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path: root/slirp/slirp.c
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/*
 * libslirp glue
 *
 * Copyright (c) 2004-2008 Fabrice Bellard
 *
 * Permission is hereby granted, free of charge, to any person obtaining a copy
 * of this software and associated documentation files (the "Software"), to deal
 * in the Software without restriction, including without limitation the rights
 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 * copies of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 *
 * The above copyright notice and this permission notice shall be included in
 * all copies or substantial portions of the Software.
 *
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
 * THE SOFTWARE.
 */
#include "qemu/osdep.h"
#include "qemu-common.h"
#include "qemu/timer.h"
#include "qemu/error-report.h"
#include "chardev/char-fe.h"
#include "migration/register.h"
#include "slirp.h"
#include "hw/hw.h"
#include "qemu/cutils.h"

#ifndef _WIN32
#include <net/if.h>
#endif

/* host loopback address */
struct in_addr loopback_addr;
/* host loopback network mask */
unsigned long loopback_mask;

/* emulated hosts use the MAC addr 52:55:IP:IP:IP:IP */
static const uint8_t special_ethaddr[ETH_ALEN] = {
    0x52, 0x55, 0x00, 0x00, 0x00, 0x00
};

u_int curtime;

static QTAILQ_HEAD(slirp_instances, Slirp) slirp_instances =
    QTAILQ_HEAD_INITIALIZER(slirp_instances);

static struct in_addr dns_addr;
#ifndef _WIN32
static struct in6_addr dns6_addr;
#endif
static u_int dns_addr_time;
#ifndef _WIN32
static u_int dns6_addr_time;
#endif

#define TIMEOUT_FAST 2  /* milliseconds */
#define TIMEOUT_SLOW 499  /* milliseconds */
/* for the aging of certain requests like DNS */
#define TIMEOUT_DEFAULT 1000  /* milliseconds */

#ifdef _WIN32

int get_dns_addr(struct in_addr *pdns_addr)
{
    FIXED_INFO *FixedInfo=NULL;
    ULONG    BufLen;
    DWORD    ret;
    IP_ADDR_STRING *pIPAddr;
    struct in_addr tmp_addr;

    if (dns_addr.s_addr != 0 && (curtime - dns_addr_time) < TIMEOUT_DEFAULT) {
        *pdns_addr = dns_addr;
        return 0;
    }

    FixedInfo = (FIXED_INFO *)GlobalAlloc(GPTR, sizeof(FIXED_INFO));
    BufLen = sizeof(FIXED_INFO);

    if (ERROR_BUFFER_OVERFLOW == GetNetworkParams(FixedInfo, &BufLen)) {
        if (FixedInfo) {
            GlobalFree(FixedInfo);
            FixedInfo = NULL;
        }
        FixedInfo = GlobalAlloc(GPTR, BufLen);
    }

    if ((ret = GetNetworkParams(FixedInfo, &BufLen)) != ERROR_SUCCESS) {
        printf("GetNetworkParams failed. ret = %08x\n", (u_int)ret );
        if (FixedInfo) {
            GlobalFree(FixedInfo);
            FixedInfo = NULL;
        }
        return -1;
    }

    pIPAddr = &(FixedInfo->DnsServerList);
    inet_aton(pIPAddr->IpAddress.String, &tmp_addr);
    *pdns_addr = tmp_addr;
    dns_addr = tmp_addr;
    dns_addr_time = curtime;
    if (FixedInfo) {
        GlobalFree(FixedInfo);
        FixedInfo = NULL;
    }
    return 0;
}

int get_dns6_addr(struct in6_addr *pdns6_addr, uint32_t *scope_id)
{
    return -1;
}

static void winsock_cleanup(void)
{
    WSACleanup();
}

#else

static int get_dns_addr_cached(void *pdns_addr, void *cached_addr,
                               socklen_t addrlen,
                               struct stat *cached_stat, u_int *cached_time)
{
    struct stat old_stat;
    if (curtime - *cached_time < TIMEOUT_DEFAULT) {
        memcpy(pdns_addr, cached_addr, addrlen);
        return 0;
    }
    old_stat = *cached_stat;
    if (stat("/etc/resolv.conf", cached_stat) != 0) {
        return -1;
    }
    if (cached_stat->st_dev == old_stat.st_dev
        && cached_stat->st_ino == old_stat.st_ino
        && cached_stat->st_size == old_stat.st_size
        && cached_stat->st_mtime == old_stat.st_mtime) {
        memcpy(pdns_addr, cached_addr, addrlen);
        return 0;
    }
    return 1;
}

static int get_dns_addr_resolv_conf(int af, void *pdns_addr, void *cached_addr,
                                    socklen_t addrlen, uint32_t *scope_id,
                                    u_int *cached_time)
{
    char buff[512];
    char buff2[257];
    FILE *f;
    int found = 0;
    void *tmp_addr = alloca(addrlen);
    unsigned if_index;

    f = fopen("/etc/resolv.conf", "r");
    if (!f)
        return -1;

#ifdef DEBUG
    fprintf(stderr, "IP address of your DNS(s): ");
#endif
    while (fgets(buff, 512, f) != NULL) {
        if (sscanf(buff, "nameserver%*[ \t]%256s", buff2) == 1) {
            char *c = strchr(buff2, '%');
            if (c) {
                if_index = if_nametoindex(c + 1);
                *c = '\0';
            } else {
                if_index = 0;
            }

            if (!inet_pton(af, buff2, tmp_addr)) {
                continue;
            }
            /* If it's the first one, set it to dns_addr */
            if (!found) {
                memcpy(pdns_addr, tmp_addr, addrlen);
                memcpy(cached_addr, tmp_addr, addrlen);
                if (scope_id) {
                    *scope_id = if_index;
                }
                *cached_time = curtime;
            }
#ifdef DEBUG
            else
                fprintf(stderr, ", ");
#endif
            if (++found > 3) {
#ifdef DEBUG
                fprintf(stderr, "(more)");
#endif
                break;
            }
#ifdef DEBUG
            else {
                char s[INET6_ADDRSTRLEN];
                const char *res = inet_ntop(af, tmp_addr, s, sizeof(s));
                if (!res) {
                    res = "(string conversion error)";
                }
                fprintf(stderr, "%s", res);
            }
#endif
        }
    }
    fclose(f);
    if (!found)
        return -1;
    return 0;
}

int get_dns_addr(struct in_addr *pdns_addr)
{
    static struct stat dns_addr_stat;

