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|
/*
* Copyright (C) 2006-2009, 2011 Free Software Foundation
*
* This program is free software ; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation ; either version 2 of the License, or
* (at your option) any later version.
*
* This program 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with the program ; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <sys/types.h>
#include <mach/mig_errors.h>
#include <kern/kalloc.h>
#include <ipc/ipc_port.h>
#include <ipc/ipc_space.h>
#include <vm/vm_kern.h>
#include <device/device_types.h>
#include <device/device_port.h>
#include <device/if_hdr.h>
#include <device/if_ether.h>
#include <device/net_io.h>
#include <device/device_reply.user.h>
#include <device/device_emul.h>
#include <intel/pmap.h>
#include <xen/public/io/netif.h>
#include <xen/public/memory.h>
#include <string.h>
#include <util/atoi.h>
#include "evt.h"
#include "store.h"
#include "net.h"
#include "grant.h"
#include "ring.h"
#include "time.h"
#include "xen.h"
/* Hypervisor part */
#define ADDRESS_SIZE 6
#define WINDOW __RING_SIZE((netif_rx_sring_t*)0, PAGE_SIZE)
/* Are we paranoid enough to not leak anything to backend? */
static const int paranoia = 0;
struct net_data {
struct device device;
struct ifnet ifnet;
int open_count;
char *backend;
domid_t domid;
char *vif;
u_char address[ADDRESS_SIZE];
int handle;
ipc_port_t port;
netif_tx_front_ring_t tx;
netif_rx_front_ring_t rx;
void *rx_buf[WINDOW];
grant_ref_t rx_buf_gnt[WINDOW];
unsigned long rx_buf_pfn[WINDOW];
int rx_copy;
evtchn_port_t evt;
simple_lock_data_t lock;
simple_lock_data_t pushlock;
};
static int n_vifs;
static struct net_data *vif_data;
struct device_emulation_ops hyp_net_emulation_ops;
int hextoi(char *cp, int *nump)
{
int number;
char *original;
char c;
original = cp;
for (number = 0, c = *cp | 0x20; (('0' <= c) && (c <= '9')) || (('a' <= c) && (c <= 'f')); c = *(++cp)) {
number *= 16;
if (c <= '9')
number += c - '0';
else
number += c - 'a' + 10;
}
if (original == cp)
*nump = -1;
else
*nump = number;
return(cp - original);
}
static void enqueue_rx_buf(struct net_data *nd, int number) {
unsigned reqn = nd->rx.req_prod_pvt++;
netif_rx_request_t *req = RING_GET_REQUEST(&nd->rx, reqn);
grant_ref_t gref;
assert(number < WINDOW);
req->id = number;
if (nd->rx_copy) {
/* Let domD write the data */
gref = hyp_grant_give(nd->domid, nd->rx_buf_pfn[number], 0);
} else {
/* Accept pages from domD */
gref = hyp_grant_accept_transfer(nd->domid, nd->rx_buf_pfn[number]);
/* give back page */
hyp_free_page(nd->rx_buf_pfn[number], nd->rx_buf[number]);
}
req->gref = nd->rx_buf_gnt[number] = gref;
}
static int recompute_checksum(void *data, int len) {
unsigned16_t *header16 = data;
unsigned8_t *header8 = data;
unsigned length, i;
unsigned32_t checksum = 0;
/* IPv4 header length */
length = (header8[0] & 0xf) * 4;
if (length < 20)
/* Too small for an IP header16 */
return -1;
if (length > len)
/* Does not fit in the ethernet frame */
return -1;
/* Compute IP header checksum */
header16[5] = 0;
for (i = 0; i < length/2; i++)
checksum += ntohs(header16[i]);
while (checksum >> 16)
checksum = (checksum & 0xffff) + (checksum >> 16);
header16[5] = htons(~checksum);
