113bca4c6SSepherosa Ziehau /*
213bca4c6SSepherosa Ziehau * Copyright (c) 2004
313bca4c6SSepherosa Ziehau * Bill Paul <wpaul@windriver.com>. All rights reserved.
413bca4c6SSepherosa Ziehau *
513bca4c6SSepherosa Ziehau * Redistribution and use in source and binary forms, with or without
613bca4c6SSepherosa Ziehau * modification, are permitted provided that the following conditions
713bca4c6SSepherosa Ziehau * are met:
813bca4c6SSepherosa Ziehau * 1. Redistributions of source code must retain the above copyright
913bca4c6SSepherosa Ziehau * notice, this list of conditions and the following disclaimer.
1013bca4c6SSepherosa Ziehau * 2. Redistributions in binary form must reproduce the above copyright
1113bca4c6SSepherosa Ziehau * notice, this list of conditions and the following disclaimer in the
1213bca4c6SSepherosa Ziehau * documentation and/or other materials provided with the distribution.
1313bca4c6SSepherosa Ziehau * 3. All advertising materials mentioning features or use of this software
1413bca4c6SSepherosa Ziehau * must display the following acknowledgement:
1513bca4c6SSepherosa Ziehau * This product includes software developed by Bill Paul.
1613bca4c6SSepherosa Ziehau * 4. Neither the name of the author nor the names of any co-contributors
1713bca4c6SSepherosa Ziehau * may be used to endorse or promote products derived from this software
1813bca4c6SSepherosa Ziehau * without specific prior written permission.
1913bca4c6SSepherosa Ziehau *
2013bca4c6SSepherosa Ziehau * THIS SOFTWARE IS PROVIDED BY Bill Paul AND CONTRIBUTORS ``AS IS'' AND
2113bca4c6SSepherosa Ziehau * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
2213bca4c6SSepherosa Ziehau * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
2313bca4c6SSepherosa Ziehau * ARE DISCLAIMED. IN NO EVENT SHALL Bill Paul OR THE VOICES IN HIS HEAD
2413bca4c6SSepherosa Ziehau * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
2513bca4c6SSepherosa Ziehau * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
2613bca4c6SSepherosa Ziehau * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
2713bca4c6SSepherosa Ziehau * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
2813bca4c6SSepherosa Ziehau * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
2913bca4c6SSepherosa Ziehau * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
3013bca4c6SSepherosa Ziehau * THE POSSIBILITY OF SUCH DAMAGE.
3113bca4c6SSepherosa Ziehau *
3213bca4c6SSepherosa Ziehau * $FreeBSD: src/sys/dev/vge/if_vge.c,v 1.24 2006/02/14 12:44:56 glebius Exp $
3313bca4c6SSepherosa Ziehau */
3413bca4c6SSepherosa Ziehau
3513bca4c6SSepherosa Ziehau /*
3613bca4c6SSepherosa Ziehau * VIA Networking Technologies VT612x PCI gigabit ethernet NIC driver.
3713bca4c6SSepherosa Ziehau *
3813bca4c6SSepherosa Ziehau * Written by Bill Paul <wpaul@windriver.com>
3913bca4c6SSepherosa Ziehau * Senior Networking Software Engineer
4013bca4c6SSepherosa Ziehau * Wind River Systems
4113bca4c6SSepherosa Ziehau */
4213bca4c6SSepherosa Ziehau
4313bca4c6SSepherosa Ziehau /*
4413bca4c6SSepherosa Ziehau * The VIA Networking VT6122 is a 32bit, 33/66Mhz PCI device that
4513bca4c6SSepherosa Ziehau * combines a tri-speed ethernet MAC and PHY, with the following
4613bca4c6SSepherosa Ziehau * features:
4713bca4c6SSepherosa Ziehau *
4813bca4c6SSepherosa Ziehau * o Jumbo frame support up to 16K
4913bca4c6SSepherosa Ziehau * o Transmit and receive flow control
5013bca4c6SSepherosa Ziehau * o IPv4 checksum offload
5113bca4c6SSepherosa Ziehau * o VLAN tag insertion and stripping
5213bca4c6SSepherosa Ziehau * o TCP large send
5313bca4c6SSepherosa Ziehau * o 64-bit multicast hash table filter
5413bca4c6SSepherosa Ziehau * o 64 entry CAM filter
5513bca4c6SSepherosa Ziehau * o 16K RX FIFO and 48K TX FIFO memory
5613bca4c6SSepherosa Ziehau * o Interrupt moderation
5713bca4c6SSepherosa Ziehau *
5813bca4c6SSepherosa Ziehau * The VT6122 supports up to four transmit DMA queues. The descriptors
5913bca4c6SSepherosa Ziehau * in the transmit ring can address up to 7 data fragments; frames which
6013bca4c6SSepherosa Ziehau * span more than 7 data buffers must be coalesced, but in general the
6113bca4c6SSepherosa Ziehau * BSD TCP/IP stack rarely generates frames more than 2 or 3 fragments
6213bca4c6SSepherosa Ziehau * long. The receive descriptors address only a single buffer.
6313bca4c6SSepherosa Ziehau *
6413bca4c6SSepherosa Ziehau * There are two peculiar design issues with the VT6122. One is that
6513bca4c6SSepherosa Ziehau * receive data buffers must be aligned on a 32-bit boundary. This is
6613bca4c6SSepherosa Ziehau * not a problem where the VT6122 is used as a LOM device in x86-based
6713bca4c6SSepherosa Ziehau * systems, but on architectures that generate unaligned access traps, we
6813bca4c6SSepherosa Ziehau * have to do some copying.
6913bca4c6SSepherosa Ziehau *
7013bca4c6SSepherosa Ziehau * The other issue has to do with the way 64-bit addresses are handled.
7113bca4c6SSepherosa Ziehau * The DMA descriptors only allow you to specify 48 bits of addressing
7213bca4c6SSepherosa Ziehau * information. The remaining 16 bits are specified using one of the
7313bca4c6SSepherosa Ziehau * I/O registers. If you only have a 32-bit system, then this isn't
7413bca4c6SSepherosa Ziehau * an issue, but if you have a 64-bit system and more than 4GB of
7513bca4c6SSepherosa Ziehau * memory, you must have to make sure your network data buffers reside
7613bca4c6SSepherosa Ziehau * in the same 48-bit 'segment.'
7713bca4c6SSepherosa Ziehau *
7813bca4c6SSepherosa Ziehau * Special thanks to Ryan Fu at VIA Networking for providing documentation
7913bca4c6SSepherosa Ziehau * and sample NICs for testing.
8013bca4c6SSepherosa Ziehau */
8113bca4c6SSepherosa Ziehau
824e5366b5SSepherosa Ziehau #include "opt_ifpoll.h"
8313bca4c6SSepherosa Ziehau
8413bca4c6SSepherosa Ziehau #include <sys/param.h>
8513bca4c6SSepherosa Ziehau #include <sys/endian.h>
8613bca4c6SSepherosa Ziehau #include <sys/systm.h>
8713bca4c6SSepherosa Ziehau #include <sys/sockio.h>
8813bca4c6SSepherosa Ziehau #include <sys/mbuf.h>
8913bca4c6SSepherosa Ziehau #include <sys/malloc.h>
9013bca4c6SSepherosa Ziehau #include <sys/module.h>
9113bca4c6SSepherosa Ziehau #include <sys/kernel.h>
9213bca4c6SSepherosa Ziehau #include <sys/socket.h>
9313bca4c6SSepherosa Ziehau #include <sys/serialize.h>
9413bca4c6SSepherosa Ziehau #include <sys/proc.h>
951f7ab7c9SMatthew Dillon #include <sys/bus.h>
961f7ab7c9SMatthew Dillon #include <sys/rman.h>
979db4b353SSepherosa Ziehau #include <sys/interrupt.h>
9813bca4c6SSepherosa Ziehau
9913bca4c6SSepherosa Ziehau #include <net/if.h>
10013bca4c6SSepherosa Ziehau #include <net/if_arp.h>
10113bca4c6SSepherosa Ziehau #include <net/ethernet.h>
10213bca4c6SSepherosa Ziehau #include <net/if_dl.h>
10313bca4c6SSepherosa Ziehau #include <net/if_media.h>
1044e5366b5SSepherosa Ziehau #include <net/if_poll.h>
10513bca4c6SSepherosa Ziehau #include <net/ifq_var.h>
10613bca4c6SSepherosa Ziehau #include <net/if_types.h>
10713bca4c6SSepherosa Ziehau #include <net/vlan/if_vlan_var.h>
108b637f170SSepherosa Ziehau #include <net/vlan/if_vlan_ether.h>
10913bca4c6SSepherosa Ziehau
11013bca4c6SSepherosa Ziehau #include <net/bpf.h>
11113bca4c6SSepherosa Ziehau
11213bca4c6SSepherosa Ziehau #include <dev/netif/mii_layer/mii.h>
11313bca4c6SSepherosa Ziehau #include <dev/netif/mii_layer/miivar.h>
11413bca4c6SSepherosa Ziehau
11513bca4c6SSepherosa Ziehau #include <bus/pci/pcireg.h>
11613bca4c6SSepherosa Ziehau #include <bus/pci/pcivar.h>
117dcb4b80dSSascha Wildner #include "pcidevs.h"
11813bca4c6SSepherosa Ziehau
11913bca4c6SSepherosa Ziehau #include "miibus_if.h"
12013bca4c6SSepherosa Ziehau
12113bca4c6SSepherosa Ziehau #include <dev/netif/vge/if_vgereg.h>
12213bca4c6SSepherosa Ziehau #include <dev/netif/vge/if_vgevar.h>
12313bca4c6SSepherosa Ziehau
12413bca4c6SSepherosa Ziehau #define VGE_CSUM_FEATURES (CSUM_IP | CSUM_TCP | CSUM_UDP)
12513bca4c6SSepherosa Ziehau
12613bca4c6SSepherosa Ziehau /*
12713bca4c6SSepherosa Ziehau * Various supported device vendors/types and their names.
12813bca4c6SSepherosa Ziehau */
12913bca4c6SSepherosa Ziehau static const struct vge_type vge_devs[] = {
13013bca4c6SSepherosa Ziehau { PCI_VENDOR_VIATECH, PCI_PRODUCT_VIATECH_VT612X,
13113bca4c6SSepherosa Ziehau "VIA Networking Gigabit Ethernet" },
13213bca4c6SSepherosa Ziehau { 0, 0, NULL }
13313bca4c6SSepherosa Ziehau };
13413bca4c6SSepherosa Ziehau
13513bca4c6SSepherosa Ziehau static int vge_probe (device_t);
13613bca4c6SSepherosa Ziehau static int vge_attach (device_t);
13713bca4c6SSepherosa Ziehau static int vge_detach (device_t);
13813bca4c6SSepherosa Ziehau
13913bca4c6SSepherosa Ziehau static int vge_encap (struct vge_softc *, struct mbuf *, int);
14013bca4c6SSepherosa Ziehau
14113bca4c6SSepherosa Ziehau static void vge_dma_map_addr (void *, bus_dma_segment_t *, int, int);
14213bca4c6SSepherosa Ziehau static void vge_dma_map_rx_desc (void *, bus_dma_segment_t *, int,
14313bca4c6SSepherosa Ziehau bus_size_t, int);
14413bca4c6SSepherosa Ziehau static void vge_dma_map_tx_desc (void *, bus_dma_segment_t *, int,
14513bca4c6SSepherosa Ziehau bus_size_t, int);
14613bca4c6SSepherosa Ziehau static int vge_dma_alloc (device_t);
14713bca4c6SSepherosa Ziehau static void vge_dma_free (struct vge_softc *);
14813bca4c6SSepherosa Ziehau static int vge_newbuf (struct vge_softc *, int, struct mbuf *);
14913bca4c6SSepherosa Ziehau static int vge_rx_list_init (struct vge_softc *);
15013bca4c6SSepherosa Ziehau static int vge_tx_list_init (struct vge_softc *);
15113bca4c6SSepherosa Ziehau #ifdef VGE_FIXUP_RX
15213bca4c6SSepherosa Ziehau static __inline void vge_fixup_rx
15313bca4c6SSepherosa Ziehau (struct mbuf *);
15413bca4c6SSepherosa Ziehau #endif
15513bca4c6SSepherosa Ziehau static void vge_rxeof (struct vge_softc *, int);
15613bca4c6SSepherosa Ziehau static void vge_txeof (struct vge_softc *);
15713bca4c6SSepherosa Ziehau static void vge_intr (void *);
15813bca4c6SSepherosa Ziehau static void vge_tick (struct vge_softc *);
159f0a26983SSepherosa Ziehau static void vge_start (struct ifnet *, struct ifaltq_subque *);
16013bca4c6SSepherosa Ziehau static int vge_ioctl (struct ifnet *, u_long, caddr_t,
16113bca4c6SSepherosa Ziehau struct ucred *);
16213bca4c6SSepherosa Ziehau static void vge_init (void *);
16313bca4c6SSepherosa Ziehau static void vge_stop (struct vge_softc *);
16413bca4c6SSepherosa Ziehau static void vge_watchdog (struct ifnet *);
16513bca4c6SSepherosa Ziehau static int vge_suspend (device_t);
16613bca4c6SSepherosa Ziehau static int vge_resume (device_t);
16713bca4c6SSepherosa Ziehau static void vge_shutdown (device_t);
16813bca4c6SSepherosa Ziehau static int vge_ifmedia_upd (struct ifnet *);
16913bca4c6SSepherosa Ziehau static void vge_ifmedia_sts (struct ifnet *, struct ifmediareq *);
17013bca4c6SSepherosa Ziehau
17113bca4c6SSepherosa Ziehau #ifdef VGE_EEPROM
17213bca4c6SSepherosa Ziehau static void vge_eeprom_getword (struct vge_softc *, int, u_int16_t *);
17313bca4c6SSepherosa Ziehau #endif
17413bca4c6SSepherosa Ziehau static void vge_read_eeprom (struct vge_softc *, uint8_t *, int, int, int);
17513bca4c6SSepherosa Ziehau
17613bca4c6SSepherosa Ziehau static void vge_miipoll_start (struct vge_softc *);
17713bca4c6SSepherosa Ziehau static void vge_miipoll_stop (struct vge_softc *);
17813bca4c6SSepherosa Ziehau static int vge_miibus_readreg (device_t, int, int);
17913bca4c6SSepherosa Ziehau static int vge_miibus_writereg (device_t, int, int, int);
18013bca4c6SSepherosa Ziehau static void vge_miibus_statchg (device_t);
18113bca4c6SSepherosa Ziehau
18213bca4c6SSepherosa Ziehau static void vge_cam_clear (struct vge_softc *);
18313bca4c6SSepherosa Ziehau static int vge_cam_set (struct vge_softc *, uint8_t *);
18413bca4c6SSepherosa Ziehau static void vge_setmulti (struct vge_softc *);
18513bca4c6SSepherosa Ziehau static void vge_reset (struct vge_softc *);
18613bca4c6SSepherosa Ziehau
1874e5366b5SSepherosa Ziehau #ifdef IFPOLL_ENABLE
1884e5366b5SSepherosa Ziehau static void vge_npoll(struct ifnet *, struct ifpoll_info *);
1894e5366b5SSepherosa Ziehau static void vge_npoll_compat(struct ifnet *, void *, int);
19013bca4c6SSepherosa Ziehau static void vge_disable_intr(struct vge_softc *);
19113bca4c6SSepherosa Ziehau #endif
19213bca4c6SSepherosa Ziehau static void vge_enable_intr(struct vge_softc *, uint32_t);
19313bca4c6SSepherosa Ziehau
19413bca4c6SSepherosa Ziehau #define VGE_PCI_LOIO 0x10
19513bca4c6SSepherosa Ziehau #define VGE_PCI_LOMEM 0x14
19613bca4c6SSepherosa Ziehau
19713bca4c6SSepherosa Ziehau static device_method_t vge_methods[] = {
19813bca4c6SSepherosa Ziehau /* Device interface */
19913bca4c6SSepherosa Ziehau DEVMETHOD(device_probe, vge_probe),
20013bca4c6SSepherosa Ziehau DEVMETHOD(device_attach, vge_attach),
20113bca4c6SSepherosa Ziehau DEVMETHOD(device_detach, vge_detach),
20213bca4c6SSepherosa Ziehau DEVMETHOD(device_suspend, vge_suspend),
20313bca4c6SSepherosa Ziehau DEVMETHOD(device_resume, vge_resume),
20413bca4c6SSepherosa Ziehau DEVMETHOD(device_shutdown, vge_shutdown),
20513bca4c6SSepherosa Ziehau
20613bca4c6SSepherosa Ziehau /* bus interface */
20713bca4c6SSepherosa Ziehau DEVMETHOD(bus_print_child, bus_generic_print_child),
20813bca4c6SSepherosa Ziehau DEVMETHOD(bus_driver_added, bus_generic_driver_added),
20913bca4c6SSepherosa Ziehau
21013bca4c6SSepherosa Ziehau /* MII interface */
21113bca4c6SSepherosa Ziehau DEVMETHOD(miibus_readreg, vge_miibus_readreg),
21213bca4c6SSepherosa Ziehau DEVMETHOD(miibus_writereg, vge_miibus_writereg),
21313bca4c6SSepherosa Ziehau DEVMETHOD(miibus_statchg, vge_miibus_statchg),
21413bca4c6SSepherosa Ziehau
215d3c9c58eSSascha Wildner DEVMETHOD_END
21613bca4c6SSepherosa Ziehau };
21713bca4c6SSepherosa Ziehau
21813bca4c6SSepherosa Ziehau static driver_t vge_driver = {
21913bca4c6SSepherosa Ziehau "vge",
22013bca4c6SSepherosa Ziehau vge_methods,
22113bca4c6SSepherosa Ziehau sizeof(struct vge_softc)
22213bca4c6SSepherosa Ziehau };
22313bca4c6SSepherosa Ziehau
22413bca4c6SSepherosa Ziehau static devclass_t vge_devclass;
22513bca4c6SSepherosa Ziehau
22613bca4c6SSepherosa Ziehau DECLARE_DUMMY_MODULE(if_vge);
22713bca4c6SSepherosa Ziehau MODULE_DEPEND(if_vge, miibus, 1, 1, 1);
228aa2b9d05SSascha Wildner DRIVER_MODULE(if_vge, pci, vge_driver, vge_devclass, NULL, NULL);
229aa2b9d05SSascha Wildner DRIVER_MODULE(if_vge, cardbus, vge_driver, vge_devclass, NULL, NULL);
230aa2b9d05SSascha Wildner DRIVER_MODULE(miibus, vge, miibus_driver, miibus_devclass, NULL, NULL);
23113bca4c6SSepherosa Ziehau
23213bca4c6SSepherosa Ziehau #ifdef VGE_EEPROM
23313bca4c6SSepherosa Ziehau /*
23413bca4c6SSepherosa Ziehau * Read a word of data stored in the EEPROM at address 'addr.'
23513bca4c6SSepherosa Ziehau */
23613bca4c6SSepherosa Ziehau static void
vge_eeprom_getword(struct vge_softc * sc,int addr,uint16_t dest)23713bca4c6SSepherosa Ziehau vge_eeprom_getword(struct vge_softc *sc, int addr, uint16_t dest)
23813bca4c6SSepherosa Ziehau {
23913bca4c6SSepherosa Ziehau uint16_t word = 0;
24013bca4c6SSepherosa Ziehau int i;
24113bca4c6SSepherosa Ziehau
24213bca4c6SSepherosa Ziehau /*
24313bca4c6SSepherosa Ziehau * Enter EEPROM embedded programming mode. In order to
24413bca4c6SSepherosa Ziehau * access the EEPROM at all, we first have to set the
24513bca4c6SSepherosa Ziehau * EELOAD bit in the CHIPCFG2 register.
