freebsd-skq/sys/dev/dc/if_dc.c

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/*-
* Copyright (c) 1997, 1998, 1999
* Bill Paul <wpaul@ee.columbia.edu>. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Bill Paul.
* 4. Neither the name of the author nor the names of any co-contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY Bill Paul AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL Bill Paul OR THE VOICES IN HIS HEAD
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
/*
* DEC "tulip" clone ethernet driver. Supports the DEC/Intel 21143
* series chips and several workalikes including the following:
*
* Macronix 98713/98715/98725/98727/98732 PMAC (www.macronix.com)
* Macronix/Lite-On 82c115 PNIC II (www.macronix.com)
* Lite-On 82c168/82c169 PNIC (www.litecom.com)
* ASIX Electronics AX88140A (www.asix.com.tw)
* ASIX Electronics AX88141 (www.asix.com.tw)
* ADMtek AL981 (www.admtek.com.tw)
* ADMtek AN983 (www.admtek.com.tw)
* ADMtek CardBus AN985 (www.admtek.com.tw)
* Netgear FA511 (www.netgear.com) Appears to be rebadged ADMTek CardBus AN985
* Davicom DM9100, DM9102, DM9102A (www.davicom8.com)
* Accton EN1217 (www.accton.com)
* Xircom X3201 (www.xircom.com)
* Abocom FE2500
* Conexant LANfinity (www.conexant.com)
* 3Com OfficeConnect 10/100B 3CSOHO100B (www.3com.com)
*
* Datasheets for the 21143 are available at developer.intel.com.
* Datasheets for the clone parts can be found at their respective sites.
* (Except for the PNIC; see www.freebsd.org/~wpaul/PNIC/pnic.ps.gz.)
* The PNIC II is essentially a Macronix 98715A chip; the only difference
* worth noting is that its multicast hash table is only 128 bits wide
* instead of 512.
*
* Written by Bill Paul <wpaul@ee.columbia.edu>
* Electrical Engineering Department
* Columbia University, New York City
*/
/*
* The Intel 21143 is the successor to the DEC 21140. It is basically
* the same as the 21140 but with a few new features. The 21143 supports
* three kinds of media attachments:
*
* o MII port, for 10Mbps and 100Mbps support and NWAY
* autonegotiation provided by an external PHY.
* o SYM port, for symbol mode 100Mbps support.
* o 10baseT port.
* o AUI/BNC port.
*
* The 100Mbps SYM port and 10baseT port can be used together in
* combination with the internal NWAY support to create a 10/100
* autosensing configuration.
*
* Note that not all tulip workalikes are handled in this driver: we only
* deal with those which are relatively well behaved. The Winbond is
* handled separately due to its different register offsets and the
* special handling needed for its various bugs. The PNIC is handled
* here, but I'm not thrilled about it.
*
* All of the workalike chips use some form of MII transceiver support
* with the exception of the Macronix chips, which also have a SYM port.
* The ASIX AX88140A is also documented to have a SYM port, but all
* the cards I've seen use an MII transceiver, probably because the
* AX88140A doesn't support internal NWAY.
*/
#ifdef HAVE_KERNEL_OPTION_HEADERS
#include "opt_device_polling.h"
#endif
#include <sys/param.h>
#include <sys/endian.h>
#include <sys/systm.h>
#include <sys/sockio.h>
#include <sys/mbuf.h>
#include <sys/malloc.h>
#include <sys/kernel.h>
2004-05-30 20:00:41 +00:00
#include <sys/module.h>
#include <sys/socket.h>
#include <net/if.h>
#include <net/if_arp.h>
#include <net/ethernet.h>
#include <net/if_dl.h>
#include <net/if_media.h>
#include <net/if_types.h>
#include <net/if_vlan_var.h>
#include <net/bpf.h>
#include <machine/bus.h>
#include <machine/resource.h>
#include <sys/bus.h>
#include <sys/rman.h>
#include <dev/mii/mii.h>
#include <dev/mii/mii_bitbang.h>
#include <dev/mii/miivar.h>
#include <dev/pci/pcireg.h>
#include <dev/pci/pcivar.h>
#define DC_USEIOSPACE
2005-10-18 06:09:42 +00:00
#include <dev/dc/if_dcreg.h>
#ifdef __sparc64__
#include <dev/ofw/openfirm.h>
#include <machine/ofw_machdep.h>
#endif
MODULE_DEPEND(dc, pci, 1, 1, 1);
MODULE_DEPEND(dc, ether, 1, 1, 1);
MODULE_DEPEND(dc, miibus, 1, 1, 1);
2005-08-29 18:45:21 +00:00
/*
* "device miibus" is required in kernel config. See GENERIC if you get
* errors here.
*/
#include "miibus_if.h"
/*
* Various supported device vendors/types and their names.
*/
static const struct dc_type const dc_devs[] = {
{ DC_DEVID(DC_VENDORID_DEC, DC_DEVICEID_21143), 0,
"Intel 21143 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_DAVICOM, DC_DEVICEID_DM9009), 0,
"Davicom DM9009 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_DAVICOM, DC_DEVICEID_DM9100), 0,
"Davicom DM9100 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_DAVICOM, DC_DEVICEID_DM9102), DC_REVISION_DM9102A,
"Davicom DM9102A 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_DAVICOM, DC_DEVICEID_DM9102), 0,
"Davicom DM9102 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_ADMTEK, DC_DEVICEID_AL981), 0,
"ADMtek AL981 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_ADMTEK, DC_DEVICEID_AN983), 0,
"ADMtek AN983 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_ADMTEK, DC_DEVICEID_AN985), 0,
"ADMtek AN985 CardBus 10/100BaseTX or clone" },
{ DC_DEVID(DC_VENDORID_ADMTEK, DC_DEVICEID_ADM9511), 0,
"ADMtek ADM9511 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_ADMTEK, DC_DEVICEID_ADM9513), 0,
"ADMtek ADM9513 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_ASIX, DC_DEVICEID_AX88140A), DC_REVISION_88141,
"ASIX AX88141 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_ASIX, DC_DEVICEID_AX88140A), 0,
"ASIX AX88140A 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_MX, DC_DEVICEID_98713), DC_REVISION_98713A,
"Macronix 98713A 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_MX, DC_DEVICEID_98713), 0,
"Macronix 98713 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_CP, DC_DEVICEID_98713_CP), DC_REVISION_98713A,
"Compex RL100-TX 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_CP, DC_DEVICEID_98713_CP), 0,
"Compex RL100-TX 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_MX, DC_DEVICEID_987x5), DC_REVISION_98725,
"Macronix 98725 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_MX, DC_DEVICEID_987x5), DC_REVISION_98715AEC_C,
"Macronix 98715AEC-C 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_MX, DC_DEVICEID_987x5), 0,
"Macronix 98715/98715A 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_MX, DC_DEVICEID_98727), 0,
"Macronix 98727/98732 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_LO, DC_DEVICEID_82C115), 0,
"LC82C115 PNIC II 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_LO, DC_DEVICEID_82C168), DC_REVISION_82C169,
"82c169 PNIC 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_LO, DC_DEVICEID_82C168), 0,
"82c168 PNIC 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_ACCTON, DC_DEVICEID_EN1217), 0,
"Accton EN1217 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_ACCTON, DC_DEVICEID_EN2242), 0,
"Accton EN2242 MiniPCI 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_XIRCOM, DC_DEVICEID_X3201), 0,
"Xircom X3201 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_DLINK, DC_DEVICEID_DRP32TXD), 0,
"Neteasy DRP-32TXD Cardbus 10/100" },
{ DC_DEVID(DC_VENDORID_ABOCOM, DC_DEVICEID_FE2500), 0,
"Abocom FE2500 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_ABOCOM, DC_DEVICEID_FE2500MX), 0,
"Abocom FE2500MX 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_CONEXANT, DC_DEVICEID_RS7112), 0,
"Conexant LANfinity MiniPCI 10/100BaseTX" },
{ DC_DEVID(DC_VENDORID_HAWKING, DC_DEVICEID_HAWKING_PN672TX), 0,
"Hawking CB102 CardBus 10/100" },
{ DC_DEVID(DC_VENDORID_PLANEX, DC_DEVICEID_FNW3602T), 0,
"PlaneX FNW-3602-T CardBus 10/100" },
{ DC_DEVID(DC_VENDORID_3COM, DC_DEVICEID_3CSOHOB), 0,
"3Com OfficeConnect 10/100B" },
{ DC_DEVID(DC_VENDORID_MICROSOFT, DC_DEVICEID_MSMN120), 0,
"Microsoft MN-120 CardBus 10/100" },
{ DC_DEVID(DC_VENDORID_MICROSOFT, DC_DEVICEID_MSMN130), 0,
"Microsoft MN-130 10/100" },
{ DC_DEVID(DC_VENDORID_LINKSYS, DC_DEVICEID_PCMPC200_AB08), 0,
"Linksys PCMPC200 CardBus 10/100" },
{ DC_DEVID(DC_VENDORID_LINKSYS, DC_DEVICEID_PCMPC200_AB09), 0,
"Linksys PCMPC200 CardBus 10/100" },
{ DC_DEVID(DC_VENDORID_ULI, DC_DEVICEID_M5261), 0,
"ULi M5261 FastEthernet" },
{ DC_DEVID(DC_VENDORID_ULI, DC_DEVICEID_M5263), 0,
"ULi M5263 FastEthernet" },
{ 0, 0, NULL }
};
static int dc_probe(device_t);
static int dc_attach(device_t);
static int dc_detach(device_t);
static int dc_suspend(device_t);
static int dc_resume(device_t);
static const struct dc_type *dc_devtype(device_t);
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
static void dc_discard_rxbuf(struct dc_softc *, int);
static int dc_newbuf(struct dc_softc *, int);
static int dc_encap(struct dc_softc *, struct mbuf **);
static void dc_pnic_rx_bug_war(struct dc_softc *, int);
static int dc_rx_resync(struct dc_softc *);
static int dc_rxeof(struct dc_softc *);
static void dc_txeof(struct dc_softc *);
static void dc_tick(void *);
static void dc_tx_underrun(struct dc_softc *);
static void dc_intr(void *);
static void dc_start(struct ifnet *);
static void dc_start_locked(struct ifnet *);
static int dc_ioctl(struct ifnet *, u_long, caddr_t);
static void dc_init(void *);
static void dc_init_locked(struct dc_softc *);
static void dc_stop(struct dc_softc *);
static void dc_watchdog(void *);
static int dc_shutdown(device_t);
static int dc_ifmedia_upd(struct ifnet *);
static int dc_ifmedia_upd_locked(struct dc_softc *);
static void dc_ifmedia_sts(struct ifnet *, struct ifmediareq *);
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
static int dc_dma_alloc(struct dc_softc *);