if (header8[9] == 6) {
/* Need to fix TCP checksum as well */
unsigned16_t *tcp_header16 = header16 + length/2;
unsigned8_t *tcp_header8 = header8 + length;
unsigned tcp_length = ntohs(header16[1]) - length;
/* Pseudo IP header */
checksum = ntohs(header16[6]) + ntohs(header16[7]) +
ntohs(header16[8]) + ntohs(header16[9]) +
header8[9] + tcp_length;
tcp_header16[8] = 0;
for (i = 0; i < tcp_length / 2; i++)
checksum += ntohs(tcp_header16[i]);
if (tcp_length & 1)
checksum += tcp_header8[tcp_length-1] << 8;
while (checksum >> 16)
checksum = (checksum & 0xffff) + (checksum >> 16);
tcp_header16[8] = htons(~checksum);
} else if (header8[9] == 17) {
/* Drop any bogus checksum */
unsigned16_t *udp_header16 = header16 + length/2;
udp_header16[3] = 0;
}
return 0;
}
static void hyp_net_intr(int unit) {
ipc_kmsg_t kmsg;
struct ether_header *eh;
struct packet_header *ph;
netif_rx_response_t *rx_rsp;
netif_tx_response_t *tx_rsp;
void *data;
int len, more;
struct net_data *nd = &vif_data[unit];
simple_lock(&nd->lock);
if ((nd->rx.sring->rsp_prod - nd->rx.rsp_cons) >= (WINDOW*3)/4)
printf("window %ld a bit small!\n", WINDOW);
more = RING_HAS_UNCONSUMED_RESPONSES(&nd->rx);
while (more) {
rmb(); /* make sure we see responses */
rx_rsp = RING_GET_RESPONSE(&nd->rx, nd->rx.rsp_cons++);
unsigned number = rx_rsp->id;
assert(number < WINDOW);
if (nd->rx_copy) {
hyp_grant_takeback(nd->rx_buf_gnt[number]);
} else {
unsigned long mfn = hyp_grant_finish_transfer(nd->rx_buf_gnt[number]);
#ifdef MACH_PSEUDO_PHYS
mfn_list[nd->rx_buf_pfn[number]] = mfn;
#endif /* MACH_PSEUDO_PHYS */
pmap_map_mfn(nd->rx_buf[number], mfn);
}
kmsg = net_kmsg_get();
if (!kmsg)
/* gasp! Drop */
goto drop;
if (rx_rsp->status <= 0)
switch (rx_rsp->status) {
case NETIF_RSP_DROPPED:
printf("Packet dropped\n");
goto drop_kmsg;
case NETIF_RSP_ERROR:
printf("Packet error\n");
goto drop_kmsg;
case 0:
printf("nul packet\n");
goto drop_kmsg;
default:
printf("Unknown error %d\n", rx_rsp->status);
goto drop_kmsg;
}
data = nd->rx_buf[number] + rx_rsp->offset;
len = rx_rsp->status;
if (rx_rsp->flags & NETRXF_csum_blank) {
struct ether_header *ether = data;
if (!(rx_rsp->flags & NETRXF_data_validated)) {
printf("packet with no checksum and not validated, dropping it\n");
goto drop_kmsg;
}
/* TODO: rather tell pfinet to ignore checksums */
if (ntohs(ether->ether_type) != 0x0800) {
printf("packet with no checksum and not IPv4, dropping it\n");
goto drop_kmsg;
}
if (recompute_checksum(data + sizeof(*ether), len - sizeof(*ether)))
goto drop_kmsg;
}
eh = (void*) (net_kmsg(kmsg)->header);
ph = (void*) (net_kmsg(kmsg)->packet);
memcpy(eh, data, sizeof (struct ether_header));
memcpy(ph + 1, data + sizeof (struct ether_header), len - sizeof(struct ether_header));
RING_FINAL_CHECK_FOR_RESPONSES(&nd->rx, more);
enqueue_rx_buf(nd, number);
ph->type = eh->ether_type;
ph->length = len - sizeof(struct ether_header) + sizeof (struct packet_header);
net_kmsg(kmsg)->sent = FALSE; /* Mark packet as received. */
net_packet(&nd->ifnet, kmsg, ph->length, ethernet_priority(kmsg));
continue;
drop_kmsg:
net_kmsg_put(kmsg);
drop:
RING_FINAL_CHECK_FOR_RESPONSES(&nd->rx, more);
enqueue_rx_buf(nd, number);
}
/* commit new requests */
int notify;