    if (dns_addr.s_addr != 0) {
        int ret;
        ret = get_dns_addr_cached(pdns_addr, &dns_addr, sizeof(dns_addr),
                                  &dns_addr_stat, &dns_addr_time);
        if (ret <= 0) {
            return ret;
        }
    }
    return get_dns_addr_resolv_conf(AF_INET, pdns_addr, &dns_addr,
                                    sizeof(dns_addr), NULL, &dns_addr_time);
}

int get_dns6_addr(struct in6_addr *pdns6_addr, uint32_t *scope_id)
{
    static struct stat dns6_addr_stat;

    if (!in6_zero(&dns6_addr)) {
        int ret;
        ret = get_dns_addr_cached(pdns6_addr, &dns6_addr, sizeof(dns6_addr),
                                  &dns6_addr_stat, &dns6_addr_time);
        if (ret <= 0) {
            return ret;
        }
    }
    return get_dns_addr_resolv_conf(AF_INET6, pdns6_addr, &dns6_addr,
                                    sizeof(dns6_addr),
                                    scope_id, &dns6_addr_time);
}

#endif

static void slirp_init_once(void)
{
    static int initialized;
#ifdef _WIN32
    WSADATA Data;
#endif

    if (initialized) {
        return;
    }
    initialized = 1;

#ifdef _WIN32
    WSAStartup(MAKEWORD(2,0), &Data);
    atexit(winsock_cleanup);
#endif

    loopback_addr.s_addr = htonl(INADDR_LOOPBACK);
    loopback_mask = htonl(IN_CLASSA_NET);
}

static void slirp_state_save(QEMUFile *f, void *opaque);
static int slirp_state_load(QEMUFile *f, void *opaque, int version_id);

static SaveVMHandlers savevm_slirp_state = {
    .save_state = slirp_state_save,
    .load_state = slirp_state_load,
};

Slirp *slirp_init(int restricted, bool in_enabled, struct in_addr vnetwork,
                  struct in_addr vnetmask, struct in_addr vhost,
                  bool in6_enabled,
                  struct in6_addr vprefix_addr6, uint8_t vprefix_len,
                  struct in6_addr vhost6, const char *vhostname,
                  const char *tftp_path, const char *bootfile,
                  struct in_addr vdhcp_start, struct in_addr vnameserver,
                  struct in6_addr vnameserver6, const char **vdnssearch,
                  void *opaque)
{
    Slirp *slirp = g_malloc0(sizeof(Slirp));

    slirp_init_once();

    slirp->grand = g_rand_new();
    slirp->restricted = restricted;

    slirp->in_enabled = in_enabled;
    slirp->in6_enabled = in6_enabled;

    if_init(slirp);
    ip_init(slirp);
    ip6_init(slirp);

    /* Initialise mbufs *after* setting the MTU */
    m_init(slirp);

    slirp->vnetwork_addr = vnetwork;
    slirp->vnetwork_mask = vnetmask;
    slirp->vhost_addr = vhost;
    slirp->vprefix_addr6 = vprefix_addr6;
    slirp->vprefix_len = vprefix_len;
    slirp->vhost_addr6 = vhost6;
    if (vhostname) {
        pstrcpy(slirp->client_hostname, sizeof(slirp->client_hostname),
                vhostname);
    }
    slirp->tftp_prefix = g_strdup(tftp_path);
    slirp->bootp_filename = g_strdup(bootfile);
    slirp->vdhcp_startaddr = vdhcp_start;
    slirp->vnameserver_addr = vnameserver;
    slirp->vnameserver_addr6 = vnameserver6;

    if (vdnssearch) {
        translate_dnssearch(slirp, vdnssearch);
    }

    slirp->opaque = opaque;

    register_savevm_live(NULL, "slirp", 0, 4, &savevm_slirp_state, slirp);

    QTAILQ_INSERT_TAIL(&slirp_instances, slirp, entry);

    return slirp;
}

void slirp_cleanup(Slirp *slirp)
{
    QTAILQ_REMOVE(&slirp_instances, slirp, entry);

    unregister_savevm(NULL, "slirp", slirp);

    ip_cleanup(slirp);
    ip6_cleanup(slirp);
    m_cleanup(slirp);

    g_rand_free(slirp->grand);

    g_free(slirp->vdnssearch);
    g_free(slirp->tftp_prefix);
    g_free(slirp->bootp_filename);
    g_free(slirp);
}

#define CONN_CANFSEND(so) (((so)->so_state & (SS_FCANTSENDMORE|SS_ISFCONNECTED)) == SS_ISFCONNECTED)
#define CONN_CANFRCV(so) (((so)->so_state & (SS_FCANTRCVMORE|SS_ISFCONNECTED)) == SS_ISFCONNECTED)

static void slirp_update_timeout(uint32_t *timeout)
{
    Slirp *slirp;
    uint32_t t;

    if (*timeout <= TIMEOUT_FAST) {
        return;
    }

    t = MIN(1000, *timeout);

    /* If we have tcp timeout with slirp, then we will fill @timeout with
     * more precise value.
     */
    QTAILQ_FOREACH(slirp, &slirp_instances, entry) {
        if (slirp->time_fasttimo) {
            *timeout = TIMEOUT_FAST;
            return;
        }
        if (slirp->do_slowtimo) {
            t = MIN(TIMEOUT_SLOW, t);
        }
    }
    *timeout = t;
}

void slirp_pollfds_fill(GArray *pollfds, uint32_t *timeout)
{
    Slirp *slirp;
    struct socket *so, *so_next;

    if (QTAILQ_EMPTY(&slirp_instances)) {
        return;
    }

    /*
     * First, TCP sockets
     */

    QTAILQ_FOREACH(slirp, &slirp_instances, entry) {
        /*
         * *_slowtimo needs calling if there are IP fragments
         * in the fragment queue, or there are TCP connections active
         */
        slirp->do_slowtimo = ((slirp->tcb.so_next != &slirp->tcb) ||
                (&slirp->ipq.ip_link != slirp->ipq.ip_link.next));

        for (so = slirp->tcb.so_next; so != &slirp->tcb;
                so = so_next) {
            int events = 0;

            so_next = so->so_next;

            so->pollfds_idx = -1;

            /*
             * See if we need a tcp_fasttimo
             */
            if (slirp->time_fasttimo == 0 &&
                so->so_tcpcb->t_flags & TF_DELACK) {
                slirp->time_fasttimo = curtime; /* Flag when want a fasttimo */
            }

