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- /* getifaddrs -- get names and addresses of all network interfaces
- Copyright (C) 2003, 2004, 2005 Free Software Foundation, Inc.
- This file is part of the GNU C Library.
- The GNU C Library is free software; you can redistribute it and/or
- modify it under the terms of the GNU Lesser General Public
- License as published by the Free Software Foundation; either
- version 2.1 of the License, or (at your option) any later version.
- The GNU C Library is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
- Lesser General Public License for more details.
- You should have received a copy of the GNU Lesser General Public
- License along with the GNU C Library; if not, write to the Free
- Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
- 02111-1307 USA. */
- #define __FORCE_GLIBC
- #include <features.h>
- #include <alloca.h>
- #include <assert.h>
- #include <errno.h>
- #include <ifaddrs.h>
- #include <net/if.h>
- #include <netinet/in.h>
- #include <netpacket/packet.h>
- #include <stdbool.h>
- #include <stdint.h>
- #include <stdlib.h>
- #include <stdio.h>
- #include <string.h>
- #include <sys/ioctl.h>
- #include <sys/socket.h>
- #include <libc-internal.h>
- #include <time.h>
- #include <unistd.h>
- #include "netlinkaccess.h"
- libc_hidden_proto(socket)
- libc_hidden_proto(close)
- /* Experimentally off - libc_hidden_proto(time) */
- libc_hidden_proto(sendto)
- libc_hidden_proto(recvmsg)
- libc_hidden_proto(bind)
- /* Experimentally off - libc_hidden_proto(memset) */
- /* Experimentally off - libc_hidden_proto(mempcpy) */
- libc_hidden_proto(getsockname)
- libc_hidden_proto(fclose)
- libc_hidden_proto(abort)
- #ifndef __libc_use_alloca
- # define __libc_use_alloca(x) (x < __MAX_ALLOCA_CUTOFF)
- #endif
- #if __ASSUME_NETLINK_SUPPORT
- #ifdef __UCLIBC_SUPPORT_AI_ADDRCONFIG__
- /* struct to hold the data for one ifaddrs entry, so we can allocate
- everything at once. */
- struct ifaddrs_storage
- {
- struct ifaddrs ifa;
- union
- {
- /* Save space for the biggest of the four used sockaddr types and
- avoid a lot of casts. */
- struct sockaddr sa;
- struct sockaddr_ll sl;
- struct sockaddr_in s4;
- struct sockaddr_in6 s6;
- } addr, netmask, broadaddr;
- char name[IF_NAMESIZE + 1];
- };
- #endif /* __UCLIBC_SUPPORT_AI_ADDRCONFIG__ */
- void
- __netlink_free_handle (struct netlink_handle *h)
- {
- struct netlink_res *ptr;
- int saved_errno = errno;
- ptr = h->nlm_list;
- while (ptr != NULL)
- {
- struct netlink_res *tmpptr;
- tmpptr = ptr->next;
- free (ptr);
- ptr = tmpptr;
- }
- __set_errno (saved_errno);
- }
- static int
- __netlink_sendreq (struct netlink_handle *h, int type)
- {
- struct
- {
- struct nlmsghdr nlh;
- struct rtgenmsg g;
- } req;
- struct sockaddr_nl nladdr;
- if (h->seq == 0)
- h->seq = time (NULL);
- req.nlh.nlmsg_len = sizeof (req);
- req.nlh.nlmsg_type = type;
- req.nlh.nlmsg_flags = NLM_F_ROOT | NLM_F_MATCH | NLM_F_REQUEST;
- req.nlh.nlmsg_pid = 0;
- req.nlh.nlmsg_seq = h->seq;
- req.g.rtgen_family = AF_UNSPEC;
- memset (&nladdr, '\0', sizeof (nladdr));
- nladdr.nl_family = AF_NETLINK;
- return TEMP_FAILURE_RETRY (sendto (h->fd, (void *) &req, sizeof (req), 0,
- (struct sockaddr *) &nladdr,
- sizeof (nladdr)));
- }
- int
- __netlink_request (struct netlink_handle *h, int type)
- {
- struct netlink_res *nlm_next;
- struct netlink_res **new_nlm_list;
- static volatile size_t buf_size = 4096;
- char *buf;
- struct sockaddr_nl nladdr;
- struct nlmsghdr *nlmh;