static void dc_dma_free(struct dc_softc *);
static void dc_dma_map_addr(void *, bus_dma_segment_t *, int, int);
static void dc_delay(struct dc_softc *);
static void dc_eeprom_idle(struct dc_softc *);
static void dc_eeprom_putbyte(struct dc_softc *, int);
2011-02-19 03:32:10 +00:00
static void dc_eeprom_getword(struct dc_softc *, int, uint16_t *);
static void dc_eeprom_getword_pnic(struct dc_softc *, int, uint16_t *);
static void dc_eeprom_getword_xircom(struct dc_softc *, int, uint16_t *);
static void dc_eeprom_width(struct dc_softc *);
static void dc_read_eeprom(struct dc_softc *, caddr_t, int, int, int);
static int dc_miibus_readreg(device_t, int, int);
static int dc_miibus_writereg(device_t, int, int, int);
static void dc_miibus_statchg(device_t);
static void dc_miibus_mediainit(device_t);
static void dc_setcfg(struct dc_softc *, int);
static void dc_netcfg_wait(struct dc_softc *);
static uint32_t dc_mchash_le(struct dc_softc *, const uint8_t *);
static uint32_t dc_mchash_be(const uint8_t *);
static void dc_setfilt_21143(struct dc_softc *);
static void dc_setfilt_asix(struct dc_softc *);
static void dc_setfilt_admtek(struct dc_softc *);
static void dc_setfilt_uli(struct dc_softc *);
static void dc_setfilt_xircom(struct dc_softc *);
static void dc_setfilt(struct dc_softc *);
static void dc_reset(struct dc_softc *);
static int dc_list_rx_init(struct dc_softc *);
static int dc_list_tx_init(struct dc_softc *);
static int dc_read_srom(struct dc_softc *, int);
static int dc_parse_21143_srom(struct dc_softc *);
static int dc_decode_leaf_sia(struct dc_softc *, struct dc_eblock_sia *);
static int dc_decode_leaf_mii(struct dc_softc *, struct dc_eblock_mii *);
static int dc_decode_leaf_sym(struct dc_softc *, struct dc_eblock_sym *);
static void dc_apply_fixup(struct dc_softc *, int);
static int dc_check_multiport(struct dc_softc *);
/*
* MII bit-bang glue
*/
static uint32_t dc_mii_bitbang_read(device_t);
static void dc_mii_bitbang_write(device_t, uint32_t);
static const struct mii_bitbang_ops dc_mii_bitbang_ops = {
dc_mii_bitbang_read,
dc_mii_bitbang_write,
{
DC_SIO_MII_DATAOUT, /* MII_BIT_MDO */
DC_SIO_MII_DATAIN, /* MII_BIT_MDI */
DC_SIO_MII_CLK, /* MII_BIT_MDC */
0, /* MII_BIT_DIR_HOST_PHY */
DC_SIO_MII_DIR, /* MII_BIT_DIR_PHY_HOST */
}
};
#ifdef DC_USEIOSPACE
#define DC_RES SYS_RES_IOPORT
#define DC_RID DC_PCI_CFBIO
#else
#define DC_RES SYS_RES_MEMORY
#define DC_RID DC_PCI_CFBMA
#endif
static device_method_t dc_methods[] = {
/* Device interface */
DEVMETHOD(device_probe, dc_probe),
DEVMETHOD(device_attach, dc_attach),
DEVMETHOD(device_detach, dc_detach),
DEVMETHOD(device_suspend, dc_suspend),
DEVMETHOD(device_resume, dc_resume),
DEVMETHOD(device_shutdown, dc_shutdown),
/* MII interface */
DEVMETHOD(miibus_readreg, dc_miibus_readreg),
DEVMETHOD(miibus_writereg, dc_miibus_writereg),
DEVMETHOD(miibus_statchg, dc_miibus_statchg),
DEVMETHOD(miibus_mediainit, dc_miibus_mediainit),
DEVMETHOD_END
};
static driver_t dc_driver = {
"dc",
dc_methods,
sizeof(struct dc_softc)
};
static devclass_t dc_devclass;
DRIVER_MODULE_ORDERED(dc, pci, dc_driver, dc_devclass, NULL, NULL,
SI_ORDER_ANY);
DRIVER_MODULE(miibus, dc, miibus_driver, miibus_devclass, NULL, NULL);
#define DC_SETBIT(sc, reg, x) \
CSR_WRITE_4(sc, reg, CSR_READ_4(sc, reg) | (x))
#define DC_CLRBIT(sc, reg, x) \
CSR_WRITE_4(sc, reg, CSR_READ_4(sc, reg) & ~(x))
#define SIO_SET(x) DC_SETBIT(sc, DC_SIO, (x))
#define SIO_CLR(x) DC_CLRBIT(sc, DC_SIO, (x))
static void
dc_delay(struct dc_softc *sc)
{
int idx;
for (idx = (300 / 33) + 1; idx > 0; idx--)
CSR_READ_4(sc, DC_BUSCTL);
}
static void
dc_eeprom_width(struct dc_softc *sc)
{
int i;
/* Force EEPROM to idle state. */
dc_eeprom_idle(sc);
/* Enter EEPROM access mode. */
CSR_WRITE_4(sc, DC_SIO, DC_SIO_EESEL);
dc_delay(sc);
DC_SETBIT(sc, DC_SIO, DC_SIO_ROMCTL_READ);
dc_delay(sc);
DC_CLRBIT(sc, DC_SIO, DC_SIO_EE_CLK);
dc_delay(sc);
DC_SETBIT(sc, DC_SIO, DC_SIO_EE_CS);
dc_delay(sc);
for (i = 3; i--;) {
if (6 & (1 << i))
DC_SETBIT(sc, DC_SIO, DC_SIO_EE_DATAIN);
else
DC_CLRBIT(sc, DC_SIO, DC_SIO_EE_DATAIN);
dc_delay(sc);
DC_SETBIT(sc, DC_SIO, DC_SIO_EE_CLK);
dc_delay(sc);
DC_CLRBIT(sc, DC_SIO, DC_SIO_EE_CLK);
dc_delay(sc);
}
for (i = 1; i <= 12; i++) {
DC_SETBIT(sc, DC_SIO, DC_SIO_EE_CLK);
dc_delay(sc);
if (!(CSR_READ_4(sc, DC_SIO) & DC_SIO_EE_DATAOUT)) {
DC_CLRBIT(sc, DC_SIO, DC_SIO_EE_CLK);
dc_delay(sc);
break;
}
DC_CLRBIT(sc, DC_SIO, DC_SIO_EE_CLK);
dc_delay(sc);
}
/* Turn off EEPROM access mode. */
dc_eeprom_idle(sc);
if (i < 4 || i > 12)
sc->dc_romwidth = 6;
else
sc->dc_romwidth = i;
/* Enter EEPROM access mode. */
CSR_WRITE_4(sc, DC_SIO, DC_SIO_EESEL);
dc_delay(sc);
DC_SETBIT(sc, DC_SIO, DC_SIO_ROMCTL_READ);
dc_delay(sc);
DC_CLRBIT(sc, DC_SIO, DC_SIO_EE_CLK);
dc_delay(sc);
DC_SETBIT(sc, DC_SIO, DC_SIO_EE_CS);
dc_delay(sc);
/* Turn off EEPROM access mode. */
dc_eeprom_idle(sc);
}
static void
dc_eeprom_idle(struct dc_softc *sc)
{
int i;
CSR_WRITE_4(sc, DC_SIO, DC_SIO_EESEL);
dc_delay(sc);
DC_SETBIT(sc, DC_SIO, DC_SIO_ROMCTL_READ);
dc_delay(sc);
DC_CLRBIT(sc, DC_SIO, DC_SIO_EE_CLK);
dc_delay(sc);
DC_SETBIT(sc, DC_SIO, DC_SIO_EE_CS);
dc_delay(sc);
for (i = 0; i < 25; i++) {
DC_CLRBIT(sc, DC_SIO, DC_SIO_EE_CLK);
dc_delay(sc);
DC_SETBIT(sc, DC_SIO, DC_SIO_EE_CLK);
dc_delay(sc);
}
DC_CLRBIT(sc, DC_SIO, DC_SIO_EE_CLK);
dc_delay(sc);
DC_CLRBIT(sc, DC_SIO, DC_SIO_EE_CS);
dc_delay(sc);
CSR_WRITE_4(sc, DC_SIO, 0x00000000);
}
/*
* Send a read command and address to the EEPROM, check for ACK.
*/
static void
dc_eeprom_putbyte(struct dc_softc *sc, int addr)
{
int d, i;
d = DC_EECMD_READ >> 6;
for (i = 3; i--; ) {
if (d & (1 << i))
DC_SETBIT(sc, DC_SIO, DC_SIO_EE_DATAIN);
else
DC_CLRBIT(sc, DC_SIO, DC_SIO_EE_DATAIN);
dc_delay(sc);
DC_SETBIT(sc, DC_SIO, DC_SIO_EE_CLK);
dc_delay(sc);
DC_CLRBIT(sc, DC_SIO, DC_SIO_EE_CLK);
dc_delay(sc);
}
/*
* Feed in each bit and strobe the clock.
*/
for (i = sc->dc_romwidth; i--;) {
if (addr & (1 << i)) {
SIO_SET(DC_SIO_EE_DATAIN);
} else {
SIO_CLR(DC_SIO_EE_DATAIN);
}
dc_delay(sc);
SIO_SET(DC_SIO_EE_CLK);
dc_delay(sc);
SIO_CLR(DC_SIO_EE_CLK);
dc_delay(sc);
}
}
/*
* Read a word of data stored in the EEPROM at address 'addr.'
* The PNIC 82c168/82c169 has its own non-standard way to read
* the EEPROM.
*/
static void
2011-02-19 03:32:10 +00:00
dc_eeprom_getword_pnic(struct dc_softc *sc, int addr, uint16_t *dest)
{
int i;
2011-02-19 03:32:10 +00:00
uint32_t r;
CSR_WRITE_4(sc, DC_PN_SIOCTL, DC_PN_EEOPCODE_READ | addr);
for (i = 0; i < DC_TIMEOUT; i++) {
DELAY(1);
r = CSR_READ_4(sc, DC_SIO);
if (!(r & DC_PN_SIOCTL_BUSY)) {
2011-02-19 03:32:10 +00:00
*dest = (uint16_t)(r & 0xFFFF);
return;
}
}
}
/*
* Read a word of data stored in the EEPROM at address 'addr.'
* The Xircom X3201 has its own non-standard way to read
* the EEPROM, too.
*/
static void
2011-02-19 03:32:10 +00:00
dc_eeprom_getword_xircom(struct dc_softc *sc, int addr, uint16_t *dest)
{
SIO_SET(DC_SIO_ROMSEL | DC_SIO_ROMCTL_READ);
addr *= 2;
CSR_WRITE_4(sc, DC_ROM, addr | 0x160);
2011-02-19 03:32:10 +00:00
*dest = (uint16_t)CSR_READ_4(sc, DC_SIO) & 0xff;
addr += 1;
CSR_WRITE_4(sc, DC_ROM, addr | 0x160);
2011-02-19 03:32:10 +00:00
*dest |= ((uint16_t)CSR_READ_4(sc, DC_SIO) & 0xff) << 8;
SIO_CLR(DC_SIO_ROMSEL | DC_SIO_ROMCTL_READ);
}
/*
* Read a word of data stored in the EEPROM at address 'addr.'
*/
static void
2011-02-19 03:32:10 +00:00
dc_eeprom_getword(struct dc_softc *sc, int addr, uint16_t *dest)
{
int i;
2011-02-19 03:32:10 +00:00
uint16_t word = 0;
/* Force EEPROM to idle state. */
dc_eeprom_idle(sc);
/* Enter EEPROM access mode. */
CSR_WRITE_4(sc, DC_SIO, DC_SIO_EESEL);
dc_delay(sc);
DC_SETBIT(sc, DC_SIO, DC_SIO_ROMCTL_READ);
dc_delay(sc);
DC_CLRBIT(sc, DC_SIO, DC_SIO_EE_CLK);
dc_delay(sc);
DC_SETBIT(sc, DC_SIO, DC_SIO_EE_CS);
dc_delay(sc);
/*
* Send address of word we want to read.
*/
dc_eeprom_putbyte(sc, addr);
/*
* Start reading bits from EEPROM.
*/
for (i = 0x8000; i; i >>= 1) {
SIO_SET(DC_SIO_EE_CLK);
dc_delay(sc);
if (CSR_READ_4(sc, DC_SIO) & DC_SIO_EE_DATAOUT)
word |= i;
dc_delay(sc);
SIO_CLR(DC_SIO_EE_CLK);
dc_delay(sc);
}
/* Turn off EEPROM access mode. */
dc_eeprom_idle(sc);
*dest = word;
}
/*
* Read a sequence of words from the EEPROM.
*/
static void
dc_read_eeprom(struct dc_softc *sc, caddr_t dest, int off, int cnt, int be)
{
int i;
2011-02-19 03:32:10 +00:00
uint16_t word = 0, *ptr;
for (i = 0; i < cnt; i++) {
if (DC_IS_PNIC(sc))
dc_eeprom_getword_pnic(sc, off + i, &word);
else if (DC_IS_XIRCOM(sc))
dc_eeprom_getword_xircom(sc, off + i, &word);
else
dc_eeprom_getword(sc, off + i, &word);
2011-02-19 03:32:10 +00:00
ptr = (uint16_t *)(dest + (i * 2));
if (be)
*ptr = be16toh(word);
else
*ptr = le16toh(word);
}
}
/*
* Write the MII serial port for the MII bit-bang module.
*/
static void
dc_mii_bitbang_write(device_t dev, uint32_t val)
{
struct dc_softc *sc;
sc = device_get_softc(dev);
CSR_WRITE_4(sc, DC_SIO, val);
CSR_BARRIER_4(sc, DC_SIO,
BUS_SPACE_BARRIER_READ | BUS_SPACE_BARRIER_WRITE);
}
/*
* Read the MII serial port for the MII bit-bang module.
*/
static uint32_t
dc_mii_bitbang_read(device_t dev)
{
struct dc_softc *sc;
uint32_t val;
sc = device_get_softc(dev);
val = CSR_READ_4(sc, DC_SIO);
CSR_BARRIER_4(sc, DC_SIO,
BUS_SPACE_BARRIER_READ | BUS_SPACE_BARRIER_WRITE);
return (val);
}
static int
dc_miibus_readreg(device_t dev, int phy, int reg)
{
struct dc_softc *sc;
int i, rval, phy_reg = 0;
sc = device_get_softc(dev);
if (sc->dc_pmode != DC_PMODE_MII) {
if (phy == (MII_NPHY - 1)) {
switch (reg) {
case MII_BMSR:
/*
* Fake something to make the probe
* code think there's a PHY here.