            /*
             * NOFDREF can include still connecting to local-host,
             * newly socreated() sockets etc. Don't want to select these.
             */
            if (so->so_state & SS_NOFDREF || so->s == -1) {
                continue;
            }

            /*
             * Set for reading sockets which are accepting
             */
            if (so->so_state & SS_FACCEPTCONN) {
                GPollFD pfd = {
                    .fd = so->s,
                    .events = G_IO_IN | G_IO_HUP | G_IO_ERR,
                };
                so->pollfds_idx = pollfds->len;
                g_array_append_val(pollfds, pfd);
                continue;
            }

            /*
             * Set for writing sockets which are connecting
             */
            if (so->so_state & SS_ISFCONNECTING) {
                GPollFD pfd = {
                    .fd = so->s,
                    .events = G_IO_OUT | G_IO_ERR,
                };
                so->pollfds_idx = pollfds->len;
                g_array_append_val(pollfds, pfd);
                continue;
            }

            /*
             * Set for writing if we are connected, can send more, and
             * we have something to send
             */
            if (CONN_CANFSEND(so) && so->so_rcv.sb_cc) {
                events |= G_IO_OUT | G_IO_ERR;
            }

            /*
             * Set for reading (and urgent data) if we are connected, can
             * receive more, and we have room for it XXX /2 ?
             */
            if (CONN_CANFRCV(so) &&
                (so->so_snd.sb_cc < (so->so_snd.sb_datalen/2))) {
                events |= G_IO_IN | G_IO_HUP | G_IO_ERR | G_IO_PRI;
            }

            if (events) {
                GPollFD pfd = {
                    .fd = so->s,
                    .events = events,
                };
                so->pollfds_idx = pollfds->len;
                g_array_append_val(pollfds, pfd);
            }
        }

        /*
         * UDP sockets
         */
        for (so = slirp->udb.so_next; so != &slirp->udb;
                so = so_next) {
            so_next = so->so_next;

            so->pollfds_idx = -1;

            /*
             * See if it's timed out
             */
            if (so->so_expire) {
                if (so->so_expire <= curtime) {
                    udp_detach(so);
                    continue;
                } else {
                    slirp->do_slowtimo = true; /* Let socket expire */
                }
            }

            /*
             * When UDP packets are received from over the
             * link, they're sendto()'d straight away, so
             * no need for setting for writing
             * Limit the number of packets queued by this session
             * to 4.  Note that even though we try and limit this
             * to 4 packets, the session could have more queued
             * if the packets needed to be fragmented
             * (XXX <= 4 ?)
             */
            if ((so->so_state & SS_ISFCONNECTED) && so->so_queued <= 4) {
                GPollFD pfd = {
                    .fd = so->s,
                    .events = G_IO_IN | G_IO_HUP | G_IO_ERR,
                };
                so->pollfds_idx = pollfds->len;
                g_array_append_val(pollfds, pfd);
            }
        }

        /*
         * ICMP sockets
         */
        for (so = slirp->icmp.so_next; so != &slirp->icmp;
                so = so_next) {
            so_next = so->so_next;

            so->pollfds_idx = -1;

            /*
             * See if it's timed out
             */
            if (so->so_expire) {
                if (so->so_expire <= curtime) {
                    icmp_detach(so);
                    continue;
                } else {
                    slirp->do_slowtimo = true; /* Let socket expire */
                }
            }

            if (so->so_state & SS_ISFCONNECTED) {
                GPollFD pfd = {
                    .fd = so->s,
                    .events = G_IO_IN | G_IO_HUP | G_IO_ERR,
                };
                so->pollfds_idx = pollfds->len;
                g_array_append_val(pollfds, pfd);
            }
        }
    }
    slirp_update_timeout(timeout);
}

void slirp_pollfds_poll(GArray *pollfds, int select_error)
{
    Slirp *slirp;
    struct socket *so, *so_next;
    int ret;

    if (QTAILQ_EMPTY(&slirp_instances)) {
        return;
    }

    curtime = qemu_clock_get_ms(QEMU_CLOCK_REALTIME);

    QTAILQ_FOREACH(slirp, &slirp_instances, entry) {
        /*
         * See if anything has timed out
         */
        if (slirp->time_fasttimo &&
            ((curtime - slirp->time_fasttimo) >= TIMEOUT_FAST)) {
            tcp_fasttimo(slirp);
            slirp->time_fasttimo = 0;
        }
        if (slirp->do_slowtimo &&
            ((curtime - slirp->last_slowtimo) >= TIMEOUT_SLOW)) {
            ip_slowtimo(slirp);
            tcp_slowtimo(slirp);
            slirp->last_slowtimo = curtime;
        }

        /*
         * Check sockets
         */
        if (!select_error) {
            /*
             * Check TCP sockets
             */
            for (so = slirp->tcb.so_next; so != &slirp->tcb;
                    so = so_next) {
                int revents;

                so_next = so->so_next;

                revents = 0;
                if (so->pollfds_idx != -1) {
                    revents = g_array_index(pollfds, GPollFD,
                                            so->pollfds_idx).revents;
                }

                if (so->so_state & SS_NOFDREF || so->s == -1) {
                    continue;
                }

                /*
                 * Check for URG data
                 * This will soread as well, so no need to
                 * test for G_IO_IN below if this succeeds
                 */
                if (revents & G_IO_PRI) {
                    ret = sorecvoob(so);
                    if (ret < 0) {
                        /* Socket error might have resulted in the socket being
                         * removed, do not try to do anything more with it. */
                        continue;
                    }
                }
                /*
                 * Check sockets for reading
                 */
                else if (revents & (G_IO_IN | G_IO_HUP | G_IO_ERR)) {
                    /*
                     * Check for incoming connections
                     */
                    if (so->so_state & SS_FACCEPTCONN) {
                        tcp_connect(so);
                        continue;
                    } /* else */
                    ret = soread(so);

                    /* Output it if we read something */
                    if (ret > 0) {
                        tcp_output(sototcpcb(so));
                    }
                    if (ret < 0) {
                        /* Socket error might have resulted in the socket being
                         * removed, do not try to do anything more with it. */
                        continue;
                    }
                }

                /*
                 * Check sockets for writing
                 */
                if (!(so->so_state & SS_NOFDREF) &&
                        (revents & (G_IO_OUT | G_IO_ERR))) {
                    /*
                     * Check for non-blocking, still-connecting sockets
                     */
                    if (so->so_state & SS_ISFCONNECTING) {
                        /* Connected */
                        so->so_state &= ~SS_ISFCONNECTING;