wmb(); /* make sure it sees requests */
RING_PUSH_REQUESTS_AND_CHECK_NOTIFY(&nd->rx, notify);
if (notify)
hyp_event_channel_send(nd->evt);
/* Now the tx side */
more = RING_HAS_UNCONSUMED_RESPONSES(&nd->tx);
spl_t s = splsched ();
while (more) {
rmb(); /* make sure we see responses */
tx_rsp = RING_GET_RESPONSE(&nd->tx, nd->tx.rsp_cons++);
switch (tx_rsp->status) {
case NETIF_RSP_DROPPED:
printf("Packet dropped\n");
break;
case NETIF_RSP_ERROR:
printf("Packet error\n");
break;
case NETIF_RSP_OKAY:
break;
default:
printf("Unknown error %d\n", tx_rsp->status);
break;
}
thread_wakeup((event_t) hyp_grant_address(tx_rsp->id));
thread_wakeup_one(nd);
RING_FINAL_CHECK_FOR_RESPONSES(&nd->tx, more);
}
splx(s);
simple_unlock(&nd->lock);
}
#define VIF_PATH "device/vif"
void hyp_net_init(void) {
char **vifs, **vif;
char *c;
int i;
int n;
int grant;
char port_name[10];
domid_t domid;
evtchn_port_t evt;
hyp_store_transaction_t t;
vm_offset_t addr;
struct net_data *nd;
struct ifnet *ifp;
netif_tx_sring_t *tx_ring;
netif_rx_sring_t *rx_ring;
vifs = hyp_store_ls(0, 1, VIF_PATH);
if (!vifs) {
printf("eth: No net device (%s). Hoping you don't need any\n", hyp_store_error);
n_vifs = 0;
return;
}
n = 0;
for (vif = vifs; *vif; vif++)
n++;
vif_data = (void*) kalloc(n * sizeof(*vif_data));
if (!vif_data) {
printf("eth: No memory room for VIF\n");
n_vifs = 0;
return;
}
n_vifs = n;
for (n = 0; n < n_vifs; n++) {
nd = &vif_data[n];
mach_atoi((u_char *) vifs[n], &nd->handle);
if (nd->handle == MACH_ATOI_DEFAULT)
continue;
nd->open_count = -2;
nd->vif = vifs[n];
/* Get domain id of frontend driver. */
i = hyp_store_read_int(0, 5, VIF_PATH, "/", vifs[n], "/", "backend-id");
if (i == -1)
panic("eth: couldn't read frontend domid of VIF %s (%s)",vifs[n], hyp_store_error);
nd->domid = domid = i;
do {
t = hyp_store_transaction_start();
/* Get a page for tx_ring */
if ((addr = vm_page_grab_phys_addr()) == -1)
panic("eth: couldn't allocate space for store tx_ring");
tx_ring = (void*) phystokv(addr);
SHARED_RING_INIT(tx_ring);
FRONT_RING_INIT(&nd->tx, tx_ring, PAGE_SIZE);
grant = hyp_grant_give(domid, atop(addr), 0);
/* and give it to backend. */
i = sprintf(port_name, "%d", grant);
c = hyp_store_write(t, port_name, 5, VIF_PATH, "/", vifs[n], "/", "tx-ring-ref");
if (!c)
panic("eth: couldn't store tx_ring reference for VIF %s (%s)", vifs[n], hyp_store_error);
kfree((vm_offset_t) c, strlen(c)+1);
/* Get a page for rx_ring */
if ((addr = vm_page_grab_phys_addr()) == -1)
panic("eth: couldn't allocate space for store tx_ring");
rx_ring = (void*) phystokv(addr);
SHARED_RING_INIT(rx_ring);
FRONT_RING_INIT(&nd->rx, rx_ring, PAGE_SIZE);
grant = hyp_grant_give(domid, atop(addr), 0);
/* and give it to backend. */
i = sprintf(port_name, "%d", grant);
c = hyp_store_write(t, port_name, 5, VIF_PATH, "/", vifs[n], "/", "rx-ring-ref");
if (!c)
panic("eth: couldn't store rx_ring reference for VIF %s (%s)", vifs[n], hyp_store_error);
kfree((vm_offset_t) c, strlen(c)+1);
/* tell we need csums. */
c = hyp_store_write(t, "1", 5, VIF_PATH, "/", vifs[n], "/", "feature-no-csum-offload");
if (!c)
panic("eth: couldn't store feature-no-csum-offload reference for VIF %s (%s)", vifs[n], hyp_store_error);
kfree((vm_offset_t) c, strlen(c)+1);