*/
return (BMSR_MEDIAMASK);
break;
case MII_PHYIDR1:
if (DC_IS_PNIC(sc))
return (DC_VENDORID_LO);
return (DC_VENDORID_DEC);
break;
case MII_PHYIDR2:
if (DC_IS_PNIC(sc))
return (DC_DEVICEID_82C168);
return (DC_DEVICEID_21143);
break;
default:
return (0);
break;
}
} else
return (0);
}
if (DC_IS_PNIC(sc)) {
CSR_WRITE_4(sc, DC_PN_MII, DC_PN_MIIOPCODE_READ |
(phy << 23) | (reg << 18));
for (i = 0; i < DC_TIMEOUT; i++) {
DELAY(1);
rval = CSR_READ_4(sc, DC_PN_MII);
if (!(rval & DC_PN_MII_BUSY)) {
rval &= 0xFFFF;
return (rval == 0xFFFF ? 0 : rval);
}
}
return (0);
}
if (sc->dc_type == DC_TYPE_ULI_M5263) {
CSR_WRITE_4(sc, DC_ROM,
((phy << DC_ULI_PHY_ADDR_SHIFT) & DC_ULI_PHY_ADDR_MASK) |
((reg << DC_ULI_PHY_REG_SHIFT) & DC_ULI_PHY_REG_MASK) |
DC_ULI_PHY_OP_READ);
for (i = 0; i < DC_TIMEOUT; i++) {
DELAY(1);
rval = CSR_READ_4(sc, DC_ROM);
if ((rval & DC_ULI_PHY_OP_DONE) != 0) {
return (rval & DC_ULI_PHY_DATA_MASK);
}
}
if (i == DC_TIMEOUT)
device_printf(dev, "phy read timed out\n");
return (0);
}
if (DC_IS_COMET(sc)) {
switch (reg) {
case MII_BMCR:
phy_reg = DC_AL_BMCR;
break;
case MII_BMSR:
phy_reg = DC_AL_BMSR;
break;
case MII_PHYIDR1:
phy_reg = DC_AL_VENID;
break;
case MII_PHYIDR2:
phy_reg = DC_AL_DEVID;
break;
case MII_ANAR:
phy_reg = DC_AL_ANAR;
break;
case MII_ANLPAR:
phy_reg = DC_AL_LPAR;
break;
case MII_ANER:
phy_reg = DC_AL_ANER;
break;
default:
device_printf(dev, "phy_read: bad phy register %x\n",
reg);
return (0);
break;
}
rval = CSR_READ_4(sc, phy_reg) & 0x0000FFFF;
if (rval == 0xFFFF)
return (0);
return (rval);
}
if (sc->dc_type == DC_TYPE_98713) {
phy_reg = CSR_READ_4(sc, DC_NETCFG);
CSR_WRITE_4(sc, DC_NETCFG, phy_reg & ~DC_NETCFG_PORTSEL);
}
rval = mii_bitbang_readreg(dev, &dc_mii_bitbang_ops, phy, reg);
if (sc->dc_type == DC_TYPE_98713)
CSR_WRITE_4(sc, DC_NETCFG, phy_reg);
return (rval);
}
static int
dc_miibus_writereg(device_t dev, int phy, int reg, int data)
{
struct dc_softc *sc;
int i, phy_reg = 0;
sc = device_get_softc(dev);
if (DC_IS_PNIC(sc)) {
CSR_WRITE_4(sc, DC_PN_MII, DC_PN_MIIOPCODE_WRITE |
(phy << 23) | (reg << 10) | data);
for (i = 0; i < DC_TIMEOUT; i++) {
if (!(CSR_READ_4(sc, DC_PN_MII) & DC_PN_MII_BUSY))
break;
}
return (0);
}
if (sc->dc_type == DC_TYPE_ULI_M5263) {
CSR_WRITE_4(sc, DC_ROM,
((phy << DC_ULI_PHY_ADDR_SHIFT) & DC_ULI_PHY_ADDR_MASK) |
((reg << DC_ULI_PHY_REG_SHIFT) & DC_ULI_PHY_REG_MASK) |
((data << DC_ULI_PHY_DATA_SHIFT) & DC_ULI_PHY_DATA_MASK) |
DC_ULI_PHY_OP_WRITE);
DELAY(1);
return (0);
}
if (DC_IS_COMET(sc)) {
switch (reg) {
case MII_BMCR:
phy_reg = DC_AL_BMCR;
break;
case MII_BMSR:
phy_reg = DC_AL_BMSR;
break;
case MII_PHYIDR1:
phy_reg = DC_AL_VENID;
break;
case MII_PHYIDR2:
phy_reg = DC_AL_DEVID;
break;
case MII_ANAR:
phy_reg = DC_AL_ANAR;
break;
case MII_ANLPAR:
phy_reg = DC_AL_LPAR;
break;
case MII_ANER:
phy_reg = DC_AL_ANER;
break;
default:
device_printf(dev, "phy_write: bad phy register %x\n",
reg);
return (0);
break;
}
CSR_WRITE_4(sc, phy_reg, data);
return (0);
}
if (sc->dc_type == DC_TYPE_98713) {
phy_reg = CSR_READ_4(sc, DC_NETCFG);
CSR_WRITE_4(sc, DC_NETCFG, phy_reg & ~DC_NETCFG_PORTSEL);
}
mii_bitbang_writereg(dev, &dc_mii_bitbang_ops, phy, reg, data);
if (sc->dc_type == DC_TYPE_98713)
CSR_WRITE_4(sc, DC_NETCFG, phy_reg);
return (0);
}
static void
dc_miibus_statchg(device_t dev)
{
struct dc_softc *sc;
struct ifnet *ifp;
struct mii_data *mii;
struct ifmedia *ifm;
sc = device_get_softc(dev);
mii = device_get_softc(sc->dc_miibus);
ifp = sc->dc_ifp;
if (mii == NULL || ifp == NULL ||
(ifp->if_drv_flags & IFF_DRV_RUNNING) == 0)
return;
ifm = &mii->mii_media;
if (DC_IS_DAVICOM(sc) && IFM_SUBTYPE(ifm->ifm_media) == IFM_HPNA_1) {
dc_setcfg(sc, ifm->ifm_media);
return;
} else if (!DC_IS_ADMTEK(sc))
dc_setcfg(sc, mii->mii_media_active);
sc->dc_link = 0;
if ((mii->mii_media_status & (IFM_ACTIVE | IFM_AVALID)) ==
(IFM_ACTIVE | IFM_AVALID)) {
switch (IFM_SUBTYPE(mii->mii_media_active)) {
case IFM_10_T:
case IFM_100_TX:
sc->dc_link = 1;
break;
}
}
}
/*
* Special support for DM9102A cards with HomePNA PHYs. Note:
* with the Davicom DM9102A/DM9801 eval board that I have, it seems
* to be impossible to talk to the management interface of the DM9801
* PHY (its MDIO pin is not connected to anything). Consequently,
* the driver has to just 'know' about the additional mode and deal
* with it itself. *sigh*
*/
static void
dc_miibus_mediainit(device_t dev)
{
struct dc_softc *sc;
struct mii_data *mii;
struct ifmedia *ifm;
int rev;
rev = pci_get_revid(dev);
sc = device_get_softc(dev);
mii = device_get_softc(sc->dc_miibus);
ifm = &mii->mii_media;
if (DC_IS_DAVICOM(sc) && rev >= DC_REVISION_DM9102A)
ifmedia_add(ifm, IFM_ETHER | IFM_HPNA_1, 0, NULL);
}
#define DC_BITS_512 9
#define DC_BITS_128 7
#define DC_BITS_64 6
2003-11-14 05:45:39 +00:00
static uint32_t
dc_mchash_le(struct dc_softc *sc, const uint8_t *addr)
{
2003-11-14 05:45:39 +00:00
uint32_t crc;
/* Compute CRC for the address value. */
crc = ether_crc32_le(addr, ETHER_ADDR_LEN);
/*
* The hash table on the PNIC II and the MX98715AEC-C/D/E
* chips is only 128 bits wide.
*/
if (sc->dc_flags & DC_128BIT_HASH)
return (crc & ((1 << DC_BITS_128) - 1));
/* The hash table on the MX98715BEC is only 64 bits wide. */
if (sc->dc_flags & DC_64BIT_HASH)
return (crc & ((1 << DC_BITS_64) - 1));
/* Xircom's hash filtering table is different (read: weird) */
/* Xircom uses the LEAST significant bits */
if (DC_IS_XIRCOM(sc)) {
if ((crc & 0x180) == 0x180)
return ((crc & 0x0F) + (crc & 0x70) * 3 + (14 << 4));
else
return ((crc & 0x1F) + ((crc >> 1) & 0xF0) * 3 +
(12 << 4));
}
return (crc & ((1 << DC_BITS_512) - 1));
}
/*
* Calculate CRC of a multicast group address, return the lower 6 bits.
*/
2003-11-14 05:45:39 +00:00
static uint32_t
dc_mchash_be(const uint8_t *addr)
{
uint32_t crc;
/* Compute CRC for the address value. */
crc = ether_crc32_be(addr, ETHER_ADDR_LEN);
/* Return the filter bit position. */
return ((crc >> 26) & 0x0000003F);
}
/*
* 21143-style RX filter setup routine. Filter programming is done by
* downloading a special setup frame into the TX engine. 21143, Macronix,
* PNIC, PNIC II and Davicom chips are programmed this way.
*
* We always program the chip using 'hash perfect' mode, i.e. one perfect
* address (our node address) and a 512-bit hash filter for multicast
* frames. We also sneak the broadcast address into the hash filter since
* we need that too.
*/
static void
dc_setfilt_21143(struct dc_softc *sc)
{
uint16_t eaddr[(ETHER_ADDR_LEN+1)/2];
struct dc_desc *sframe;
2011-02-19 03:32:10 +00:00
uint32_t h, *sp;
struct ifmultiaddr *ifma;
struct ifnet *ifp;
int i;
ifp = sc->dc_ifp;
i = sc->dc_cdata.dc_tx_prod;
DC_INC(sc->dc_cdata.dc_tx_prod, DC_TX_LIST_CNT);
sc->dc_cdata.dc_tx_cnt++;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
sframe = &sc->dc_ldata.dc_tx_list[i];
sp = sc->dc_cdata.dc_sbuf;
bzero(sp, DC_SFRAME_LEN);
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
sframe->dc_data = htole32(DC_ADDR_LO(sc->dc_saddr));
sframe->dc_ctl = htole32(DC_SFRAME_LEN | DC_TXCTL_SETUP |
DC_TXCTL_TLINK | DC_FILTER_HASHPERF | DC_TXCTL_FINT);
sc->dc_cdata.dc_tx_chain[i] = (struct mbuf *)sc->dc_cdata.dc_sbuf;
/* If we want promiscuous mode, set the allframes bit. */
if (ifp->if_flags & IFF_PROMISC)
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_RX_PROMISC);
else
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_RX_PROMISC);
if (ifp->if_flags & IFF_ALLMULTI)
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_RX_ALLMULTI);
else
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_RX_ALLMULTI);
if_maddr_rlock(ifp);
TAILQ_FOREACH(ifma, &ifp->if_multiaddrs, ifma_link) {
if (ifma->ifma_addr->sa_family != AF_LINK)
continue;
h = dc_mchash_le(sc,
LLADDR((struct sockaddr_dl *)ifma->ifma_addr));
sp[h >> 4] |= htole32(1 << (h & 0xF));
}
if_maddr_runlock(ifp);
if (ifp->if_flags & IFF_BROADCAST) {
h = dc_mchash_le(sc, ifp->if_broadcastaddr);
sp[h >> 4] |= htole32(1 << (h & 0xF));
}
/* Set our MAC address. */
bcopy(IF_LLADDR(sc->dc_ifp), eaddr, ETHER_ADDR_LEN);
sp[39] = DC_SP_MAC(eaddr[0]);
sp[40] = DC_SP_MAC(eaddr[1]);
sp[41] = DC_SP_MAC(eaddr[2]);
sframe->dc_status = htole32(DC_TXSTAT_OWN);
bus_dmamap_sync(sc->dc_tx_ltag, sc->dc_tx_lmap, BUS_DMASYNC_PREREAD |
BUS_DMASYNC_PREWRITE);
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
bus_dmamap_sync(sc->dc_stag, sc->dc_smap, BUS_DMASYNC_PREWRITE);
CSR_WRITE_4(sc, DC_TXSTART, 0xFFFFFFFF);
/*
* The PNIC takes an exceedingly long time to process its
* setup frame; wait 10ms after posting the setup frame
* before proceeding, just so it has time to swallow its
* medicine.
*/
DELAY(10000);
sc->dc_wdog_timer = 5;
}
static void
dc_setfilt_admtek(struct dc_softc *sc)
{
uint8_t eaddr[ETHER_ADDR_LEN];
struct ifnet *ifp;
struct ifmultiaddr *ifma;
int h = 0;
2011-02-19 03:32:10 +00:00
uint32_t hashes[2] = { 0, 0 };
ifp = sc->dc_ifp;
/* Init our MAC address. */
bcopy(IF_LLADDR(sc->dc_ifp), eaddr, ETHER_ADDR_LEN);
CSR_WRITE_4(sc, DC_AL_PAR0, eaddr[3] << 24 | eaddr[2] << 16 |
eaddr[1] << 8 | eaddr[0]);
CSR_WRITE_4(sc, DC_AL_PAR1, eaddr[5] << 8 | eaddr[4]);
/* If we want promiscuous mode, set the allframes bit. */
if (ifp->if_flags & IFF_PROMISC)
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_RX_PROMISC);
else
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_RX_PROMISC);
if (ifp->if_flags & IFF_ALLMULTI)
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_RX_ALLMULTI);
else
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_RX_ALLMULTI);
/* First, zot all the existing hash bits. */
CSR_WRITE_4(sc, DC_AL_MAR0, 0);
CSR_WRITE_4(sc, DC_AL_MAR1, 0);
/*
* If we're already in promisc or allmulti mode, we
* don't have to bother programming the multicast filter.
*/
if (ifp->if_flags & (IFF_PROMISC | IFF_ALLMULTI))
return;
/* Now program new ones. */
if_maddr_rlock(ifp);
TAILQ_FOREACH(ifma, &ifp->if_multiaddrs, ifma_link) {
if (ifma->ifma_addr->sa_family != AF_LINK)
continue;
if (DC_IS_CENTAUR(sc))
h = dc_mchash_le(sc,
LLADDR((struct sockaddr_dl *)ifma->ifma_addr));
else
h = dc_mchash_be(
LLADDR((struct sockaddr_dl *)ifma->ifma_addr));
if (h < 32)
hashes[0] |= (1 << h);
else
hashes[1] |= (1 << (h - 32));
}
if_maddr_runlock(ifp);
CSR_WRITE_4(sc, DC_AL_MAR0, hashes[0]);
CSR_WRITE_4(sc, DC_AL_MAR1, hashes[1]);
}
static void
dc_setfilt_asix(struct dc_softc *sc)
{
uint32_t eaddr[(ETHER_ADDR_LEN+3)/4];
struct ifnet *ifp;
struct ifmultiaddr *ifma;
int h = 0;
2011-02-19 03:32:10 +00:00
uint32_t hashes[2] = { 0, 0 };
ifp = sc->dc_ifp;
/* Init our MAC address. */
bcopy(IF_LLADDR(sc->dc_ifp), eaddr, ETHER_ADDR_LEN);
CSR_WRITE_4(sc, DC_AX_FILTIDX, DC_AX_FILTIDX_PAR0);
CSR_WRITE_4(sc, DC_AX_FILTDATA, eaddr[0]);
CSR_WRITE_4(sc, DC_AX_FILTIDX, DC_AX_FILTIDX_PAR1);
CSR_WRITE_4(sc, DC_AX_FILTDATA, eaddr[1]);
/* If we want promiscuous mode, set the allframes bit. */
if (ifp->if_flags & IFF_PROMISC)
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_RX_PROMISC);
else
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_RX_PROMISC);
if (ifp->if_flags & IFF_ALLMULTI)
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_RX_ALLMULTI);
else
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_RX_ALLMULTI);
/*
* The ASIX chip has a special bit to enable reception
* of broadcast frames.