                        ret = send(so->s, (const void *) &ret, 0, 0);
                        if (ret < 0) {
                            /* XXXXX Must fix, zero bytes is a NOP */
                            if (errno == EAGAIN || errno == EWOULDBLOCK ||
                                errno == EINPROGRESS || errno == ENOTCONN) {
                                continue;
                            }

                            /* else failed */
                            so->so_state &= SS_PERSISTENT_MASK;
                            so->so_state |= SS_NOFDREF;
                        }
                        /* else so->so_state &= ~SS_ISFCONNECTING; */

                        /*
                         * Continue tcp_input
                         */
                        tcp_input((struct mbuf *)NULL, sizeof(struct ip), so,
                                  so->so_ffamily);
                        /* continue; */
                    } else {
                        ret = sowrite(so);
                    }
                    /*
                     * XXXXX If we wrote something (a lot), there
                     * could be a need for a window update.
                     * In the worst case, the remote will send
                     * a window probe to get things going again
                     */
                }

                /*
                 * Probe a still-connecting, non-blocking socket
                 * to check if it's still alive
                 */
#ifdef PROBE_CONN
                if (so->so_state & SS_ISFCONNECTING) {
                    ret = qemu_recv(so->s, &ret, 0, 0);

                    if (ret < 0) {
                        /* XXX */
                        if (errno == EAGAIN || errno == EWOULDBLOCK ||
                            errno == EINPROGRESS || errno == ENOTCONN) {
                            continue; /* Still connecting, continue */
                        }

                        /* else failed */
                        so->so_state &= SS_PERSISTENT_MASK;
                        so->so_state |= SS_NOFDREF;

                        /* tcp_input will take care of it */
                    } else {
                        ret = send(so->s, &ret, 0, 0);
                        if (ret < 0) {
                            /* XXX */
                            if (errno == EAGAIN || errno == EWOULDBLOCK ||
                                errno == EINPROGRESS || errno == ENOTCONN) {
                                continue;
                            }
                            /* else failed */
                            so->so_state &= SS_PERSISTENT_MASK;
                            so->so_state |= SS_NOFDREF;
                        } else {
                            so->so_state &= ~SS_ISFCONNECTING;
                        }

                    }
                    tcp_input((struct mbuf *)NULL, sizeof(struct ip), so,
                              so->so_ffamily);
                } /* SS_ISFCONNECTING */
#endif
            }

            /*
             * Now UDP sockets.
             * Incoming packets are sent straight away, they're not buffered.
             * Incoming UDP data isn't buffered either.
             */
            for (so = slirp->udb.so_next; so != &slirp->udb;
                    so = so_next) {
                int revents;

                so_next = so->so_next;

                revents = 0;
                if (so->pollfds_idx != -1) {
                    revents = g_array_index(pollfds, GPollFD,
                            so->pollfds_idx).revents;
                }

                if (so->s != -1 &&
                    (revents & (G_IO_IN | G_IO_HUP | G_IO_ERR))) {
                    sorecvfrom(so);
                }
            }

            /*
             * Check incoming ICMP relies.
             */
            for (so = slirp->icmp.so_next; so != &slirp->icmp;
                    so = so_next) {
                    int revents;

                    so_next = so->so_next;

                    revents = 0;
                    if (so->pollfds_idx != -1) {
                        revents = g_array_index(pollfds, GPollFD,
                                                so->pollfds_idx).revents;
                    }

                    if (so->s != -1 &&
                        (revents & (G_IO_IN | G_IO_HUP | G_IO_ERR))) {
                    icmp_receive(so);
                }
            }
        }

        if_start(slirp);
    }
}

static void arp_input(Slirp *slirp, const uint8_t *pkt, int pkt_len)
{
    struct slirp_arphdr *ah = (struct slirp_arphdr *)(pkt + ETH_HLEN);
    uint8_t arp_reply[MAX(ETH_HLEN + sizeof(struct slirp_arphdr), 64)];
    struct ethhdr *reh = (struct ethhdr *)arp_reply;
    struct slirp_arphdr *rah = (struct slirp_arphdr *)(arp_reply + ETH_HLEN);
    int ar_op;
    struct ex_list *ex_ptr;

    if (!slirp->in_enabled) {
        return;
    }

    ar_op = ntohs(ah->ar_op);
    switch(ar_op) {
    case ARPOP_REQUEST:
        if (ah->ar_tip == ah->ar_sip) {
            /* Gratuitous ARP */
            arp_table_add(slirp, ah->ar_sip, ah->ar_sha);
            return;
        }

        if ((ah->ar_tip & slirp->vnetwork_mask.s_addr) ==
            slirp->vnetwork_addr.s_addr) {
            if (ah->ar_tip == slirp->vnameserver_addr.s_addr ||
                ah->ar_tip == slirp->vhost_addr.s_addr)
                goto arp_ok;
            for (ex_ptr = slirp->exec_list; ex_ptr; ex_ptr = ex_ptr->ex_next) {
                if (ex_ptr->ex_addr.s_addr == ah->ar_tip)
                    goto arp_ok;
            }
            return;
        arp_ok:
            memset(arp_reply, 0, sizeof(arp_reply));

            arp_table_add(slirp, ah->ar_sip, ah->ar_sha);

            /* ARP request for alias/dns mac address */
            memcpy(reh->h_dest, pkt + ETH_ALEN, ETH_ALEN);
            memcpy(reh->h_source, special_ethaddr, ETH_ALEN - 4);
            memcpy(&reh->h_source[2], &ah->ar_tip, 4);
            reh->h_proto = htons(ETH_P_ARP);

            rah->ar_hrd = htons(1);
            rah->ar_pro = htons(ETH_P_IP);
            rah->ar_hln = ETH_ALEN;
            rah->ar_pln = 4;
            rah->ar_op = htons(ARPOP_REPLY);
            memcpy(rah->ar_sha, reh->h_source, ETH_ALEN);
            rah->ar_sip = ah->ar_tip;
            memcpy(rah->ar_tha, ah->ar_sha, ETH_ALEN);
            rah->ar_tip = ah->ar_sip;
            slirp_output(slirp->opaque, arp_reply, sizeof(arp_reply));
        }
        break;
    case ARPOP_REPLY:
        arp_table_add(slirp, ah->ar_sip, ah->ar_sha);
        break;
    default:
        break;
    }
}