/* Allocate an event channel and give it to backend. */
nd->evt = evt = hyp_event_channel_alloc(domid);
i = sprintf(port_name, "%lu", evt);
c = hyp_store_write(t, port_name, 5, VIF_PATH, "/", vifs[n], "/", "event-channel");
if (!c)
panic("eth: couldn't store event channel for VIF %s (%s)", vifs[n], hyp_store_error);
kfree((vm_offset_t) c, strlen(c)+1);
c = hyp_store_write(t, hyp_store_state_initialized, 5, VIF_PATH, "/", vifs[n], "/", "state");
if (!c)
panic("eth: couldn't store state for VIF %s (%s)", vifs[n], hyp_store_error);
kfree((vm_offset_t) c, strlen(c)+1);
} while ((!hyp_store_transaction_stop(t)));
/* TODO randomly wait? */
c = hyp_store_read(0, 5, VIF_PATH, "/", vifs[n], "/", "backend");
if (!c)
panic("eth: couldn't get path to VIF %s backend (%s)", vifs[n], hyp_store_error);
nd->backend = c;
while(1) {
i = hyp_store_read_int(0, 3, nd->backend, "/", "state");
if (i == MACH_ATOI_DEFAULT)
panic("can't read state from %s", nd->backend);
if (i == XenbusStateInitWait)
break;
hyp_yield();
}
c = hyp_store_read(0, 3, nd->backend, "/", "mac");
if (!c)
panic("eth: couldn't get VIF %s's mac (%s)", vifs[n], hyp_store_error);
for (i=0; ; i++) {
int val;
hextoi(&c[3*i], &val);
if (val == -1)
panic("eth: couldn't understand %dth number of VIF %s's mac %s", i, vifs[n], c);
nd->address[i] = val;
if (i==ADDRESS_SIZE-1)
break;
if (c[3*i+2] != ':')
panic("eth: couldn't understand %dth separator of VIF %s's mac %s", i, vifs[n], c);
}
kfree((vm_offset_t) c, strlen(c)+1);
printf("eth%d: dom%d's VIF %s ", n, domid, vifs[n]);
for (i=0; ; i++) {
printf("%02x", nd->address[i]);
if (i==ADDRESS_SIZE-1)
break;
printf(":");
}
printf("\n");
nd->rx_copy = hyp_store_read_int(0, 3, nd->backend, "/", "feature-rx-copy");
if (nd->rx_copy == 1) {
c = hyp_store_write(0, "1", 5, VIF_PATH, "/", vifs[n], "/", "request-rx-copy");
if (!c)
panic("eth: couldn't request rx copy feature for VIF %s (%s)", vifs[n], hyp_store_error);
} else
nd->rx_copy = 0;
c = hyp_store_write(0, hyp_store_state_connected, 5, VIF_PATH, "/", nd->vif, "/", "state");
if (!c)
panic("couldn't store state for eth%d (%s)", nd - vif_data, hyp_store_error);
kfree((vm_offset_t) c, strlen(c)+1);
while(1) {
i = hyp_store_read_int(0, 3, nd->backend, "/", "state");
if (i == MACH_ATOI_DEFAULT)
panic("can't read state from %s", nd->backend);
if (i == XenbusStateConnected)
break;
hyp_yield();
}
/* Get a page for packet reception */
for (i= 0; i<WINDOW; i++) {
if ((addr = vm_page_grab_phys_addr()) == -1)
panic("eth: couldn't allocate space for store tx_ring");
nd->rx_buf[i] = (void*)phystokv(addr);
nd->rx_buf_pfn[i] = atop(addr);
if (!nd->rx_copy) {
if (hyp_do_update_va_mapping(kvtolin(nd->rx_buf[i]), 0, UVMF_INVLPG|UVMF_ALL))
panic("eth: couldn't clear rx kv buf %d at %p", i, addr);
}
/* and enqueue it to backend. */
enqueue_rx_buf(nd, i);
}
int notify;
wmb(); /* make sure it sees requests */
RING_PUSH_REQUESTS_AND_CHECK_NOTIFY(&nd->rx, notify);
if (notify)
hyp_event_channel_send(nd->evt);
nd->open_count = -1;
nd->device.emul_ops = &hyp_net_emulation_ops;
nd->device.emul_data = nd;
simple_lock_init(&nd->lock);
simple_lock_init(&nd->pushlock);
ifp = &nd->ifnet;
ifp->if_unit = n;
ifp->if_flags = IFF_UP | IFF_RUNNING;