*/
if (ifp->if_flags & IFF_BROADCAST)
DC_SETBIT(sc, DC_NETCFG, DC_AX_NETCFG_RX_BROAD);
else
DC_CLRBIT(sc, DC_NETCFG, DC_AX_NETCFG_RX_BROAD);
/* first, zot all the existing hash bits */
CSR_WRITE_4(sc, DC_AX_FILTIDX, DC_AX_FILTIDX_MAR0);
CSR_WRITE_4(sc, DC_AX_FILTDATA, 0);
CSR_WRITE_4(sc, DC_AX_FILTIDX, DC_AX_FILTIDX_MAR1);
CSR_WRITE_4(sc, DC_AX_FILTDATA, 0);
/*
* If we're already in promisc or allmulti mode, we
* don't have to bother programming the multicast filter.
*/
if (ifp->if_flags & (IFF_PROMISC | IFF_ALLMULTI))
return;
/* now program new ones */
if_maddr_rlock(ifp);
TAILQ_FOREACH(ifma, &ifp->if_multiaddrs, ifma_link) {
if (ifma->ifma_addr->sa_family != AF_LINK)
continue;
h = dc_mchash_be(LLADDR((struct sockaddr_dl *)ifma->ifma_addr));
if (h < 32)
hashes[0] |= (1 << h);
else
hashes[1] |= (1 << (h - 32));
}
if_maddr_runlock(ifp);
CSR_WRITE_4(sc, DC_AX_FILTIDX, DC_AX_FILTIDX_MAR0);
CSR_WRITE_4(sc, DC_AX_FILTDATA, hashes[0]);
CSR_WRITE_4(sc, DC_AX_FILTIDX, DC_AX_FILTIDX_MAR1);
CSR_WRITE_4(sc, DC_AX_FILTDATA, hashes[1]);
}
static void
dc_setfilt_uli(struct dc_softc *sc)
{
uint8_t eaddr[ETHER_ADDR_LEN];
struct ifnet *ifp;
struct ifmultiaddr *ifma;
struct dc_desc *sframe;
uint32_t filter, *sp;
uint8_t *ma;
int i, mcnt;
ifp = sc->dc_ifp;
i = sc->dc_cdata.dc_tx_prod;
DC_INC(sc->dc_cdata.dc_tx_prod, DC_TX_LIST_CNT);
sc->dc_cdata.dc_tx_cnt++;
sframe = &sc->dc_ldata.dc_tx_list[i];
sp = sc->dc_cdata.dc_sbuf;
bzero(sp, DC_SFRAME_LEN);
sframe->dc_data = htole32(DC_ADDR_LO(sc->dc_saddr));
sframe->dc_ctl = htole32(DC_SFRAME_LEN | DC_TXCTL_SETUP |
DC_TXCTL_TLINK | DC_FILTER_PERFECT | DC_TXCTL_FINT);
sc->dc_cdata.dc_tx_chain[i] = (struct mbuf *)sc->dc_cdata.dc_sbuf;
/* Set station address. */
bcopy(IF_LLADDR(sc->dc_ifp), eaddr, ETHER_ADDR_LEN);
*sp++ = DC_SP_MAC(eaddr[1] << 8 | eaddr[0]);
*sp++ = DC_SP_MAC(eaddr[3] << 8 | eaddr[2]);
*sp++ = DC_SP_MAC(eaddr[5] << 8 | eaddr[4]);
/* Set broadcast address. */
*sp++ = DC_SP_MAC(0xFFFF);
*sp++ = DC_SP_MAC(0xFFFF);
*sp++ = DC_SP_MAC(0xFFFF);
/* Extract current filter configuration. */
filter = CSR_READ_4(sc, DC_NETCFG);
filter &= ~(DC_NETCFG_RX_PROMISC | DC_NETCFG_RX_ALLMULTI);
/* Now build perfect filters. */
mcnt = 0;
if_maddr_rlock(ifp);
TAILQ_FOREACH(ifma, &ifp->if_multiaddrs, ifma_link) {
if (ifma->ifma_addr->sa_family != AF_LINK)
continue;
if (mcnt >= DC_ULI_FILTER_NPERF) {
filter |= DC_NETCFG_RX_ALLMULTI;
break;
}
ma = LLADDR((struct sockaddr_dl *)ifma->ifma_addr);
*sp++ = DC_SP_MAC(ma[1] << 8 | ma[0]);
*sp++ = DC_SP_MAC(ma[3] << 8 | ma[2]);
*sp++ = DC_SP_MAC(ma[5] << 8 | ma[4]);
mcnt++;
}
if_maddr_runlock(ifp);
for (; mcnt < DC_ULI_FILTER_NPERF; mcnt++) {
*sp++ = DC_SP_MAC(0xFFFF);
*sp++ = DC_SP_MAC(0xFFFF);
*sp++ = DC_SP_MAC(0xFFFF);
}
if (filter & (DC_NETCFG_TX_ON | DC_NETCFG_RX_ON))
CSR_WRITE_4(sc, DC_NETCFG,
filter & ~(DC_NETCFG_TX_ON | DC_NETCFG_RX_ON));
if (ifp->if_flags & IFF_PROMISC)
filter |= DC_NETCFG_RX_PROMISC | DC_NETCFG_RX_ALLMULTI;
if (ifp->if_flags & IFF_ALLMULTI)
filter |= DC_NETCFG_RX_ALLMULTI;
CSR_WRITE_4(sc, DC_NETCFG,
filter & ~(DC_NETCFG_TX_ON | DC_NETCFG_RX_ON));
if (filter & (DC_NETCFG_TX_ON | DC_NETCFG_RX_ON))
CSR_WRITE_4(sc, DC_NETCFG, filter);
sframe->dc_status = htole32(DC_TXSTAT_OWN);
bus_dmamap_sync(sc->dc_tx_ltag, sc->dc_tx_lmap, BUS_DMASYNC_PREREAD |
BUS_DMASYNC_PREWRITE);
bus_dmamap_sync(sc->dc_stag, sc->dc_smap, BUS_DMASYNC_PREWRITE);
CSR_WRITE_4(sc, DC_TXSTART, 0xFFFFFFFF);
/*
* Wait some time...
*/
DELAY(1000);
sc->dc_wdog_timer = 5;
}
static void
dc_setfilt_xircom(struct dc_softc *sc)
{
uint16_t eaddr[(ETHER_ADDR_LEN+1)/2];
struct ifnet *ifp;
struct ifmultiaddr *ifma;
struct dc_desc *sframe;
2011-02-19 03:32:10 +00:00
uint32_t h, *sp;
int i;
ifp = sc->dc_ifp;
DC_CLRBIT(sc, DC_NETCFG, (DC_NETCFG_TX_ON | DC_NETCFG_RX_ON));
i = sc->dc_cdata.dc_tx_prod;
DC_INC(sc->dc_cdata.dc_tx_prod, DC_TX_LIST_CNT);
sc->dc_cdata.dc_tx_cnt++;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
sframe = &sc->dc_ldata.dc_tx_list[i];
sp = sc->dc_cdata.dc_sbuf;
bzero(sp, DC_SFRAME_LEN);
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
sframe->dc_data = htole32(DC_ADDR_LO(sc->dc_saddr));
sframe->dc_ctl = htole32(DC_SFRAME_LEN | DC_TXCTL_SETUP |
DC_TXCTL_TLINK | DC_FILTER_HASHPERF | DC_TXCTL_FINT);
sc->dc_cdata.dc_tx_chain[i] = (struct mbuf *)sc->dc_cdata.dc_sbuf;
/* If we want promiscuous mode, set the allframes bit. */
if (ifp->if_flags & IFF_PROMISC)
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_RX_PROMISC);
else
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_RX_PROMISC);
if (ifp->if_flags & IFF_ALLMULTI)
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_RX_ALLMULTI);
else
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_RX_ALLMULTI);
if_maddr_rlock(ifp);
TAILQ_FOREACH(ifma, &ifp->if_multiaddrs, ifma_link) {
if (ifma->ifma_addr->sa_family != AF_LINK)
continue;
h = dc_mchash_le(sc,
LLADDR((struct sockaddr_dl *)ifma->ifma_addr));
sp[h >> 4] |= htole32(1 << (h & 0xF));
}
if_maddr_runlock(ifp);
if (ifp->if_flags & IFF_BROADCAST) {
h = dc_mchash_le(sc, ifp->if_broadcastaddr);
sp[h >> 4] |= htole32(1 << (h & 0xF));
}
/* Set our MAC address. */
bcopy(IF_LLADDR(sc->dc_ifp), eaddr, ETHER_ADDR_LEN);
sp[0] = DC_SP_MAC(eaddr[0]);
sp[1] = DC_SP_MAC(eaddr[1]);
sp[2] = DC_SP_MAC(eaddr[2]);
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_TX_ON);
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_RX_ON);
sframe->dc_status = htole32(DC_TXSTAT_OWN);
bus_dmamap_sync(sc->dc_tx_ltag, sc->dc_tx_lmap, BUS_DMASYNC_PREREAD |
BUS_DMASYNC_PREWRITE);
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
bus_dmamap_sync(sc->dc_stag, sc->dc_smap, BUS_DMASYNC_PREWRITE);
CSR_WRITE_4(sc, DC_TXSTART, 0xFFFFFFFF);
/*
* Wait some time...
*/
DELAY(1000);
sc->dc_wdog_timer = 5;
}
static void
dc_setfilt(struct dc_softc *sc)
{
if (DC_IS_INTEL(sc) || DC_IS_MACRONIX(sc) || DC_IS_PNIC(sc) ||
DC_IS_PNICII(sc) || DC_IS_DAVICOM(sc) || DC_IS_CONEXANT(sc))
dc_setfilt_21143(sc);
if (DC_IS_ASIX(sc))
dc_setfilt_asix(sc);
if (DC_IS_ADMTEK(sc))
dc_setfilt_admtek(sc);
if (DC_IS_ULI(sc))
dc_setfilt_uli(sc);
if (DC_IS_XIRCOM(sc))
dc_setfilt_xircom(sc);
}
static void
dc_netcfg_wait(struct dc_softc *sc)
{
uint32_t isr;
int i;
for (i = 0; i < DC_TIMEOUT; i++) {
isr = CSR_READ_4(sc, DC_ISR);
if (isr & DC_ISR_TX_IDLE &&
((isr & DC_ISR_RX_STATE) == DC_RXSTATE_STOPPED ||
(isr & DC_ISR_RX_STATE) == DC_RXSTATE_WAIT))
break;
DELAY(10);
}
if (i == DC_TIMEOUT && bus_child_present(sc->dc_dev)) {
if (!(isr & DC_ISR_TX_IDLE) && !DC_IS_ASIX(sc))
device_printf(sc->dc_dev,
"%s: failed to force tx to idle state\n", __func__);
if (!((isr & DC_ISR_RX_STATE) == DC_RXSTATE_STOPPED ||
(isr & DC_ISR_RX_STATE) == DC_RXSTATE_WAIT) &&
!DC_HAS_BROKEN_RXSTATE(sc))
device_printf(sc->dc_dev,
"%s: failed to force rx to idle state\n", __func__);
}
}
/*
* In order to fiddle with the 'full-duplex' and '100Mbps' bits in
* the netconfig register, we first have to put the transmit and/or
* receive logic in the idle state.
*/
static void
dc_setcfg(struct dc_softc *sc, int media)
{
int restart = 0, watchdogreg;
if (IFM_SUBTYPE(media) == IFM_NONE)
return;
if (CSR_READ_4(sc, DC_NETCFG) & (DC_NETCFG_TX_ON | DC_NETCFG_RX_ON)) {
restart = 1;
DC_CLRBIT(sc, DC_NETCFG, (DC_NETCFG_TX_ON | DC_NETCFG_RX_ON));
dc_netcfg_wait(sc);
}
if (IFM_SUBTYPE(media) == IFM_100_TX) {
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_SPEEDSEL);
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_HEARTBEAT);
if (sc->dc_pmode == DC_PMODE_MII) {
if (DC_IS_INTEL(sc)) {
/* There's a write enable bit here that reads as 1. */
watchdogreg = CSR_READ_4(sc, DC_WATCHDOG);
watchdogreg &= ~DC_WDOG_CTLWREN;
watchdogreg |= DC_WDOG_JABBERDIS;
CSR_WRITE_4(sc, DC_WATCHDOG, watchdogreg);
} else {
DC_SETBIT(sc, DC_WATCHDOG, DC_WDOG_JABBERDIS);
}
DC_CLRBIT(sc, DC_NETCFG, (DC_NETCFG_PCS |
DC_NETCFG_PORTSEL | DC_NETCFG_SCRAMBLER));
if (sc->dc_type == DC_TYPE_98713)
DC_SETBIT(sc, DC_NETCFG, (DC_NETCFG_PCS |
DC_NETCFG_SCRAMBLER));
if (!DC_IS_DAVICOM(sc))
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_PORTSEL);
DC_CLRBIT(sc, DC_10BTCTRL, 0xFFFF);
} else {
if (DC_IS_PNIC(sc)) {
DC_PN_GPIO_SETBIT(sc, DC_PN_GPIO_SPEEDSEL);
DC_PN_GPIO_SETBIT(sc, DC_PN_GPIO_100TX_LOOP);
DC_SETBIT(sc, DC_PN_NWAY, DC_PN_NWAY_SPEEDSEL);
}
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_PORTSEL);
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_PCS);
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_SCRAMBLER);
}
}
if (IFM_SUBTYPE(media) == IFM_10_T) {
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_SPEEDSEL);
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_HEARTBEAT);
if (sc->dc_pmode == DC_PMODE_MII) {
/* There's a write enable bit here that reads as 1. */
if (DC_IS_INTEL(sc)) {
watchdogreg = CSR_READ_4(sc, DC_WATCHDOG);
watchdogreg &= ~DC_WDOG_CTLWREN;
watchdogreg |= DC_WDOG_JABBERDIS;
CSR_WRITE_4(sc, DC_WATCHDOG, watchdogreg);
} else {
DC_SETBIT(sc, DC_WATCHDOG, DC_WDOG_JABBERDIS);
}
DC_CLRBIT(sc, DC_NETCFG, (DC_NETCFG_PCS |
DC_NETCFG_PORTSEL | DC_NETCFG_SCRAMBLER));
if (sc->dc_type == DC_TYPE_98713)
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_PCS);
if (!DC_IS_DAVICOM(sc))
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_PORTSEL);
DC_CLRBIT(sc, DC_10BTCTRL, 0xFFFF);
} else {
if (DC_IS_PNIC(sc)) {
DC_PN_GPIO_CLRBIT(sc, DC_PN_GPIO_SPEEDSEL);
DC_PN_GPIO_SETBIT(sc, DC_PN_GPIO_100TX_LOOP);
DC_CLRBIT(sc, DC_PN_NWAY, DC_PN_NWAY_SPEEDSEL);
}
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_PORTSEL);
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_PCS);
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_SCRAMBLER);
if (DC_IS_INTEL(sc)) {
DC_CLRBIT(sc, DC_SIARESET, DC_SIA_RESET);
DC_CLRBIT(sc, DC_10BTCTRL, 0xFFFF);
if ((media & IFM_GMASK) == IFM_FDX)
DC_SETBIT(sc, DC_10BTCTRL, 0x7F3D);
else
DC_SETBIT(sc, DC_10BTCTRL, 0x7F3F);
DC_SETBIT(sc, DC_SIARESET, DC_SIA_RESET);
DC_CLRBIT(sc, DC_10BTCTRL,
DC_TCTL_AUTONEGENBL);
DELAY(20000);
}
}
}
/*
* If this is a Davicom DM9102A card with a DM9801 HomePNA
* PHY and we want HomePNA mode, set the portsel bit to turn
* on the external MII port.