24613bca4c6SSepherosa Ziehau */
24713bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_CHIPCFG2, VGE_CHIPCFG2_EELOAD);
24813bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_EECSR, VGE_EECSR_EMBP/*|VGE_EECSR_ECS*/);
24913bca4c6SSepherosa Ziehau
25013bca4c6SSepherosa Ziehau /* Select the address of the word we want to read */
25113bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_EEADDR, addr);
25213bca4c6SSepherosa Ziehau
25313bca4c6SSepherosa Ziehau /* Issue read command */
25413bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_EECMD, VGE_EECMD_ERD);
25513bca4c6SSepherosa Ziehau
25613bca4c6SSepherosa Ziehau /* Wait for the done bit to be set. */
25713bca4c6SSepherosa Ziehau for (i = 0; i < VGE_TIMEOUT; i++) {
25813bca4c6SSepherosa Ziehau if (CSR_READ_1(sc, VGE_EECMD) & VGE_EECMD_EDONE)
25913bca4c6SSepherosa Ziehau break;
26013bca4c6SSepherosa Ziehau }
26113bca4c6SSepherosa Ziehau if (i == VGE_TIMEOUT) {
26213bca4c6SSepherosa Ziehau device_printf(sc->vge_dev, "EEPROM read timed out\n");
26313bca4c6SSepherosa Ziehau *dest = 0;
26413bca4c6SSepherosa Ziehau return;
26513bca4c6SSepherosa Ziehau }
26613bca4c6SSepherosa Ziehau
26713bca4c6SSepherosa Ziehau /* Read the result */
26813bca4c6SSepherosa Ziehau word = CSR_READ_2(sc, VGE_EERDDAT);
26913bca4c6SSepherosa Ziehau
27013bca4c6SSepherosa Ziehau /* Turn off EEPROM access mode. */
27113bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_EECSR, VGE_EECSR_EMBP/*|VGE_EECSR_ECS*/);
27213bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_CHIPCFG2, VGE_CHIPCFG2_EELOAD);
27313bca4c6SSepherosa Ziehau
27413bca4c6SSepherosa Ziehau *dest = word;
27513bca4c6SSepherosa Ziehau }
27613bca4c6SSepherosa Ziehau #endif
27713bca4c6SSepherosa Ziehau
27813bca4c6SSepherosa Ziehau /*
27913bca4c6SSepherosa Ziehau * Read a sequence of words from the EEPROM.
28013bca4c6SSepherosa Ziehau */
28113bca4c6SSepherosa Ziehau static void
vge_read_eeprom(struct vge_softc * sc,uint8_t * dest,int off,int cnt,int swap)28213bca4c6SSepherosa Ziehau vge_read_eeprom(struct vge_softc *sc, uint8_t *dest, int off, int cnt, int swap)
28313bca4c6SSepherosa Ziehau {
28413bca4c6SSepherosa Ziehau int i;
28513bca4c6SSepherosa Ziehau #ifdef VGE_EEPROM
28613bca4c6SSepherosa Ziehau uint16_t word = 0, *ptr;
28713bca4c6SSepherosa Ziehau
28813bca4c6SSepherosa Ziehau for (i = 0; i < cnt; i++) {
28913bca4c6SSepherosa Ziehau vge_eeprom_getword(sc, off + i, &word);
29013bca4c6SSepherosa Ziehau ptr = (uint16_t *)(dest + (i * 2));
29113bca4c6SSepherosa Ziehau if (swap)
29213bca4c6SSepherosa Ziehau *ptr = ntohs(word);
29313bca4c6SSepherosa Ziehau else
29413bca4c6SSepherosa Ziehau *ptr = word;
29513bca4c6SSepherosa Ziehau }
29613bca4c6SSepherosa Ziehau #else
29713bca4c6SSepherosa Ziehau for (i = 0; i < ETHER_ADDR_LEN; i++)
29813bca4c6SSepherosa Ziehau dest[i] = CSR_READ_1(sc, VGE_PAR0 + i);
29913bca4c6SSepherosa Ziehau #endif
30013bca4c6SSepherosa Ziehau }
30113bca4c6SSepherosa Ziehau
30213bca4c6SSepherosa Ziehau static void
vge_miipoll_stop(struct vge_softc * sc)30313bca4c6SSepherosa Ziehau vge_miipoll_stop(struct vge_softc *sc)
30413bca4c6SSepherosa Ziehau {
30513bca4c6SSepherosa Ziehau int i;
30613bca4c6SSepherosa Ziehau
30713bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_MIICMD, 0);
30813bca4c6SSepherosa Ziehau
30913bca4c6SSepherosa Ziehau for (i = 0; i < VGE_TIMEOUT; i++) {
31013bca4c6SSepherosa Ziehau DELAY(1);
31113bca4c6SSepherosa Ziehau if (CSR_READ_1(sc, VGE_MIISTS) & VGE_MIISTS_IIDL)
31213bca4c6SSepherosa Ziehau break;
31313bca4c6SSepherosa Ziehau }
31413bca4c6SSepherosa Ziehau if (i == VGE_TIMEOUT)
31513bca4c6SSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "failed to idle MII autopoll\n");
31613bca4c6SSepherosa Ziehau }
31713bca4c6SSepherosa Ziehau
31813bca4c6SSepherosa Ziehau static void
vge_miipoll_start(struct vge_softc * sc)31913bca4c6SSepherosa Ziehau vge_miipoll_start(struct vge_softc *sc)
32013bca4c6SSepherosa Ziehau {
32113bca4c6SSepherosa Ziehau int i;
32213bca4c6SSepherosa Ziehau
32313bca4c6SSepherosa Ziehau /* First, make sure we're idle. */
32413bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_MIICMD, 0);
32513bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_MIIADDR, VGE_MIIADDR_SWMPL);
32613bca4c6SSepherosa Ziehau
32713bca4c6SSepherosa Ziehau for (i = 0; i < VGE_TIMEOUT; i++) {
32813bca4c6SSepherosa Ziehau DELAY(1);
32913bca4c6SSepherosa Ziehau if (CSR_READ_1(sc, VGE_MIISTS) & VGE_MIISTS_IIDL)
33013bca4c6SSepherosa Ziehau break;
33113bca4c6SSepherosa Ziehau }
33213bca4c6SSepherosa Ziehau if (i == VGE_TIMEOUT) {
33313bca4c6SSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "failed to idle MII autopoll\n");
33413bca4c6SSepherosa Ziehau return;
33513bca4c6SSepherosa Ziehau }
33613bca4c6SSepherosa Ziehau
33713bca4c6SSepherosa Ziehau /* Now enable auto poll mode. */
33813bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_MIICMD, VGE_MIICMD_MAUTO);
33913bca4c6SSepherosa Ziehau
34013bca4c6SSepherosa Ziehau /* And make sure it started. */
34113bca4c6SSepherosa Ziehau for (i = 0; i < VGE_TIMEOUT; i++) {
34213bca4c6SSepherosa Ziehau DELAY(1);
34313bca4c6SSepherosa Ziehau if ((CSR_READ_1(sc, VGE_MIISTS) & VGE_MIISTS_IIDL) == 0)
34413bca4c6SSepherosa Ziehau break;
34513bca4c6SSepherosa Ziehau }
34613bca4c6SSepherosa Ziehau if (i == VGE_TIMEOUT)
34713bca4c6SSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "failed to start MII autopoll\n");
34813bca4c6SSepherosa Ziehau }
34913bca4c6SSepherosa Ziehau
35013bca4c6SSepherosa Ziehau static int
vge_miibus_readreg(device_t dev,int phy,int reg)35113bca4c6SSepherosa Ziehau vge_miibus_readreg(device_t dev, int phy, int reg)
35213bca4c6SSepherosa Ziehau {
35313bca4c6SSepherosa Ziehau struct vge_softc *sc;
35413bca4c6SSepherosa Ziehau int i;
35513bca4c6SSepherosa Ziehau uint16_t rval = 0;
35613bca4c6SSepherosa Ziehau
35713bca4c6SSepherosa Ziehau sc = device_get_softc(dev);
35813bca4c6SSepherosa Ziehau
35913bca4c6SSepherosa Ziehau if (phy != (CSR_READ_1(sc, VGE_MIICFG) & 0x1F))
36013bca4c6SSepherosa Ziehau return(0);
36113bca4c6SSepherosa Ziehau
36213bca4c6SSepherosa Ziehau vge_miipoll_stop(sc);
36313bca4c6SSepherosa Ziehau
36413bca4c6SSepherosa Ziehau /* Specify the register we want to read. */
36513bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_MIIADDR, reg);
36613bca4c6SSepherosa Ziehau
36713bca4c6SSepherosa Ziehau /* Issue read command. */
36813bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_MIICMD, VGE_MIICMD_RCMD);
36913bca4c6SSepherosa Ziehau
37013bca4c6SSepherosa Ziehau /* Wait for the read command bit to self-clear. */
37113bca4c6SSepherosa Ziehau for (i = 0; i < VGE_TIMEOUT; i++) {
37213bca4c6SSepherosa Ziehau DELAY(1);
37313bca4c6SSepherosa Ziehau if ((CSR_READ_1(sc, VGE_MIICMD) & VGE_MIICMD_RCMD) == 0)
37413bca4c6SSepherosa Ziehau break;
37513bca4c6SSepherosa Ziehau }
37613bca4c6SSepherosa Ziehau if (i == VGE_TIMEOUT)
37713bca4c6SSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "MII read timed out\n");
37813bca4c6SSepherosa Ziehau else
37913bca4c6SSepherosa Ziehau rval = CSR_READ_2(sc, VGE_MIIDATA);
38013bca4c6SSepherosa Ziehau
38113bca4c6SSepherosa Ziehau vge_miipoll_start(sc);
38213bca4c6SSepherosa Ziehau
38313bca4c6SSepherosa Ziehau return (rval);
38413bca4c6SSepherosa Ziehau }
38513bca4c6SSepherosa Ziehau
38613bca4c6SSepherosa Ziehau static int
vge_miibus_writereg(device_t dev,int phy,int reg,int data)38713bca4c6SSepherosa Ziehau vge_miibus_writereg(device_t dev, int phy, int reg, int data)
38813bca4c6SSepherosa Ziehau {
38913bca4c6SSepherosa Ziehau struct vge_softc *sc;
39013bca4c6SSepherosa Ziehau int i, rval = 0;
39113bca4c6SSepherosa Ziehau
39213bca4c6SSepherosa Ziehau sc = device_get_softc(dev);
39313bca4c6SSepherosa Ziehau
39413bca4c6SSepherosa Ziehau if (phy != (CSR_READ_1(sc, VGE_MIICFG) & 0x1F))
39513bca4c6SSepherosa Ziehau return(0);
39613bca4c6SSepherosa Ziehau
39713bca4c6SSepherosa Ziehau vge_miipoll_stop(sc);
39813bca4c6SSepherosa Ziehau
39913bca4c6SSepherosa Ziehau /* Specify the register we want to write. */
40013bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_MIIADDR, reg);
40113bca4c6SSepherosa Ziehau
40213bca4c6SSepherosa Ziehau /* Specify the data we want to write. */
40313bca4c6SSepherosa Ziehau CSR_WRITE_2(sc, VGE_MIIDATA, data);
40413bca4c6SSepherosa Ziehau
40513bca4c6SSepherosa Ziehau /* Issue write command. */
40613bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_MIICMD, VGE_MIICMD_WCMD);
40713bca4c6SSepherosa Ziehau
40813bca4c6SSepherosa Ziehau /* Wait for the write command bit to self-clear. */
40913bca4c6SSepherosa Ziehau for (i = 0; i < VGE_TIMEOUT; i++) {
41013bca4c6SSepherosa Ziehau DELAY(1);
41113bca4c6SSepherosa Ziehau if ((CSR_READ_1(sc, VGE_MIICMD) & VGE_MIICMD_WCMD) == 0)
41213bca4c6SSepherosa Ziehau break;
41313bca4c6SSepherosa Ziehau }
41413bca4c6SSepherosa Ziehau if (i == VGE_TIMEOUT) {
41513bca4c6SSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "MII write timed out\n");
41613bca4c6SSepherosa Ziehau rval = EIO;
41713bca4c6SSepherosa Ziehau }
41813bca4c6SSepherosa Ziehau
41913bca4c6SSepherosa Ziehau vge_miipoll_start(sc);
42013bca4c6SSepherosa Ziehau
42113bca4c6SSepherosa Ziehau return (rval);
42213bca4c6SSepherosa Ziehau }
42313bca4c6SSepherosa Ziehau
42413bca4c6SSepherosa Ziehau static void
vge_cam_clear(struct vge_softc * sc)42513bca4c6SSepherosa Ziehau vge_cam_clear(struct vge_softc *sc)
42613bca4c6SSepherosa Ziehau {
42713bca4c6SSepherosa Ziehau int i;
42813bca4c6SSepherosa Ziehau
42913bca4c6SSepherosa Ziehau /*
43013bca4c6SSepherosa Ziehau * Turn off all the mask bits. This tells the chip
43113bca4c6SSepherosa Ziehau * that none of the entries in the CAM filter are valid.
43213bca4c6SSepherosa Ziehau * desired entries will be enabled as we fill the filter in.
43313bca4c6SSepherosa Ziehau */
43413bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_CAMCTL, VGE_CAMCTL_PAGESEL);
43513bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_CAMCTL, VGE_PAGESEL_CAMMASK);
43613bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CAMADDR, VGE_CAMADDR_ENABLE);
43713bca4c6SSepherosa Ziehau for (i = 0; i < 8; i++)
43813bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CAM0 + i, 0);
43913bca4c6SSepherosa Ziehau
44013bca4c6SSepherosa Ziehau /* Clear the VLAN filter too. */
44113bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CAMADDR, VGE_CAMADDR_ENABLE|VGE_CAMADDR_AVSEL|0);
44213bca4c6SSepherosa Ziehau for (i = 0; i < 8; i++)
44313bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CAM0 + i, 0);
44413bca4c6SSepherosa Ziehau
44513bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CAMADDR, 0);
44613bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_CAMCTL, VGE_CAMCTL_PAGESEL);
44713bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_CAMCTL, VGE_PAGESEL_MAR);
44813bca4c6SSepherosa Ziehau
44913bca4c6SSepherosa Ziehau sc->vge_camidx = 0;
45013bca4c6SSepherosa Ziehau }
45113bca4c6SSepherosa Ziehau
45213bca4c6SSepherosa Ziehau static int
vge_cam_set(struct vge_softc * sc,uint8_t * addr)45313bca4c6SSepherosa Ziehau vge_cam_set(struct vge_softc *sc, uint8_t *addr)
45413bca4c6SSepherosa Ziehau {
45513bca4c6SSepherosa Ziehau int i, error = 0;
45613bca4c6SSepherosa Ziehau
45713bca4c6SSepherosa Ziehau if (sc->vge_camidx == VGE_CAM_MAXADDRS)
45813bca4c6SSepherosa Ziehau return(ENOSPC);
45913bca4c6SSepherosa Ziehau
46013bca4c6SSepherosa Ziehau /* Select the CAM data page. */
46113bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_CAMCTL, VGE_CAMCTL_PAGESEL);
46213bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_CAMCTL, VGE_PAGESEL_CAMDATA);
46313bca4c6SSepherosa Ziehau
46413bca4c6SSepherosa Ziehau /* Set the filter entry we want to update and enable writing. */
46513bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CAMADDR, VGE_CAMADDR_ENABLE|sc->vge_camidx);
46613bca4c6SSepherosa Ziehau
46713bca4c6SSepherosa Ziehau /* Write the address to the CAM registers */
46813bca4c6SSepherosa Ziehau for (i = 0; i < ETHER_ADDR_LEN; i++)
46913bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CAM0 + i, addr[i]);
47013bca4c6SSepherosa Ziehau
47113bca4c6SSepherosa Ziehau /* Issue a write command. */
47213bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_CAMCTL, VGE_CAMCTL_WRITE);
47313bca4c6SSepherosa Ziehau
47413bca4c6SSepherosa Ziehau /* Wake for it to clear. */
47513bca4c6SSepherosa Ziehau for (i = 0; i < VGE_TIMEOUT; i++) {
47613bca4c6SSepherosa Ziehau DELAY(1);
47713bca4c6SSepherosa Ziehau if ((CSR_READ_1(sc, VGE_CAMCTL) & VGE_CAMCTL_WRITE) == 0)
47813bca4c6SSepherosa Ziehau break;
47913bca4c6SSepherosa Ziehau }
48013bca4c6SSepherosa Ziehau if (i == VGE_TIMEOUT) {
48113bca4c6SSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "setting CAM filter failed\n");
48213bca4c6SSepherosa Ziehau error = EIO;
48313bca4c6SSepherosa Ziehau goto fail;
48413bca4c6SSepherosa Ziehau }
48513bca4c6SSepherosa Ziehau
48613bca4c6SSepherosa Ziehau /* Select the CAM mask page. */
48713bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_CAMCTL, VGE_CAMCTL_PAGESEL);
48813bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_CAMCTL, VGE_PAGESEL_CAMMASK);
48913bca4c6SSepherosa Ziehau
49013bca4c6SSepherosa Ziehau /* Set the mask bit that enables this filter. */
49113bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_CAM0 + (sc->vge_camidx/8),
49213bca4c6SSepherosa Ziehau 1<<(sc->vge_camidx & 7));
49313bca4c6SSepherosa Ziehau
49413bca4c6SSepherosa Ziehau sc->vge_camidx++;
49513bca4c6SSepherosa Ziehau
49613bca4c6SSepherosa Ziehau fail:
49713bca4c6SSepherosa Ziehau /* Turn off access to CAM. */
49813bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CAMADDR, 0);
49913bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_CAMCTL, VGE_CAMCTL_PAGESEL);
50013bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_CAMCTL, VGE_PAGESEL_MAR);
50113bca4c6SSepherosa Ziehau
50213bca4c6SSepherosa Ziehau return (error);
50313bca4c6SSepherosa Ziehau }
50413bca4c6SSepherosa Ziehau
50513bca4c6SSepherosa Ziehau /*
50613bca4c6SSepherosa Ziehau * Program the multicast filter. We use the 64-entry CAM filter
50713bca4c6SSepherosa Ziehau * for perfect filtering. If there's more than 64 multicast addresses,
50813bca4c6SSepherosa Ziehau * we use the hash filter insted.
50913bca4c6SSepherosa Ziehau */
51013bca4c6SSepherosa Ziehau static void
vge_setmulti(struct vge_softc * sc)51113bca4c6SSepherosa Ziehau vge_setmulti(struct vge_softc *sc)
51213bca4c6SSepherosa Ziehau {
51313bca4c6SSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if;
51413bca4c6SSepherosa Ziehau int error = 0;
51513bca4c6SSepherosa Ziehau struct ifmultiaddr *ifma;
51613bca4c6SSepherosa Ziehau uint32_t h, hashes[2] = { 0, 0 };
51713bca4c6SSepherosa Ziehau
51813bca4c6SSepherosa Ziehau /* First, zot all the multicast entries. */
51913bca4c6SSepherosa Ziehau vge_cam_clear(sc);
52013bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_MAR0, 0);
52113bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_MAR1, 0);
52213bca4c6SSepherosa Ziehau
52313bca4c6SSepherosa Ziehau /*
52413bca4c6SSepherosa Ziehau * If the user wants allmulti or promisc mode, enable reception
52513bca4c6SSepherosa Ziehau * of all multicast frames.