void slirp_input(Slirp *slirp, const uint8_t *pkt, int pkt_len)
{
    struct mbuf *m;
    int proto;

    if (pkt_len < ETH_HLEN)
        return;

    proto = ntohs(*(uint16_t *)(pkt + 12));
    switch(proto) {
    case ETH_P_ARP:
        arp_input(slirp, pkt, pkt_len);
        break;
    case ETH_P_IP:
    case ETH_P_IPV6:
        m = m_get(slirp);
        if (!m)
            return;
        /* Note: we add 2 to align the IP header on 4 bytes,
         * and add the margin for the tcpiphdr overhead  */
        if (M_FREEROOM(m) < pkt_len + TCPIPHDR_DELTA + 2) {
            m_inc(m, pkt_len + TCPIPHDR_DELTA + 2);
        }
        m->m_len = pkt_len + TCPIPHDR_DELTA + 2;
        memcpy(m->m_data + TCPIPHDR_DELTA + 2, pkt, pkt_len);

        m->m_data += TCPIPHDR_DELTA + 2 + ETH_HLEN;
        m->m_len -= TCPIPHDR_DELTA + 2 + ETH_HLEN;

        if (proto == ETH_P_IP) {
            ip_input(m);
        } else if (proto == ETH_P_IPV6) {
            ip6_input(m);
        }
        break;

    case ETH_P_NCSI:
        ncsi_input(slirp, pkt, pkt_len);
        break;

    default:
        break;
    }
}

/* Prepare the IPv4 packet to be sent to the ethernet device. Returns 1 if no
 * packet should be sent, 0 if the packet must be re-queued, 2 if the packet
 * is ready to go.
 */
static int if_encap4(Slirp *slirp, struct mbuf *ifm, struct ethhdr *eh,
        uint8_t ethaddr[ETH_ALEN])
{
    const struct ip *iph = (const struct ip *)ifm->m_data;

    if (iph->ip_dst.s_addr == 0) {
        /* 0.0.0.0 can not be a destination address, something went wrong,
         * avoid making it worse */
        return 1;
    }
    if (!arp_table_search(slirp, iph->ip_dst.s_addr, ethaddr)) {
        uint8_t arp_req[ETH_HLEN + sizeof(struct slirp_arphdr)];
        struct ethhdr *reh = (struct ethhdr *)arp_req;
        struct slirp_arphdr *rah = (struct slirp_arphdr *)(arp_req + ETH_HLEN);

        if (!ifm->resolution_requested) {
            /* If the client addr is not known, send an ARP request */
            memset(reh->h_dest, 0xff, ETH_ALEN);
            memcpy(reh->h_source, special_ethaddr, ETH_ALEN - 4);
            memcpy(&reh->h_source[2], &slirp->vhost_addr, 4);
            reh->h_proto = htons(ETH_P_ARP);
            rah->ar_hrd = htons(1);
            rah->ar_pro = htons(ETH_P_IP);
            rah->ar_hln = ETH_ALEN;
            rah->ar_pln = 4;
            rah->ar_op = htons(ARPOP_REQUEST);

            /* source hw addr */
            memcpy(rah->ar_sha, special_ethaddr, ETH_ALEN - 4);
            memcpy(&rah->ar_sha[2], &slirp->vhost_addr, 4);

            /* source IP */
            rah->ar_sip = slirp->vhost_addr.s_addr;

            /* target hw addr (none) */
            memset(rah->ar_tha, 0, ETH_ALEN);

            /* target IP */
            rah->ar_tip = iph->ip_dst.s_addr;
            slirp->client_ipaddr = iph->ip_dst;
            slirp_output(slirp->opaque, arp_req, sizeof(arp_req));
            ifm->resolution_requested = true;

            /* Expire request and drop outgoing packet after 1 second */
            ifm->expiration_date = qemu_clock_get_ns(QEMU_CLOCK_REALTIME) + 1000000000ULL;
        }
        return 0;
    } else {
        memcpy(eh->h_source, special_ethaddr, ETH_ALEN - 4);
        /* XXX: not correct */
        memcpy(&eh->h_source[2], &slirp->vhost_addr, 4);
        eh->h_proto = htons(ETH_P_IP);

        /* Send this */
        return 2;
    }
}

/* Prepare the IPv6 packet to be sent to the ethernet device. Returns 1 if no
 * packet should be sent, 0 if the packet must be re-queued, 2 if the packet
 * is ready to go.
 */
static int if_encap6(Slirp *slirp, struct mbuf *ifm, struct ethhdr *eh,
        uint8_t ethaddr[ETH_ALEN])
{
    const struct ip6 *ip6h = mtod(ifm, const struct ip6 *);
    if (!ndp_table_search(slirp, ip6h->ip_dst, ethaddr)) {
        if (!ifm->resolution_requested) {
            ndp_send_ns(slirp, ip6h->ip_dst);
            ifm->resolution_requested = true;
            ifm->expiration_date =
                qemu_clock_get_ns(QEMU_CLOCK_REALTIME) + 1000000000ULL;
        }
        return 0;
    } else {
        eh->h_proto = htons(ETH_P_IPV6);
        in6_compute_ethaddr(ip6h->ip_src, eh->h_source);

        /* Send this */
        return 2;
    }
}

/* Output the IP packet to the ethernet device. Returns 0 if the packet must be
 * re-queued.
 */
int if_encap(Slirp *slirp, struct mbuf *ifm)
{
    uint8_t buf[1600];
    struct ethhdr *eh = (struct ethhdr *)buf;
    uint8_t ethaddr[ETH_ALEN];
    const struct ip *iph = (const struct ip *)ifm->m_data;
    int ret;

    if (ifm->m_len + ETH_HLEN > sizeof(buf)) {
        return 1;
    }

    switch (iph->ip_v) {
    case IPVERSION:
        ret = if_encap4(slirp, ifm, eh, ethaddr);
        if (ret < 2) {
            return ret;
        }
        break;

    case IP6VERSION:
        ret = if_encap6(slirp, ifm, eh, ethaddr);
        if (ret < 2) {
            return ret;
        }
        break;

    default:
        g_assert_not_reached();
        break;
    }

    memcpy(eh->h_dest, ethaddr, ETH_ALEN);
    DEBUG_ARGS((dfd, " src = %02x:%02x:%02x:%02x:%02x:%02x\n",
                eh->h_source[0], eh->h_source[1], eh->h_source[2],
                eh->h_source[3], eh->h_source[4], eh->h_source[5]));
    DEBUG_ARGS((dfd, " dst = %02x:%02x:%02x:%02x:%02x:%02x\n",
                eh->h_dest[0], eh->h_dest[1], eh->h_dest[2],
                eh->h_dest[3], eh->h_dest[4], eh->h_dest[5]));
    memcpy(buf + sizeof(struct ethhdr), ifm->m_data, ifm->m_len);
    slirp_output(slirp->opaque, buf, ifm->m_len + ETH_HLEN);
    return 1;
}