ifp->if_header_size = 14;
ifp->if_header_format = HDR_ETHERNET;
/* Set to the maximum that we can handle in device_write. */
ifp->if_mtu = PAGE_SIZE - ifp->if_header_size;
ifp->if_address_size = ADDRESS_SIZE;
ifp->if_address = (void*) nd->address;
if_init_queues (ifp);
/* Now we can start receiving */
hyp_evt_handler(evt, hyp_net_intr, n, SPL6);
}
}
static ipc_port_t
dev_to_port(void *d)
{
struct net_data *b = d;
if (!d)
return IP_NULL;
return ipc_port_make_send(b->port);
}
static int
device_close(void *devp)
{
struct net_data *nd = devp;
if (--nd->open_count < 0)
panic("too many closes on eth%d", nd - vif_data);
printf("close, eth%d count %d\n",nd-vif_data,nd->open_count);
if (nd->open_count)
return 0;
ipc_kobject_set(nd->port, IKO_NULL, IKOT_NONE);
ipc_port_dealloc_kernel(nd->port);
return 0;
}
static io_return_t
device_open (ipc_port_t reply_port, mach_msg_type_name_t reply_port_type,
dev_mode_t mode, char *name, device_t *devp /* out */)
{
int i, n, err = 0;
ipc_port_t port, notify;
struct net_data *nd;
if (name[0] != 'e' || name[1] != 't' || name[2] != 'h' || name[3] < '0' || name[3] > '9')
return D_NO_SUCH_DEVICE;
i = mach_atoi((u_char *) &name[3], &n);
if (n == MACH_ATOI_DEFAULT)
return D_NO_SUCH_DEVICE;
if (name[3 + i])
return D_NO_SUCH_DEVICE;
if (n >= n_vifs)
return D_NO_SUCH_DEVICE;
nd = &vif_data[n];
if (nd->open_count == -2)
/* couldn't be initialized */
return D_NO_SUCH_DEVICE;
if (nd->open_count >= 0) {
*devp = &nd->device ;
nd->open_count++ ;
printf("re-open, eth%d count %d\n",nd-vif_data,nd->open_count);
return D_SUCCESS;
}
nd->open_count = 1;
printf("eth%d count %d\n",nd-vif_data,nd->open_count);
port = ipc_port_alloc_kernel();
if (port == IP_NULL) {
err = KERN_RESOURCE_SHORTAGE;
goto out;
}
nd->port = port;
*devp = &nd->device;
ipc_kobject_set (port, (ipc_kobject_t) &nd->device, IKOT_DEVICE);
notify = ipc_port_make_sonce (nd->port);
ip_lock (nd->port);
ipc_port_nsrequest (nd->port, 1, notify, ¬ify);
assert (notify == IP_NULL);
out:
if (IP_VALID (reply_port))
ds_device_open_reply (reply_port, reply_port_type, D_SUCCESS, dev_to_port(nd));
else
device_close(nd);
return MIG_NO_REPLY;
}
static io_return_t
device_write(void *d, ipc_port_t reply_port,
mach_msg_type_name_t reply_port_type, dev_mode_t mode,
recnum_t bn, io_buf_ptr_t data, unsigned int count,
int *bytes_written)
{
vm_map_copy_t copy = (vm_map_copy_t) data;
grant_ref_t gref;
struct net_data *nd = d;
struct ifnet *ifp = &nd->ifnet;
netif_tx_request_t *req;
unsigned reqn;
vm_offset_t offset;
vm_page_t m;
vm_size_t size;
/* The maximum that we can handle. */
assert(ifp->if_header_size + ifp->if_mtu <= PAGE_SIZE);
if (count < ifp->if_header_size ||
count > ifp->if_header_size + ifp->if_mtu)
return D_INVALID_SIZE;
assert(copy->type == VM_MAP_COPY_PAGE_LIST);
assert(copy->cpy_npages <= 2);
assert(copy->cpy_npages >= 1);
offset = copy->offset & PAGE_MASK;
if (paranoia || copy->cpy_npages == 2) {
/* have to copy :/ */
while ((m = vm_page_grab(FALSE)) == 0)
VM_PAGE_WAIT (0);
assert (! m->active && ! m->inactive);
m->busy = TRUE;
if (copy->cpy_npages == 1)
size = count;
else
size = PAGE_SIZE - offset;
memcpy((void*)phystokv(m->phys_addr), (void*)phystokv(copy->cpy_page_list[0]->phys_addr + offset), size);