- ssize_t read_len;
- bool done = false;
- bool use_malloc = false;
- if (__netlink_sendreq (h, type) < 0)
- return -1;
- size_t this_buf_size = buf_size;
- if (__libc_use_alloca (this_buf_size))
- buf = alloca (this_buf_size);
- else
- {
- buf = malloc (this_buf_size);
- if (buf != NULL)
- use_malloc = true;
- else
- goto out_fail;
- }
- struct iovec iov = { buf, this_buf_size };
- if (h->nlm_list != NULL)
- new_nlm_list = &h->end_ptr->next;
- else
- new_nlm_list = &h->nlm_list;
- while (! done)
- {
- struct msghdr msg =
- {
- (void *) &nladdr, sizeof (nladdr),
- &iov, 1,
- NULL, 0,
- 0
- };
- read_len = TEMP_FAILURE_RETRY (recvmsg (h->fd, &msg, 0));
- if (read_len < 0)
- goto out_fail;
- if (nladdr.nl_pid != 0)
- continue;
- if (__builtin_expect (msg.msg_flags & MSG_TRUNC, 0))
- {
- if (this_buf_size >= SIZE_MAX / 2)
- goto out_fail;
- nlm_next = *new_nlm_list;
- while (nlm_next != NULL)
- {
- struct netlink_res *tmpptr;
- tmpptr = nlm_next->next;
- free (nlm_next);
- nlm_next = tmpptr;
- }
- *new_nlm_list = NULL;
- if (__libc_use_alloca (2 * this_buf_size))
- buf = extend_alloca (buf, this_buf_size, 2 * this_buf_size);
- else
- {
- this_buf_size *= 2;
- char *new_buf = realloc (use_malloc ? buf : NULL, this_buf_size);
- if (new_buf == NULL)
- goto out_fail;
- new_buf = buf;
- use_malloc = true;
- }
- buf_size = this_buf_size;
- iov.iov_base = buf;
- iov.iov_len = this_buf_size;
- /* Increase sequence number, so that we can distinguish
- between old and new request messages. */
- h->seq++;
- if (__netlink_sendreq (h, type) < 0)
- goto out_fail;
- continue;
- }
- size_t count = 0;
- size_t remaining_len = read_len;
- for (nlmh = (struct nlmsghdr *) buf;
- NLMSG_OK (nlmh, remaining_len);
- nlmh = (struct nlmsghdr *) NLMSG_NEXT (nlmh, remaining_len))
- {
- if ((pid_t) nlmh->nlmsg_pid != h->pid
- || nlmh->nlmsg_seq != h->seq)
- continue;
- ++count;
- if (nlmh->nlmsg_type == NLMSG_DONE)
- {
- /* We found the end, leave the loop. */
- done = true;
- break;
- }
- if (nlmh->nlmsg_type == NLMSG_ERROR)
- {
- struct nlmsgerr *nlerr = (struct nlmsgerr *) NLMSG_DATA (nlmh);
- if (nlmh->nlmsg_len < NLMSG_LENGTH (sizeof (struct nlmsgerr)))
- errno = EIO;
- else
- errno = -nlerr->error;
- goto out_fail;
- }
- }
- /* If there was nothing with the expected nlmsg_pid and nlmsg_seq,
- there is no point to record it. */
- if (count == 0)
- continue;
- nlm_next = (struct netlink_res *) malloc (sizeof (struct netlink_res)
- + read_len);
- if (nlm_next == NULL)
- goto out_fail;
- nlm_next->next = NULL;
- nlm_next->nlh = memcpy (nlm_next + 1, buf, read_len);
- nlm_next->size = read_len;
- nlm_next->seq = h->seq;
- if (h->nlm_list == NULL)
- h->nlm_list = nlm_next;
- else
- h->end_ptr->next = nlm_next;
- h->end_ptr = nlm_next;
- }
- if (use_malloc)
- free (buf);
- return 0;
- out_fail:
- if (use_malloc)
- free (buf);
- return -1;
- }
- void
- __netlink_close (struct netlink_handle *h)
- {
- /* Don't modify errno. */
- int serrno = errno;
- close(h->fd);
- __set_errno(serrno);
- }
- /* Open a NETLINK socket. */
- int
- __netlink_open (struct netlink_handle *h)
- {
- struct sockaddr_nl nladdr;
- h->fd = socket (PF_NETLINK, SOCK_RAW, NETLINK_ROUTE);
- if (h->fd < 0)
- goto out;
- memset (&nladdr, '\0', sizeof (nladdr));
- nladdr.nl_family = AF_NETLINK;
- if (bind (h->fd, (struct sockaddr *) &nladdr, sizeof (nladdr)) < 0)
- {
- close_and_out:
- __netlink_close (h);
- out:
- return -1;
- }
- /* Determine the ID the kernel assigned for this netlink connection.