*/
if (DC_IS_DAVICOM(sc)) {
if (IFM_SUBTYPE(media) == IFM_HPNA_1) {
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_PORTSEL);
sc->dc_link = 1;
} else {
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_PORTSEL);
}
}
if ((media & IFM_GMASK) == IFM_FDX) {
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_FULLDUPLEX);
if (sc->dc_pmode == DC_PMODE_SYM && DC_IS_PNIC(sc))
DC_SETBIT(sc, DC_PN_NWAY, DC_PN_NWAY_DUPLEX);
} else {
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_FULLDUPLEX);
if (sc->dc_pmode == DC_PMODE_SYM && DC_IS_PNIC(sc))
DC_CLRBIT(sc, DC_PN_NWAY, DC_PN_NWAY_DUPLEX);
}
if (restart)
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_TX_ON | DC_NETCFG_RX_ON);
}
static void
dc_reset(struct dc_softc *sc)
{
int i;
DC_SETBIT(sc, DC_BUSCTL, DC_BUSCTL_RESET);
for (i = 0; i < DC_TIMEOUT; i++) {
DELAY(10);
if (!(CSR_READ_4(sc, DC_BUSCTL) & DC_BUSCTL_RESET))
break;
}
if (DC_IS_ASIX(sc) || DC_IS_ADMTEK(sc) || DC_IS_CONEXANT(sc) ||
DC_IS_XIRCOM(sc) || DC_IS_INTEL(sc) || DC_IS_ULI(sc)) {
DELAY(10000);
DC_CLRBIT(sc, DC_BUSCTL, DC_BUSCTL_RESET);
i = 0;
}
if (i == DC_TIMEOUT)
device_printf(sc->dc_dev, "reset never completed!\n");
/* Wait a little while for the chip to get its brains in order. */
DELAY(1000);
CSR_WRITE_4(sc, DC_IMR, 0x00000000);
CSR_WRITE_4(sc, DC_BUSCTL, 0x00000000);
CSR_WRITE_4(sc, DC_NETCFG, 0x00000000);
/*
* Bring the SIA out of reset. In some cases, it looks
* like failing to unreset the SIA soon enough gets it
* into a state where it will never come out of reset
* until we reset the whole chip again.
*/
if (DC_IS_INTEL(sc)) {
DC_SETBIT(sc, DC_SIARESET, DC_SIA_RESET);
CSR_WRITE_4(sc, DC_10BTCTRL, 0xFFFFFFFF);
CSR_WRITE_4(sc, DC_WATCHDOG, 0);
}
}
static const struct dc_type *
dc_devtype(device_t dev)
{
const struct dc_type *t;
2011-02-19 03:32:10 +00:00
uint32_t devid;
uint8_t rev;
t = dc_devs;
devid = pci_get_devid(dev);
rev = pci_get_revid(dev);
while (t->dc_name != NULL) {
if (devid == t->dc_devid && rev >= t->dc_minrev)
return (t);
t++;
}
return (NULL);
}
/*
* Probe for a 21143 or clone chip. Check the PCI vendor and device
* IDs against our list and return a device name if we find a match.
* We do a little bit of extra work to identify the exact type of
* chip. The MX98713 and MX98713A have the same PCI vendor/device ID,
* but different revision IDs. The same is true for 98715/98715A
* chips and the 98725, as well as the ASIX and ADMtek chips. In some
* cases, the exact chip revision affects driver behavior.
*/
static int
dc_probe(device_t dev)
{
const struct dc_type *t;
t = dc_devtype(dev);
if (t != NULL) {
device_set_desc(dev, t->dc_name);
2005-02-24 21:32:56 +00:00
return (BUS_PROBE_DEFAULT);
}
return (ENXIO);
}
static void
dc_apply_fixup(struct dc_softc *sc, int media)
{
struct dc_mediainfo *m;
2011-02-19 03:32:10 +00:00
uint8_t *p;
int i;
2011-02-19 03:32:10 +00:00
uint32_t reg;
m = sc->dc_mi;
while (m != NULL) {
if (m->dc_media == media)
break;
m = m->dc_next;
}
if (m == NULL)
return;
for (i = 0, p = m->dc_reset_ptr; i < m->dc_reset_len; i++, p += 2) {
reg = (p[0] | (p[1] << 8)) << 16;
CSR_WRITE_4(sc, DC_WATCHDOG, reg);
}
for (i = 0, p = m->dc_gp_ptr; i < m->dc_gp_len; i++, p += 2) {
reg = (p[0] | (p[1] << 8)) << 16;
CSR_WRITE_4(sc, DC_WATCHDOG, reg);
}
}
static int
dc_decode_leaf_sia(struct dc_softc *sc, struct dc_eblock_sia *l)
{
struct dc_mediainfo *m;
m = malloc(sizeof(struct dc_mediainfo), M_DEVBUF, M_NOWAIT | M_ZERO);
if (m == NULL) {
device_printf(sc->dc_dev, "Could not allocate mediainfo\n");
return (ENOMEM);
}
switch (l->dc_sia_code & ~DC_SIA_CODE_EXT) {
case DC_SIA_CODE_10BT:
m->dc_media = IFM_10_T;
break;
case DC_SIA_CODE_10BT_FDX:
m->dc_media = IFM_10_T | IFM_FDX;
break;
case DC_SIA_CODE_10B2:
m->dc_media = IFM_10_2;
break;
case DC_SIA_CODE_10B5:
m->dc_media = IFM_10_5;
break;
default:
break;
}
/*
* We need to ignore CSR13, CSR14, CSR15 for SIA mode.
* Things apparently already work for cards that do
* supply Media Specific Data.
*/
if (l->dc_sia_code & DC_SIA_CODE_EXT) {
m->dc_gp_len = 2;
m->dc_gp_ptr =
2011-02-19 03:32:10 +00:00
(uint8_t *)&l->dc_un.dc_sia_ext.dc_sia_gpio_ctl;
} else {
m->dc_gp_len = 2;
m->dc_gp_ptr =
2011-02-19 03:32:10 +00:00
(uint8_t *)&l->dc_un.dc_sia_noext.dc_sia_gpio_ctl;
}
m->dc_next = sc->dc_mi;
sc->dc_mi = m;
sc->dc_pmode = DC_PMODE_SIA;
return (0);
}
static int
dc_decode_leaf_sym(struct dc_softc *sc, struct dc_eblock_sym *l)
{
struct dc_mediainfo *m;
m = malloc(sizeof(struct dc_mediainfo), M_DEVBUF, M_NOWAIT | M_ZERO);
if (m == NULL) {
device_printf(sc->dc_dev, "Could not allocate mediainfo\n");
return (ENOMEM);
}
if (l->dc_sym_code == DC_SYM_CODE_100BT)
m->dc_media = IFM_100_TX;
if (l->dc_sym_code == DC_SYM_CODE_100BT_FDX)
m->dc_media = IFM_100_TX | IFM_FDX;
m->dc_gp_len = 2;
2011-02-19 03:32:10 +00:00
m->dc_gp_ptr = (uint8_t *)&l->dc_sym_gpio_ctl;
m->dc_next = sc->dc_mi;
sc->dc_mi = m;
sc->dc_pmode = DC_PMODE_SYM;
return (0);
}
static int
dc_decode_leaf_mii(struct dc_softc *sc, struct dc_eblock_mii *l)
{
struct dc_mediainfo *m;
2011-02-19 03:32:10 +00:00
uint8_t *p;
m = malloc(sizeof(struct dc_mediainfo), M_DEVBUF, M_NOWAIT | M_ZERO);
if (m == NULL) {
device_printf(sc->dc_dev, "Could not allocate mediainfo\n");
return (ENOMEM);
}
/* We abuse IFM_AUTO to represent MII. */
m->dc_media = IFM_AUTO;
m->dc_gp_len = l->dc_gpr_len;
2011-02-19 03:32:10 +00:00
p = (uint8_t *)l;
p += sizeof(struct dc_eblock_mii);
m->dc_gp_ptr = p;
p += 2 * l->dc_gpr_len;
m->dc_reset_len = *p;
p++;
m->dc_reset_ptr = p;
m->dc_next = sc->dc_mi;
sc->dc_mi = m;
return (0);
}
static int
dc_read_srom(struct dc_softc *sc, int bits)
{
int size;
size = DC_ROM_SIZE(bits);
sc->dc_srom = malloc(size, M_DEVBUF, M_NOWAIT | M_ZERO);
if (sc->dc_srom == NULL) {
device_printf(sc->dc_dev, "Could not allocate SROM buffer\n");
return (ENOMEM);
}
dc_read_eeprom(sc, (caddr_t)sc->dc_srom, 0, (size / 2), 0);
return (0);
}
static int
dc_parse_21143_srom(struct dc_softc *sc)
{
struct dc_leaf_hdr *lhdr;
struct dc_eblock_hdr *hdr;
int error, have_mii, i, loff;
char *ptr;
have_mii = 0;
loff = sc->dc_srom[27];
lhdr = (struct dc_leaf_hdr *)&(sc->dc_srom[loff]);
ptr = (char *)lhdr;
ptr += sizeof(struct dc_leaf_hdr) - 1;
/*
* Look if we got a MII media block.
*/
for (i = 0; i < lhdr->dc_mcnt; i++) {
hdr = (struct dc_eblock_hdr *)ptr;
if (hdr->dc_type == DC_EBLOCK_MII)
have_mii++;
ptr += (hdr->dc_len & 0x7F);
ptr++;
}
/*
* Do the same thing again. Only use SIA and SYM media
* blocks if no MII media block is available.
*/
ptr = (char *)lhdr;
ptr += sizeof(struct dc_leaf_hdr) - 1;
error = 0;
for (i = 0; i < lhdr->dc_mcnt; i++) {
hdr = (struct dc_eblock_hdr *)ptr;
switch (hdr->dc_type) {
case DC_EBLOCK_MII:
error = dc_decode_leaf_mii(sc, (struct dc_eblock_mii *)hdr);
break;
case DC_EBLOCK_SIA:
if (! have_mii)
error = dc_decode_leaf_sia(sc,
(struct dc_eblock_sia *)hdr);
break;
case DC_EBLOCK_SYM:
if (! have_mii)
error = dc_decode_leaf_sym(sc,
(struct dc_eblock_sym *)hdr);
break;
default:
/* Don't care. Yet. */
break;
}
ptr += (hdr->dc_len & 0x7F);
ptr++;
}
return (error);
}
static void
dc_dma_map_addr(void *arg, bus_dma_segment_t *segs, int nseg, int error)
{
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
bus_addr_t *paddr;
KASSERT(nseg == 1,
("%s: wrong number of segments (%d)", __func__, nseg));
paddr = arg;
*paddr = segs->ds_addr;
}
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
static int
dc_dma_alloc(struct dc_softc *sc)
{
int error, i;
error = bus_dma_tag_create(bus_get_dma_tag(sc->dc_dev), 1, 0,
BUS_SPACE_MAXADDR_32BIT, BUS_SPACE_MAXADDR, NULL, NULL,
BUS_SPACE_MAXSIZE_32BIT, 0, BUS_SPACE_MAXSIZE_32BIT, 0,
NULL, NULL, &sc->dc_ptag);
if (error) {
device_printf(sc->dc_dev,
"failed to allocate parent DMA tag\n");
goto fail;
}
/* Allocate a busdma tag and DMA safe memory for TX/RX descriptors. */
error = bus_dma_tag_create(sc->dc_ptag, DC_LIST_ALIGN, 0,
BUS_SPACE_MAXADDR, BUS_SPACE_MAXADDR, NULL, NULL, DC_RX_LIST_SZ, 1,
DC_RX_LIST_SZ, 0, NULL, NULL, &sc->dc_rx_ltag);
if (error) {
device_printf(sc->dc_dev, "failed to create RX list DMA tag\n");
goto fail;
}
error = bus_dma_tag_create(sc->dc_ptag, DC_LIST_ALIGN, 0,
BUS_SPACE_MAXADDR, BUS_SPACE_MAXADDR, NULL, NULL, DC_TX_LIST_SZ, 1,
DC_TX_LIST_SZ, 0, NULL, NULL, &sc->dc_tx_ltag);
if (error) {
device_printf(sc->dc_dev, "failed to create TX list DMA tag\n");
goto fail;
}
/* RX descriptor list. */
error = bus_dmamem_alloc(sc->dc_rx_ltag,
(void **)&sc->dc_ldata.dc_rx_list, BUS_DMA_NOWAIT |
BUS_DMA_ZERO | BUS_DMA_COHERENT, &sc->dc_rx_lmap);
if (error) {
device_printf(sc->dc_dev,
"failed to allocate DMA'able memory for RX list\n");
goto fail;
}
error = bus_dmamap_load(sc->dc_rx_ltag, sc->dc_rx_lmap,
sc->dc_ldata.dc_rx_list, DC_RX_LIST_SZ, dc_dma_map_addr,
&sc->dc_ldata.dc_rx_list_paddr, BUS_DMA_NOWAIT);
if (error) {
device_printf(sc->dc_dev,
"failed to load DMA'able memory for RX list\n");
goto fail;
}
/* TX descriptor list. */
error = bus_dmamem_alloc(sc->dc_tx_ltag,
(void **)&sc->dc_ldata.dc_tx_list, BUS_DMA_NOWAIT |
BUS_DMA_ZERO | BUS_DMA_COHERENT, &sc->dc_tx_lmap);
if (error) {
device_printf(sc->dc_dev,
"failed to allocate DMA'able memory for TX list\n");
goto fail;
}
error = bus_dmamap_load(sc->dc_tx_ltag, sc->dc_tx_lmap,
sc->dc_ldata.dc_tx_list, DC_TX_LIST_SZ, dc_dma_map_addr,
&sc->dc_ldata.dc_tx_list_paddr, BUS_DMA_NOWAIT);
if (error) {
device_printf(sc->dc_dev,
"cannot load DMA'able memory for TX list\n");
goto fail;
}
/*
* Allocate a busdma tag and DMA safe memory for the multicast
* setup frame.