/* Drop host forwarding rule, return 0 if found. */
int slirp_remove_hostfwd(Slirp *slirp, int is_udp, struct in_addr host_addr,
                         int host_port)
{
    struct socket *so;
    struct socket *head = (is_udp ? &slirp->udb : &slirp->tcb);
    struct sockaddr_in addr;
    int port = htons(host_port);
    socklen_t addr_len;

    for (so = head->so_next; so != head; so = so->so_next) {
        addr_len = sizeof(addr);
        if ((so->so_state & SS_HOSTFWD) &&
            getsockname(so->s, (struct sockaddr *)&addr, &addr_len) == 0 &&
            addr.sin_addr.s_addr == host_addr.s_addr &&
            addr.sin_port == port) {
            close(so->s);
            sofree(so);
            return 0;
        }
    }

    return -1;
}

int slirp_add_hostfwd(Slirp *slirp, int is_udp, struct in_addr host_addr,
                      int host_port, struct in_addr guest_addr, int guest_port)
{
    if (!guest_addr.s_addr) {
        guest_addr = slirp->vdhcp_startaddr;
    }
    if (is_udp) {
        if (!udp_listen(slirp, host_addr.s_addr, htons(host_port),
                        guest_addr.s_addr, htons(guest_port), SS_HOSTFWD))
            return -1;
    } else {
        if (!tcp_listen(slirp, host_addr.s_addr, htons(host_port),
                        guest_addr.s_addr, htons(guest_port), SS_HOSTFWD))
            return -1;
    }
    return 0;
}

int slirp_add_exec(Slirp *slirp, int do_pty, const void *args,
                   struct in_addr *guest_addr, int guest_port)
{
    if (!guest_addr->s_addr) {
        guest_addr->s_addr = slirp->vnetwork_addr.s_addr |
            (htonl(0x0204) & ~slirp->vnetwork_mask.s_addr);
    }
    if ((guest_addr->s_addr & slirp->vnetwork_mask.s_addr) !=
        slirp->vnetwork_addr.s_addr ||
        guest_addr->s_addr == slirp->vhost_addr.s_addr ||
        guest_addr->s_addr == slirp->vnameserver_addr.s_addr) {
        return -1;
    }
    return add_exec(&slirp->exec_list, do_pty, (char *)args, *guest_addr,
                    htons(guest_port));
}

ssize_t slirp_send(struct socket *so, const void *buf, size_t len, int flags)
{
    if (so->s == -1 && so->extra) {
        /* XXX this blocks entire thread. Rewrite to use
         * qemu_chr_fe_write and background I/O callbacks */
        qemu_chr_fe_write_all(so->extra, buf, len);
        return len;
    }

    return send(so->s, buf, len, flags);
}

static struct socket *
slirp_find_ctl_socket(Slirp *slirp, struct in_addr guest_addr, int guest_port)
{
    struct socket *so;

    for (so = slirp->tcb.so_next; so != &slirp->tcb; so = so->so_next) {
        if (so->so_faddr.s_addr == guest_addr.s_addr &&
            htons(so->so_fport) == guest_port) {
            return so;
        }
    }
    return NULL;
}

size_t slirp_socket_can_recv(Slirp *slirp, struct in_addr guest_addr,
                             int guest_port)
{
    struct iovec iov[2];
    struct socket *so;

    so = slirp_find_ctl_socket(slirp, guest_addr, guest_port);

    if (!so || so->so_state & SS_NOFDREF) {
        return 0;
    }

    if (!CONN_CANFRCV(so) || so->so_snd.sb_cc >= (so->so_snd.sb_datalen/2)) {
        return 0;
    }

    return sopreprbuf(so, iov, NULL);
}

void slirp_socket_recv(Slirp *slirp, struct in_addr guest_addr, int guest_port,
                       const uint8_t *buf, int size)
{
    int ret;
    struct socket *so = slirp_find_ctl_socket(slirp, guest_addr, guest_port);

    if (!so)
        return;

    ret = soreadbuf(so, (const char *)buf, size);

    if (ret > 0)
        tcp_output(sototcpcb(so));
}

static int slirp_tcp_post_load(void *opaque, int version)
{
    tcp_template((struct tcpcb *)opaque);

    return 0;
}

static const VMStateDescription vmstate_slirp_tcp = {
    .name = "slirp-tcp",
    .version_id = 0,
    .post_load = slirp_tcp_post_load,
    .fields = (VMStateField[]) {
        VMSTATE_INT16(t_state, struct tcpcb),
        VMSTATE_INT16_ARRAY(t_timer, struct tcpcb, TCPT_NTIMERS),
        VMSTATE_INT16(t_rxtshift, struct tcpcb),
        VMSTATE_INT16(t_rxtcur, struct tcpcb),
        VMSTATE_INT16(t_dupacks, struct tcpcb),
        VMSTATE_UINT16(t_maxseg, struct tcpcb),
        VMSTATE_UINT8(t_force, struct tcpcb),
        VMSTATE_UINT16(t_flags, struct tcpcb),
        VMSTATE_UINT32(snd_una, struct tcpcb),
        VMSTATE_UINT32(snd_nxt, struct tcpcb),
        VMSTATE_UINT32(snd_up, struct tcpcb),
        VMSTATE_UINT32(snd_wl1, struct tcpcb),
        VMSTATE_UINT32(snd_wl2, struct tcpcb),
        VMSTATE_UINT32(iss, struct tcpcb),
        VMSTATE_UINT32(snd_wnd, struct tcpcb),
        VMSTATE_UINT32(rcv_wnd, struct tcpcb),
        VMSTATE_UINT32(rcv_nxt, struct tcpcb),
        VMSTATE_UINT32(rcv_up, struct tcpcb),
        VMSTATE_UINT32(irs, struct tcpcb),
        VMSTATE_UINT32(rcv_adv, struct tcpcb),
        VMSTATE_UINT32(snd_max, struct tcpcb),
        VMSTATE_UINT32(snd_cwnd, struct tcpcb),
        VMSTATE_UINT32(snd_ssthresh, struct tcpcb),
        VMSTATE_INT16(t_idle, struct tcpcb),
        VMSTATE_INT16(t_rtt, struct tcpcb),
        VMSTATE_UINT32(t_rtseq, struct tcpcb),
        VMSTATE_INT16(t_srtt, struct tcpcb),
        VMSTATE_INT16(t_rttvar, struct tcpcb),
        VMSTATE_UINT16(t_rttmin, struct tcpcb),
        VMSTATE_UINT32(max_sndwnd, struct tcpcb),
        VMSTATE_UINT8(t_oobflags, struct tcpcb),
        VMSTATE_UINT8(t_iobc, struct tcpcb),
        VMSTATE_INT16(t_softerror, struct tcpcb),
        VMSTATE_UINT8(snd_scale, struct tcpcb),
        VMSTATE_UINT8(rcv_scale, struct tcpcb),
        VMSTATE_UINT8(request_r_scale, struct tcpcb),
        VMSTATE_UINT8(requested_s_scale, struct tcpcb),
        VMSTATE_UINT32(ts_recent, struct tcpcb),
        VMSTATE_UINT32(ts_recent_age, struct tcpcb),
        VMSTATE_UINT32(last_ack_sent, struct tcpcb),
        VMSTATE_END_OF_LIST()
    }
};