- It is not necessarily the PID if there is more than one socket
- open. */
- socklen_t addr_len = sizeof (nladdr);
- if (getsockname (h->fd, (struct sockaddr *) &nladdr, &addr_len) < 0)
- goto close_and_out;
- h->pid = nladdr.nl_pid;
- return 0;
- }
- #ifdef __UCLIBC_SUPPORT_AI_ADDRCONFIG__
- /* We know the number of RTM_NEWLINK entries, so we reserve the first
- # of entries for this type. All RTM_NEWADDR entries have an index
- pointer to the RTM_NEWLINK entry. To find the entry, create
- a table to map kernel index entries to our index numbers.
- Since we get at first all RTM_NEWLINK entries, it can never happen
- that a RTM_NEWADDR index is not known to this map. */
- static int
- internal_function
- map_newlink (int index, struct ifaddrs_storage *ifas, int *map, int max)
- {
- int i;
- for (i = 0; i < max; i++)
- {
- if (map[i] == -1)
- {
- map[i] = index;
- if (i > 0)
- ifas[i - 1].ifa.ifa_next = &ifas[i].ifa;
- return i;
- }
- else if (map[i] == index)
- return i;
- }
- /* This should never be reached. If this will be reached, we have
- a very big problem. */
- abort ();
- }
- /* Create a linked list of `struct ifaddrs' structures, one for each
- network interface on the host machine. If successful, store the
- list in *IFAP and return 0. On errors, return -1 and set `errno'. */
- int
- getifaddrs (struct ifaddrs **ifap)
- {
- struct netlink_handle nh = { 0, 0, 0, NULL, NULL };
- struct netlink_res *nlp;
- struct ifaddrs_storage *ifas;
- unsigned int i, newlink, newaddr, newaddr_idx;
- int *map_newlink_data;
- size_t ifa_data_size = 0; /* Size to allocate for all ifa_data. */
- char *ifa_data_ptr; /* Pointer to the unused part of memory for
- ifa_data. */
- int result = 0;
- if (ifap)
- *ifap = NULL;
- if (__netlink_open (&nh) < 0)
- {
- return -1;
- }
- /* Tell the kernel that we wish to get a list of all
- active interfaces, collect all data for every interface. */
- if (__netlink_request (&nh, RTM_GETLINK) < 0)
- {
- result = -1;
- goto exit_free;
- }
- /* Now ask the kernel for all addresses which are assigned
- to an interface and collect all data for every interface.