*/
error = bus_dma_tag_create(sc->dc_ptag, DC_LIST_ALIGN, 0,
BUS_SPACE_MAXADDR, BUS_SPACE_MAXADDR, NULL, NULL,
DC_SFRAME_LEN + DC_MIN_FRAMELEN, 1, DC_SFRAME_LEN + DC_MIN_FRAMELEN,
0, NULL, NULL, &sc->dc_stag);
if (error) {
device_printf(sc->dc_dev,
"failed to create DMA tag for setup frame\n");
goto fail;
}
error = bus_dmamem_alloc(sc->dc_stag, (void **)&sc->dc_cdata.dc_sbuf,
BUS_DMA_NOWAIT, &sc->dc_smap);
if (error) {
device_printf(sc->dc_dev,
"failed to allocate DMA'able memory for setup frame\n");
goto fail;
}
error = bus_dmamap_load(sc->dc_stag, sc->dc_smap, sc->dc_cdata.dc_sbuf,
DC_SFRAME_LEN, dc_dma_map_addr, &sc->dc_saddr, BUS_DMA_NOWAIT);
if (error) {
device_printf(sc->dc_dev,
"cannot load DMA'able memory for setup frame\n");
goto fail;
}
/* Allocate a busdma tag for RX mbufs. */
error = bus_dma_tag_create(sc->dc_ptag, DC_RXBUF_ALIGN, 0,
BUS_SPACE_MAXADDR, BUS_SPACE_MAXADDR, NULL, NULL,
MCLBYTES, 1, MCLBYTES, 0, NULL, NULL, &sc->dc_rx_mtag);
if (error) {
device_printf(sc->dc_dev, "failed to create RX mbuf tag\n");
goto fail;
}
/* Allocate a busdma tag for TX mbufs. */
error = bus_dma_tag_create(sc->dc_ptag, 1, 0,
BUS_SPACE_MAXADDR, BUS_SPACE_MAXADDR, NULL, NULL,
MCLBYTES * DC_MAXFRAGS, DC_MAXFRAGS, MCLBYTES,
0, NULL, NULL, &sc->dc_tx_mtag);
if (error) {
device_printf(sc->dc_dev, "failed to create TX mbuf tag\n");
goto fail;
}
/* Create the TX/RX busdma maps. */
for (i = 0; i < DC_TX_LIST_CNT; i++) {
error = bus_dmamap_create(sc->dc_tx_mtag, 0,
&sc->dc_cdata.dc_tx_map[i]);
if (error) {
device_printf(sc->dc_dev,
"failed to create TX mbuf dmamap\n");
goto fail;
}
}
for (i = 0; i < DC_RX_LIST_CNT; i++) {
error = bus_dmamap_create(sc->dc_rx_mtag, 0,
&sc->dc_cdata.dc_rx_map[i]);
if (error) {
device_printf(sc->dc_dev,
"failed to create RX mbuf dmamap\n");
goto fail;
}
}
error = bus_dmamap_create(sc->dc_rx_mtag, 0, &sc->dc_sparemap);
if (error) {
device_printf(sc->dc_dev,
"failed to create spare RX mbuf dmamap\n");
goto fail;
}
fail:
return (error);
}
static void
dc_dma_free(struct dc_softc *sc)
{
int i;
/* RX buffers. */
if (sc->dc_rx_mtag != NULL) {
for (i = 0; i < DC_RX_LIST_CNT; i++) {
if (sc->dc_cdata.dc_rx_map[i] != NULL)
bus_dmamap_destroy(sc->dc_rx_mtag,
sc->dc_cdata.dc_rx_map[i]);
}
if (sc->dc_sparemap != NULL)
bus_dmamap_destroy(sc->dc_rx_mtag, sc->dc_sparemap);
bus_dma_tag_destroy(sc->dc_rx_mtag);
}
/* TX buffers. */
if (sc->dc_rx_mtag != NULL) {
for (i = 0; i < DC_TX_LIST_CNT; i++) {
if (sc->dc_cdata.dc_tx_map[i] != NULL)
bus_dmamap_destroy(sc->dc_tx_mtag,
sc->dc_cdata.dc_tx_map[i]);
}
bus_dma_tag_destroy(sc->dc_tx_mtag);
}
/* RX descriptor list. */
if (sc->dc_rx_ltag) {
if (sc->dc_rx_lmap != NULL)
bus_dmamap_unload(sc->dc_rx_ltag, sc->dc_rx_lmap);
if (sc->dc_rx_lmap != NULL && sc->dc_ldata.dc_rx_list != NULL)
bus_dmamem_free(sc->dc_rx_ltag, sc->dc_ldata.dc_rx_list,
sc->dc_rx_lmap);
bus_dma_tag_destroy(sc->dc_rx_ltag);
}
/* TX descriptor list. */
if (sc->dc_tx_ltag) {
if (sc->dc_tx_lmap != NULL)
bus_dmamap_unload(sc->dc_tx_ltag, sc->dc_tx_lmap);
if (sc->dc_tx_lmap != NULL && sc->dc_ldata.dc_tx_list != NULL)
bus_dmamem_free(sc->dc_tx_ltag, sc->dc_ldata.dc_tx_list,
sc->dc_tx_lmap);
bus_dma_tag_destroy(sc->dc_tx_ltag);
}
/* multicast setup frame. */
if (sc->dc_stag) {
if (sc->dc_smap != NULL)
bus_dmamap_unload(sc->dc_stag, sc->dc_smap);
if (sc->dc_smap != NULL && sc->dc_cdata.dc_sbuf != NULL)
bus_dmamem_free(sc->dc_stag, sc->dc_cdata.dc_sbuf,
sc->dc_smap);
bus_dma_tag_destroy(sc->dc_stag);
}
}
/*
* Attach the interface. Allocate softc structures, do ifmedia
* setup and ethernet/BPF attach.
*/
static int
dc_attach(device_t dev)
{
uint32_t eaddr[(ETHER_ADDR_LEN+3)/4];
2011-02-19 03:32:10 +00:00
uint32_t command;
struct dc_softc *sc;
struct ifnet *ifp;
struct dc_mediainfo *m;
2011-02-19 03:32:10 +00:00
uint32_t reg, revision;
uint16_t *srom;
int error, mac_offset, n, phy, rid, tmp;
2011-02-19 03:32:10 +00:00
uint8_t *mac;
sc = device_get_softc(dev);
sc->dc_dev = dev;
mtx_init(&sc->dc_mtx, device_get_nameunit(dev), MTX_NETWORK_LOCK,
MTX_DEF);
/*
* Map control/status registers.
*/
pci_enable_busmaster(dev);
rid = DC_RID;
sc->dc_res = bus_alloc_resource_any(dev, DC_RES, &rid, RF_ACTIVE);
if (sc->dc_res == NULL) {
device_printf(dev, "couldn't map ports/memory\n");
error = ENXIO;
goto fail;
}
sc->dc_btag = rman_get_bustag(sc->dc_res);
sc->dc_bhandle = rman_get_bushandle(sc->dc_res);
/* Allocate interrupt. */
Clean up locking and resource management for pci/if_* - Remove locking of the softc in the attach method, instead depending on bus_setup_intr being at the end of attach (delaying interrupt enable until after ether_ifattach is called) - Call *_detach directly in the error case of attach, depending on checking in detach to only free resources that were allocated. This puts all resource freeing in one place, avoiding thinkos that lead to memory leaks. - Add bus_child_present check to calls to *_stop in the detach method to be sure hw is present before touching its registers. - Remove bzero softc calls since device_t should do this for us. - dc: move interrupt allocation back where it was before. It was unnecessary to move it. This reverts part of 1.88 - rl: move irq allocation before ether_ifattach. Problems might have been caused by allocating the irq after enabling interrupts on the card. - rl: call rl_stop before ether_ifdetach - sf: call sf_stop before ether_ifdetach - sis: add missed free of sis_tag - sis: check errors from tag creation - sis: move dmamem_alloc and dmamap_load to happen at same time as tag creation - sk: remove duplicate initialization of sk_dev - ste: add missed bus_generic_detach - ti: call ti_stop before ether_ifdetach - ti: add missed error setting in ti_rdata alloc failure - vr: add missed error setting in I/O, memory mapping cases - xl: add missed error setting in I/O, memory mapping cases - xl: remove multi-level goto on attach failure - xl: move dmamem_alloc and dmamap_load to happen at same time as tag creation - Calls to free(9) are unconditional because it is valid to call free with a null pointer. Reviewed by: imp, mdodd
2003-03-31 17:29:43 +00:00
rid = 0;
sc->dc_irq = bus_alloc_resource_any(dev, SYS_RES_IRQ, &rid,
Clean up locking and resource management for pci/if_* - Remove locking of the softc in the attach method, instead depending on bus_setup_intr being at the end of attach (delaying interrupt enable until after ether_ifattach is called) - Call *_detach directly in the error case of attach, depending on checking in detach to only free resources that were allocated. This puts all resource freeing in one place, avoiding thinkos that lead to memory leaks. - Add bus_child_present check to calls to *_stop in the detach method to be sure hw is present before touching its registers. - Remove bzero softc calls since device_t should do this for us. - dc: move interrupt allocation back where it was before. It was unnecessary to move it. This reverts part of 1.88 - rl: move irq allocation before ether_ifattach. Problems might have been caused by allocating the irq after enabling interrupts on the card. - rl: call rl_stop before ether_ifdetach - sf: call sf_stop before ether_ifdetach - sis: add missed free of sis_tag - sis: check errors from tag creation - sis: move dmamem_alloc and dmamap_load to happen at same time as tag creation - sk: remove duplicate initialization of sk_dev - ste: add missed bus_generic_detach - ti: call ti_stop before ether_ifdetach - ti: add missed error setting in ti_rdata alloc failure - vr: add missed error setting in I/O, memory mapping cases - xl: add missed error setting in I/O, memory mapping cases - xl: remove multi-level goto on attach failure - xl: move dmamem_alloc and dmamap_load to happen at same time as tag creation - Calls to free(9) are unconditional because it is valid to call free with a null pointer. Reviewed by: imp, mdodd
2003-03-31 17:29:43 +00:00
RF_SHAREABLE | RF_ACTIVE);
if (sc->dc_irq == NULL) {
device_printf(dev, "couldn't map interrupt\n");
Clean up locking and resource management for pci/if_* - Remove locking of the softc in the attach method, instead depending on bus_setup_intr being at the end of attach (delaying interrupt enable until after ether_ifattach is called) - Call *_detach directly in the error case of attach, depending on checking in detach to only free resources that were allocated. This puts all resource freeing in one place, avoiding thinkos that lead to memory leaks. - Add bus_child_present check to calls to *_stop in the detach method to be sure hw is present before touching its registers. - Remove bzero softc calls since device_t should do this for us. - dc: move interrupt allocation back where it was before. It was unnecessary to move it. This reverts part of 1.88 - rl: move irq allocation before ether_ifattach. Problems might have been caused by allocating the irq after enabling interrupts on the card. - rl: call rl_stop before ether_ifdetach - sf: call sf_stop before ether_ifdetach - sis: add missed free of sis_tag - sis: check errors from tag creation - sis: move dmamem_alloc and dmamap_load to happen at same time as tag creation - sk: remove duplicate initialization of sk_dev - ste: add missed bus_generic_detach - ti: call ti_stop before ether_ifdetach - ti: add missed error setting in ti_rdata alloc failure - vr: add missed error setting in I/O, memory mapping cases - xl: add missed error setting in I/O, memory mapping cases - xl: remove multi-level goto on attach failure - xl: move dmamem_alloc and dmamap_load to happen at same time as tag creation - Calls to free(9) are unconditional because it is valid to call free with a null pointer. Reviewed by: imp, mdodd