/* The sbuf has a pair of pointers that are migrated as offsets;
 * we calculate the offsets and restore the pointers using
 * pre_save/post_load on a tmp structure.
 */
struct sbuf_tmp {
    struct sbuf *parent;
    uint32_t roff, woff;
};

static void sbuf_tmp_pre_save(void *opaque)
{
    struct sbuf_tmp *tmp = opaque;
    tmp->woff = tmp->parent->sb_wptr - tmp->parent->sb_data;
    tmp->roff = tmp->parent->sb_rptr - tmp->parent->sb_data;
}

static int sbuf_tmp_post_load(void *opaque, int version)
{
    struct sbuf_tmp *tmp = opaque;
    uint32_t requested_len = tmp->parent->sb_datalen;

    /* Allocate the buffer space used by the field after the tmp */
    sbreserve(tmp->parent, tmp->parent->sb_datalen);

    if (tmp->parent->sb_datalen != requested_len) {
        return -ENOMEM;
    }
    if (tmp->woff >= requested_len ||
        tmp->roff >= requested_len) {
        error_report("invalid sbuf offsets r/w=%u/%u len=%u",
                     tmp->roff, tmp->woff, requested_len);
        return -EINVAL;
    }

    tmp->parent->sb_wptr = tmp->parent->sb_data + tmp->woff;
    tmp->parent->sb_rptr = tmp->parent->sb_data + tmp->roff;

    return 0;
}


static const VMStateDescription vmstate_slirp_sbuf_tmp = {
    .name = "slirp-sbuf-tmp",
    .post_load = sbuf_tmp_post_load,
    .pre_save  = sbuf_tmp_pre_save,
    .version_id = 0,
    .fields = (VMStateField[]) {
        VMSTATE_UINT32(woff, struct sbuf_tmp),
        VMSTATE_UINT32(roff, struct sbuf_tmp),
        VMSTATE_END_OF_LIST()
    }
};

static const VMStateDescription vmstate_slirp_sbuf = {
    .name = "slirp-sbuf",
    .version_id = 0,
    .fields = (VMStateField[]) {
        VMSTATE_UINT32(sb_cc, struct sbuf),
        VMSTATE_UINT32(sb_datalen, struct sbuf),
        VMSTATE_WITH_TMP(struct sbuf, struct sbuf_tmp, vmstate_slirp_sbuf_tmp),
        VMSTATE_VBUFFER_UINT32(sb_data, struct sbuf, 0, NULL, sb_datalen),
        VMSTATE_END_OF_LIST()
    }
};

static bool slirp_older_than_v4(void *opaque, int version_id)
{
    return version_id < 4;
}

static bool slirp_family_inet(void *opaque, int version_id)
{
    union slirp_sockaddr *ssa = (union slirp_sockaddr *)opaque;
    return ssa->ss.ss_family == AF_INET;
}

static int slirp_socket_pre_load(void *opaque)
{
    struct socket *so = opaque;
    if (tcp_attach(so) < 0) {
        return -ENOMEM;
    }
    /* Older versions don't load these fields */
    so->so_ffamily = AF_INET;
    so->so_lfamily = AF_INET;
    return 0;
}

#ifndef _WIN32
#define VMSTATE_SIN4_ADDR(f, s, t) VMSTATE_UINT32_TEST(f, s, t)
#else
/* Win uses u_long rather than uint32_t - but it's still 32bits long */
#define VMSTATE_SIN4_ADDR(f, s, t) VMSTATE_SINGLE_TEST(f, s, t, 0, \
                                       vmstate_info_uint32, u_long)
#endif

/* The OS provided ss_family field isn't that portable; it's size
 * and type varies (16/8 bit, signed, unsigned)
 * and the values it contains aren't fully portable.
 */
typedef struct SS_FamilyTmpStruct {
    union slirp_sockaddr    *parent;
    uint16_t                 portable_family;
} SS_FamilyTmpStruct;

#define SS_FAMILY_MIG_IPV4   2  /* Linux, BSD, Win... */
#define SS_FAMILY_MIG_IPV6  10  /* Linux */
#define SS_FAMILY_MIG_OTHER 0xffff

static void ss_family_pre_save(void *opaque)
{
    SS_FamilyTmpStruct *tss = opaque;

    tss->portable_family = SS_FAMILY_MIG_OTHER;

    if (tss->parent->ss.ss_family == AF_INET) {
        tss->portable_family = SS_FAMILY_MIG_IPV4;
    } else if (tss->parent->ss.ss_family == AF_INET6) {
        tss->portable_family = SS_FAMILY_MIG_IPV6;
    }
}

static int ss_family_post_load(void *opaque, int version_id)
{
    SS_FamilyTmpStruct *tss = opaque;