- Since we store the addresses after the interfaces in the
- list, we will later always find the interface before the
- corresponding addresses. */
- ++nh.seq;
- if (__netlink_request (&nh, RTM_GETADDR) < 0)
- {
- result = -1;
- goto exit_free;
- }
- /* Count all RTM_NEWLINK and RTM_NEWADDR entries to allocate
- enough memory. */
- newlink = newaddr = 0;
- for (nlp = nh.nlm_list; nlp; nlp = nlp->next)
- {
- struct nlmsghdr *nlh;
- size_t size = nlp->size;
- if (nlp->nlh == NULL)
- continue;
- /* Walk through all entries we got from the kernel and look, which
- message type they contain. */
- for (nlh = nlp->nlh; NLMSG_OK (nlh, size); nlh = NLMSG_NEXT (nlh, size))
- {
- /* Check if the message is what we want. */
- if ((pid_t) nlh->nlmsg_pid != nh.pid || nlh->nlmsg_seq != nlp->seq)
- continue;
- if (nlh->nlmsg_type == NLMSG_DONE)
- break; /* ok */
- if (nlh->nlmsg_type == RTM_NEWLINK)
- {
- /* A RTM_NEWLINK message can have IFLA_STATS data. We need to
- know the size before creating the list to allocate enough
- memory. */
- struct ifinfomsg *ifim = (struct ifinfomsg *) NLMSG_DATA (nlh);
- struct rtattr *rta = IFLA_RTA (ifim);
- size_t rtasize = IFLA_PAYLOAD (nlh);
- while (RTA_OK (rta, rtasize))
- {
- size_t rta_payload = RTA_PAYLOAD (rta);
- if (rta->rta_type == IFLA_STATS)
- {
- ifa_data_size += rta_payload;
- break;
- }
- else
- rta = RTA_NEXT (rta, rtasize);
- }
- ++newlink;
- }
- else if (nlh->nlmsg_type == RTM_NEWADDR)
- ++newaddr;
- }
- }
- /* Return if no interface is up. */
- if ((newlink + newaddr) == 0)
- goto exit_free;
- /* Allocate memory for all entries we have and initialize next
- pointer. */
- ifas = (struct ifaddrs_storage *) calloc (1,
- (newlink + newaddr)
- * sizeof (struct ifaddrs_storage)
- + ifa_data_size);
- if (ifas == NULL)
- {
- result = -1;
- goto exit_free;
- }
- /* Table for mapping kernel index to entry in our list. */
- map_newlink_data = alloca (newlink * sizeof (int));
- memset (map_newlink_data, '\xff', newlink * sizeof (int));
- ifa_data_ptr = (char *) &ifas[newlink + newaddr];
- newaddr_idx = 0; /* Counter for newaddr index. */
- /* Walk through the list of data we got from the kernel. */
- for (nlp = nh.nlm_list; nlp; nlp = nlp->next)
- {
- struct nlmsghdr *nlh;
- size_t size = nlp->size;
- if (nlp->nlh == NULL)
- continue;
- /* Walk through one message and look at the type: If it is our
- message, we need RTM_NEWLINK/RTM_NEWADDR and stop if we reach
- the end or we find the end marker (in this case we ignore the
- following data. */
- for (nlh = nlp->nlh; NLMSG_OK (nlh, size); nlh = NLMSG_NEXT (nlh, size))
- {
- int ifa_index = 0;
- /* Check if the message is the one we want */
- if ((pid_t) nlh->nlmsg_pid != nh.pid || nlh->nlmsg_seq != nlp->seq)
- continue;
- if (nlh->nlmsg_type == NLMSG_DONE)
- break; /* ok */
- if (nlh->nlmsg_type == RTM_NEWLINK)
- {
- /* We found a new interface. Now extract everything from the
- interface data we got and need. */
- struct ifinfomsg *ifim = (struct ifinfomsg *) NLMSG_DATA (nlh);
- struct rtattr *rta = IFLA_RTA (ifim);