52613bca4c6SSepherosa Ziehau */
52713bca4c6SSepherosa Ziehau if (ifp->if_flags & IFF_ALLMULTI || ifp->if_flags & IFF_PROMISC) {
52813bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_MAR0, 0xFFFFFFFF);
52913bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_MAR1, 0xFFFFFFFF);
53013bca4c6SSepherosa Ziehau return;
53113bca4c6SSepherosa Ziehau }
53213bca4c6SSepherosa Ziehau
53313bca4c6SSepherosa Ziehau /* Now program new ones */
534441d34b2SSascha Wildner TAILQ_FOREACH(ifma, &ifp->if_multiaddrs, ifma_link) {
53513bca4c6SSepherosa Ziehau if (ifma->ifma_addr->sa_family != AF_LINK)
53613bca4c6SSepherosa Ziehau continue;
53713bca4c6SSepherosa Ziehau error = vge_cam_set(sc,
53813bca4c6SSepherosa Ziehau LLADDR((struct sockaddr_dl *)ifma->ifma_addr));
53913bca4c6SSepherosa Ziehau if (error)
54013bca4c6SSepherosa Ziehau break;
54113bca4c6SSepherosa Ziehau }
54213bca4c6SSepherosa Ziehau
54313bca4c6SSepherosa Ziehau /* If there were too many addresses, use the hash filter. */
54413bca4c6SSepherosa Ziehau if (error) {
54513bca4c6SSepherosa Ziehau vge_cam_clear(sc);
54613bca4c6SSepherosa Ziehau
547441d34b2SSascha Wildner TAILQ_FOREACH(ifma, &ifp->if_multiaddrs, ifma_link) {
54813bca4c6SSepherosa Ziehau if (ifma->ifma_addr->sa_family != AF_LINK)
54913bca4c6SSepherosa Ziehau continue;
55013bca4c6SSepherosa Ziehau h = ether_crc32_be(LLADDR((struct sockaddr_dl *)
55113bca4c6SSepherosa Ziehau ifma->ifma_addr), ETHER_ADDR_LEN) >> 26;
55213bca4c6SSepherosa Ziehau if (h < 32)
55313bca4c6SSepherosa Ziehau hashes[0] |= (1 << h);
55413bca4c6SSepherosa Ziehau else
55513bca4c6SSepherosa Ziehau hashes[1] |= (1 << (h - 32));
55613bca4c6SSepherosa Ziehau }
55713bca4c6SSepherosa Ziehau
55813bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_MAR0, hashes[0]);
55913bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_MAR1, hashes[1]);
56013bca4c6SSepherosa Ziehau }
56113bca4c6SSepherosa Ziehau }
56213bca4c6SSepherosa Ziehau
56313bca4c6SSepherosa Ziehau static void
vge_reset(struct vge_softc * sc)56413bca4c6SSepherosa Ziehau vge_reset(struct vge_softc *sc)
56513bca4c6SSepherosa Ziehau {
56613bca4c6SSepherosa Ziehau int i;
56713bca4c6SSepherosa Ziehau
56813bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRS1, VGE_CR1_SOFTRESET);
56913bca4c6SSepherosa Ziehau
57013bca4c6SSepherosa Ziehau for (i = 0; i < VGE_TIMEOUT; i++) {
57113bca4c6SSepherosa Ziehau DELAY(5);
57213bca4c6SSepherosa Ziehau if ((CSR_READ_1(sc, VGE_CRS1) & VGE_CR1_SOFTRESET) == 0)
57313bca4c6SSepherosa Ziehau break;
57413bca4c6SSepherosa Ziehau }
57513bca4c6SSepherosa Ziehau
57613bca4c6SSepherosa Ziehau if (i == VGE_TIMEOUT) {
57713bca4c6SSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "soft reset timed out");
57813bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRS3, VGE_CR3_STOP_FORCE);
57913bca4c6SSepherosa Ziehau DELAY(2000);
58013bca4c6SSepherosa Ziehau }
58113bca4c6SSepherosa Ziehau
58213bca4c6SSepherosa Ziehau DELAY(5000);
58313bca4c6SSepherosa Ziehau
58413bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_EECSR, VGE_EECSR_RELOAD);
58513bca4c6SSepherosa Ziehau
58613bca4c6SSepherosa Ziehau for (i = 0; i < VGE_TIMEOUT; i++) {
58713bca4c6SSepherosa Ziehau DELAY(5);
58813bca4c6SSepherosa Ziehau if ((CSR_READ_1(sc, VGE_EECSR) & VGE_EECSR_RELOAD) == 0)
58913bca4c6SSepherosa Ziehau break;
59013bca4c6SSepherosa Ziehau }
59113bca4c6SSepherosa Ziehau if (i == VGE_TIMEOUT) {
59213bca4c6SSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "EEPROM reload timed out\n");
59313bca4c6SSepherosa Ziehau return;
59413bca4c6SSepherosa Ziehau }
59513bca4c6SSepherosa Ziehau
59613bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_CHIPCFG0, VGE_CHIPCFG0_PACPI);
59713bca4c6SSepherosa Ziehau }
59813bca4c6SSepherosa Ziehau
59913bca4c6SSepherosa Ziehau /*
60013bca4c6SSepherosa Ziehau * Probe for a VIA gigabit chip. Check the PCI vendor and device
60113bca4c6SSepherosa Ziehau * IDs against our list and return a device name if we find a match.
60213bca4c6SSepherosa Ziehau */
60313bca4c6SSepherosa Ziehau static int
vge_probe(device_t dev)60413bca4c6SSepherosa Ziehau vge_probe(device_t dev)
60513bca4c6SSepherosa Ziehau {
60613bca4c6SSepherosa Ziehau const struct vge_type *t;
60713bca4c6SSepherosa Ziehau uint16_t did, vid;
60813bca4c6SSepherosa Ziehau
60913bca4c6SSepherosa Ziehau did = pci_get_device(dev);
61013bca4c6SSepherosa Ziehau vid = pci_get_vendor(dev);
61113bca4c6SSepherosa Ziehau for (t = vge_devs; t->vge_name != NULL; ++t) {
61213bca4c6SSepherosa Ziehau if (vid == t->vge_vid && did == t->vge_did) {
61313bca4c6SSepherosa Ziehau device_set_desc(dev, t->vge_name);
61413bca4c6SSepherosa Ziehau return 0;
61513bca4c6SSepherosa Ziehau }
61613bca4c6SSepherosa Ziehau }
61713bca4c6SSepherosa Ziehau return (ENXIO);
61813bca4c6SSepherosa Ziehau }
61913bca4c6SSepherosa Ziehau
62013bca4c6SSepherosa Ziehau static void
vge_dma_map_rx_desc(void * arg,bus_dma_segment_t * segs,int nseg,bus_size_t mapsize,int error)62113bca4c6SSepherosa Ziehau vge_dma_map_rx_desc(void *arg, bus_dma_segment_t *segs, int nseg,
62213bca4c6SSepherosa Ziehau bus_size_t mapsize, int error)
62313bca4c6SSepherosa Ziehau {
62413bca4c6SSepherosa Ziehau
62513bca4c6SSepherosa Ziehau struct vge_dmaload_arg *ctx;
62613bca4c6SSepherosa Ziehau struct vge_rx_desc *d = NULL;
62713bca4c6SSepherosa Ziehau
62813bca4c6SSepherosa Ziehau if (error)
62913bca4c6SSepherosa Ziehau return;
63013bca4c6SSepherosa Ziehau
63113bca4c6SSepherosa Ziehau ctx = arg;
63213bca4c6SSepherosa Ziehau
63313bca4c6SSepherosa Ziehau /* Signal error to caller if there's too many segments */
63413bca4c6SSepherosa Ziehau if (nseg > ctx->vge_maxsegs) {
63513bca4c6SSepherosa Ziehau ctx->vge_maxsegs = 0;
63613bca4c6SSepherosa Ziehau return;
63713bca4c6SSepherosa Ziehau }
63813bca4c6SSepherosa Ziehau
63913bca4c6SSepherosa Ziehau /*
64013bca4c6SSepherosa Ziehau * Map the segment array into descriptors.
64113bca4c6SSepherosa Ziehau */
64213bca4c6SSepherosa Ziehau d = &ctx->sc->vge_ldata.vge_rx_list[ctx->vge_idx];
64313bca4c6SSepherosa Ziehau
64413bca4c6SSepherosa Ziehau /* If this descriptor is still owned by the chip, bail. */
64513bca4c6SSepherosa Ziehau if (le32toh(d->vge_sts) & VGE_RDSTS_OWN) {
64613bca4c6SSepherosa Ziehau if_printf(&ctx->sc->arpcom.ac_if,
64713bca4c6SSepherosa Ziehau "tried to map busy descriptor\n");
64813bca4c6SSepherosa Ziehau ctx->vge_maxsegs = 0;
64913bca4c6SSepherosa Ziehau return;
65013bca4c6SSepherosa Ziehau }
65113bca4c6SSepherosa Ziehau
65213bca4c6SSepherosa Ziehau d->vge_buflen = htole16(VGE_BUFLEN(segs[0].ds_len) | VGE_RXDESC_I);
65313bca4c6SSepherosa Ziehau d->vge_addrlo = htole32(VGE_ADDR_LO(segs[0].ds_addr));
65413bca4c6SSepherosa Ziehau d->vge_addrhi = htole16(VGE_ADDR_HI(segs[0].ds_addr) & 0xFFFF);
65513bca4c6SSepherosa Ziehau d->vge_sts = 0;
65613bca4c6SSepherosa Ziehau d->vge_ctl = 0;
65713bca4c6SSepherosa Ziehau
65813bca4c6SSepherosa Ziehau ctx->vge_maxsegs = 1;
65913bca4c6SSepherosa Ziehau }
66013bca4c6SSepherosa Ziehau
66113bca4c6SSepherosa Ziehau static void
vge_dma_map_tx_desc(void * arg,bus_dma_segment_t * segs,int nseg,bus_size_t mapsize,int error)66213bca4c6SSepherosa Ziehau vge_dma_map_tx_desc(void *arg, bus_dma_segment_t *segs, int nseg,
66313bca4c6SSepherosa Ziehau bus_size_t mapsize, int error)
66413bca4c6SSepherosa Ziehau {
66513bca4c6SSepherosa Ziehau struct vge_dmaload_arg *ctx;
66613bca4c6SSepherosa Ziehau struct vge_tx_desc *d = NULL;
66713bca4c6SSepherosa Ziehau struct vge_tx_frag *f;
66813bca4c6SSepherosa Ziehau int i = 0;
66913bca4c6SSepherosa Ziehau
67013bca4c6SSepherosa Ziehau if (error)
67113bca4c6SSepherosa Ziehau return;
67213bca4c6SSepherosa Ziehau
67313bca4c6SSepherosa Ziehau ctx = arg;
67413bca4c6SSepherosa Ziehau
67513bca4c6SSepherosa Ziehau /* Signal error to caller if there's too many segments */
67613bca4c6SSepherosa Ziehau if (nseg > ctx->vge_maxsegs) {
67713bca4c6SSepherosa Ziehau ctx->vge_maxsegs = 0;
67813bca4c6SSepherosa Ziehau return;
67913bca4c6SSepherosa Ziehau }
68013bca4c6SSepherosa Ziehau
68113bca4c6SSepherosa Ziehau /* Map the segment array into descriptors. */
68213bca4c6SSepherosa Ziehau d = &ctx->sc->vge_ldata.vge_tx_list[ctx->vge_idx];
68313bca4c6SSepherosa Ziehau
68413bca4c6SSepherosa Ziehau /* If this descriptor is still owned by the chip, bail. */
68513bca4c6SSepherosa Ziehau if (le32toh(d->vge_sts) & VGE_TDSTS_OWN) {
68613bca4c6SSepherosa Ziehau ctx->vge_maxsegs = 0;
68713bca4c6SSepherosa Ziehau return;
68813bca4c6SSepherosa Ziehau }
68913bca4c6SSepherosa Ziehau
69013bca4c6SSepherosa Ziehau for (i = 0; i < nseg; i++) {
69113bca4c6SSepherosa Ziehau f = &d->vge_frag[i];
69213bca4c6SSepherosa Ziehau f->vge_buflen = htole16(VGE_BUFLEN(segs[i].ds_len));
69313bca4c6SSepherosa Ziehau f->vge_addrlo = htole32(VGE_ADDR_LO(segs[i].ds_addr));
69413bca4c6SSepherosa Ziehau f->vge_addrhi = htole16(VGE_ADDR_HI(segs[i].ds_addr) & 0xFFFF);
69513bca4c6SSepherosa Ziehau }
69613bca4c6SSepherosa Ziehau
69713bca4c6SSepherosa Ziehau /* Argh. This chip does not autopad short frames */
69813bca4c6SSepherosa Ziehau if (ctx->vge_m0->m_pkthdr.len < VGE_MIN_FRAMELEN) {
69913bca4c6SSepherosa Ziehau f = &d->vge_frag[i];
70013bca4c6SSepherosa Ziehau f->vge_buflen = htole16(VGE_BUFLEN(VGE_MIN_FRAMELEN -
70113bca4c6SSepherosa Ziehau ctx->vge_m0->m_pkthdr.len));
70213bca4c6SSepherosa Ziehau f->vge_addrlo = htole32(VGE_ADDR_LO(segs[0].ds_addr));
70313bca4c6SSepherosa Ziehau f->vge_addrhi = htole16(VGE_ADDR_HI(segs[0].ds_addr) & 0xFFFF);
70413bca4c6SSepherosa Ziehau ctx->vge_m0->m_pkthdr.len = VGE_MIN_FRAMELEN;
70513bca4c6SSepherosa Ziehau i++;
70613bca4c6SSepherosa Ziehau }
70713bca4c6SSepherosa Ziehau
70813bca4c6SSepherosa Ziehau /*
70913bca4c6SSepherosa Ziehau * When telling the chip how many segments there are, we
71013bca4c6SSepherosa Ziehau * must use nsegs + 1 instead of just nsegs. Darned if I
71113bca4c6SSepherosa Ziehau * know why.
71213bca4c6SSepherosa Ziehau */
71313bca4c6SSepherosa Ziehau i++;
71413bca4c6SSepherosa Ziehau
71513bca4c6SSepherosa Ziehau d->vge_sts = ctx->vge_m0->m_pkthdr.len << 16;
71613bca4c6SSepherosa Ziehau d->vge_ctl = ctx->vge_flags|(i << 28)|VGE_TD_LS_NORM;
71713bca4c6SSepherosa Ziehau
71813bca4c6SSepherosa Ziehau if (ctx->vge_m0->m_pkthdr.len > ETHERMTU + ETHER_HDR_LEN)
71913bca4c6SSepherosa Ziehau d->vge_ctl |= VGE_TDCTL_JUMBO;
72013bca4c6SSepherosa Ziehau
72113bca4c6SSepherosa Ziehau ctx->vge_maxsegs = nseg;
72213bca4c6SSepherosa Ziehau }
72313bca4c6SSepherosa Ziehau
72413bca4c6SSepherosa Ziehau /*
72513bca4c6SSepherosa Ziehau * Map a single buffer address.
72613bca4c6SSepherosa Ziehau */
72713bca4c6SSepherosa Ziehau
72813bca4c6SSepherosa Ziehau static void
vge_dma_map_addr(void * arg,bus_dma_segment_t * segs,int nseg,int error)72913bca4c6SSepherosa Ziehau vge_dma_map_addr(void *arg, bus_dma_segment_t *segs, int nseg, int error)
73013bca4c6SSepherosa Ziehau {
73113bca4c6SSepherosa Ziehau if (error)
73213bca4c6SSepherosa Ziehau return;
73313bca4c6SSepherosa Ziehau
73413bca4c6SSepherosa Ziehau KASSERT(nseg == 1, ("too many DMA segments, %d should be 1", nseg));
73513bca4c6SSepherosa Ziehau *((bus_addr_t *)arg) = segs->ds_addr;
73613bca4c6SSepherosa Ziehau }
73713bca4c6SSepherosa Ziehau
73813bca4c6SSepherosa Ziehau static int
vge_dma_alloc(device_t dev)73913bca4c6SSepherosa Ziehau vge_dma_alloc(device_t dev)
74013bca4c6SSepherosa Ziehau {
74113bca4c6SSepherosa Ziehau struct vge_softc *sc = device_get_softc(dev);
74213bca4c6SSepherosa Ziehau int error, nseg, i, tx_pos = 0, rx_pos = 0;
74313bca4c6SSepherosa Ziehau
74413bca4c6SSepherosa Ziehau /*
74513bca4c6SSepherosa Ziehau * Allocate the parent bus DMA tag appropriate for PCI.
74613bca4c6SSepherosa Ziehau */
74713bca4c6SSepherosa Ziehau #define VGE_NSEG_NEW 32
74813bca4c6SSepherosa Ziehau error = bus_dma_tag_create(NULL, /* parent */
74913bca4c6SSepherosa Ziehau 1, 0, /* alignment, boundary */
75013bca4c6SSepherosa Ziehau BUS_SPACE_MAXADDR_32BIT,/* lowaddr */
75113bca4c6SSepherosa Ziehau BUS_SPACE_MAXADDR, /* highaddr */
75213bca4c6SSepherosa Ziehau MAXBSIZE, VGE_NSEG_NEW, /* maxsize, nsegments */
75313bca4c6SSepherosa Ziehau BUS_SPACE_MAXSIZE_32BIT,/* maxsegsize */
75413bca4c6SSepherosa Ziehau BUS_DMA_ALLOCNOW, /* flags */
75513bca4c6SSepherosa Ziehau &sc->vge_parent_tag);
75613bca4c6SSepherosa Ziehau if (error) {
75713bca4c6SSepherosa Ziehau device_printf(dev, "can't create parent dma tag\n");
75813bca4c6SSepherosa Ziehau return error;
75913bca4c6SSepherosa Ziehau }
76013bca4c6SSepherosa Ziehau
76113bca4c6SSepherosa Ziehau /*
76213bca4c6SSepherosa Ziehau * Allocate map for RX mbufs.
76313bca4c6SSepherosa Ziehau */
76413bca4c6SSepherosa Ziehau nseg = 32;
76513bca4c6SSepherosa Ziehau error = bus_dma_tag_create(sc->vge_parent_tag, ETHER_ALIGN, 0,
76613bca4c6SSepherosa Ziehau BUS_SPACE_MAXADDR_32BIT, BUS_SPACE_MAXADDR,
76713bca4c6SSepherosa Ziehau MCLBYTES * nseg, nseg, MCLBYTES,
76813bca4c6SSepherosa Ziehau BUS_DMA_ALLOCNOW, &sc->vge_ldata.vge_mtag);
76913bca4c6SSepherosa Ziehau if (error) {
77013bca4c6SSepherosa Ziehau device_printf(dev, "could not allocate mbuf dma tag\n");
77113bca4c6SSepherosa Ziehau return error;
77213bca4c6SSepherosa Ziehau }
77313bca4c6SSepherosa Ziehau
77413bca4c6SSepherosa Ziehau /*
77513bca4c6SSepherosa Ziehau * Allocate map for TX descriptor list.
77613bca4c6SSepherosa Ziehau */
77713bca4c6SSepherosa Ziehau error = bus_dma_tag_create(sc->vge_parent_tag, VGE_RING_ALIGN, 0,
77813bca4c6SSepherosa Ziehau BUS_SPACE_MAXADDR_32BIT, BUS_SPACE_MAXADDR,
77913bca4c6SSepherosa Ziehau VGE_TX_LIST_SZ, 1, VGE_TX_LIST_SZ,
78013bca4c6SSepherosa Ziehau BUS_DMA_ALLOCNOW,
78113bca4c6SSepherosa Ziehau &sc->vge_ldata.vge_tx_list_tag);
78213bca4c6SSepherosa Ziehau if (error) {
78313bca4c6SSepherosa Ziehau device_printf(dev, "could not allocate tx list dma tag\n");
78413bca4c6SSepherosa Ziehau return error;
78513bca4c6SSepherosa Ziehau }
78613bca4c6SSepherosa Ziehau
78713bca4c6SSepherosa Ziehau /* Allocate DMA'able memory for the TX ring */
78813bca4c6SSepherosa Ziehau error = bus_dmamem_alloc(sc->vge_ldata.vge_tx_list_tag,
78913bca4c6SSepherosa Ziehau (void **)&sc->vge_ldata.vge_tx_list,
79013bca4c6SSepherosa Ziehau BUS_DMA_WAITOK | BUS_DMA_ZERO,
79113bca4c6SSepherosa Ziehau &sc->vge_ldata.vge_tx_list_map);
79213bca4c6SSepherosa Ziehau if (error) {
79313bca4c6SSepherosa Ziehau device_printf(dev, "could not allocate tx list dma memory\n");
79413bca4c6SSepherosa Ziehau return error;
79513bca4c6SSepherosa Ziehau }
79613bca4c6SSepherosa Ziehau
79713bca4c6SSepherosa Ziehau /* Load the map for the TX ring. */
79813bca4c6SSepherosa Ziehau error = bus_dmamap_load(sc->vge_ldata.vge_tx_list_tag,
79913bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_list_map,
80013bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_list, VGE_TX_LIST_SZ,
80113bca4c6SSepherosa Ziehau vge_dma_map_addr,
80213bca4c6SSepherosa Ziehau &sc->vge_ldata.vge_tx_list_addr,
80313bca4c6SSepherosa Ziehau BUS_DMA_WAITOK);
80413bca4c6SSepherosa Ziehau if (error) {
80513bca4c6SSepherosa Ziehau device_printf(dev, "could not load tx list\n");
80613bca4c6SSepherosa Ziehau bus_dmamem_free(sc->vge_ldata.vge_tx_list_tag,
80713bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_list,
80813bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_list_map);
80913bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_list = NULL;
81013bca4c6SSepherosa Ziehau return error;
81113bca4c6SSepherosa Ziehau }
81213bca4c6SSepherosa Ziehau
81313bca4c6SSepherosa Ziehau /* Create DMA maps for TX buffers */
81413bca4c6SSepherosa Ziehau for (i = 0; i < VGE_TX_DESC_CNT; i++) {
81513bca4c6SSepherosa Ziehau error = bus_dmamap_create(sc->vge_ldata.vge_mtag, 0,
81613bca4c6SSepherosa Ziehau &sc->vge_ldata.vge_tx_dmamap[i]);
81713bca4c6SSepherosa Ziehau if (error) {
81813bca4c6SSepherosa Ziehau device_printf(dev, "can't create DMA map for TX\n");
81913bca4c6SSepherosa Ziehau tx_pos = i;
82013bca4c6SSepherosa Ziehau goto map_fail;
82113bca4c6SSepherosa Ziehau }
82213bca4c6SSepherosa Ziehau }
82313bca4c6SSepherosa Ziehau tx_pos = VGE_TX_DESC_CNT;
82413bca4c6SSepherosa Ziehau
82513bca4c6SSepherosa Ziehau /*
82613bca4c6SSepherosa Ziehau * Allocate map for RX descriptor list.