if (copy->cpy_npages == 2)
memcpy((void*)phystokv(m->phys_addr + size), (void*)phystokv(copy->cpy_page_list[1]->phys_addr), count - size);
offset = 0;
} else
m = copy->cpy_page_list[0];
/* allocate a request */
spl_t spl = splimp();
while (1) {
simple_lock(&nd->lock);
if (!RING_FULL(&nd->tx))
break;
thread_sleep(nd, &nd->lock, FALSE);
}
mb();
reqn = nd->tx.req_prod_pvt++;;
simple_lock(&nd->pushlock);
simple_unlock(&nd->lock);
(void) splx(spl);
req = RING_GET_REQUEST(&nd->tx, reqn);
req->gref = gref = hyp_grant_give(nd->domid, atop(m->phys_addr), 1);
req->offset = offset;
req->flags = 0;
req->id = gref;
req->size = count;
assert_wait(hyp_grant_address(gref), FALSE);
int notify;
wmb(); /* make sure it sees requests */
RING_PUSH_REQUESTS_AND_CHECK_NOTIFY(&nd->tx, notify);
if (notify)
hyp_event_channel_send(nd->evt);
simple_unlock(&nd->pushlock);
thread_block(NULL);
hyp_grant_takeback(gref);
/* Send packet to filters. */
{
struct packet_header *packet;
struct ether_header *header;
ipc_kmsg_t kmsg;
kmsg = net_kmsg_get ();
if (kmsg != IKM_NULL)
{
/* Suitable for Ethernet only. */
header = (struct ether_header *) (net_kmsg (kmsg)->header);
packet = (struct packet_header *) (net_kmsg (kmsg)->packet);
memcpy (header, (void*)phystokv(m->phys_addr + offset), sizeof (struct ether_header));
/* packet is prefixed with a struct packet_header,
see include/device/net_status.h. */
memcpy (packet + 1, (void*)phystokv(m->phys_addr + offset + sizeof (struct ether_header)),
count - sizeof (struct ether_header));
packet->length = count - sizeof (struct ether_header)
+ sizeof (struct packet_header);
packet->type = header->ether_type;
net_kmsg (kmsg)->sent = TRUE; /* Mark packet as sent. */
spl_t s = splimp ();
net_packet (&nd->ifnet, kmsg, packet->length,
ethernet_priority (kmsg));
splx (s);
}
}
if (paranoia || copy->cpy_npages == 2)
VM_PAGE_FREE(m);
vm_map_copy_discard (copy);
*bytes_written = count;
if (IP_VALID(reply_port))
ds_device_write_reply (reply_port, reply_port_type, 0, count);
return MIG_NO_REPLY;
}
static io_return_t
device_get_status(void *d, dev_flavor_t flavor, dev_status_t status,
mach_msg_type_number_t *status_count)
{
struct net_data *nd = d;
return net_getstat (&nd->ifnet, flavor, status, status_count);
}
static io_return_t
device_set_status(void *d, dev_flavor_t flavor, dev_status_t status,
mach_msg_type_number_t count)
{
struct net_data *nd = d;
switch (flavor)
{
default:
printf("TODO: net_%s(%p, 0x%x)\n", __func__, nd, flavor);
return D_INVALID_OPERATION;
}
return D_SUCCESS;
}
static io_return_t
device_set_filter(void *d, ipc_port_t port, int priority,
filter_t * filter, unsigned filter_count)
{
struct net_data *nd = d;
if (!nd)
return D_NO_SUCH_DEVICE;
return net_set_filter (&nd->ifnet, port, priority, filter, filter_count);
}
struct device_emulation_ops hyp_net_emulation_ops = {
NULL, /* dereference */
NULL, /* deallocate */
dev_to_port,
device_open,
device_close,
device_write,
NULL, /* write_inband */
NULL,
NULL, /* read_inband */
device_set_status, /* set_status */
device_get_status,
device_set_filter, /* set_filter */
NULL, /* map */
NULL, /* no_senders */
NULL, /* write_trap */
NULL, /* writev_trap */
};
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