- size_t rtasize = IFLA_PAYLOAD (nlh);
- /* Interfaces are stored in the first "newlink" entries
- of our list, starting in the order as we got from the
- kernel. */
- ifa_index = map_newlink (ifim->ifi_index - 1, ifas,
- map_newlink_data, newlink);
- ifas[ifa_index].ifa.ifa_flags = ifim->ifi_flags;
- while (RTA_OK (rta, rtasize))
- {
- char *rta_data = RTA_DATA (rta);
- size_t rta_payload = RTA_PAYLOAD (rta);
- switch (rta->rta_type)
- {
- case IFLA_ADDRESS:
- if (rta_payload <= sizeof (ifas[ifa_index].addr))
- {
- ifas[ifa_index].addr.sl.sll_family = AF_PACKET;
- memcpy (ifas[ifa_index].addr.sl.sll_addr,
- (char *) rta_data, rta_payload);
- ifas[ifa_index].addr.sl.sll_halen = rta_payload;
- ifas[ifa_index].addr.sl.sll_ifindex
- = ifim->ifi_index;
- ifas[ifa_index].addr.sl.sll_hatype = ifim->ifi_type;
- ifas[ifa_index].ifa.ifa_addr
- = &ifas[ifa_index].addr.sa;
- }
- break;
- case IFLA_BROADCAST:
- if (rta_payload <= sizeof (ifas[ifa_index].broadaddr))
- {
- ifas[ifa_index].broadaddr.sl.sll_family = AF_PACKET;
- memcpy (ifas[ifa_index].broadaddr.sl.sll_addr,
- (char *) rta_data, rta_payload);
- ifas[ifa_index].broadaddr.sl.sll_halen = rta_payload;
- ifas[ifa_index].broadaddr.sl.sll_ifindex
- = ifim->ifi_index;
- ifas[ifa_index].broadaddr.sl.sll_hatype
- = ifim->ifi_type;
- ifas[ifa_index].ifa.ifa_broadaddr
- = &ifas[ifa_index].broadaddr.sa;
- }
- break;
- case IFLA_IFNAME: /* Name of Interface */
- if ((rta_payload + 1) <= sizeof (ifas[ifa_index].name))
- {
- ifas[ifa_index].ifa.ifa_name = ifas[ifa_index].name;
- *(char *) mempcpy (ifas[ifa_index].name, rta_data,
- rta_payload) = '\0';
- }
- break;
- case IFLA_STATS: /* Statistics of Interface */
- ifas[ifa_index].ifa.ifa_data = ifa_data_ptr;
- ifa_data_ptr += rta_payload;
- memcpy (ifas[ifa_index].ifa.ifa_data, rta_data,
- rta_payload);
- break;
- case IFLA_UNSPEC:
- break;
- case IFLA_MTU:
- break;
- case IFLA_LINK:
- break;
- case IFLA_QDISC:
- break;
- default:
- break;
- }
- rta = RTA_NEXT (rta, rtasize);
- }
- }
- else if (nlh->nlmsg_type == RTM_NEWADDR)
- {
- struct ifaddrmsg *ifam = (struct ifaddrmsg *) NLMSG_DATA (nlh);
- struct rtattr *rta = IFA_RTA (ifam);
- size_t rtasize = IFA_PAYLOAD (nlh);
- /* New Addresses are stored in the order we got them from
- the kernel after the interfaces. Theoretically it is possible
- that we have holes in the interface part of the list,
- but we always have already the interface for this address. */
- ifa_index = newlink + newaddr_idx;
- ifas[ifa_index].ifa.ifa_flags
- = ifas[map_newlink (ifam->ifa_index - 1, ifas,
- map_newlink_data, newlink)].ifa.ifa_flags;
- if (ifa_index > 0)
- ifas[ifa_index - 1].ifa.ifa_next = &ifas[ifa_index].ifa;
- ++newaddr_idx;
- while (RTA_OK (rta, rtasize))
- {
- char *rta_data = RTA_DATA (rta);
- size_t rta_payload = RTA_PAYLOAD (rta);
- switch (rta->rta_type)
- {
- case IFA_ADDRESS:
- {
- struct sockaddr *sa;
- if (ifas[ifa_index].ifa.ifa_addr != NULL)
- {
- /* In a point-to-poing network IFA_ADDRESS
- contains the destination address, local
- address is supplied in IFA_LOCAL attribute.