82713bca4c6SSepherosa Ziehau */
82813bca4c6SSepherosa Ziehau error = bus_dma_tag_create(sc->vge_parent_tag, VGE_RING_ALIGN, 0,
82913bca4c6SSepherosa Ziehau BUS_SPACE_MAXADDR_32BIT, BUS_SPACE_MAXADDR,
83013bca4c6SSepherosa Ziehau VGE_TX_LIST_SZ, 1, VGE_TX_LIST_SZ,
83113bca4c6SSepherosa Ziehau BUS_DMA_ALLOCNOW,
83213bca4c6SSepherosa Ziehau &sc->vge_ldata.vge_rx_list_tag);
83313bca4c6SSepherosa Ziehau if (error) {
83413bca4c6SSepherosa Ziehau device_printf(dev, "could not allocate rx list dma tag\n");
83513bca4c6SSepherosa Ziehau return error;
83613bca4c6SSepherosa Ziehau }
83713bca4c6SSepherosa Ziehau
83813bca4c6SSepherosa Ziehau /* Allocate DMA'able memory for the RX ring */
83913bca4c6SSepherosa Ziehau error = bus_dmamem_alloc(sc->vge_ldata.vge_rx_list_tag,
84013bca4c6SSepherosa Ziehau (void **)&sc->vge_ldata.vge_rx_list,
84113bca4c6SSepherosa Ziehau BUS_DMA_WAITOK | BUS_DMA_ZERO,
84213bca4c6SSepherosa Ziehau &sc->vge_ldata.vge_rx_list_map);
84313bca4c6SSepherosa Ziehau if (error) {
84413bca4c6SSepherosa Ziehau device_printf(dev, "could not allocate rx list dma memory\n");
84513bca4c6SSepherosa Ziehau return error;
84613bca4c6SSepherosa Ziehau }
84713bca4c6SSepherosa Ziehau
84813bca4c6SSepherosa Ziehau /* Load the map for the RX ring. */
84913bca4c6SSepherosa Ziehau error = bus_dmamap_load(sc->vge_ldata.vge_rx_list_tag,
85013bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_list_map,
85113bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_list, VGE_TX_LIST_SZ,
85213bca4c6SSepherosa Ziehau vge_dma_map_addr,
85313bca4c6SSepherosa Ziehau &sc->vge_ldata.vge_rx_list_addr,
85413bca4c6SSepherosa Ziehau BUS_DMA_WAITOK);
85513bca4c6SSepherosa Ziehau if (error) {
85613bca4c6SSepherosa Ziehau device_printf(dev, "could not load rx list\n");
85713bca4c6SSepherosa Ziehau bus_dmamem_free(sc->vge_ldata.vge_rx_list_tag,
85813bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_list,
85913bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_list_map);
86013bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_list = NULL;
86113bca4c6SSepherosa Ziehau return error;
86213bca4c6SSepherosa Ziehau }
86313bca4c6SSepherosa Ziehau
86413bca4c6SSepherosa Ziehau /* Create DMA maps for RX buffers */
86513bca4c6SSepherosa Ziehau for (i = 0; i < VGE_RX_DESC_CNT; i++) {
86613bca4c6SSepherosa Ziehau error = bus_dmamap_create(sc->vge_ldata.vge_mtag, 0,
86713bca4c6SSepherosa Ziehau &sc->vge_ldata.vge_rx_dmamap[i]);
86813bca4c6SSepherosa Ziehau if (error) {
86913bca4c6SSepherosa Ziehau device_printf(dev, "can't create DMA map for RX\n");
87013bca4c6SSepherosa Ziehau rx_pos = i;
87113bca4c6SSepherosa Ziehau goto map_fail;
87213bca4c6SSepherosa Ziehau }
87313bca4c6SSepherosa Ziehau }
87413bca4c6SSepherosa Ziehau return (0);
87513bca4c6SSepherosa Ziehau
87613bca4c6SSepherosa Ziehau map_fail:
87713bca4c6SSepherosa Ziehau for (i = 0; i < tx_pos; ++i) {
87813bca4c6SSepherosa Ziehau error = bus_dmamap_destroy(sc->vge_ldata.vge_mtag,
87913bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_dmamap[i]);
88013bca4c6SSepherosa Ziehau }
88113bca4c6SSepherosa Ziehau for (i = 0; i < rx_pos; ++i) {
88213bca4c6SSepherosa Ziehau error = bus_dmamap_destroy(sc->vge_ldata.vge_mtag,
88313bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_dmamap[i]);
88413bca4c6SSepherosa Ziehau }
88513bca4c6SSepherosa Ziehau bus_dma_tag_destroy(sc->vge_ldata.vge_mtag);
88613bca4c6SSepherosa Ziehau sc->vge_ldata.vge_mtag = NULL;
88713bca4c6SSepherosa Ziehau
88813bca4c6SSepherosa Ziehau return error;
88913bca4c6SSepherosa Ziehau }
89013bca4c6SSepherosa Ziehau
89113bca4c6SSepherosa Ziehau static void
vge_dma_free(struct vge_softc * sc)89213bca4c6SSepherosa Ziehau vge_dma_free(struct vge_softc *sc)
89313bca4c6SSepherosa Ziehau {
89413bca4c6SSepherosa Ziehau /* Unload and free the RX DMA ring memory and map */
89513bca4c6SSepherosa Ziehau if (sc->vge_ldata.vge_rx_list_tag) {
89613bca4c6SSepherosa Ziehau bus_dmamap_unload(sc->vge_ldata.vge_rx_list_tag,
89713bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_list_map);
89813bca4c6SSepherosa Ziehau bus_dmamem_free(sc->vge_ldata.vge_rx_list_tag,
89913bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_list,
90013bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_list_map);
90113bca4c6SSepherosa Ziehau }
90213bca4c6SSepherosa Ziehau
90313bca4c6SSepherosa Ziehau if (sc->vge_ldata.vge_rx_list_tag)
90413bca4c6SSepherosa Ziehau bus_dma_tag_destroy(sc->vge_ldata.vge_rx_list_tag);
90513bca4c6SSepherosa Ziehau
90613bca4c6SSepherosa Ziehau /* Unload and free the TX DMA ring memory and map */
90713bca4c6SSepherosa Ziehau if (sc->vge_ldata.vge_tx_list_tag) {
90813bca4c6SSepherosa Ziehau bus_dmamap_unload(sc->vge_ldata.vge_tx_list_tag,
90913bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_list_map);
91013bca4c6SSepherosa Ziehau bus_dmamem_free(sc->vge_ldata.vge_tx_list_tag,
91113bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_list,
91213bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_list_map);
91313bca4c6SSepherosa Ziehau }
91413bca4c6SSepherosa Ziehau
91513bca4c6SSepherosa Ziehau if (sc->vge_ldata.vge_tx_list_tag)
91613bca4c6SSepherosa Ziehau bus_dma_tag_destroy(sc->vge_ldata.vge_tx_list_tag);
91713bca4c6SSepherosa Ziehau
91813bca4c6SSepherosa Ziehau /* Destroy all the RX and TX buffer maps */
91913bca4c6SSepherosa Ziehau if (sc->vge_ldata.vge_mtag) {
92013bca4c6SSepherosa Ziehau int i;
92113bca4c6SSepherosa Ziehau
92213bca4c6SSepherosa Ziehau for (i = 0; i < VGE_TX_DESC_CNT; i++) {
92313bca4c6SSepherosa Ziehau bus_dmamap_destroy(sc->vge_ldata.vge_mtag,
92413bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_dmamap[i]);
92513bca4c6SSepherosa Ziehau }
92613bca4c6SSepherosa Ziehau for (i = 0; i < VGE_RX_DESC_CNT; i++) {
92713bca4c6SSepherosa Ziehau bus_dmamap_destroy(sc->vge_ldata.vge_mtag,
92813bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_dmamap[i]);
92913bca4c6SSepherosa Ziehau }
93013bca4c6SSepherosa Ziehau bus_dma_tag_destroy(sc->vge_ldata.vge_mtag);
93113bca4c6SSepherosa Ziehau }
93213bca4c6SSepherosa Ziehau
93313bca4c6SSepherosa Ziehau if (sc->vge_parent_tag)
93413bca4c6SSepherosa Ziehau bus_dma_tag_destroy(sc->vge_parent_tag);
93513bca4c6SSepherosa Ziehau }
93613bca4c6SSepherosa Ziehau
93713bca4c6SSepherosa Ziehau /*
93813bca4c6SSepherosa Ziehau * Attach the interface. Allocate softc structures, do ifmedia
93913bca4c6SSepherosa Ziehau * setup and ethernet/BPF attach.
94013bca4c6SSepherosa Ziehau */
94113bca4c6SSepherosa Ziehau static int
vge_attach(device_t dev)94213bca4c6SSepherosa Ziehau vge_attach(device_t dev)
94313bca4c6SSepherosa Ziehau {
94413bca4c6SSepherosa Ziehau uint8_t eaddr[ETHER_ADDR_LEN];
94513bca4c6SSepherosa Ziehau struct vge_softc *sc;
94613bca4c6SSepherosa Ziehau struct ifnet *ifp;
94713bca4c6SSepherosa Ziehau int error = 0;
94813bca4c6SSepherosa Ziehau
94913bca4c6SSepherosa Ziehau sc = device_get_softc(dev);
95013bca4c6SSepherosa Ziehau ifp = &sc->arpcom.ac_if;
95113bca4c6SSepherosa Ziehau
95213bca4c6SSepherosa Ziehau /* Initialize if_xname early, so if_printf() can be used */
95313bca4c6SSepherosa Ziehau if_initname(ifp, device_get_name(dev), device_get_unit(dev));
95413bca4c6SSepherosa Ziehau
95513bca4c6SSepherosa Ziehau /*
95613bca4c6SSepherosa Ziehau * Map control/status registers.
95713bca4c6SSepherosa Ziehau */
95813bca4c6SSepherosa Ziehau pci_enable_busmaster(dev);
95913bca4c6SSepherosa Ziehau
96013bca4c6SSepherosa Ziehau sc->vge_res_rid = VGE_PCI_LOMEM;
96113bca4c6SSepherosa Ziehau sc->vge_res = bus_alloc_resource_any(dev, SYS_RES_MEMORY,
96213bca4c6SSepherosa Ziehau &sc->vge_res_rid, RF_ACTIVE);
96313bca4c6SSepherosa Ziehau if (sc->vge_res == NULL) {
96413bca4c6SSepherosa Ziehau device_printf(dev, "couldn't map ports/memory\n");
96513bca4c6SSepherosa Ziehau return ENXIO;
96613bca4c6SSepherosa Ziehau }
96713bca4c6SSepherosa Ziehau
96813bca4c6SSepherosa Ziehau sc->vge_btag = rman_get_bustag(sc->vge_res);
96913bca4c6SSepherosa Ziehau sc->vge_bhandle = rman_get_bushandle(sc->vge_res);
97013bca4c6SSepherosa Ziehau
97113bca4c6SSepherosa Ziehau /* Allocate interrupt */
97213bca4c6SSepherosa Ziehau sc->vge_irq_rid = 0;
97313bca4c6SSepherosa Ziehau sc->vge_irq = bus_alloc_resource_any(dev, SYS_RES_IRQ, &sc->vge_irq_rid,
97413bca4c6SSepherosa Ziehau RF_SHAREABLE | RF_ACTIVE);
97513bca4c6SSepherosa Ziehau if (sc->vge_irq == NULL) {
97613bca4c6SSepherosa Ziehau device_printf(dev, "couldn't map interrupt\n");
97713bca4c6SSepherosa Ziehau error = ENXIO;
97813bca4c6SSepherosa Ziehau goto fail;
97913bca4c6SSepherosa Ziehau }
98013bca4c6SSepherosa Ziehau
98113bca4c6SSepherosa Ziehau /* Reset the adapter. */
98213bca4c6SSepherosa Ziehau vge_reset(sc);
98313bca4c6SSepherosa Ziehau
98413bca4c6SSepherosa Ziehau /*
98513bca4c6SSepherosa Ziehau * Get station address from the EEPROM.
98613bca4c6SSepherosa Ziehau */
98713bca4c6SSepherosa Ziehau vge_read_eeprom(sc, eaddr, VGE_EE_EADDR, 3, 0);
98813bca4c6SSepherosa Ziehau
98913bca4c6SSepherosa Ziehau /* Allocate DMA related stuffs */
99013bca4c6SSepherosa Ziehau error = vge_dma_alloc(dev);
99113bca4c6SSepherosa Ziehau if (error)
99213bca4c6SSepherosa Ziehau goto fail;
99313bca4c6SSepherosa Ziehau
99413bca4c6SSepherosa Ziehau /* Do MII setup */
99513bca4c6SSepherosa Ziehau error = mii_phy_probe(dev, &sc->vge_miibus, vge_ifmedia_upd,
99613bca4c6SSepherosa Ziehau vge_ifmedia_sts);
99713bca4c6SSepherosa Ziehau if (error) {
99813bca4c6SSepherosa Ziehau device_printf(dev, "MII without any phy!\n");
99913bca4c6SSepherosa Ziehau goto fail;
100013bca4c6SSepherosa Ziehau }
100113bca4c6SSepherosa Ziehau
100213bca4c6SSepherosa Ziehau ifp->if_softc = sc;
100313bca4c6SSepherosa Ziehau ifp->if_mtu = ETHERMTU;
100413bca4c6SSepherosa Ziehau ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST;
100513bca4c6SSepherosa Ziehau ifp->if_init = vge_init;
100613bca4c6SSepherosa Ziehau ifp->if_start = vge_start;
100713bca4c6SSepherosa Ziehau ifp->if_watchdog = vge_watchdog;
100813bca4c6SSepherosa Ziehau ifp->if_ioctl = vge_ioctl;
10094e5366b5SSepherosa Ziehau #ifdef IFPOLL_ENABLE
10104e5366b5SSepherosa Ziehau ifp->if_npoll = vge_npoll;
101113bca4c6SSepherosa Ziehau #endif
101213bca4c6SSepherosa Ziehau ifp->if_hwassist = VGE_CSUM_FEATURES;
101313bca4c6SSepherosa Ziehau ifp->if_capabilities = IFCAP_VLAN_MTU |
101413bca4c6SSepherosa Ziehau IFCAP_HWCSUM |
101513bca4c6SSepherosa Ziehau IFCAP_VLAN_HWTAGGING;
101613bca4c6SSepherosa Ziehau ifp->if_capenable = ifp->if_capabilities;
101713bca4c6SSepherosa Ziehau ifq_set_maxlen(&ifp->if_snd, VGE_IFQ_MAXLEN);
101813bca4c6SSepherosa Ziehau ifq_set_ready(&ifp->if_snd);
101913bca4c6SSepherosa Ziehau
102013bca4c6SSepherosa Ziehau /*
102113bca4c6SSepherosa Ziehau * Call MI attach routine.
102213bca4c6SSepherosa Ziehau */
102313bca4c6SSepherosa Ziehau ether_ifattach(ifp, eaddr, NULL);
102413bca4c6SSepherosa Ziehau
10254c77af2dSSepherosa Ziehau ifq_set_cpuid(&ifp->if_snd, rman_get_cpuid(sc->vge_irq));
10264c77af2dSSepherosa Ziehau
10274e5366b5SSepherosa Ziehau #ifdef IFPOLL_ENABLE
10284e5366b5SSepherosa Ziehau ifpoll_compat_setup(&sc->vge_npoll, NULL, NULL, device_get_unit(dev),
10294e5366b5SSepherosa Ziehau ifp->if_serializer);
10304e5366b5SSepherosa Ziehau #endif
10314e5366b5SSepherosa Ziehau
103213bca4c6SSepherosa Ziehau /* Hook interrupt last to avoid having to lock softc */
103313bca4c6SSepherosa Ziehau error = bus_setup_intr(dev, sc->vge_irq, INTR_MPSAFE, vge_intr, sc,
103413bca4c6SSepherosa Ziehau &sc->vge_intrhand, ifp->if_serializer);
103513bca4c6SSepherosa Ziehau if (error) {
103613bca4c6SSepherosa Ziehau device_printf(dev, "couldn't set up irq\n");
103713bca4c6SSepherosa Ziehau ether_ifdetach(ifp);
103813bca4c6SSepherosa Ziehau goto fail;
103913bca4c6SSepherosa Ziehau }
104013bca4c6SSepherosa Ziehau
104113bca4c6SSepherosa Ziehau return 0;
104213bca4c6SSepherosa Ziehau fail:
104313bca4c6SSepherosa Ziehau vge_detach(dev);
104413bca4c6SSepherosa Ziehau return error;
104513bca4c6SSepherosa Ziehau }
104613bca4c6SSepherosa Ziehau
104713bca4c6SSepherosa Ziehau /*
104813bca4c6SSepherosa Ziehau * Shutdown hardware and free up resources. This can be called any
104913bca4c6SSepherosa Ziehau * time after the mutex has been initialized. It is called in both
105013bca4c6SSepherosa Ziehau * the error case in attach and the normal detach case so it needs
105113bca4c6SSepherosa Ziehau * to be careful about only freeing resources that have actually been
105213bca4c6SSepherosa Ziehau * allocated.
105313bca4c6SSepherosa Ziehau */
105413bca4c6SSepherosa Ziehau static int
vge_detach(device_t dev)105513bca4c6SSepherosa Ziehau vge_detach(device_t dev)
105613bca4c6SSepherosa Ziehau {
105713bca4c6SSepherosa Ziehau struct vge_softc *sc = device_get_softc(dev);
105813bca4c6SSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if;
105913bca4c6SSepherosa Ziehau
106013bca4c6SSepherosa Ziehau /* These should only be active if attach succeeded */
106113bca4c6SSepherosa Ziehau if (device_is_attached(dev)) {
106213bca4c6SSepherosa Ziehau lwkt_serialize_enter(ifp->if_serializer);
106313bca4c6SSepherosa Ziehau
106413bca4c6SSepherosa Ziehau vge_stop(sc);
106513bca4c6SSepherosa Ziehau bus_teardown_intr(dev, sc->vge_irq, sc->vge_intrhand);
106613bca4c6SSepherosa Ziehau /*
106713bca4c6SSepherosa Ziehau * Force off the IFF_UP flag here, in case someone
106813bca4c6SSepherosa Ziehau * still had a BPF descriptor attached to this
106913bca4c6SSepherosa Ziehau * interface. If they do, ether_ifattach() will cause
107013bca4c6SSepherosa Ziehau * the BPF code to try and clear the promisc mode
107113bca4c6SSepherosa Ziehau * flag, which will bubble down to vge_ioctl(),
107213bca4c6SSepherosa Ziehau * which will try to call vge_init() again. This will
107313bca4c6SSepherosa Ziehau * turn the NIC back on and restart the MII ticker,
107413bca4c6SSepherosa Ziehau * which will panic the system when the kernel tries
107513bca4c6SSepherosa Ziehau * to invoke the vge_tick() function that isn't there
107613bca4c6SSepherosa Ziehau * anymore.