2003-03-31 17:29:43 +00:00
error = ENXIO;
goto fail;
}
/* Need this info to decide on a chip type. */
sc->dc_info = dc_devtype(dev);
revision = pci_get_revid(dev);
error = 0;
/* Get the eeprom width, but PNIC and XIRCOM have diff eeprom */
if (sc->dc_info->dc_devid !=
DC_DEVID(DC_VENDORID_LO, DC_DEVICEID_82C168) &&
sc->dc_info->dc_devid !=
DC_DEVID(DC_VENDORID_XIRCOM, DC_DEVICEID_X3201))
dc_eeprom_width(sc);
switch (sc->dc_info->dc_devid) {
case DC_DEVID(DC_VENDORID_DEC, DC_DEVICEID_21143):
sc->dc_type = DC_TYPE_21143;
sc->dc_flags |= DC_TX_POLL | DC_TX_USE_TX_INTR;
sc->dc_flags |= DC_REDUCED_MII_POLL;
/* Save EEPROM contents so we can parse them later. */
error = dc_read_srom(sc, sc->dc_romwidth);
if (error != 0)
goto fail;
break;
case DC_DEVID(DC_VENDORID_DAVICOM, DC_DEVICEID_DM9009):
case DC_DEVID(DC_VENDORID_DAVICOM, DC_DEVICEID_DM9100):
case DC_DEVID(DC_VENDORID_DAVICOM, DC_DEVICEID_DM9102):
sc->dc_type = DC_TYPE_DM9102;
sc->dc_flags |= DC_TX_COALESCE | DC_TX_INTR_ALWAYS;
sc->dc_flags |= DC_REDUCED_MII_POLL | DC_TX_STORENFWD;
sc->dc_flags |= DC_TX_ALIGN;
sc->dc_pmode = DC_PMODE_MII;
/* Increase the latency timer value. */
pci_write_config(dev, PCIR_LATTIMER, 0x80, 1);
break;
case DC_DEVID(DC_VENDORID_ADMTEK, DC_DEVICEID_AL981):
sc->dc_type = DC_TYPE_AL981;
sc->dc_flags |= DC_TX_USE_TX_INTR;
sc->dc_flags |= DC_TX_ADMTEK_WAR;
sc->dc_pmode = DC_PMODE_MII;
error = dc_read_srom(sc, sc->dc_romwidth);
if (error != 0)
goto fail;
break;
case DC_DEVID(DC_VENDORID_ADMTEK, DC_DEVICEID_AN983):
case DC_DEVID(DC_VENDORID_ADMTEK, DC_DEVICEID_AN985):
case DC_DEVID(DC_VENDORID_ADMTEK, DC_DEVICEID_ADM9511):
case DC_DEVID(DC_VENDORID_ADMTEK, DC_DEVICEID_ADM9513):
case DC_DEVID(DC_VENDORID_DLINK, DC_DEVICEID_DRP32TXD):
case DC_DEVID(DC_VENDORID_ABOCOM, DC_DEVICEID_FE2500):
case DC_DEVID(DC_VENDORID_ABOCOM, DC_DEVICEID_FE2500MX):
case DC_DEVID(DC_VENDORID_ACCTON, DC_DEVICEID_EN2242):
case DC_DEVID(DC_VENDORID_HAWKING, DC_DEVICEID_HAWKING_PN672TX):
case DC_DEVID(DC_VENDORID_PLANEX, DC_DEVICEID_FNW3602T):
case DC_DEVID(DC_VENDORID_3COM, DC_DEVICEID_3CSOHOB):
case DC_DEVID(DC_VENDORID_MICROSOFT, DC_DEVICEID_MSMN120):
case DC_DEVID(DC_VENDORID_MICROSOFT, DC_DEVICEID_MSMN130):
case DC_DEVID(DC_VENDORID_LINKSYS, DC_DEVICEID_PCMPC200_AB08):
case DC_DEVID(DC_VENDORID_LINKSYS, DC_DEVICEID_PCMPC200_AB09):
sc->dc_type = DC_TYPE_AN983;
sc->dc_flags |= DC_64BIT_HASH;
sc->dc_flags |= DC_TX_USE_TX_INTR;
sc->dc_flags |= DC_TX_ADMTEK_WAR;
sc->dc_pmode = DC_PMODE_MII;
/* Don't read SROM for - auto-loaded on reset */
break;
case DC_DEVID(DC_VENDORID_MX, DC_DEVICEID_98713):
case DC_DEVID(DC_VENDORID_CP, DC_DEVICEID_98713_CP):
if (revision < DC_REVISION_98713A) {
sc->dc_type = DC_TYPE_98713;
}
if (revision >= DC_REVISION_98713A) {
sc->dc_type = DC_TYPE_98713A;
sc->dc_flags |= DC_21143_NWAY;
}
sc->dc_flags |= DC_REDUCED_MII_POLL;
sc->dc_flags |= DC_TX_POLL | DC_TX_USE_TX_INTR;
break;
case DC_DEVID(DC_VENDORID_MX, DC_DEVICEID_987x5):
case DC_DEVID(DC_VENDORID_ACCTON, DC_DEVICEID_EN1217):
/*
* Macronix MX98715AEC-C/D/E parts have only a
* 128-bit hash table. We need to deal with these
* in the same manner as the PNIC II so that we
* get the right number of bits out of the
* CRC routine.
*/
if (revision >= DC_REVISION_98715AEC_C &&
revision < DC_REVISION_98725)
sc->dc_flags |= DC_128BIT_HASH;
sc->dc_type = DC_TYPE_987x5;
sc->dc_flags |= DC_TX_POLL | DC_TX_USE_TX_INTR;
sc->dc_flags |= DC_REDUCED_MII_POLL | DC_21143_NWAY;
break;
case DC_DEVID(DC_VENDORID_MX, DC_DEVICEID_98727):
sc->dc_type = DC_TYPE_987x5;
sc->dc_flags |= DC_TX_POLL | DC_TX_USE_TX_INTR;
sc->dc_flags |= DC_REDUCED_MII_POLL | DC_21143_NWAY;
break;
case DC_DEVID(DC_VENDORID_LO, DC_DEVICEID_82C115):
sc->dc_type = DC_TYPE_PNICII;
sc->dc_flags |= DC_TX_POLL | DC_TX_USE_TX_INTR | DC_128BIT_HASH;
sc->dc_flags |= DC_REDUCED_MII_POLL | DC_21143_NWAY;
break;
case DC_DEVID(DC_VENDORID_LO, DC_DEVICEID_82C168):
sc->dc_type = DC_TYPE_PNIC;
sc->dc_flags |= DC_TX_STORENFWD | DC_TX_INTR_ALWAYS;
sc->dc_flags |= DC_PNIC_RX_BUG_WAR;
sc->dc_pnic_rx_buf = malloc(DC_RXLEN * 5, M_DEVBUF, M_NOWAIT);
if (sc->dc_pnic_rx_buf == NULL) {
device_printf(sc->dc_dev,
"Could not allocate PNIC RX buffer\n");
error = ENOMEM;
goto fail;
}
if (revision < DC_REVISION_82C169)
sc->dc_pmode = DC_PMODE_SYM;
break;
case DC_DEVID(DC_VENDORID_ASIX, DC_DEVICEID_AX88140A):
sc->dc_type = DC_TYPE_ASIX;
sc->dc_flags |= DC_TX_USE_TX_INTR | DC_TX_INTR_FIRSTFRAG;
sc->dc_flags |= DC_REDUCED_MII_POLL;
sc->dc_pmode = DC_PMODE_MII;
break;
case DC_DEVID(DC_VENDORID_XIRCOM, DC_DEVICEID_X3201):
sc->dc_type = DC_TYPE_XIRCOM;
sc->dc_flags |= DC_TX_INTR_ALWAYS | DC_TX_COALESCE |
DC_TX_ALIGN;
/*
* We don't actually need to coalesce, but we're doing
* it to obtain a double word aligned buffer.
* The DC_TX_COALESCE flag is required.
*/
sc->dc_pmode = DC_PMODE_MII;
break;
case DC_DEVID(DC_VENDORID_CONEXANT, DC_DEVICEID_RS7112):
sc->dc_type = DC_TYPE_CONEXANT;
sc->dc_flags |= DC_TX_INTR_ALWAYS;
sc->dc_flags |= DC_REDUCED_MII_POLL;
sc->dc_pmode = DC_PMODE_MII;
error = dc_read_srom(sc, sc->dc_romwidth);
if (error != 0)
goto fail;
break;
case DC_DEVID(DC_VENDORID_ULI, DC_DEVICEID_M5261):
case DC_DEVID(DC_VENDORID_ULI, DC_DEVICEID_M5263):
if (sc->dc_info->dc_devid ==
DC_DEVID(DC_VENDORID_ULI, DC_DEVICEID_M5261))
sc->dc_type = DC_TYPE_ULI_M5261;
else
sc->dc_type = DC_TYPE_ULI_M5263;
/* TX buffers should be aligned on 4 byte boundary. */
sc->dc_flags |= DC_TX_INTR_ALWAYS | DC_TX_COALESCE |
DC_TX_ALIGN;
sc->dc_pmode = DC_PMODE_MII;
error = dc_read_srom(sc, sc->dc_romwidth);
if (error != 0)
goto fail;
break;
default:
device_printf(dev, "unknown device: %x\n",
sc->dc_info->dc_devid);
break;
}
/* Save the cache line size. */
if (DC_IS_DAVICOM(sc))
sc->dc_cachesize = 0;
else
sc->dc_cachesize = pci_get_cachelnsz(dev);
/* Reset the adapter. */
dc_reset(sc);
/* Take 21143 out of snooze mode */
if (DC_IS_INTEL(sc) || DC_IS_XIRCOM(sc)) {
command = pci_read_config(dev, DC_PCI_CFDD, 4);
command &= ~(DC_CFDD_SNOOZE_MODE | DC_CFDD_SLEEP_MODE);
pci_write_config(dev, DC_PCI_CFDD, command, 4);
}
/*
* Try to learn something about the supported media.
* We know that ASIX and ADMtek and Davicom devices
* will *always* be using MII media, so that's a no-brainer.
* The tricky ones are the Macronix/PNIC II and the
* Intel 21143.
*/
if (DC_IS_INTEL(sc)) {
error = dc_parse_21143_srom(sc);
if (error != 0)
goto fail;
} else if (DC_IS_MACRONIX(sc) || DC_IS_PNICII(sc)) {
if (sc->dc_type == DC_TYPE_98713)
sc->dc_pmode = DC_PMODE_MII;
else
sc->dc_pmode = DC_PMODE_SYM;
} else if (!sc->dc_pmode)
sc->dc_pmode = DC_PMODE_MII;
/*
* Get station address from the EEPROM.
*/
switch(sc->dc_type) {
case DC_TYPE_98713:
case DC_TYPE_98713A:
case DC_TYPE_987x5:
case DC_TYPE_PNICII:
dc_read_eeprom(sc, (caddr_t)&mac_offset,
(DC_EE_NODEADDR_OFFSET / 2), 1, 0);
dc_read_eeprom(sc, (caddr_t)&eaddr, (mac_offset / 2), 3, 0);
break;
case DC_TYPE_PNIC:
dc_read_eeprom(sc, (caddr_t)&eaddr, 0, 3, 1);
break;
case DC_TYPE_DM9102:
dc_read_eeprom(sc, (caddr_t)&eaddr, DC_EE_NODEADDR, 3, 0);
#ifdef __sparc64__
/*
* If this is an onboard dc(4) the station address read from
* the EEPROM is all zero and we have to get it from the FCode.
*/
if (eaddr[0] == 0 && (eaddr[1] & ~0xffff) == 0)
2005-12-04 07:45:12 +00:00
OF_getetheraddr(dev, (caddr_t)&eaddr);
#endif
break;
case DC_TYPE_21143:
case DC_TYPE_ASIX:
dc_read_eeprom(sc, (caddr_t)&eaddr, DC_EE_NODEADDR, 3, 0);
break;
case DC_TYPE_AL981:
case DC_TYPE_AN983:
reg = CSR_READ_4(sc, DC_AL_PAR0);
mac = (uint8_t *)&eaddr[0];
mac[0] = (reg >> 0) & 0xff;
mac[1] = (reg >> 8) & 0xff;
mac[2] = (reg >> 16) & 0xff;
mac[3] = (reg >> 24) & 0xff;
reg = CSR_READ_4(sc, DC_AL_PAR1);
mac[4] = (reg >> 0) & 0xff;
mac[5] = (reg >> 8) & 0xff;
break;
case DC_TYPE_CONEXANT:
bcopy(sc->dc_srom + DC_CONEXANT_EE_NODEADDR, &eaddr,
ETHER_ADDR_LEN);
break;
case DC_TYPE_XIRCOM:
/* The MAC comes from the CIS. */
mac = pci_get_ether(dev);
if (!mac) {
device_printf(dev, "No station address in CIS!\n");
error = ENXIO;
goto fail;
}
bcopy(mac, eaddr, ETHER_ADDR_LEN);
break;
case DC_TYPE_ULI_M5261:
case DC_TYPE_ULI_M5263:
srom = (uint16_t *)sc->dc_srom;
if (srom == NULL || *srom == 0xFFFF || *srom == 0) {
/*
* No valid SROM present, read station address
* from ID Table.