- destination address and broadcast address
- are stored in an union, so it doesn't matter
- which name we use. */
- ifas[ifa_index].ifa.ifa_broadaddr
- = &ifas[ifa_index].broadaddr.sa;
- sa = &ifas[ifa_index].broadaddr.sa;
- }
- else
- {
- ifas[ifa_index].ifa.ifa_addr
- = &ifas[ifa_index].addr.sa;
- sa = &ifas[ifa_index].addr.sa;
- }
- sa->sa_family = ifam->ifa_family;
- switch (ifam->ifa_family)
- {
- case AF_INET:
- /* Size must match that of an address for IPv4. */
- if (rta_payload == 4)
- memcpy (&((struct sockaddr_in *) sa)->sin_addr,
- rta_data, rta_payload);
- break;
- case AF_INET6:
- /* Size must match that of an address for IPv6. */
- if (rta_payload == 16)
- {
- memcpy (&((struct sockaddr_in6 *) sa)->sin6_addr,
- rta_data, rta_payload);
- if (IN6_IS_ADDR_LINKLOCAL (rta_data)
- || IN6_IS_ADDR_MC_LINKLOCAL (rta_data))
- ((struct sockaddr_in6 *) sa)->sin6_scope_id
- = ifam->ifa_index;
- }
- break;
- default:
- if (rta_payload <= sizeof (ifas[ifa_index].addr))
- memcpy (sa->sa_data, rta_data, rta_payload);
- break;
- }
- }
- break;
- case IFA_LOCAL:
- if (ifas[ifa_index].ifa.ifa_addr != NULL)
- {
- /* If ifa_addr is set and we get IFA_LOCAL,
- assume we have a point-to-point network.
- Move address to correct field. */
- ifas[ifa_index].broadaddr = ifas[ifa_index].addr;
- ifas[ifa_index].ifa.ifa_broadaddr
- = &ifas[ifa_index].broadaddr.sa;
- memset (&ifas[ifa_index].addr, '\0',
- sizeof (ifas[ifa_index].addr));
- }
- ifas[ifa_index].ifa.ifa_addr = &ifas[ifa_index].addr.sa;
- ifas[ifa_index].ifa.ifa_addr->sa_family
- = ifam->ifa_family;
- switch (ifam->ifa_family)
- {
- case AF_INET:
- /* Size must match that of an address for IPv4. */
- if (rta_payload == 4)
- memcpy (&ifas[ifa_index].addr.s4.sin_addr,
- rta_data, rta_payload);
- break;
- case AF_INET6:
- /* Size must match that of an address for IPv6. */
- if (rta_payload == 16)
- {
- memcpy (&ifas[ifa_index].addr.s6.sin6_addr,
- rta_data, rta_payload);
- if (IN6_IS_ADDR_LINKLOCAL (rta_data)
- || IN6_IS_ADDR_MC_LINKLOCAL (rta_data))
- ifas[ifa_index].addr.s6.sin6_scope_id =
- ifam->ifa_index;
- }
- break;
- default:
- if (rta_payload <= sizeof (ifas[ifa_index].addr))
- memcpy (ifas[ifa_index].addr.sa.sa_data,
- rta_data, rta_payload);
- break;
- }
- break;
- case IFA_BROADCAST:
- /* We get IFA_BROADCAST, so IFA_LOCAL was too much. */
- if (ifas[ifa_index].ifa.ifa_broadaddr != NULL)
- memset (&ifas[ifa_index].broadaddr, '\0',
- sizeof (ifas[ifa_index].broadaddr));
- ifas[ifa_index].ifa.ifa_broadaddr
- = &ifas[ifa_index].broadaddr.sa;
- ifas[ifa_index].ifa.ifa_broadaddr->sa_family
- = ifam->ifa_family;
- switch (ifam->ifa_family)
- {
- case AF_INET:
- /* Size must match that of an address for IPv4. */
- if (rta_payload == 4)
- memcpy (&ifas[ifa_index].broadaddr.s4.sin_addr,
- rta_data, rta_payload);
- break;
- case AF_INET6:
- /* Size must match that of an address for IPv6. */