107713bca4c6SSepherosa Ziehau */
107813bca4c6SSepherosa Ziehau ifp->if_flags &= ~IFF_UP;
107913bca4c6SSepherosa Ziehau
108013bca4c6SSepherosa Ziehau lwkt_serialize_exit(ifp->if_serializer);
108113bca4c6SSepherosa Ziehau
108213bca4c6SSepherosa Ziehau ether_ifdetach(ifp);
108313bca4c6SSepherosa Ziehau }
108413bca4c6SSepherosa Ziehau
108513bca4c6SSepherosa Ziehau if (sc->vge_miibus)
108613bca4c6SSepherosa Ziehau device_delete_child(dev, sc->vge_miibus);
108713bca4c6SSepherosa Ziehau bus_generic_detach(dev);
108813bca4c6SSepherosa Ziehau
108913bca4c6SSepherosa Ziehau if (sc->vge_irq) {
109013bca4c6SSepherosa Ziehau bus_release_resource(dev, SYS_RES_IRQ, sc->vge_irq_rid,
109113bca4c6SSepherosa Ziehau sc->vge_irq);
109213bca4c6SSepherosa Ziehau }
109313bca4c6SSepherosa Ziehau
109413bca4c6SSepherosa Ziehau if (sc->vge_res) {
109513bca4c6SSepherosa Ziehau bus_release_resource(dev, SYS_RES_MEMORY, sc->vge_res_rid,
109613bca4c6SSepherosa Ziehau sc->vge_res);
109713bca4c6SSepherosa Ziehau }
109813bca4c6SSepherosa Ziehau
109913bca4c6SSepherosa Ziehau vge_dma_free(sc);
110013bca4c6SSepherosa Ziehau return (0);
110113bca4c6SSepherosa Ziehau }
110213bca4c6SSepherosa Ziehau
110313bca4c6SSepherosa Ziehau static int
vge_newbuf(struct vge_softc * sc,int idx,struct mbuf * m)110413bca4c6SSepherosa Ziehau vge_newbuf(struct vge_softc *sc, int idx, struct mbuf *m)
110513bca4c6SSepherosa Ziehau {
110613bca4c6SSepherosa Ziehau struct vge_dmaload_arg arg;
110713bca4c6SSepherosa Ziehau struct mbuf *n = NULL;
110813bca4c6SSepherosa Ziehau int i, error;
110913bca4c6SSepherosa Ziehau
111013bca4c6SSepherosa Ziehau if (m == NULL) {
1111*b5523eacSSascha Wildner n = m_getcl(M_NOWAIT, MT_DATA, M_PKTHDR);
111213bca4c6SSepherosa Ziehau if (n == NULL)
111313bca4c6SSepherosa Ziehau return (ENOBUFS);
111413bca4c6SSepherosa Ziehau m = n;
111513bca4c6SSepherosa Ziehau } else {
111613bca4c6SSepherosa Ziehau m->m_data = m->m_ext.ext_buf;
111713bca4c6SSepherosa Ziehau }
111813bca4c6SSepherosa Ziehau
111913bca4c6SSepherosa Ziehau
112013bca4c6SSepherosa Ziehau #ifdef VGE_FIXUP_RX
112113bca4c6SSepherosa Ziehau /*
112213bca4c6SSepherosa Ziehau * This is part of an evil trick to deal with non-x86 platforms.
112313bca4c6SSepherosa Ziehau * The VIA chip requires RX buffers to be aligned on 32-bit
112413bca4c6SSepherosa Ziehau * boundaries, but that will hose non-x86 machines. To get around
112513bca4c6SSepherosa Ziehau * this, we leave some empty space at the start of each buffer
112613bca4c6SSepherosa Ziehau * and for non-x86 hosts, we copy the buffer back two bytes
112713bca4c6SSepherosa Ziehau * to achieve word alignment. This is slightly more efficient
112813bca4c6SSepherosa Ziehau * than allocating a new buffer, copying the contents, and
112913bca4c6SSepherosa Ziehau * discarding the old buffer.
113013bca4c6SSepherosa Ziehau */
113113bca4c6SSepherosa Ziehau m->m_len = m->m_pkthdr.len = MCLBYTES - VGE_ETHER_ALIGN;
113213bca4c6SSepherosa Ziehau m_adj(m, VGE_ETHER_ALIGN);
113313bca4c6SSepherosa Ziehau #else
113413bca4c6SSepherosa Ziehau m->m_len = m->m_pkthdr.len = MCLBYTES;
113513bca4c6SSepherosa Ziehau #endif
113613bca4c6SSepherosa Ziehau
113713bca4c6SSepherosa Ziehau arg.sc = sc;
113813bca4c6SSepherosa Ziehau arg.vge_idx = idx;
113913bca4c6SSepherosa Ziehau arg.vge_maxsegs = 1;
114013bca4c6SSepherosa Ziehau arg.vge_flags = 0;
114113bca4c6SSepherosa Ziehau
114213bca4c6SSepherosa Ziehau error = bus_dmamap_load_mbuf(sc->vge_ldata.vge_mtag,
114313bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_dmamap[idx], m,
114413bca4c6SSepherosa Ziehau vge_dma_map_rx_desc, &arg, BUS_DMA_NOWAIT);
114513bca4c6SSepherosa Ziehau if (error || arg.vge_maxsegs != 1) {
114613bca4c6SSepherosa Ziehau if (n != NULL)
114713bca4c6SSepherosa Ziehau m_freem(n);
114813bca4c6SSepherosa Ziehau return (ENOMEM);
114913bca4c6SSepherosa Ziehau }
115013bca4c6SSepherosa Ziehau
115113bca4c6SSepherosa Ziehau /*
115213bca4c6SSepherosa Ziehau * Note: the manual fails to document the fact that for
115313bca4c6SSepherosa Ziehau * proper opration, the driver needs to replentish the RX
115413bca4c6SSepherosa Ziehau * DMA ring 4 descriptors at a time (rather than one at a
115513bca4c6SSepherosa Ziehau * time, like most chips). We can allocate the new buffers
115613bca4c6SSepherosa Ziehau * but we should not set the OWN bits until we're ready
115713bca4c6SSepherosa Ziehau * to hand back 4 of them in one shot.
115813bca4c6SSepherosa Ziehau */
115913bca4c6SSepherosa Ziehau
116013bca4c6SSepherosa Ziehau #define VGE_RXCHUNK 4
116113bca4c6SSepherosa Ziehau sc->vge_rx_consumed++;
116213bca4c6SSepherosa Ziehau if (sc->vge_rx_consumed == VGE_RXCHUNK) {
116313bca4c6SSepherosa Ziehau for (i = idx; i != idx - sc->vge_rx_consumed; i--) {
116413bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_list[i].vge_sts |=
116513bca4c6SSepherosa Ziehau htole32(VGE_RDSTS_OWN);
116613bca4c6SSepherosa Ziehau }
116713bca4c6SSepherosa Ziehau sc->vge_rx_consumed = 0;
116813bca4c6SSepherosa Ziehau }
116913bca4c6SSepherosa Ziehau
117013bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_mbuf[idx] = m;
117113bca4c6SSepherosa Ziehau
117213bca4c6SSepherosa Ziehau bus_dmamap_sync(sc->vge_ldata.vge_mtag,
117313bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_dmamap[idx], BUS_DMASYNC_PREREAD);
117413bca4c6SSepherosa Ziehau
117513bca4c6SSepherosa Ziehau return (0);
117613bca4c6SSepherosa Ziehau }
117713bca4c6SSepherosa Ziehau
117813bca4c6SSepherosa Ziehau static int
vge_tx_list_init(struct vge_softc * sc)11797b9f668cSSascha Wildner vge_tx_list_init(struct vge_softc *sc)
118013bca4c6SSepherosa Ziehau {
118113bca4c6SSepherosa Ziehau bzero ((char *)sc->vge_ldata.vge_tx_list, VGE_TX_LIST_SZ);
118213bca4c6SSepherosa Ziehau bzero ((char *)&sc->vge_ldata.vge_tx_mbuf,
118313bca4c6SSepherosa Ziehau (VGE_TX_DESC_CNT * sizeof(struct mbuf *)));
118413bca4c6SSepherosa Ziehau
118513bca4c6SSepherosa Ziehau bus_dmamap_sync(sc->vge_ldata.vge_tx_list_tag,
118613bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_list_map, BUS_DMASYNC_PREWRITE);
118713bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_prodidx = 0;
118813bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_considx = 0;
118913bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_free = VGE_TX_DESC_CNT;
119013bca4c6SSepherosa Ziehau
119113bca4c6SSepherosa Ziehau return (0);
119213bca4c6SSepherosa Ziehau }
119313bca4c6SSepherosa Ziehau
119413bca4c6SSepherosa Ziehau static int
vge_rx_list_init(struct vge_softc * sc)119513bca4c6SSepherosa Ziehau vge_rx_list_init(struct vge_softc *sc)
119613bca4c6SSepherosa Ziehau {
119713bca4c6SSepherosa Ziehau int i;
119813bca4c6SSepherosa Ziehau
119913bca4c6SSepherosa Ziehau bzero(sc->vge_ldata.vge_rx_list, VGE_RX_LIST_SZ);
120013bca4c6SSepherosa Ziehau bzero(&sc->vge_ldata.vge_rx_mbuf,
120113bca4c6SSepherosa Ziehau VGE_RX_DESC_CNT * sizeof(struct mbuf *));
120213bca4c6SSepherosa Ziehau
120313bca4c6SSepherosa Ziehau sc->vge_rx_consumed = 0;
120413bca4c6SSepherosa Ziehau
120513bca4c6SSepherosa Ziehau for (i = 0; i < VGE_RX_DESC_CNT; i++) {
120613bca4c6SSepherosa Ziehau if (vge_newbuf(sc, i, NULL) == ENOBUFS)
120713bca4c6SSepherosa Ziehau return (ENOBUFS);
120813bca4c6SSepherosa Ziehau }
120913bca4c6SSepherosa Ziehau
121013bca4c6SSepherosa Ziehau /* Flush the RX descriptors */
121113bca4c6SSepherosa Ziehau bus_dmamap_sync(sc->vge_ldata.vge_rx_list_tag,
121213bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_list_map,
121313bca4c6SSepherosa Ziehau BUS_DMASYNC_PREWRITE);
121413bca4c6SSepherosa Ziehau
121513bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_prodidx = 0;
121613bca4c6SSepherosa Ziehau sc->vge_rx_consumed = 0;
121713bca4c6SSepherosa Ziehau sc->vge_head = sc->vge_tail = NULL;
121813bca4c6SSepherosa Ziehau return (0);
121913bca4c6SSepherosa Ziehau }
122013bca4c6SSepherosa Ziehau
122113bca4c6SSepherosa Ziehau #ifdef VGE_FIXUP_RX
122213bca4c6SSepherosa Ziehau static __inline void
vge_fixup_rx(struct mbuf * m)122313bca4c6SSepherosa Ziehau vge_fixup_rx(struct mbuf *m)
122413bca4c6SSepherosa Ziehau {
122513bca4c6SSepherosa Ziehau uint16_t *src, *dst;
122613bca4c6SSepherosa Ziehau int i;
122713bca4c6SSepherosa Ziehau
122813bca4c6SSepherosa Ziehau src = mtod(m, uint16_t *);
122913bca4c6SSepherosa Ziehau dst = src - 1;
123013bca4c6SSepherosa Ziehau
123113bca4c6SSepherosa Ziehau for (i = 0; i < (m->m_len / sizeof(uint16_t) + 1); i++)
123213bca4c6SSepherosa Ziehau *dst++ = *src++;
123313bca4c6SSepherosa Ziehau
123413bca4c6SSepherosa Ziehau m->m_data -= ETHER_ALIGN;
123513bca4c6SSepherosa Ziehau }
123613bca4c6SSepherosa Ziehau #endif
123713bca4c6SSepherosa Ziehau
123813bca4c6SSepherosa Ziehau /*
123913bca4c6SSepherosa Ziehau * RX handler. We support the reception of jumbo frames that have
124013bca4c6SSepherosa Ziehau * been fragmented across multiple 2K mbuf cluster buffers.
124113bca4c6SSepherosa Ziehau */
124213bca4c6SSepherosa Ziehau static void
vge_rxeof(struct vge_softc * sc,int count)124313bca4c6SSepherosa Ziehau vge_rxeof(struct vge_softc *sc, int count)
124413bca4c6SSepherosa Ziehau {
124513bca4c6SSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if;
124613bca4c6SSepherosa Ziehau struct mbuf *m;
124713bca4c6SSepherosa Ziehau int i, total_len, lim = 0;
124813bca4c6SSepherosa Ziehau struct vge_rx_desc *cur_rx;
124913bca4c6SSepherosa Ziehau uint32_t rxstat, rxctl;
125013bca4c6SSepherosa Ziehau
125113bca4c6SSepherosa Ziehau ASSERT_SERIALIZED(ifp->if_serializer);
125213bca4c6SSepherosa Ziehau
125313bca4c6SSepherosa Ziehau i = sc->vge_ldata.vge_rx_prodidx;
125413bca4c6SSepherosa Ziehau
125513bca4c6SSepherosa Ziehau /* Invalidate the descriptor memory */
125613bca4c6SSepherosa Ziehau
125713bca4c6SSepherosa Ziehau bus_dmamap_sync(sc->vge_ldata.vge_rx_list_tag,
125813bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_list_map, BUS_DMASYNC_POSTREAD);
125913bca4c6SSepherosa Ziehau
126013bca4c6SSepherosa Ziehau while (!VGE_OWN(&sc->vge_ldata.vge_rx_list[i])) {
12614e5366b5SSepherosa Ziehau #ifdef IFPOLL_ENABLE
126213bca4c6SSepherosa Ziehau if (count >= 0 && count-- == 0)
126313bca4c6SSepherosa Ziehau break;
126413bca4c6SSepherosa Ziehau #endif
126513bca4c6SSepherosa Ziehau
126613bca4c6SSepherosa Ziehau cur_rx = &sc->vge_ldata.vge_rx_list[i];
126713bca4c6SSepherosa Ziehau m = sc->vge_ldata.vge_rx_mbuf[i];
126813bca4c6SSepherosa Ziehau total_len = VGE_RXBYTES(cur_rx);
126913bca4c6SSepherosa Ziehau rxstat = le32toh(cur_rx->vge_sts);
127013bca4c6SSepherosa Ziehau rxctl = le32toh(cur_rx->vge_ctl);
127113bca4c6SSepherosa Ziehau
127213bca4c6SSepherosa Ziehau /* Invalidate the RX mbuf and unload its map */
127313bca4c6SSepherosa Ziehau bus_dmamap_sync(sc->vge_ldata.vge_mtag,
127413bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_dmamap[i],
127513bca4c6SSepherosa Ziehau BUS_DMASYNC_POSTWRITE);
127613bca4c6SSepherosa Ziehau bus_dmamap_unload(sc->vge_ldata.vge_mtag,
127713bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_dmamap[i]);
127813bca4c6SSepherosa Ziehau
127913bca4c6SSepherosa Ziehau /*
128013bca4c6SSepherosa Ziehau * If the 'start of frame' bit is set, this indicates
128113bca4c6SSepherosa Ziehau * either the first fragment in a multi-fragment receive,
128213bca4c6SSepherosa Ziehau * or an intermediate fragment. Either way, we want to
128313bca4c6SSepherosa Ziehau * accumulate the buffers.
128413bca4c6SSepherosa Ziehau */
128513bca4c6SSepherosa Ziehau if (rxstat & VGE_RXPKT_SOF) {
128613bca4c6SSepherosa Ziehau m->m_len = MCLBYTES - VGE_ETHER_ALIGN;
128713bca4c6SSepherosa Ziehau if (sc->vge_head == NULL) {
128813bca4c6SSepherosa Ziehau sc->vge_head = sc->vge_tail = m;
128913bca4c6SSepherosa Ziehau } else {
129013bca4c6SSepherosa Ziehau m->m_flags &= ~M_PKTHDR;
129113bca4c6SSepherosa Ziehau sc->vge_tail->m_next = m;
129213bca4c6SSepherosa Ziehau sc->vge_tail = m;
129313bca4c6SSepherosa Ziehau }
129413bca4c6SSepherosa Ziehau vge_newbuf(sc, i, NULL);
129513bca4c6SSepherosa Ziehau VGE_RX_DESC_INC(i);
129613bca4c6SSepherosa Ziehau continue;
129713bca4c6SSepherosa Ziehau }
129813bca4c6SSepherosa Ziehau
129913bca4c6SSepherosa Ziehau /*
130013bca4c6SSepherosa Ziehau * Bad/error frames will have the RXOK bit cleared.
130113bca4c6SSepherosa Ziehau * However, there's one error case we want to allow:
130213bca4c6SSepherosa Ziehau * if a VLAN tagged frame arrives and the chip can't
130313bca4c6SSepherosa Ziehau * match it against the CAM filter, it considers this
130413bca4c6SSepherosa Ziehau * a 'VLAN CAM filter miss' and clears the 'RXOK' bit.
130513bca4c6SSepherosa Ziehau * We don't want to drop the frame though: our VLAN
130613bca4c6SSepherosa Ziehau * filtering is done in software.
130713bca4c6SSepherosa Ziehau */
130813bca4c6SSepherosa Ziehau if (!(rxstat & VGE_RDSTS_RXOK) && !(rxstat & VGE_RDSTS_VIDM) &&
130913bca4c6SSepherosa Ziehau !(rxstat & VGE_RDSTS_CSUMERR)) {
1310d40991efSSepherosa Ziehau IFNET_STAT_INC(ifp, ierrors, 1);
131113bca4c6SSepherosa Ziehau /*
131213bca4c6SSepherosa Ziehau * If this is part of a multi-fragment packet,
131313bca4c6SSepherosa Ziehau * discard all the pieces.
131413bca4c6SSepherosa Ziehau */
131513bca4c6SSepherosa Ziehau if (sc->vge_head != NULL) {
131613bca4c6SSepherosa Ziehau m_freem(sc->vge_head);
131713bca4c6SSepherosa Ziehau sc->vge_head = sc->vge_tail = NULL;
131813bca4c6SSepherosa Ziehau }
131913bca4c6SSepherosa Ziehau vge_newbuf(sc, i, m);
132013bca4c6SSepherosa Ziehau VGE_RX_DESC_INC(i);
132113bca4c6SSepherosa Ziehau continue;
132213bca4c6SSepherosa Ziehau }
132313bca4c6SSepherosa Ziehau
132413bca4c6SSepherosa Ziehau /*
132513bca4c6SSepherosa Ziehau * If allocating a replacement mbuf fails,
132613bca4c6SSepherosa Ziehau * reload the current one.
132713bca4c6SSepherosa Ziehau */
132813bca4c6SSepherosa Ziehau if (vge_newbuf(sc, i, NULL)) {
1329d40991efSSepherosa Ziehau IFNET_STAT_INC(ifp, ierrors, 1);
133013bca4c6SSepherosa Ziehau if (sc->vge_head != NULL) {
133113bca4c6SSepherosa Ziehau m_freem(sc->vge_head);
133213bca4c6SSepherosa Ziehau sc->vge_head = sc->vge_tail = NULL;
133313bca4c6SSepherosa Ziehau }
133413bca4c6SSepherosa Ziehau vge_newbuf(sc, i, m);
133513bca4c6SSepherosa Ziehau VGE_RX_DESC_INC(i);
133613bca4c6SSepherosa Ziehau continue;
133713bca4c6SSepherosa Ziehau }
133813bca4c6SSepherosa Ziehau
133913bca4c6SSepherosa Ziehau VGE_RX_DESC_INC(i);
134013bca4c6SSepherosa Ziehau
134113bca4c6SSepherosa Ziehau if (sc->vge_head != NULL) {
134213bca4c6SSepherosa Ziehau m->m_len = total_len % (MCLBYTES - VGE_ETHER_ALIGN);
134313bca4c6SSepherosa Ziehau /*
134413bca4c6SSepherosa Ziehau * Special case: if there's 4 bytes or less
134513bca4c6SSepherosa Ziehau * in this buffer, the mbuf can be discarded:
134613bca4c6SSepherosa Ziehau * the last 4 bytes is the CRC, which we don't
134713bca4c6SSepherosa Ziehau * care about anyway.