    switch (tss->portable_family) {
    case SS_FAMILY_MIG_IPV4:
        tss->parent->ss.ss_family = AF_INET;
        break;
    case SS_FAMILY_MIG_IPV6:
    case 23: /* compatibility: AF_INET6 from mingw */
    case 28: /* compatibility: AF_INET6 from FreeBSD sys/socket.h */
        tss->parent->ss.ss_family = AF_INET6;
        break;
    default:
        error_report("invalid ss_family type %x", tss->portable_family);
        return -EINVAL;
    }

    return 0;
}

static const VMStateDescription vmstate_slirp_ss_family = {
    .name = "slirp-socket-addr/ss_family",
    .pre_save  = ss_family_pre_save,
    .post_load = ss_family_post_load,
    .fields = (VMStateField[]) {
        VMSTATE_UINT16(portable_family, SS_FamilyTmpStruct),
        VMSTATE_END_OF_LIST()
    }
};

static const VMStateDescription vmstate_slirp_socket_addr = {
    .name = "slirp-socket-addr",
    .version_id = 4,
    .fields = (VMStateField[]) {
        VMSTATE_WITH_TMP(union slirp_sockaddr, SS_FamilyTmpStruct,
                            vmstate_slirp_ss_family),
        VMSTATE_SIN4_ADDR(sin.sin_addr.s_addr, union slirp_sockaddr,
                            slirp_family_inet),
        VMSTATE_UINT16_TEST(sin.sin_port, union slirp_sockaddr,
                            slirp_family_inet),

#if 0
        /* Untested: Needs checking by someone with IPv6 test */
        VMSTATE_BUFFER_TEST(sin6.sin6_addr, union slirp_sockaddr,
                            slirp_family_inet6),
        VMSTATE_UINT16_TEST(sin6.sin6_port, union slirp_sockaddr,
                            slirp_family_inet6),
        VMSTATE_UINT32_TEST(sin6.sin6_flowinfo, union slirp_sockaddr,
                            slirp_family_inet6),
        VMSTATE_UINT32_TEST(sin6.sin6_scope_id, union slirp_sockaddr,
                            slirp_family_inet6),
#endif

        VMSTATE_END_OF_LIST()
    }
};

static const VMStateDescription vmstate_slirp_socket = {
    .name = "slirp-socket",
    .version_id = 4,
    .pre_load = slirp_socket_pre_load,
    .fields = (VMStateField[]) {
        VMSTATE_UINT32(so_urgc, struct socket),
        /* Pre-v4 versions */
        VMSTATE_SIN4_ADDR(so_faddr.s_addr, struct socket,
                            slirp_older_than_v4),
        VMSTATE_SIN4_ADDR(so_laddr.s_addr, struct socket,
                            slirp_older_than_v4),
        VMSTATE_UINT16_TEST(so_fport, struct socket, slirp_older_than_v4),
        VMSTATE_UINT16_TEST(so_lport, struct socket, slirp_older_than_v4),
        /* v4 and newer */
        VMSTATE_STRUCT(fhost, struct socket, 4, vmstate_slirp_socket_addr,
                       union slirp_sockaddr),
        VMSTATE_STRUCT(lhost, struct socket, 4, vmstate_slirp_socket_addr,
                       union slirp_sockaddr),

        VMSTATE_UINT8(so_iptos, struct socket),
        VMSTATE_UINT8(so_emu, struct socket),
        VMSTATE_UINT8(so_type, struct socket),
        VMSTATE_INT32(so_state, struct socket),
        VMSTATE_STRUCT(so_rcv, struct socket, 0, vmstate_slirp_sbuf,
                       struct sbuf),
        VMSTATE_STRUCT(so_snd, struct socket, 0, vmstate_slirp_sbuf,
                       struct sbuf),
        VMSTATE_STRUCT_POINTER(so_tcpcb, struct socket, vmstate_slirp_tcp,
                       struct tcpcb),
        VMSTATE_END_OF_LIST()
    }
};

static const VMStateDescription vmstate_slirp_bootp_client = {
    .name = "slirp_bootpclient",
    .fields = (VMStateField[]) {
        VMSTATE_UINT16(allocated, BOOTPClient),
        VMSTATE_BUFFER(macaddr, BOOTPClient),
        VMSTATE_END_OF_LIST()
    }
};

static const VMStateDescription vmstate_slirp = {
    .name = "slirp",
    .version_id = 4,
    .fields = (VMStateField[]) {
        VMSTATE_UINT16_V(ip_id, Slirp, 2),
        VMSTATE_STRUCT_ARRAY(bootp_clients, Slirp, NB_BOOTP_CLIENTS, 3,
                             vmstate_slirp_bootp_client, BOOTPClient),
        VMSTATE_END_OF_LIST()
    }
};

static void slirp_state_save(QEMUFile *f, void *opaque)
{
    Slirp *slirp = opaque;
    struct ex_list *ex_ptr;

    for (ex_ptr = slirp->exec_list; ex_ptr; ex_ptr = ex_ptr->ex_next)
        if (ex_ptr->ex_pty == 3) {
            struct socket *so;
            so = slirp_find_ctl_socket(slirp, ex_ptr->ex_addr,
                                       ntohs(ex_ptr->ex_fport));
            if (!so)
                continue;

            qemu_put_byte(f, 42);
            vmstate_save_state(f, &vmstate_slirp_socket, so, NULL);
        }
    qemu_put_byte(f, 0);

    vmstate_save_state(f, &vmstate_slirp, slirp, NULL);
}


static int slirp_state_load(QEMUFile *f, void *opaque, int version_id)
{
    Slirp *slirp = opaque;
    struct ex_list *ex_ptr;

    while (qemu_get_byte(f)) {
        int ret;
        struct socket *so = socreate(slirp);

        if (!so)
            return -ENOMEM;

        ret = vmstate_load_state(f, &vmstate_slirp_socket, so, version_id);

        if (ret < 0)
            return ret;

        if ((so->so_faddr.s_addr & slirp->vnetwork_mask.s_addr) !=
            slirp->vnetwork_addr.s_addr) {
            return -EINVAL;
        }
        for (ex_ptr = slirp->exec_list; ex_ptr; ex_ptr = ex_ptr->ex_next) {
            if (ex_ptr->ex_pty == 3 &&
                so->so_faddr.s_addr == ex_ptr->ex_addr.s_addr &&
                so->so_fport == ex_ptr->ex_fport) {
                break;
            }
        }
        if (!ex_ptr)
            return -EINVAL;

        so->extra = (void *)ex_ptr->ex_exec;
    }

    return vmstate_load_state(f, &vmstate_slirp, slirp, version_id);
}