- if (rta_payload == 16)
- {
- memcpy (&ifas[ifa_index].broadaddr.s6.sin6_addr,
- rta_data, rta_payload);
- if (IN6_IS_ADDR_LINKLOCAL (rta_data)
- || IN6_IS_ADDR_MC_LINKLOCAL (rta_data))
- ifas[ifa_index].broadaddr.s6.sin6_scope_id
- = ifam->ifa_index;
- }
- break;
- default:
- if (rta_payload <= sizeof (ifas[ifa_index].addr))
- memcpy (&ifas[ifa_index].broadaddr.sa.sa_data,
- rta_data, rta_payload);
- break;
- }
- break;
- case IFA_LABEL:
- if (rta_payload + 1 <= sizeof (ifas[ifa_index].name))
- {
- ifas[ifa_index].ifa.ifa_name = ifas[ifa_index].name;
- *(char *) mempcpy (ifas[ifa_index].name, rta_data,
- rta_payload) = '\0';
- }
- else
- abort ();
- break;
- case IFA_UNSPEC:
- break;
- case IFA_CACHEINFO:
- break;
- default:
- break;
- }
- rta = RTA_NEXT (rta, rtasize);
- }
- /* If we didn't get the interface name with the
- address, use the name from the interface entry. */
- if (ifas[ifa_index].ifa.ifa_name == NULL)
- ifas[ifa_index].ifa.ifa_name
- = ifas[map_newlink (ifam->ifa_index - 1, ifas,
- map_newlink_data, newlink)].ifa.ifa_name;
- /* Calculate the netmask. */
- if (ifas[ifa_index].ifa.ifa_addr
- && ifas[ifa_index].ifa.ifa_addr->sa_family != AF_UNSPEC
- && ifas[ifa_index].ifa.ifa_addr->sa_family != AF_PACKET)
- {
- uint32_t max_prefixlen = 0;
- char *cp = NULL;
- ifas[ifa_index].ifa.ifa_netmask
- = &ifas[ifa_index].netmask.sa;
- switch (ifas[ifa_index].ifa.ifa_addr->sa_family)
- {
- case AF_INET:
- cp = (char *) &ifas[ifa_index].netmask.s4.sin_addr;
- max_prefixlen = 32;
- break;
- case AF_INET6:
- cp = (char *) &ifas[ifa_index].netmask.s6.sin6_addr;
- max_prefixlen = 128;
- break;
- }
- ifas[ifa_index].ifa.ifa_netmask->sa_family
- = ifas[ifa_index].ifa.ifa_addr->sa_family;
- if (cp != NULL)
- {
- char c;
- unsigned int preflen;
- if ((max_prefixlen > 0) &&
- (ifam->ifa_prefixlen > max_prefixlen))
- preflen = max_prefixlen;
- else
- preflen = ifam->ifa_prefixlen;
- for (i = 0; i < (preflen / 8); i++)
- *cp++ = 0xff;
- c = 0xff;
- c <<= (8 - (preflen % 8));
- *cp = c;
- }
- }
- }
- }
- }
- assert (ifa_data_ptr <= (char *) &ifas[newlink + newaddr] + ifa_data_size);
- if (newaddr_idx > 0)
- {
- for (i = 0; i < newlink; ++i)
- if (map_newlink_data[i] == -1)
- {
- /* We have fewer links then we anticipated. Adjust the
- forward pointer to the first address entry. */
- ifas[i - 1].ifa.ifa_next = &ifas[newlink].ifa;
- }
- if (i == 0 && newlink > 0)
- /* No valid link, but we allocated memory. We have to
- populate the first entry. */
- memmove (ifas, &ifas[newlink], sizeof (struct ifaddrs_storage));
- }
- if (ifap != NULL)
- *ifap = &ifas[0].ifa;
- exit_free:
- __netlink_free_handle (&nh);
- __netlink_close (&nh);
- return result;
- }
- void
- freeifaddrs (struct ifaddrs *ifa)
- {
- free (ifa);
- }
- #endif /* __UCLIBC_SUPPORT_AI_ADDRCONFIG__ */
- #endif /* __ASSUME_NETLINK_SUPPORT */
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