134813bca4c6SSepherosa Ziehau */
134913bca4c6SSepherosa Ziehau if (m->m_len <= ETHER_CRC_LEN) {
135013bca4c6SSepherosa Ziehau sc->vge_tail->m_len -=
135113bca4c6SSepherosa Ziehau (ETHER_CRC_LEN - m->m_len);
135213bca4c6SSepherosa Ziehau m_freem(m);
135313bca4c6SSepherosa Ziehau } else {
135413bca4c6SSepherosa Ziehau m->m_len -= ETHER_CRC_LEN;
135513bca4c6SSepherosa Ziehau m->m_flags &= ~M_PKTHDR;
135613bca4c6SSepherosa Ziehau sc->vge_tail->m_next = m;
135713bca4c6SSepherosa Ziehau }
135813bca4c6SSepherosa Ziehau m = sc->vge_head;
135913bca4c6SSepherosa Ziehau sc->vge_head = sc->vge_tail = NULL;
136013bca4c6SSepherosa Ziehau m->m_pkthdr.len = total_len - ETHER_CRC_LEN;
136113bca4c6SSepherosa Ziehau } else {
136213bca4c6SSepherosa Ziehau m->m_pkthdr.len = m->m_len =
136313bca4c6SSepherosa Ziehau (total_len - ETHER_CRC_LEN);
136413bca4c6SSepherosa Ziehau }
136513bca4c6SSepherosa Ziehau
136613bca4c6SSepherosa Ziehau #ifdef VGE_FIXUP_RX
136713bca4c6SSepherosa Ziehau vge_fixup_rx(m);
136813bca4c6SSepherosa Ziehau #endif
1369d40991efSSepherosa Ziehau IFNET_STAT_INC(ifp, ipackets, 1);
137013bca4c6SSepherosa Ziehau m->m_pkthdr.rcvif = ifp;
137113bca4c6SSepherosa Ziehau
137213bca4c6SSepherosa Ziehau /* Do RX checksumming if enabled */
137313bca4c6SSepherosa Ziehau if (ifp->if_capenable & IFCAP_RXCSUM) {
137413bca4c6SSepherosa Ziehau /* Check IP header checksum */
137513bca4c6SSepherosa Ziehau if (rxctl & VGE_RDCTL_IPPKT)
137613bca4c6SSepherosa Ziehau m->m_pkthdr.csum_flags |= CSUM_IP_CHECKED;
137713bca4c6SSepherosa Ziehau if (rxctl & VGE_RDCTL_IPCSUMOK)
137813bca4c6SSepherosa Ziehau m->m_pkthdr.csum_flags |= CSUM_IP_VALID;
137913bca4c6SSepherosa Ziehau
138013bca4c6SSepherosa Ziehau /* Check TCP/UDP checksum */
138113bca4c6SSepherosa Ziehau if (rxctl & (VGE_RDCTL_TCPPKT|VGE_RDCTL_UDPPKT) &&
138213bca4c6SSepherosa Ziehau rxctl & VGE_RDCTL_PROTOCSUMOK) {
138313bca4c6SSepherosa Ziehau m->m_pkthdr.csum_flags |=
1384fbb35ef0SSepherosa Ziehau CSUM_DATA_VALID|CSUM_PSEUDO_HDR|
1385fbb35ef0SSepherosa Ziehau CSUM_FRAG_NOT_CHECKED;
138613bca4c6SSepherosa Ziehau m->m_pkthdr.csum_data = 0xffff;
138713bca4c6SSepherosa Ziehau }
138813bca4c6SSepherosa Ziehau }
138913bca4c6SSepherosa Ziehau
1390e6b5847cSSepherosa Ziehau if (rxstat & VGE_RDSTS_VTAG) {
1391e6b5847cSSepherosa Ziehau m->m_flags |= M_VLANTAG;
1392e6b5847cSSepherosa Ziehau m->m_pkthdr.ether_vlantag =
1393e6b5847cSSepherosa Ziehau ntohs((rxctl & VGE_RDCTL_VLANID));
1394e6b5847cSSepherosa Ziehau }
139573029d08SFranco Fichtner ifp->if_input(ifp, m, NULL, -1);
139613bca4c6SSepherosa Ziehau
139713bca4c6SSepherosa Ziehau lim++;
139813bca4c6SSepherosa Ziehau if (lim == VGE_RX_DESC_CNT)
139913bca4c6SSepherosa Ziehau break;
140013bca4c6SSepherosa Ziehau }
140113bca4c6SSepherosa Ziehau
140213bca4c6SSepherosa Ziehau /* Flush the RX DMA ring */
140313bca4c6SSepherosa Ziehau bus_dmamap_sync(sc->vge_ldata.vge_rx_list_tag,
140413bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_list_map,
140513bca4c6SSepherosa Ziehau BUS_DMASYNC_PREWRITE);
140613bca4c6SSepherosa Ziehau
140713bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_prodidx = i;
140813bca4c6SSepherosa Ziehau CSR_WRITE_2(sc, VGE_RXDESC_RESIDUECNT, lim);
140913bca4c6SSepherosa Ziehau }
141013bca4c6SSepherosa Ziehau
141113bca4c6SSepherosa Ziehau static void
vge_txeof(struct vge_softc * sc)141213bca4c6SSepherosa Ziehau vge_txeof(struct vge_softc *sc)
141313bca4c6SSepherosa Ziehau {
141413bca4c6SSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if;
141513bca4c6SSepherosa Ziehau uint32_t txstat;
141613bca4c6SSepherosa Ziehau int idx;
141713bca4c6SSepherosa Ziehau
141813bca4c6SSepherosa Ziehau idx = sc->vge_ldata.vge_tx_considx;
141913bca4c6SSepherosa Ziehau
142013bca4c6SSepherosa Ziehau /* Invalidate the TX descriptor list */
142113bca4c6SSepherosa Ziehau
142213bca4c6SSepherosa Ziehau bus_dmamap_sync(sc->vge_ldata.vge_tx_list_tag,
142313bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_list_map, BUS_DMASYNC_POSTREAD);
142413bca4c6SSepherosa Ziehau
142513bca4c6SSepherosa Ziehau while (idx != sc->vge_ldata.vge_tx_prodidx) {
142613bca4c6SSepherosa Ziehau
142713bca4c6SSepherosa Ziehau txstat = le32toh(sc->vge_ldata.vge_tx_list[idx].vge_sts);
142813bca4c6SSepherosa Ziehau if (txstat & VGE_TDSTS_OWN)
142913bca4c6SSepherosa Ziehau break;
143013bca4c6SSepherosa Ziehau
143113bca4c6SSepherosa Ziehau m_freem(sc->vge_ldata.vge_tx_mbuf[idx]);
143213bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_mbuf[idx] = NULL;
143313bca4c6SSepherosa Ziehau bus_dmamap_unload(sc->vge_ldata.vge_mtag,
143413bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_dmamap[idx]);
143513bca4c6SSepherosa Ziehau if (txstat & (VGE_TDSTS_EXCESSCOLL|VGE_TDSTS_COLL))
1436d40991efSSepherosa Ziehau IFNET_STAT_INC(ifp, collisions, 1);
143713bca4c6SSepherosa Ziehau if (txstat & VGE_TDSTS_TXERR)
1438d40991efSSepherosa Ziehau IFNET_STAT_INC(ifp, oerrors, 1);
143913bca4c6SSepherosa Ziehau else
1440d40991efSSepherosa Ziehau IFNET_STAT_INC(ifp, opackets, 1);
144113bca4c6SSepherosa Ziehau
144213bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_free++;
144313bca4c6SSepherosa Ziehau VGE_TX_DESC_INC(idx);
144413bca4c6SSepherosa Ziehau }
144513bca4c6SSepherosa Ziehau
144613bca4c6SSepherosa Ziehau /* No changes made to the TX ring, so no flush needed */
144713bca4c6SSepherosa Ziehau if (idx != sc->vge_ldata.vge_tx_considx) {
144813bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_considx = idx;
14499ed293e0SSepherosa Ziehau ifq_clr_oactive(&ifp->if_snd);
145013bca4c6SSepherosa Ziehau ifp->if_timer = 0;
145113bca4c6SSepherosa Ziehau }
145213bca4c6SSepherosa Ziehau
145313bca4c6SSepherosa Ziehau /*
145413bca4c6SSepherosa Ziehau * If not all descriptors have been released reaped yet,
145513bca4c6SSepherosa Ziehau * reload the timer so that we will eventually get another
145613bca4c6SSepherosa Ziehau * interrupt that will cause us to re-enter this routine.
145713bca4c6SSepherosa Ziehau * This is done in case the transmitter has gone idle.
145813bca4c6SSepherosa Ziehau */
145913bca4c6SSepherosa Ziehau if (sc->vge_ldata.vge_tx_free != VGE_TX_DESC_CNT)
146013bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRS1, VGE_CR1_TIMER0_ENABLE);
146113bca4c6SSepherosa Ziehau }
146213bca4c6SSepherosa Ziehau
146313bca4c6SSepherosa Ziehau static void
vge_tick(struct vge_softc * sc)146413bca4c6SSepherosa Ziehau vge_tick(struct vge_softc *sc)
146513bca4c6SSepherosa Ziehau {
146613bca4c6SSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if;
146713bca4c6SSepherosa Ziehau struct mii_data *mii;
146813bca4c6SSepherosa Ziehau
146913bca4c6SSepherosa Ziehau mii = device_get_softc(sc->vge_miibus);
147013bca4c6SSepherosa Ziehau
147113bca4c6SSepherosa Ziehau mii_tick(mii);
147213bca4c6SSepherosa Ziehau if (sc->vge_link) {
1473f3e7c70dSSepherosa Ziehau if (!(mii->mii_media_status & IFM_ACTIVE))
147413bca4c6SSepherosa Ziehau sc->vge_link = 0;
147513bca4c6SSepherosa Ziehau } else {
147613bca4c6SSepherosa Ziehau if (mii->mii_media_status & IFM_ACTIVE &&
147713bca4c6SSepherosa Ziehau IFM_SUBTYPE(mii->mii_media_active) != IFM_NONE) {
147813bca4c6SSepherosa Ziehau sc->vge_link = 1;
147913bca4c6SSepherosa Ziehau if (!ifq_is_empty(&ifp->if_snd))
14809db4b353SSepherosa Ziehau if_devstart(ifp);
148113bca4c6SSepherosa Ziehau }
148213bca4c6SSepherosa Ziehau }
148313bca4c6SSepherosa Ziehau }
148413bca4c6SSepherosa Ziehau
14854e5366b5SSepherosa Ziehau #ifdef IFPOLL_ENABLE
14864e5366b5SSepherosa Ziehau
148713bca4c6SSepherosa Ziehau static void
vge_npoll_compat(struct ifnet * ifp,void * arg __unused,int count)14884e5366b5SSepherosa Ziehau vge_npoll_compat(struct ifnet *ifp, void *arg __unused, int count)
148913bca4c6SSepherosa Ziehau {
149013bca4c6SSepherosa Ziehau struct vge_softc *sc = ifp->if_softc;
149113bca4c6SSepherosa Ziehau
14924e5366b5SSepherosa Ziehau ASSERT_SERIALIZED(ifp->if_serializer);
149313bca4c6SSepherosa Ziehau
149413bca4c6SSepherosa Ziehau vge_rxeof(sc, count);
149513bca4c6SSepherosa Ziehau vge_txeof(sc);
149613bca4c6SSepherosa Ziehau
149713bca4c6SSepherosa Ziehau if (!ifq_is_empty(&ifp->if_snd))
14989db4b353SSepherosa Ziehau if_devstart(ifp);
149913bca4c6SSepherosa Ziehau
150013bca4c6SSepherosa Ziehau /* XXX copy & paste from vge_intr */
15014e5366b5SSepherosa Ziehau if (sc->vge_npoll.ifpc_stcount-- == 0) {
15024e5366b5SSepherosa Ziehau uint32_t status;
15034e5366b5SSepherosa Ziehau
15044e5366b5SSepherosa Ziehau sc->vge_npoll.ifpc_stcount = sc->vge_npoll.ifpc_stfrac;
150513bca4c6SSepherosa Ziehau
150613bca4c6SSepherosa Ziehau status = CSR_READ_4(sc, VGE_ISR);
150713bca4c6SSepherosa Ziehau if (status == 0xffffffff)
15084e5366b5SSepherosa Ziehau return;
150913bca4c6SSepherosa Ziehau
151013bca4c6SSepherosa Ziehau if (status)
151113bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_ISR, status);
151213bca4c6SSepherosa Ziehau
151313bca4c6SSepherosa Ziehau if (status & (VGE_ISR_TXDMA_STALL |
151413bca4c6SSepherosa Ziehau VGE_ISR_RXDMA_STALL))
151513bca4c6SSepherosa Ziehau vge_init(sc);
151613bca4c6SSepherosa Ziehau
151713bca4c6SSepherosa Ziehau if (status & (VGE_ISR_RXOFLOW | VGE_ISR_RXNODESC)) {
1518d40991efSSepherosa Ziehau IFNET_STAT_INC(ifp, ierrors, 1);
151913bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_RXQCSRS, VGE_RXQCSR_RUN);
152013bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_RXQCSRS, VGE_RXQCSR_WAK);
152113bca4c6SSepherosa Ziehau }
152213bca4c6SSepherosa Ziehau }
152313bca4c6SSepherosa Ziehau }
152413bca4c6SSepherosa Ziehau
15254e5366b5SSepherosa Ziehau static void
vge_npoll(struct ifnet * ifp,struct ifpoll_info * info)15264e5366b5SSepherosa Ziehau vge_npoll(struct ifnet *ifp, struct ifpoll_info *info)
15274e5366b5SSepherosa Ziehau {
15284e5366b5SSepherosa Ziehau struct vge_softc *sc = ifp->if_softc;
15294e5366b5SSepherosa Ziehau
15304e5366b5SSepherosa Ziehau ASSERT_SERIALIZED(ifp->if_serializer);
15314e5366b5SSepherosa Ziehau
15324e5366b5SSepherosa Ziehau if (info != NULL) {
15334e5366b5SSepherosa Ziehau int cpuid = sc->vge_npoll.ifpc_cpuid;
15344e5366b5SSepherosa Ziehau
15354e5366b5SSepherosa Ziehau info->ifpi_rx[cpuid].poll_func = vge_npoll_compat;
15364e5366b5SSepherosa Ziehau info->ifpi_rx[cpuid].arg = NULL;
15374e5366b5SSepherosa Ziehau info->ifpi_rx[cpuid].serializer = ifp->if_serializer;
15384e5366b5SSepherosa Ziehau
15394e5366b5SSepherosa Ziehau if (ifp->if_flags & IFF_RUNNING)
15404e5366b5SSepherosa Ziehau vge_disable_intr(sc);
1541dfd3b18bSSepherosa Ziehau ifq_set_cpuid(&ifp->if_snd, cpuid);
15424e5366b5SSepherosa Ziehau } else {
15434e5366b5SSepherosa Ziehau if (ifp->if_flags & IFF_RUNNING)
15444e5366b5SSepherosa Ziehau vge_enable_intr(sc, 0xffffffff);
1545dfd3b18bSSepherosa Ziehau ifq_set_cpuid(&ifp->if_snd, rman_get_cpuid(sc->vge_irq));
154613bca4c6SSepherosa Ziehau }
15474e5366b5SSepherosa Ziehau }
15484e5366b5SSepherosa Ziehau
15494e5366b5SSepherosa Ziehau #endif /* IFPOLL_ENABLE */
155013bca4c6SSepherosa Ziehau
155113bca4c6SSepherosa Ziehau static void
vge_intr(void * arg)155213bca4c6SSepherosa Ziehau vge_intr(void *arg)
155313bca4c6SSepherosa Ziehau {
155413bca4c6SSepherosa Ziehau struct vge_softc *sc = arg;
155513bca4c6SSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if;
155613bca4c6SSepherosa Ziehau uint32_t status;
155713bca4c6SSepherosa Ziehau
155813bca4c6SSepherosa Ziehau if (sc->suspended || !(ifp->if_flags & IFF_UP))
155913bca4c6SSepherosa Ziehau return;
156013bca4c6SSepherosa Ziehau
156113bca4c6SSepherosa Ziehau /* Disable interrupts */
156213bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRC3, VGE_CR3_INT_GMSK);
156313bca4c6SSepherosa Ziehau
156413bca4c6SSepherosa Ziehau for (;;) {
156513bca4c6SSepherosa Ziehau status = CSR_READ_4(sc, VGE_ISR);
156613bca4c6SSepherosa Ziehau /* If the card has gone away the read returns 0xffff. */
156713bca4c6SSepherosa Ziehau if (status == 0xFFFFFFFF)
156813bca4c6SSepherosa Ziehau break;
156913bca4c6SSepherosa Ziehau
157013bca4c6SSepherosa Ziehau if (status)
157113bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_ISR, status);
157213bca4c6SSepherosa Ziehau
157313bca4c6SSepherosa Ziehau if ((status & VGE_INTRS) == 0)
157413bca4c6SSepherosa Ziehau break;
157513bca4c6SSepherosa Ziehau
157613bca4c6SSepherosa Ziehau if (status & (VGE_ISR_RXOK|VGE_ISR_RXOK_HIPRIO))
157713bca4c6SSepherosa Ziehau vge_rxeof(sc, -1);
157813bca4c6SSepherosa Ziehau
157913bca4c6SSepherosa Ziehau if (status & (VGE_ISR_RXOFLOW|VGE_ISR_RXNODESC)) {
158013bca4c6SSepherosa Ziehau vge_rxeof(sc, -1);
1581d40991efSSepherosa Ziehau IFNET_STAT_INC(ifp, ierrors, 1);
158213bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_RXQCSRS, VGE_RXQCSR_RUN);
158313bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_RXQCSRS, VGE_RXQCSR_WAK);
158413bca4c6SSepherosa Ziehau }
158513bca4c6SSepherosa Ziehau
158613bca4c6SSepherosa Ziehau if (status & (VGE_ISR_TXOK0|VGE_ISR_TIMER0))
158713bca4c6SSepherosa Ziehau vge_txeof(sc);
158813bca4c6SSepherosa Ziehau
158913bca4c6SSepherosa Ziehau if (status & (VGE_ISR_TXDMA_STALL|VGE_ISR_RXDMA_STALL))
159013bca4c6SSepherosa Ziehau vge_init(sc);
159113bca4c6SSepherosa Ziehau
159213bca4c6SSepherosa Ziehau if (status & VGE_ISR_LINKSTS)
159313bca4c6SSepherosa Ziehau vge_tick(sc);
159413bca4c6SSepherosa Ziehau }
159513bca4c6SSepherosa Ziehau
159613bca4c6SSepherosa Ziehau /* Re-enable interrupts */
159713bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRS3, VGE_CR3_INT_GMSK);
159813bca4c6SSepherosa Ziehau
159913bca4c6SSepherosa Ziehau if (!ifq_is_empty(&ifp->if_snd))
16009db4b353SSepherosa Ziehau if_devstart(ifp);
160113bca4c6SSepherosa Ziehau }
160213bca4c6SSepherosa Ziehau
160313bca4c6SSepherosa Ziehau static int
vge_encap(struct vge_softc * sc,struct mbuf * m_head,int idx)160413bca4c6SSepherosa Ziehau vge_encap(struct vge_softc *sc, struct mbuf *m_head, int idx)
160513bca4c6SSepherosa Ziehau {
160613bca4c6SSepherosa Ziehau struct vge_dmaload_arg arg;
160713bca4c6SSepherosa Ziehau bus_dmamap_t map;
160813bca4c6SSepherosa Ziehau int error;
160913bca4c6SSepherosa Ziehau
161013bca4c6SSepherosa Ziehau arg.vge_flags = 0;
161113bca4c6SSepherosa Ziehau
161213bca4c6SSepherosa Ziehau if (m_head->m_pkthdr.csum_flags & CSUM_IP)
161313bca4c6SSepherosa Ziehau arg.vge_flags |= VGE_TDCTL_IPCSUM;
161413bca4c6SSepherosa Ziehau if (m_head->m_pkthdr.csum_flags & CSUM_TCP)
161513bca4c6SSepherosa Ziehau arg.vge_flags |= VGE_TDCTL_TCPCSUM;
161613bca4c6SSepherosa Ziehau if (m_head->m_pkthdr.csum_flags & CSUM_UDP)
161713bca4c6SSepherosa Ziehau arg.vge_flags |= VGE_TDCTL_UDPCSUM;
161813bca4c6SSepherosa Ziehau
161913bca4c6SSepherosa Ziehau arg.sc = sc;
162013bca4c6SSepherosa Ziehau arg.vge_idx = idx;
162113bca4c6SSepherosa Ziehau arg.vge_m0 = m_head;
162213bca4c6SSepherosa Ziehau arg.vge_maxsegs = VGE_TX_FRAGS;
162313bca4c6SSepherosa Ziehau
162413bca4c6SSepherosa Ziehau map = sc->vge_ldata.vge_tx_dmamap[idx];
162513bca4c6SSepherosa Ziehau error = bus_dmamap_load_mbuf(sc->vge_ldata.vge_mtag, map, m_head,
162613bca4c6SSepherosa Ziehau vge_dma_map_tx_desc, &arg, BUS_DMA_NOWAIT);
162713bca4c6SSepherosa Ziehau if (error && error != EFBIG) {
162813bca4c6SSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "can't map mbuf (error %d)\n",
162913bca4c6SSepherosa Ziehau error);
163013bca4c6SSepherosa Ziehau goto fail;
163113bca4c6SSepherosa Ziehau }
163213bca4c6SSepherosa Ziehau
163313bca4c6SSepherosa Ziehau /* Too many segments to map, coalesce into a single mbuf */
163413bca4c6SSepherosa Ziehau if (error || arg.vge_maxsegs == 0) {
163513bca4c6SSepherosa Ziehau struct mbuf *m_new;
163613bca4c6SSepherosa Ziehau
1637*b5523eacSSascha Wildner m_new = m_defrag(m_head, M_NOWAIT);
163813bca4c6SSepherosa Ziehau if (m_new == NULL) {
163913bca4c6SSepherosa Ziehau error = ENOBUFS;
164013bca4c6SSepherosa Ziehau goto fail;
164113bca4c6SSepherosa Ziehau } else {
164213bca4c6SSepherosa Ziehau m_head = m_new;
164313bca4c6SSepherosa Ziehau }
164413bca4c6SSepherosa Ziehau
164513bca4c6SSepherosa Ziehau arg.sc = sc;
164613bca4c6SSepherosa Ziehau arg.vge_m0 = m_head;
164713bca4c6SSepherosa Ziehau arg.vge_idx = idx;
164813bca4c6SSepherosa Ziehau arg.vge_maxsegs = 1;
164913bca4c6SSepherosa Ziehau
165013bca4c6SSepherosa Ziehau error = bus_dmamap_load_mbuf(sc->vge_ldata.vge_mtag, map,
165113bca4c6SSepherosa Ziehau m_head, vge_dma_map_tx_desc, &arg,
165213bca4c6SSepherosa Ziehau BUS_DMA_NOWAIT);
165313bca4c6SSepherosa Ziehau if (error) {
165413bca4c6SSepherosa Ziehau if_printf(&sc->arpcom.ac_if,
165513bca4c6SSepherosa Ziehau "can't map mbuf (error %d)\n", error);
165613bca4c6SSepherosa Ziehau goto fail;
165713bca4c6SSepherosa Ziehau }
165813bca4c6SSepherosa Ziehau }
165913bca4c6SSepherosa Ziehau
166013bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_mbuf[idx] = m_head;
166113bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_free--;
166213bca4c6SSepherosa Ziehau
166313bca4c6SSepherosa Ziehau /*
166413bca4c6SSepherosa Ziehau * Set up hardware VLAN tagging.
