *prefixlen, const char *pool_in, int number) { struct addrinfo *ai; struct addrinfo hints = { .ai_family = AF_UNSPEC, .ai_socktype = SOCK_DGRAM, .ai_flags = 0, .ai_protocol = 0 }; char pool[strlen(pool_in)+1]; strcpy(pool, pool_in); int err; /* Find '/' and point to first char after it */ char *prefixlen_str = strchr(pool, '/'); if (prefixlen_str) { *prefixlen_str = '\0'; prefixlen_str++; if (*prefixlen_str == '\0') { SYS_ERR(DIP, LOGL_ERROR, 0, "Empty prefix length specified"); return -1; } } /* convert address */ if ((err = getaddrinfo(pool, NULL, &hints, &ai))) { SYS_ERR(DIP, LOGL_ERROR, 0, "Bad address"); return -1; } /* Copy address, set lengths */ if (ai->ai_family == AF_INET) { *prefixlen = 32; addr->len = sizeof(struct in_addr); addr->v4 = ((struct sockaddr_in*)ai->ai_addr)->sin_addr; } else { *prefixlen = 128; addr->len = sizeof(struct in6_addr); addr->v6 = ((struct sockaddr_in6*)ai->ai_addr)->sin6_addr; } freeaddrinfo(ai); /* parse prefixlen */ if (prefixlen_str) { char *e; *prefixlen = strtol(prefixlen_str, &e, 10); if (*e != '\0') { SYS_ERR(DIP, LOGL_ERROR, 0, "Prefixlen is not an int"); return -1; } } if (*prefixlen > (addr->len * 8)) { SYS_ERR(DIP, LOGL_ERROR, 0, "Perfixlen too big"); return -1; } return 0; } /* Increase IPv4/IPv6 address by 1 */ void in46a_inc(struct in46_addr *addr) { size_t addrlen; uint8_t *a = (uint8_t *)&addr->v6; for (addrlen = addr->len; addrlen > 0; addrlen--) { if (++a[addrlen-1]) break; } } static bool addr_in_prefix_list(struct in46_addr *addr, struct in46_prefix *list, size_t list_size) { int i; for (i = 0; i < list_size; i++) { if (in46a_prefix_equal(addr, &list[i].addr)) return true; } return false; } /* Create new address pool */ int ippool_new(struct ippool_t **this, const struct in46_prefix *dyn, const struct in46_prefix *stat, int flags, struct in46_prefix *blacklist, size_t blacklist_size) { /* Parse only first instance of pool for now */ int i; struct in46_addr addr; size_t addrprefixlen; struct in46_addr stataddr; size_t stataddrprefixlen; int listsize; int dynsize; unsigned int statsize; if (!dyn || dyn->addr.len == 0) { dynsize = 0; } else { addr = dyn->addr; addrprefixlen = dyn->prefixlen; /* we want to work with /64 prefixes, i.e. allocate /64 prefixes rather * than /128 (single IPv6 addresses) */ if (addr.len == sizeof(struct in6_addr)) addr.len = 64/8; dynsize = (1 << (addr.len*8 - addrprefixlen)); if (flags & IPPOOL_NONETWORK) /* Exclude network address from pool */ dynsize--; if (flags & IPPOOL_NOBROADCAST) /* Exclude broadcast address from pool */ dynsize--; /* Exclude included blacklist addresses from pool */ for (i = 0; i < blacklist_size; i++) { if (in46a_within_mask(&blacklist[i].addr, &addr, addrprefixlen)) dynsize--; } } if (!stat || stat->addr.len == 0) { statsize = 0; stataddr.len = 0; stataddrprefixlen = 0; } else { stataddr = stat->addr; stataddrprefixlen = stat->prefixlen; statsize = (1 << (addr.len - stataddrprefixlen + 1)) -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))) { SYS_ERR(DIP, LOGL_ERROR, 0, "Failed to allocate memory for ippool"); return -1; } (*this)->allowdyn = dyn ? 1 : 0; (*this)->allowstat = stat ? 1 : 0; if (stataddr.len > 0) (*this)->stataddr = stataddr; (*this)->stataddrprefixlen = stataddrprefixlen; (*this)->listsize += listsize; if (!((*this)->member = calloc(sizeof(struct ippoolm_t), listsize))) { SYS_ERR(DIP, LOGL_ERROR, 0, "Failed to allocate memory for members in ippool"); return -1; } for ((*this)->hashlog = 0; ((1 << (*this)->hashlog) < listsize); (*this)->hashlog++) ; /* printf ("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))) { SYS_ERR(DIP, LOGL_ERROR, 0, "Failed to allocate memory for hash members in ippool"); return -1; } (*this)->firstdyn = NULL; (*this)->lastdyn = NULL; if (flags & IPPOOL_NONETWORK) { in46a_inc(&addr); } for (i = 0; i < dynsize; i++) { if (addr_in_prefix_list(&addr, blacklist, blacklist_size)) { SYS_ERR(DIP, LOGL_DEBUG, 0, "addr blacklisted from pool: %s", in46a_ntoa(&addr)); in46a_inc(&addr); i--; continue; } (*this)->member[i].addr = addr; in46a_inc(&addr); (*this)->member[i].inuse = 0; (*this)->member[i].pool = *this; /* 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 */ (void)ippool_hashadd(*this, &(*this)->member[i]); } (*this)->firststat = NULL; (*this)->laststat = NULL; for (i = dynsize; i < listsize; i++) { struct in46_addr *i6al = &(*this)->member[i].addr; memset(i6al, 0, sizeof(*i6al)); (*this)->member[i].inuse = 0; (*this)->member[i].pool = *this; /* 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) (void)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 in46_addr *addr) { struct ippoolm_t *p; uint32_t hash; /* Find in hash table */ hash = ippool_hash(addr) & this->hashmask; for (p = this->hash[hash]; p; p = p->nexthash) { if (in46a_prefix_equal(&p->addr, addr)) { if (member) *member = p; return 0; } } if (member) *member = NULL; /*SYS_ERR(DIP, LOGL_ERROR, 0, "Address could not be found"); */ 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 in46_addr *addr, int statip) { struct ippoolm_t *p; struct ippoolm_t *p2 = NULL; uint32_t hash; /* 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); int specified = 0; if (addr) { if (addr->len == 4 && addr->v4.s_addr) specified = 1; if (addr->len == 16 && !IN6_IS_ADDR_UNSPECIFIED(&addr->v6)) specified = 1; } /* First check to see if this type of address is allowed */ if (specified && statip) { /* IP address given */ if (!this->allowstat) { SYS_ERR(DIP, LOGL_ERROR, 0, "Static IP address not allowed"); return -GTPCAUSE_NOT_SUPPORTED; } if (!in46a_within_mask(addr, &this->stataddr, this->stataddrprefixlen)) { SYS_ERR(DIP, LOGL_ERROR, 0, "Static out of range"); return -1; } } else { if (!this->allowdyn) { SYS_ERR(DIP, LOGL_ERROR, 0, "Dynamic IP address not allowed"); return -GTPCAUSE_NOT_SUPPORTED; } } /* If IP address given try to find it in dynamic address pool */ if (specified) { /* IP address given */ /* Find in hash table */ hash = ippool_hash(addr) & this->hashmask; for (p = this->hash[hash]; p; p = p->nexthash) { if (in46a_prefix_equal(&p->addr, addr)) { p2 = p; break; } } } /* 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)) { if (!this->firstdyn) { SYS_ERR(DIP, LOGL_ERROR, 0, "No more IP addresses available"); return -GTPCAUSE_ADDR_OCCUPIED; } else p2 = this->firstdyn; } if (p2) { /* Was allocated from dynamic address pool */ if (p2->inuse) { SYS_ERR(DIP, LOGL_ERROR, 0, "IP address allready in use"); return -GTPCAUSE_SYS_FAIL; /* Allready in use / Should not happen */ } if (p2->addr.len != addr->len && !(addr->len == 16 && p2->addr.len == 8)) { SYS_ERR(DIP, LOGL_ERROR, 0, "MS requested unsupported PDP context type"); return -GTPCAUSE_UNKNOWN_PDP; } /* 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 (specified && (statip)) { /* IP address given */ if (!this->firststat) { SYS_ERR(DIP, LOGL_ERROR, 0, "No more IP addresses available"); return -GTPCAUSE_ADDR_OCCUPIED; /* No more available */ } else p2 = this->firststat; if (p2->addr.len != addr->len) { SYS_ERR(DIP, LOGL_ERROR, 0, "MS requested unsupported PDP context type"); return -GTPCAUSE_UNKNOWN_PDP; } /* 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; (void)ippool_hashadd(this, *member); if (0) (void)ippool_printaddr(this); return 0; /* Success */ } SYS_ERR(DIP, LOGL_ERROR, 0, "Could not allocate IP address"); return -GTPCAUSE_SYS_FAIL; /* Should never get here. TODO: Bad code */ } int ippool_freeip(struct ippool_t *this, struct ippoolm_t *member) { if (0) (void)ippool_printaddr(this); if (!member->inuse) { SYS_ERR(DIP, LOGL_ERROR, 0, "Address not in use"); return -1; /* Not in use: Should not happen */ } switch (member->inuse) { case 0: /* Not in use: Should not happen */ SYS_ERR(DIP, LOGL_ERROR, 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; memset(&member->addr, 0, sizeof(member->addr)); member->peer = NULL; member->nexthash = NULL; if (0) (void)ippool_printaddr(this); return 0; default: /* Should not happen */ SYS_ERR(DIP, LOGL_ERROR, 0, "Could not free IP address"); return -1; } }