166513bca4c6SSepherosa Ziehau */
166683790f85SSepherosa Ziehau if (m_head->m_flags & M_VLANTAG) {
166713bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_list[idx].vge_ctl |=
166883790f85SSepherosa Ziehau htole32(htons(m_head->m_pkthdr.ether_vlantag) |
166983790f85SSepherosa Ziehau VGE_TDCTL_VTAG);
167013bca4c6SSepherosa Ziehau }
167113bca4c6SSepherosa Ziehau
167213bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_list[idx].vge_sts |= htole32(VGE_TDSTS_OWN);
167313bca4c6SSepherosa Ziehau return (0);
167413bca4c6SSepherosa Ziehau
167513bca4c6SSepherosa Ziehau fail:
167613bca4c6SSepherosa Ziehau m_freem(m_head);
167713bca4c6SSepherosa Ziehau return error;
167813bca4c6SSepherosa Ziehau }
167913bca4c6SSepherosa Ziehau
168013bca4c6SSepherosa Ziehau /*
168113bca4c6SSepherosa Ziehau * Main transmit routine.
168213bca4c6SSepherosa Ziehau */
168313bca4c6SSepherosa Ziehau
168413bca4c6SSepherosa Ziehau static void
vge_start(struct ifnet * ifp,struct ifaltq_subque * ifsq)1685f0a26983SSepherosa Ziehau vge_start(struct ifnet *ifp, struct ifaltq_subque *ifsq)
168613bca4c6SSepherosa Ziehau {
168713bca4c6SSepherosa Ziehau struct vge_softc *sc = ifp->if_softc;
168813bca4c6SSepherosa Ziehau struct mbuf *m_head = NULL;
168913bca4c6SSepherosa Ziehau int idx, pidx = 0;
169013bca4c6SSepherosa Ziehau
1691f0a26983SSepherosa Ziehau ASSERT_ALTQ_SQ_DEFAULT(ifp, ifsq);
169213bca4c6SSepherosa Ziehau ASSERT_SERIALIZED(ifp->if_serializer);
169313bca4c6SSepherosa Ziehau
16949db4b353SSepherosa Ziehau if (!sc->vge_link) {
16959db4b353SSepherosa Ziehau ifq_purge(&ifp->if_snd);
169613bca4c6SSepherosa Ziehau return;
16979db4b353SSepherosa Ziehau }
169813bca4c6SSepherosa Ziehau
16999ed293e0SSepherosa Ziehau if ((ifp->if_flags & IFF_RUNNING) == 0 || ifq_is_oactive(&ifp->if_snd))
170013bca4c6SSepherosa Ziehau return;
170113bca4c6SSepherosa Ziehau
170213bca4c6SSepherosa Ziehau idx = sc->vge_ldata.vge_tx_prodidx;
170313bca4c6SSepherosa Ziehau
170413bca4c6SSepherosa Ziehau pidx = idx - 1;
170513bca4c6SSepherosa Ziehau if (pidx < 0)
170613bca4c6SSepherosa Ziehau pidx = VGE_TX_DESC_CNT - 1;
170713bca4c6SSepherosa Ziehau
170813bca4c6SSepherosa Ziehau while (sc->vge_ldata.vge_tx_mbuf[idx] == NULL) {
170913bca4c6SSepherosa Ziehau if (sc->vge_ldata.vge_tx_free <= 2) {
17109ed293e0SSepherosa Ziehau ifq_set_oactive(&ifp->if_snd);
171113bca4c6SSepherosa Ziehau break;
171213bca4c6SSepherosa Ziehau }
171313bca4c6SSepherosa Ziehau
1714ac9843a1SSepherosa Ziehau m_head = ifq_dequeue(&ifp->if_snd);
17159db4b353SSepherosa Ziehau if (m_head == NULL)
17169db4b353SSepherosa Ziehau break;
171713bca4c6SSepherosa Ziehau
171813bca4c6SSepherosa Ziehau if (vge_encap(sc, m_head, idx)) {
171913bca4c6SSepherosa Ziehau /* If vge_encap() failed, it will free m_head for us */
17209ed293e0SSepherosa Ziehau ifq_set_oactive(&ifp->if_snd);
172113bca4c6SSepherosa Ziehau break;
172213bca4c6SSepherosa Ziehau }
172313bca4c6SSepherosa Ziehau
172413bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_list[pidx].vge_frag[0].vge_buflen |=
172513bca4c6SSepherosa Ziehau htole16(VGE_TXDESC_Q);
172613bca4c6SSepherosa Ziehau
172713bca4c6SSepherosa Ziehau pidx = idx;
172813bca4c6SSepherosa Ziehau VGE_TX_DESC_INC(idx);
172913bca4c6SSepherosa Ziehau
173013bca4c6SSepherosa Ziehau /*
173113bca4c6SSepherosa Ziehau * If there's a BPF listener, bounce a copy of this frame
173213bca4c6SSepherosa Ziehau * to him.
173313bca4c6SSepherosa Ziehau */
1734b637f170SSepherosa Ziehau ETHER_BPF_MTAP(ifp, m_head);
173513bca4c6SSepherosa Ziehau }
173613bca4c6SSepherosa Ziehau
173713bca4c6SSepherosa Ziehau if (idx == sc->vge_ldata.vge_tx_prodidx)
173813bca4c6SSepherosa Ziehau return;
173913bca4c6SSepherosa Ziehau
174013bca4c6SSepherosa Ziehau /* Flush the TX descriptors */
174113bca4c6SSepherosa Ziehau bus_dmamap_sync(sc->vge_ldata.vge_tx_list_tag,
174213bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_list_map,
174313bca4c6SSepherosa Ziehau BUS_DMASYNC_PREWRITE);
174413bca4c6SSepherosa Ziehau
174513bca4c6SSepherosa Ziehau /* Issue a transmit command. */
174613bca4c6SSepherosa Ziehau CSR_WRITE_2(sc, VGE_TXQCSRS, VGE_TXQCSR_WAK0);
174713bca4c6SSepherosa Ziehau
174813bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_prodidx = idx;
174913bca4c6SSepherosa Ziehau
175013bca4c6SSepherosa Ziehau /*
175113bca4c6SSepherosa Ziehau * Use the countdown timer for interrupt moderation.
175213bca4c6SSepherosa Ziehau * 'TX done' interrupts are disabled. Instead, we reset the
175313bca4c6SSepherosa Ziehau * countdown timer, which will begin counting until it hits
175413bca4c6SSepherosa Ziehau * the value in the SSTIMER register, and then trigger an
175513bca4c6SSepherosa Ziehau * interrupt. Each time we set the TIMER0_ENABLE bit, the
175613bca4c6SSepherosa Ziehau * the timer count is reloaded. Only when the transmitter
175713bca4c6SSepherosa Ziehau * is idle will the timer hit 0 and an interrupt fire.
175813bca4c6SSepherosa Ziehau */
175913bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRS1, VGE_CR1_TIMER0_ENABLE);
176013bca4c6SSepherosa Ziehau
176113bca4c6SSepherosa Ziehau /*
176213bca4c6SSepherosa Ziehau * Set a timeout in case the chip goes out to lunch.
176313bca4c6SSepherosa Ziehau */
176413bca4c6SSepherosa Ziehau ifp->if_timer = 5;
176513bca4c6SSepherosa Ziehau }
176613bca4c6SSepherosa Ziehau
176713bca4c6SSepherosa Ziehau static void
vge_init(void * xsc)176813bca4c6SSepherosa Ziehau vge_init(void *xsc)
176913bca4c6SSepherosa Ziehau {
177013bca4c6SSepherosa Ziehau struct vge_softc *sc = xsc;
177113bca4c6SSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if;
177213bca4c6SSepherosa Ziehau struct mii_data *mii;
177313bca4c6SSepherosa Ziehau int i;
177413bca4c6SSepherosa Ziehau
177513bca4c6SSepherosa Ziehau ASSERT_SERIALIZED(ifp->if_serializer);
177613bca4c6SSepherosa Ziehau
177713bca4c6SSepherosa Ziehau mii = device_get_softc(sc->vge_miibus);
177813bca4c6SSepherosa Ziehau
177913bca4c6SSepherosa Ziehau /*
178013bca4c6SSepherosa Ziehau * Cancel pending I/O and free all RX/TX buffers.
178113bca4c6SSepherosa Ziehau */
178213bca4c6SSepherosa Ziehau vge_stop(sc);
178313bca4c6SSepherosa Ziehau vge_reset(sc);
178413bca4c6SSepherosa Ziehau
178513bca4c6SSepherosa Ziehau /*
178613bca4c6SSepherosa Ziehau * Initialize the RX and TX descriptors and mbufs.
178713bca4c6SSepherosa Ziehau */
178813bca4c6SSepherosa Ziehau vge_rx_list_init(sc);
178913bca4c6SSepherosa Ziehau vge_tx_list_init(sc);
179013bca4c6SSepherosa Ziehau
179113bca4c6SSepherosa Ziehau /* Set our station address */
179213bca4c6SSepherosa Ziehau for (i = 0; i < ETHER_ADDR_LEN; i++)
179313bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_PAR0 + i, IF_LLADDR(ifp)[i]);
179413bca4c6SSepherosa Ziehau
179513bca4c6SSepherosa Ziehau /*
179613bca4c6SSepherosa Ziehau * Set receive FIFO threshold. Also allow transmission and
179713bca4c6SSepherosa Ziehau * reception of VLAN tagged frames.
179813bca4c6SSepherosa Ziehau */
179913bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_RXCFG, VGE_RXCFG_FIFO_THR|VGE_RXCFG_VTAGOPT);
180013bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_RXCFG, VGE_RXFIFOTHR_128BYTES|VGE_VTAG_OPT2);
180113bca4c6SSepherosa Ziehau
180213bca4c6SSepherosa Ziehau /* Set DMA burst length */
180313bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_DMACFG0, VGE_DMACFG0_BURSTLEN);
180413bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_DMACFG0, VGE_DMABURST_128);
180513bca4c6SSepherosa Ziehau
180613bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_TXCFG, VGE_TXCFG_ARB_PRIO|VGE_TXCFG_NONBLK);
180713bca4c6SSepherosa Ziehau
180813bca4c6SSepherosa Ziehau /* Set collision backoff algorithm */
180913bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_CHIPCFG1, VGE_CHIPCFG1_CRANDOM|
181013bca4c6SSepherosa Ziehau VGE_CHIPCFG1_CAP|VGE_CHIPCFG1_MBA|VGE_CHIPCFG1_BAKOPT);
181113bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_CHIPCFG1, VGE_CHIPCFG1_OFSET);
181213bca4c6SSepherosa Ziehau
181313bca4c6SSepherosa Ziehau /* Disable LPSEL field in priority resolution */
181413bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_DIAGCTL, VGE_DIAGCTL_LPSEL_DIS);
181513bca4c6SSepherosa Ziehau
181613bca4c6SSepherosa Ziehau /*
181713bca4c6SSepherosa Ziehau * Load the addresses of the DMA queues into the chip.
181813bca4c6SSepherosa Ziehau * Note that we only use one transmit queue.
181913bca4c6SSepherosa Ziehau */
182013bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_TXDESC_ADDR_LO0,
182113bca4c6SSepherosa Ziehau VGE_ADDR_LO(sc->vge_ldata.vge_tx_list_addr));
182213bca4c6SSepherosa Ziehau CSR_WRITE_2(sc, VGE_TXDESCNUM, VGE_TX_DESC_CNT - 1);
182313bca4c6SSepherosa Ziehau
182413bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_RXDESC_ADDR_LO,
182513bca4c6SSepherosa Ziehau VGE_ADDR_LO(sc->vge_ldata.vge_rx_list_addr));
182613bca4c6SSepherosa Ziehau CSR_WRITE_2(sc, VGE_RXDESCNUM, VGE_RX_DESC_CNT - 1);
182713bca4c6SSepherosa Ziehau CSR_WRITE_2(sc, VGE_RXDESC_RESIDUECNT, VGE_RX_DESC_CNT);
182813bca4c6SSepherosa Ziehau
182913bca4c6SSepherosa Ziehau /* Enable and wake up the RX descriptor queue */
183013bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_RXQCSRS, VGE_RXQCSR_RUN);
183113bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_RXQCSRS, VGE_RXQCSR_WAK);
183213bca4c6SSepherosa Ziehau
183313bca4c6SSepherosa Ziehau /* Enable the TX descriptor queue */
183413bca4c6SSepherosa Ziehau CSR_WRITE_2(sc, VGE_TXQCSRS, VGE_TXQCSR_RUN0);
183513bca4c6SSepherosa Ziehau
183613bca4c6SSepherosa Ziehau /* Set up the receive filter -- allow large frames for VLANs. */
183713bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_RXCTL, VGE_RXCTL_RX_UCAST|VGE_RXCTL_RX_GIANT);
183813bca4c6SSepherosa Ziehau
183913bca4c6SSepherosa Ziehau /* If we want promiscuous mode, set the allframes bit. */
184013bca4c6SSepherosa Ziehau if (ifp->if_flags & IFF_PROMISC)
184113bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_RXCTL, VGE_RXCTL_RX_PROMISC);
184213bca4c6SSepherosa Ziehau
184313bca4c6SSepherosa Ziehau /* Set capture broadcast bit to capture broadcast frames. */
184413bca4c6SSepherosa Ziehau if (ifp->if_flags & IFF_BROADCAST)
184513bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_RXCTL, VGE_RXCTL_RX_BCAST);
184613bca4c6SSepherosa Ziehau
184713bca4c6SSepherosa Ziehau /* Set multicast bit to capture multicast frames. */
184813bca4c6SSepherosa Ziehau if (ifp->if_flags & IFF_MULTICAST)
184913bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_RXCTL, VGE_RXCTL_RX_MCAST);
185013bca4c6SSepherosa Ziehau
185113bca4c6SSepherosa Ziehau /* Init the cam filter. */
185213bca4c6SSepherosa Ziehau vge_cam_clear(sc);
185313bca4c6SSepherosa Ziehau
185413bca4c6SSepherosa Ziehau /* Init the multicast filter. */
185513bca4c6SSepherosa Ziehau vge_setmulti(sc);
185613bca4c6SSepherosa Ziehau
185713bca4c6SSepherosa Ziehau /* Enable flow control */
185813bca4c6SSepherosa Ziehau
185913bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRS2, 0x8B);
186013bca4c6SSepherosa Ziehau
186113bca4c6SSepherosa Ziehau /* Enable jumbo frame reception (if desired) */
186213bca4c6SSepherosa Ziehau
186313bca4c6SSepherosa Ziehau /* Start the MAC. */
186413bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRC0, VGE_CR0_STOP);
186513bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRS1, VGE_CR1_NOPOLL);
186613bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRS0,
186713bca4c6SSepherosa Ziehau VGE_CR0_TX_ENABLE|VGE_CR0_RX_ENABLE|VGE_CR0_START);
186813bca4c6SSepherosa Ziehau
186913bca4c6SSepherosa Ziehau /*
187013bca4c6SSepherosa Ziehau * Configure one-shot timer for microsecond
187113bca4c6SSepherosa Ziehau * resulution and load it for 500 usecs.
187213bca4c6SSepherosa Ziehau */
187313bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_DIAGCTL, VGE_DIAGCTL_TIMER0_RES);
187413bca4c6SSepherosa Ziehau CSR_WRITE_2(sc, VGE_SSTIMER, 400);
187513bca4c6SSepherosa Ziehau
187613bca4c6SSepherosa Ziehau /*
187713bca4c6SSepherosa Ziehau * Configure interrupt moderation for receive. Enable
187813bca4c6SSepherosa Ziehau * the holdoff counter and load it, and set the RX
187913bca4c6SSepherosa Ziehau * suppression count to the number of descriptors we
188013bca4c6SSepherosa Ziehau * want to allow before triggering an interrupt.
188113bca4c6SSepherosa Ziehau * The holdoff timer is in units of 20 usecs.
188213bca4c6SSepherosa Ziehau */
188313bca4c6SSepherosa Ziehau
188413bca4c6SSepherosa Ziehau #ifdef notyet
188513bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_INTCTL1, VGE_INTCTL_TXINTSUP_DISABLE);
188613bca4c6SSepherosa Ziehau /* Select the interrupt holdoff timer page. */
188713bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_CAMCTL, VGE_CAMCTL_PAGESEL);
188813bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_CAMCTL, VGE_PAGESEL_INTHLDOFF);
188913bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_INTHOLDOFF, 10); /* ~200 usecs */
189013bca4c6SSepherosa Ziehau
189113bca4c6SSepherosa Ziehau /* Enable use of the holdoff timer. */
189213bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRS3, VGE_CR3_INT_HOLDOFF);
189313bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_INTCTL1, VGE_INTCTL_SC_RELOAD);
189413bca4c6SSepherosa Ziehau
189513bca4c6SSepherosa Ziehau /* Select the RX suppression threshold page. */
189613bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_CAMCTL, VGE_CAMCTL_PAGESEL);
189713bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_CAMCTL, VGE_PAGESEL_RXSUPPTHR);
189813bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_RXSUPPTHR, 64); /* interrupt after 64 packets */
189913bca4c6SSepherosa Ziehau
190013bca4c6SSepherosa Ziehau /* Restore the page select bits. */
190113bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_CAMCTL, VGE_CAMCTL_PAGESEL);
190213bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_CAMCTL, VGE_PAGESEL_MAR);
190313bca4c6SSepherosa Ziehau #endif
190413bca4c6SSepherosa Ziehau
19054e5366b5SSepherosa Ziehau #ifdef IFPOLL_ENABLE
190613bca4c6SSepherosa Ziehau /* Disable intr if polling(4) is enabled */
19074e5366b5SSepherosa Ziehau if (ifp->if_flags & IFF_NPOLLING)
190813bca4c6SSepherosa Ziehau vge_disable_intr(sc);
190913bca4c6SSepherosa Ziehau else
191013bca4c6SSepherosa Ziehau #endif
191113bca4c6SSepherosa Ziehau vge_enable_intr(sc, 0);
191213bca4c6SSepherosa Ziehau
191313bca4c6SSepherosa Ziehau mii_mediachg(mii);
191413bca4c6SSepherosa Ziehau
191513bca4c6SSepherosa Ziehau ifp->if_flags |= IFF_RUNNING;
19169ed293e0SSepherosa Ziehau ifq_clr_oactive(&ifp->if_snd);
191713bca4c6SSepherosa Ziehau
191813bca4c6SSepherosa Ziehau sc->vge_if_flags = 0;
191913bca4c6SSepherosa Ziehau sc->vge_link = 0;
192013bca4c6SSepherosa Ziehau }
192113bca4c6SSepherosa Ziehau
192213bca4c6SSepherosa Ziehau /*
192313bca4c6SSepherosa Ziehau * Set media options.
192413bca4c6SSepherosa Ziehau */
192513bca4c6SSepherosa Ziehau static int
vge_ifmedia_upd(struct ifnet * ifp)192613bca4c6SSepherosa Ziehau vge_ifmedia_upd(struct ifnet *ifp)
192713bca4c6SSepherosa Ziehau {
192813bca4c6SSepherosa Ziehau struct vge_softc *sc = ifp->if_softc;
192913bca4c6SSepherosa Ziehau struct mii_data *mii = device_get_softc(sc->vge_miibus);
193013bca4c6SSepherosa Ziehau
193113bca4c6SSepherosa Ziehau mii_mediachg(mii);
193213bca4c6SSepherosa Ziehau
193313bca4c6SSepherosa Ziehau return (0);
193413bca4c6SSepherosa Ziehau }
193513bca4c6SSepherosa Ziehau
193613bca4c6SSepherosa Ziehau /*
193713bca4c6SSepherosa Ziehau * Report current media status.
193813bca4c6SSepherosa Ziehau */
193913bca4c6SSepherosa Ziehau static void
vge_ifmedia_sts(struct ifnet * ifp,struct ifmediareq * ifmr)194013bca4c6SSepherosa Ziehau vge_ifmedia_sts(struct ifnet *ifp, struct ifmediareq *ifmr)
194113bca4c6SSepherosa Ziehau {
194213bca4c6SSepherosa Ziehau struct vge_softc *sc = ifp->if_softc;
194313bca4c6SSepherosa Ziehau struct mii_data *mii = device_get_softc(sc->vge_miibus);
194413bca4c6SSepherosa Ziehau
194513bca4c6SSepherosa Ziehau mii_pollstat(mii);
194613bca4c6SSepherosa Ziehau ifmr->ifm_active = mii->mii_media_active;
194713bca4c6SSepherosa Ziehau ifmr->ifm_status = mii->mii_media_status;
194813bca4c6SSepherosa Ziehau }
194913bca4c6SSepherosa Ziehau
195013bca4c6SSepherosa Ziehau static void
vge_miibus_statchg(device_t dev)195113bca4c6SSepherosa Ziehau vge_miibus_statchg(device_t dev)
195213bca4c6SSepherosa Ziehau {
195313bca4c6SSepherosa Ziehau struct vge_softc *sc;
195413bca4c6SSepherosa Ziehau struct mii_data *mii;
195513bca4c6SSepherosa Ziehau struct ifmedia_entry *ife;
195613bca4c6SSepherosa Ziehau
195713bca4c6SSepherosa Ziehau sc = device_get_softc(dev);
195813bca4c6SSepherosa Ziehau mii = device_get_softc(sc->vge_miibus);
195913bca4c6SSepherosa Ziehau ife = mii->mii_media.ifm_cur;
196013bca4c6SSepherosa Ziehau
196113bca4c6SSepherosa Ziehau /*
196213bca4c6SSepherosa Ziehau * If the user manually selects a media mode, we need to turn
196313bca4c6SSepherosa Ziehau * on the forced MAC mode bit in the DIAGCTL register. If the
196413bca4c6SSepherosa Ziehau * user happens to choose a full duplex mode, we also need to
196513bca4c6SSepherosa Ziehau * set the 'force full duplex' bit. This applies only to
196613bca4c6SSepherosa Ziehau * 10Mbps and 100Mbps speeds. In autoselect mode, forced MAC
196713bca4c6SSepherosa Ziehau * mode is disabled, and in 1000baseT mode, full duplex is
196813bca4c6SSepherosa Ziehau * always implied, so we turn on the forced mode bit but leave
196913bca4c6SSepherosa Ziehau * the FDX bit cleared.
197013bca4c6SSepherosa Ziehau */
197113bca4c6SSepherosa Ziehau
197213bca4c6SSepherosa Ziehau switch (IFM_SUBTYPE(ife->ifm_media)) {
197313bca4c6SSepherosa Ziehau case IFM_AUTO:
197413bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_DIAGCTL, VGE_DIAGCTL_MACFORCE);
197513bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_DIAGCTL, VGE_DIAGCTL_FDXFORCE);
197613bca4c6SSepherosa Ziehau break;
197713bca4c6SSepherosa Ziehau case IFM_1000_T:
197813bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_DIAGCTL, VGE_DIAGCTL_MACFORCE);
197913bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_DIAGCTL, VGE_DIAGCTL_FDXFORCE);
198013bca4c6SSepherosa Ziehau break;
198113bca4c6SSepherosa Ziehau case IFM_100_TX:
198213bca4c6SSepherosa Ziehau case IFM_10_T:
198313bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_DIAGCTL, VGE_DIAGCTL_MACFORCE);
198413bca4c6SSepherosa Ziehau if ((ife->ifm_media & IFM_GMASK) == IFM_FDX)
198513bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_DIAGCTL, VGE_DIAGCTL_FDXFORCE);
198613bca4c6SSepherosa Ziehau else
198713bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_DIAGCTL, VGE_DIAGCTL_FDXFORCE);
198813bca4c6SSepherosa Ziehau break;
198913bca4c6SSepherosa Ziehau default:
199013bca4c6SSepherosa Ziehau device_printf(dev, "unknown media type: %x\n",
199113bca4c6SSepherosa Ziehau IFM_SUBTYPE(ife->ifm_media));
199213bca4c6SSepherosa Ziehau break;
199313bca4c6SSepherosa Ziehau }
199413bca4c6SSepherosa Ziehau }
199513bca4c6SSepherosa Ziehau
199613bca4c6SSepherosa Ziehau static int
vge_ioctl(struct ifnet * ifp,u_long command,caddr_t data,struct ucred * cr)199713bca4c6SSepherosa Ziehau vge_ioctl(struct ifnet *ifp, u_long command, caddr_t data, struct ucred *cr)
199813bca4c6SSepherosa Ziehau {
199913bca4c6SSepherosa Ziehau struct vge_softc *sc = ifp->if_softc;
200013bca4c6SSepherosa Ziehau struct ifreq *ifr = (struct ifreq *)data;
200113bca4c6SSepherosa Ziehau struct mii_data *mii;
200213bca4c6SSepherosa Ziehau int error = 0;
200313bca4c6SSepherosa Ziehau
200413bca4c6SSepherosa Ziehau switch (command) {
200513bca4c6SSepherosa Ziehau case SIOCSIFMTU:
200613bca4c6SSepherosa Ziehau if (ifr->ifr_mtu > VGE_JUMBO_MTU)
200713bca4c6SSepherosa Ziehau error = EINVAL;
200813bca4c6SSepherosa Ziehau ifp->if_mtu = ifr->ifr_mtu;
200913bca4c6SSepherosa Ziehau break;
201013bca4c6SSepherosa Ziehau case SIOCSIFFLAGS:
201113bca4c6SSepherosa Ziehau if (ifp->if_flags & IFF_UP) {
201213bca4c6SSepherosa Ziehau if ((ifp->if_flags & IFF_RUNNING) &&
201313bca4c6SSepherosa Ziehau (ifp->if_flags & IFF_PROMISC) &&
201413bca4c6SSepherosa Ziehau !(sc->vge_if_flags & IFF_PROMISC)) {
201513bca4c6SSepherosa Ziehau CSR_SETBIT_1(sc, VGE_RXCTL,
201613bca4c6SSepherosa Ziehau VGE_RXCTL_RX_PROMISC);
201713bca4c6SSepherosa Ziehau vge_setmulti(sc);
201813bca4c6SSepherosa Ziehau } else if ((ifp->if_flags & IFF_RUNNING) &&
201913bca4c6SSepherosa Ziehau !(ifp->if_flags & IFF_PROMISC) &&
202013bca4c6SSepherosa Ziehau (sc->vge_if_flags & IFF_PROMISC)) {
202113bca4c6SSepherosa Ziehau CSR_CLRBIT_1(sc, VGE_RXCTL,
202213bca4c6SSepherosa Ziehau VGE_RXCTL_RX_PROMISC);
202313bca4c6SSepherosa Ziehau vge_setmulti(sc);
202413bca4c6SSepherosa Ziehau } else {
202513bca4c6SSepherosa Ziehau vge_init(sc);
202613bca4c6SSepherosa Ziehau }
202713bca4c6SSepherosa Ziehau } else {
202813bca4c6SSepherosa Ziehau if (ifp->if_flags & IFF_RUNNING)
202913bca4c6SSepherosa Ziehau vge_stop(sc);
203013bca4c6SSepherosa Ziehau }
203113bca4c6SSepherosa Ziehau sc->vge_if_flags = ifp->if_flags;
203213bca4c6SSepherosa Ziehau break;
203313bca4c6SSepherosa Ziehau case SIOCADDMULTI:
203413bca4c6SSepherosa Ziehau case SIOCDELMULTI:
203513bca4c6SSepherosa Ziehau vge_setmulti(sc);
203613bca4c6SSepherosa Ziehau break;
203713bca4c6SSepherosa Ziehau case SIOCGIFMEDIA:
203813bca4c6SSepherosa Ziehau case SIOCSIFMEDIA:
203913bca4c6SSepherosa Ziehau mii = device_get_softc(sc->vge_miibus);
204013bca4c6SSepherosa Ziehau error = ifmedia_ioctl(ifp, ifr, &mii->mii_media, command);
204113bca4c6SSepherosa Ziehau break;
204213bca4c6SSepherosa Ziehau case SIOCSIFCAP:
204313bca4c6SSepherosa Ziehau {
204413bca4c6SSepherosa Ziehau uint32_t mask = ifr->ifr_reqcap ^ ifp->if_capenable;
204513bca4c6SSepherosa Ziehau
204613bca4c6SSepherosa Ziehau if (mask & IFCAP_HWCSUM) {
204713bca4c6SSepherosa Ziehau ifp->if_capenable |= ifr->ifr_reqcap & (IFCAP_HWCSUM);
204813bca4c6SSepherosa Ziehau if (ifp->if_capenable & IFCAP_TXCSUM)
204913bca4c6SSepherosa Ziehau ifp->if_hwassist = VGE_CSUM_FEATURES;
205013bca4c6SSepherosa Ziehau else
205113bca4c6SSepherosa Ziehau ifp->if_hwassist = 0;
205213bca4c6SSepherosa Ziehau if (ifp->if_flags & IFF_RUNNING)
205313bca4c6SSepherosa Ziehau vge_init(sc);
205413bca4c6SSepherosa Ziehau }
205513bca4c6SSepherosa Ziehau }
205613bca4c6SSepherosa Ziehau break;
205713bca4c6SSepherosa Ziehau default:
205813bca4c6SSepherosa Ziehau error = ether_ioctl(ifp, command, data);
205913bca4c6SSepherosa Ziehau break;
206013bca4c6SSepherosa Ziehau }
206113bca4c6SSepherosa Ziehau return (error);
206213bca4c6SSepherosa Ziehau }
206313bca4c6SSepherosa Ziehau
206413bca4c6SSepherosa Ziehau static void
vge_watchdog(struct ifnet * ifp)206513bca4c6SSepherosa Ziehau vge_watchdog(struct ifnet *ifp)
206613bca4c6SSepherosa Ziehau {
206713bca4c6SSepherosa Ziehau struct vge_softc *sc = ifp->if_softc;
206813bca4c6SSepherosa Ziehau
206913bca4c6SSepherosa Ziehau if_printf(ifp, "watchdog timeout\n");
2070d40991efSSepherosa Ziehau IFNET_STAT_INC(ifp, oerrors, 1);
207113bca4c6SSepherosa Ziehau
207213bca4c6SSepherosa Ziehau vge_txeof(sc);
207313bca4c6SSepherosa Ziehau vge_rxeof(sc, -1);
207413bca4c6SSepherosa Ziehau
207513bca4c6SSepherosa Ziehau vge_init(sc);
207613bca4c6SSepherosa Ziehau }
207713bca4c6SSepherosa Ziehau
207813bca4c6SSepherosa Ziehau /*
207913bca4c6SSepherosa Ziehau * Stop the adapter and free any mbufs allocated to the
208013bca4c6SSepherosa Ziehau * RX and TX lists.
208113bca4c6SSepherosa Ziehau */
208213bca4c6SSepherosa Ziehau static void
vge_stop(struct vge_softc * sc)208313bca4c6SSepherosa Ziehau vge_stop(struct vge_softc *sc)
208413bca4c6SSepherosa Ziehau {
208513bca4c6SSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if;
208613bca4c6SSepherosa Ziehau int i;
208713bca4c6SSepherosa Ziehau
208813bca4c6SSepherosa Ziehau ASSERT_SERIALIZED(ifp->if_serializer);
208913bca4c6SSepherosa Ziehau
209013bca4c6SSepherosa Ziehau ifp->if_timer = 0;
209113bca4c6SSepherosa Ziehau
20929ed293e0SSepherosa Ziehau ifp->if_flags &= ~IFF_RUNNING;
20939ed293e0SSepherosa Ziehau ifq_clr_oactive(&ifp->if_snd);
209413bca4c6SSepherosa Ziehau
209513bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRC3, VGE_CR3_INT_GMSK);
209613bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRS0, VGE_CR0_STOP);
209713bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_ISR, 0xFFFFFFFF);
209813bca4c6SSepherosa Ziehau CSR_WRITE_2(sc, VGE_TXQCSRC, 0xFFFF);
209913bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_RXQCSRC, 0xFF);
210013bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_RXDESC_ADDR_LO, 0);
210113bca4c6SSepherosa Ziehau
210213bca4c6SSepherosa Ziehau if (sc->vge_head != NULL) {
210313bca4c6SSepherosa Ziehau m_freem(sc->vge_head);
210413bca4c6SSepherosa Ziehau sc->vge_head = sc->vge_tail = NULL;
210513bca4c6SSepherosa Ziehau }
210613bca4c6SSepherosa Ziehau
210713bca4c6SSepherosa Ziehau /* Free the TX list buffers. */
210813bca4c6SSepherosa Ziehau for (i = 0; i < VGE_TX_DESC_CNT; i++) {
210913bca4c6SSepherosa Ziehau if (sc->vge_ldata.vge_tx_mbuf[i] != NULL) {
211013bca4c6SSepherosa Ziehau bus_dmamap_unload(sc->vge_ldata.vge_mtag,
211113bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_dmamap[i]);
211213bca4c6SSepherosa Ziehau m_freem(sc->vge_ldata.vge_tx_mbuf[i]);
211313bca4c6SSepherosa Ziehau sc->vge_ldata.vge_tx_mbuf[i] = NULL;
211413bca4c6SSepherosa Ziehau }
211513bca4c6SSepherosa Ziehau }
211613bca4c6SSepherosa Ziehau
211713bca4c6SSepherosa Ziehau /* Free the RX list buffers. */
211813bca4c6SSepherosa Ziehau for (i = 0; i < VGE_RX_DESC_CNT; i++) {
211913bca4c6SSepherosa Ziehau if (sc->vge_ldata.vge_rx_mbuf[i] != NULL) {
212013bca4c6SSepherosa Ziehau bus_dmamap_unload(sc->vge_ldata.vge_mtag,
212113bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_dmamap[i]);
212213bca4c6SSepherosa Ziehau m_freem(sc->vge_ldata.vge_rx_mbuf[i]);
212313bca4c6SSepherosa Ziehau sc->vge_ldata.vge_rx_mbuf[i] = NULL;
212413bca4c6SSepherosa Ziehau }
212513bca4c6SSepherosa Ziehau }
212613bca4c6SSepherosa Ziehau }
212713bca4c6SSepherosa Ziehau
212813bca4c6SSepherosa Ziehau /*
212913bca4c6SSepherosa Ziehau * Device suspend routine. Stop the interface and save some PCI
213013bca4c6SSepherosa Ziehau * settings in case the BIOS doesn't restore them properly on
213113bca4c6SSepherosa Ziehau * resume.
213213bca4c6SSepherosa Ziehau */
213313bca4c6SSepherosa Ziehau static int
vge_suspend(device_t dev)213413bca4c6SSepherosa Ziehau vge_suspend(device_t dev)
213513bca4c6SSepherosa Ziehau {
213613bca4c6SSepherosa Ziehau struct vge_softc *sc = device_get_softc(dev);
213713bca4c6SSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if;
213813bca4c6SSepherosa Ziehau
213913bca4c6SSepherosa Ziehau lwkt_serialize_enter(ifp->if_serializer);
214013bca4c6SSepherosa Ziehau vge_stop(sc);
214113bca4c6SSepherosa Ziehau sc->suspended = 1;
214213bca4c6SSepherosa Ziehau lwkt_serialize_exit(ifp->if_serializer);
214313bca4c6SSepherosa Ziehau
214413bca4c6SSepherosa Ziehau return (0);
214513bca4c6SSepherosa Ziehau }
214613bca4c6SSepherosa Ziehau
214713bca4c6SSepherosa Ziehau /*
214813bca4c6SSepherosa Ziehau * Device resume routine. Restore some PCI settings in case the BIOS
214913bca4c6SSepherosa Ziehau * doesn't, re-enable busmastering, and restart the interface if
215013bca4c6SSepherosa Ziehau * appropriate.
215113bca4c6SSepherosa Ziehau */
215213bca4c6SSepherosa Ziehau static int
vge_resume(device_t dev)215313bca4c6SSepherosa Ziehau vge_resume(device_t dev)
215413bca4c6SSepherosa Ziehau {
215513bca4c6SSepherosa Ziehau struct vge_softc *sc = device_get_softc(dev);
215613bca4c6SSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if;
215713bca4c6SSepherosa Ziehau
215813bca4c6SSepherosa Ziehau /* reenable busmastering */
215913bca4c6SSepherosa Ziehau pci_enable_busmaster(dev);
216013bca4c6SSepherosa Ziehau pci_enable_io(dev, SYS_RES_MEMORY);
216113bca4c6SSepherosa Ziehau
216213bca4c6SSepherosa Ziehau lwkt_serialize_enter(ifp->if_serializer);
216313bca4c6SSepherosa Ziehau /* reinitialize interface if necessary */
216413bca4c6SSepherosa Ziehau if (ifp->if_flags & IFF_UP)
216513bca4c6SSepherosa Ziehau vge_init(sc);
216613bca4c6SSepherosa Ziehau
216713bca4c6SSepherosa Ziehau sc->suspended = 0;
216813bca4c6SSepherosa Ziehau lwkt_serialize_exit(ifp->if_serializer);
216913bca4c6SSepherosa Ziehau
217013bca4c6SSepherosa Ziehau return (0);
217113bca4c6SSepherosa Ziehau }
217213bca4c6SSepherosa Ziehau
217313bca4c6SSepherosa Ziehau /*
217413bca4c6SSepherosa Ziehau * Stop all chip I/O so that the kernel's probe routines don't
217513bca4c6SSepherosa Ziehau * get confused by errant DMAs when rebooting.
217613bca4c6SSepherosa Ziehau */
217713bca4c6SSepherosa Ziehau static void
vge_shutdown(device_t dev)217813bca4c6SSepherosa Ziehau vge_shutdown(device_t dev)
217913bca4c6SSepherosa Ziehau {
218013bca4c6SSepherosa Ziehau struct vge_softc *sc = device_get_softc(dev);
218113bca4c6SSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if;
218213bca4c6SSepherosa Ziehau
218313bca4c6SSepherosa Ziehau lwkt_serialize_enter(ifp->if_serializer);
218413bca4c6SSepherosa Ziehau vge_stop(sc);
218513bca4c6SSepherosa Ziehau lwkt_serialize_exit(ifp->if_serializer);
218613bca4c6SSepherosa Ziehau }
218713bca4c6SSepherosa Ziehau
218813bca4c6SSepherosa Ziehau static void
vge_enable_intr(struct vge_softc * sc,uint32_t isr)218913bca4c6SSepherosa Ziehau vge_enable_intr(struct vge_softc *sc, uint32_t isr)
219013bca4c6SSepherosa Ziehau {
219113bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_IMR, VGE_INTRS);
219213bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_ISR, isr);
219313bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRS3, VGE_CR3_INT_GMSK);
219413bca4c6SSepherosa Ziehau }
219513bca4c6SSepherosa Ziehau
21964e5366b5SSepherosa Ziehau #ifdef IFPOLL_ENABLE
21974e5366b5SSepherosa Ziehau
219813bca4c6SSepherosa Ziehau static void
vge_disable_intr(struct vge_softc * sc)219913bca4c6SSepherosa Ziehau vge_disable_intr(struct vge_softc *sc)
220013bca4c6SSepherosa Ziehau {
220113bca4c6SSepherosa Ziehau CSR_WRITE_4(sc, VGE_IMR, 0);
220213bca4c6SSepherosa Ziehau CSR_WRITE_1(sc, VGE_CRC3, VGE_CR3_INT_GMSK);
22034e5366b5SSepherosa Ziehau sc->vge_npoll.ifpc_stcount = 0;
220413bca4c6SSepherosa Ziehau }
22054e5366b5SSepherosa Ziehau
22064e5366b5SSepherosa Ziehau #endif /* IFPOLL_ENABLE */
2207