*/
device_printf(dev,
"Reading station address from ID Table.\n");
CSR_WRITE_4(sc, DC_BUSCTL, 0x10000);
CSR_WRITE_4(sc, DC_SIARESET, 0x01C0);
CSR_WRITE_4(sc, DC_10BTCTRL, 0x0000);
CSR_WRITE_4(sc, DC_10BTCTRL, 0x0010);
CSR_WRITE_4(sc, DC_10BTCTRL, 0x0000);
CSR_WRITE_4(sc, DC_SIARESET, 0x0000);
CSR_WRITE_4(sc, DC_SIARESET, 0x01B0);
mac = (uint8_t *)eaddr;
for (n = 0; n < ETHER_ADDR_LEN; n++)
mac[n] = (uint8_t)CSR_READ_4(sc, DC_10BTCTRL);
CSR_WRITE_4(sc, DC_SIARESET, 0x0000);
CSR_WRITE_4(sc, DC_BUSCTL, 0x0000);
DELAY(10);
} else
dc_read_eeprom(sc, (caddr_t)&eaddr, DC_EE_NODEADDR, 3,
0);
break;
default:
dc_read_eeprom(sc, (caddr_t)&eaddr, DC_EE_NODEADDR, 3, 0);
break;
}
bcopy(eaddr, sc->dc_eaddr, sizeof(eaddr));
/*
* If we still have invalid station address, see whether we can
* find station address for chip 0. Some multi-port controllers
* just store station address for chip 0 if they have a shared
* SROM.
*/
if ((sc->dc_eaddr[0] == 0 && (sc->dc_eaddr[1] & ~0xffff) == 0) ||
(sc->dc_eaddr[0] == 0xffffffff &&
(sc->dc_eaddr[1] & 0xffff) == 0xffff)) {
error = dc_check_multiport(sc);
if (error == 0) {
bcopy(sc->dc_eaddr, eaddr, sizeof(eaddr));
/* Extract media information. */
if (DC_IS_INTEL(sc) && sc->dc_srom != NULL) {
while (sc->dc_mi != NULL) {
m = sc->dc_mi->dc_next;
free(sc->dc_mi, M_DEVBUF);
sc->dc_mi = m;
}
error = dc_parse_21143_srom(sc);
if (error != 0)
goto fail;
}
} else if (error == ENOMEM)
goto fail;
else
error = 0;
}
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
if ((error = dc_dma_alloc(sc)) != 0)
goto fail;
ifp = sc->dc_ifp = if_alloc(IFT_ETHER);
if (ifp == NULL) {
device_printf(dev, "can not if_alloc()\n");
error = ENOSPC;
goto fail;
}
ifp->if_softc = sc;
if_initname(ifp, device_get_name(dev), device_get_unit(dev));
ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST;
ifp->if_ioctl = dc_ioctl;
ifp->if_start = dc_start;
ifp->if_init = dc_init;
IFQ_SET_MAXLEN(&ifp->if_snd, DC_TX_LIST_CNT - 1);
ifp->if_snd.ifq_drv_maxlen = DC_TX_LIST_CNT - 1;
IFQ_SET_READY(&ifp->if_snd);
/*
* Do MII setup. If this is a 21143, check for a PHY on the
* MII bus after applying any necessary fixups to twiddle the
* GPIO bits. If we don't end up finding a PHY, restore the
* old selection (SIA only or SIA/SYM) and attach the dcphy
* driver instead.
*/
tmp = 0;
if (DC_IS_INTEL(sc)) {
dc_apply_fixup(sc, IFM_AUTO);
tmp = sc->dc_pmode;
sc->dc_pmode = DC_PMODE_MII;
}
/*
* Setup General Purpose port mode and data so the tulip can talk
* to the MII. This needs to be done before mii_attach so that
* we can actually see them.
*/
if (DC_IS_XIRCOM(sc)) {
CSR_WRITE_4(sc, DC_SIAGP, DC_SIAGP_WRITE_EN | DC_SIAGP_INT1_EN |
DC_SIAGP_MD_GP2_OUTPUT | DC_SIAGP_MD_GP0_OUTPUT);
DELAY(10);
CSR_WRITE_4(sc, DC_SIAGP, DC_SIAGP_INT1_EN |
DC_SIAGP_MD_GP2_OUTPUT | DC_SIAGP_MD_GP0_OUTPUT);
DELAY(10);
}
phy = MII_PHY_ANY;
/*
* Note: both the AL981 and AN983 have internal PHYs, however the
* AL981 provides direct access to the PHY registers while the AN983
* uses a serial MII interface. The AN983's MII interface is also
* buggy in that you can read from any MII address (0 to 31), but
* only address 1 behaves normally. To deal with both cases, we
* pretend that the PHY is at MII address 1.
*/
if (DC_IS_ADMTEK(sc))
phy = DC_ADMTEK_PHYADDR;
/*
* Note: the ukphy probes of the RS7112 report a PHY at MII address
* 0 (possibly HomePNA?) and 1 (ethernet) so we only respond to the
* correct one.
*/
if (DC_IS_CONEXANT(sc))
phy = DC_CONEXANT_PHYADDR;
error = mii_attach(dev, &sc->dc_miibus, ifp, dc_ifmedia_upd,
dc_ifmedia_sts, BMSR_DEFCAPMASK, phy, MII_OFFSET_ANY, 0);
if (error && DC_IS_INTEL(sc)) {
sc->dc_pmode = tmp;
if (sc->dc_pmode != DC_PMODE_SIA)
sc->dc_pmode = DC_PMODE_SYM;
sc->dc_flags |= DC_21143_NWAY;
/*
* For non-MII cards, we need to have the 21143
* drive the LEDs. Except there are some systems
* like the NEC VersaPro NoteBook PC which have no
* LEDs, and twiddling these bits has adverse effects
* on them. (I.e. you suddenly can't get a link.)
*/
if (!(pci_get_subvendor(dev) == 0x1033 &&
pci_get_subdevice(dev) == 0x8028))
sc->dc_flags |= DC_TULIP_LEDS;
error = mii_attach(dev, &sc->dc_miibus, ifp, dc_ifmedia_upd,
dc_ifmedia_sts, BMSR_DEFCAPMASK, MII_PHY_ANY,
MII_OFFSET_ANY, 0);
}
if (error) {
device_printf(dev, "attaching PHYs failed\n");
goto fail;
}
if (DC_IS_ADMTEK(sc)) {
/*
* Set automatic TX underrun recovery for the ADMtek chips
*/
DC_SETBIT(sc, DC_AL_CR, DC_AL_CR_ATUR);
}
/*
* Tell the upper layer(s) we support long frames.
*/
ifp->if_data.ifi_hdrlen = sizeof(struct ether_vlan_header);
ifp->if_capabilities |= IFCAP_VLAN_MTU;
Big polling(4) cleanup. o Axe poll in trap. o Axe IFF_POLLING flag from if_flags. o Rework revision 1.21 (Giant removal), in such a way that poll_mtx is not dropped during call to polling handler. This fixes problem with idle polling. o Make registration and deregistration from polling in a functional way, insted of next tick/interrupt. o Obsolete kern.polling.enable. Polling is turned on/off with ifconfig. Detailed kern_poll.c changes: - Remove polling handler flags, introduced in 1.21. The are not needed now. - Forget and do not check if_flags, if_capenable and if_drv_flags. - Call all registered polling handlers unconditionally. - Do not drop poll_mtx, when entering polling handlers. - In ether_poll() NET_LOCK_GIANT prior to locking poll_mtx. - In netisr_poll() axe the block, where polling code asks drivers to unregister. - In netisr_poll() and ether_poll() do polling always, if any handlers are present. - In ether_poll_[de]register() remove a lot of error hiding code. Assert that arguments are correct, instead. - In ether_poll_[de]register() use standard return values in case of error or success. - Introduce poll_switch() that is a sysctl handler for kern.polling.enable. poll_switch() goes through interface list and enabled/disables polling. A message that kern.polling.enable is deprecated is printed. Detailed driver changes: - On attach driver announces IFCAP_POLLING in if_capabilities, but not in if_capenable. - On detach driver calls ether_poll_deregister() if polling is enabled. - In polling handler driver obtains its lock and checks IFF_DRV_RUNNING flag. If there is no, then unlocks and returns. - In ioctl handler driver checks for IFCAP_POLLING flag requested to be set or cleared. Driver first calls ether_poll_[de]register(), then obtains driver lock and [dis/en]ables interrupts. - In interrupt handler driver checks IFCAP_POLLING flag in if_capenable. If present, then returns.This is important to protect from spurious interrupts. Reviewed by: ru, sam, jhb
2005-10-01 18:56:19 +00:00
ifp->if_capenable = ifp->if_capabilities;
#ifdef DEVICE_POLLING
ifp->if_capabilities |= IFCAP_POLLING;
#endif
callout_init_mtx(&sc->dc_stat_ch, &sc->dc_mtx, 0);
callout_init_mtx(&sc->dc_wdog_ch, &sc->dc_mtx, 0);
/*
* Call MI attach routine.
*/
ether_ifattach(ifp, (caddr_t)eaddr);
Clean up locking and resource management for pci/if_* - Remove locking of the softc in the attach method, instead depending on bus_setup_intr being at the end of attach (delaying interrupt enable until after ether_ifattach is called) - Call *_detach directly in the error case of attach, depending on checking in detach to only free resources that were allocated. This puts all resource freeing in one place, avoiding thinkos that lead to memory leaks. - Add bus_child_present check to calls to *_stop in the detach method to be sure hw is present before touching its registers. - Remove bzero softc calls since device_t should do this for us. - dc: move interrupt allocation back where it was before. It was unnecessary to move it. This reverts part of 1.88 - rl: move irq allocation before ether_ifattach. Problems might have been caused by allocating the irq after enabling interrupts on the card. - rl: call rl_stop before ether_ifdetach - sf: call sf_stop before ether_ifdetach - sis: add missed free of sis_tag - sis: check errors from tag creation - sis: move dmamem_alloc and dmamap_load to happen at same time as tag creation - sk: remove duplicate initialization of sk_dev - ste: add missed bus_generic_detach - ti: call ti_stop before ether_ifdetach - ti: add missed error setting in ti_rdata alloc failure - vr: add missed error setting in I/O, memory mapping cases - xl: add missed error setting in I/O, memory mapping cases - xl: remove multi-level goto on attach failure - xl: move dmamem_alloc and dmamap_load to happen at same time as tag creation - Calls to free(9) are unconditional because it is valid to call free with a null pointer. Reviewed by: imp, mdodd
2003-03-31 17:29:43 +00:00
/* Hook interrupt last to avoid having to lock softc */
error = bus_setup_intr(dev, sc->dc_irq, INTR_TYPE_NET | INTR_MPSAFE,
NULL, dc_intr, sc, &sc->dc_intrhand);
if (error) {
device_printf(dev, "couldn't set up irq\n");
ether_ifdetach(ifp);
Clean up locking and resource management for pci/if_* - Remove locking of the softc in the attach method, instead depending on bus_setup_intr being at the end of attach (delaying interrupt enable until after ether_ifattach is called) - Call *_detach directly in the error case of attach, depending on checking in detach to only free resources that were allocated. This puts all resource freeing in one place, avoiding thinkos that lead to memory leaks. - Add bus_child_present check to calls to *_stop in the detach method to be sure hw is present before touching its registers. - Remove bzero softc calls since device_t should do this for us. - dc: move interrupt allocation back where it was before. It was unnecessary to move it. This reverts part of 1.88 - rl: move irq allocation before ether_ifattach. Problems might have been caused by allocating the irq after enabling interrupts on the card. - rl: call rl_stop before ether_ifdetach - sf: call sf_stop before ether_ifdetach - sis: add missed free of sis_tag - sis: check errors from tag creation - sis: move dmamem_alloc and dmamap_load to happen at same time as tag creation - sk: remove duplicate initialization of sk_dev - ste: add missed bus_generic_detach - ti: call ti_stop before ether_ifdetach - ti: add missed error setting in ti_rdata alloc failure - vr: add missed error setting in I/O, memory mapping cases - xl: add missed error setting in I/O, memory mapping cases - xl: remove multi-level goto on attach failure - xl: move dmamem_alloc and dmamap_load to happen at same time as tag creation - Calls to free(9) are unconditional because it is valid to call free with a null pointer. Reviewed by: imp, mdodd
2003-03-31 17:29:43 +00:00
goto fail;
}
fail:
Clean up locking and resource management for pci/if_* - Remove locking of the softc in the attach method, instead depending on bus_setup_intr being at the end of attach (delaying interrupt enable until after ether_ifattach is called) - Call *_detach directly in the error case of attach, depending on checking in detach to only free resources that were allocated. This puts all resource freeing in one place, avoiding thinkos that lead to memory leaks. - Add bus_child_present check to calls to *_stop in the detach method to be sure hw is present before touching its registers. - Remove bzero softc calls since device_t should do this for us. - dc: move interrupt allocation back where it was before. It was unnecessary to move it. This reverts part of 1.88 - rl: move irq allocation before ether_ifattach. Problems might have been caused by allocating the irq after enabling interrupts on the card. - rl: call rl_stop before ether_ifdetach - sf: call sf_stop before ether_ifdetach - sis: add missed free of sis_tag - sis: check errors from tag creation - sis: move dmamem_alloc and dmamap_load to happen at same time as tag creation - sk: remove duplicate initialization of sk_dev - ste: add missed bus_generic_detach - ti: call ti_stop before ether_ifdetach - ti: add missed error setting in ti_rdata alloc failure - vr: add missed error setting in I/O, memory mapping cases - xl: add missed error setting in I/O, memory mapping cases - xl: remove multi-level goto on attach failure - xl: move dmamem_alloc and dmamap_load to happen at same time as tag creation - Calls to free(9) are unconditional because it is valid to call free with a null pointer. Reviewed by: imp, mdodd
2003-03-31 17:29:43 +00:00
if (error)
dc_detach(dev);
return (error);
}
/*
* Shutdown hardware and free up resources. This can be called any
* time after the mutex has been initialized. It is called in both
* the error case in attach and the normal detach case so it needs
* to be careful about only freeing resources that have actually been
* allocated.
*/
static int
dc_detach(device_t dev)
{
struct dc_softc *sc;
struct ifnet *ifp;
struct dc_mediainfo *m;
sc = device_get_softc(dev);
KASSERT(mtx_initialized(&sc->dc_mtx), ("dc mutex not initialized"));
ifp = sc->dc_ifp;
Big polling(4) cleanup. o Axe poll in trap. o Axe IFF_POLLING flag from if_flags. o Rework revision 1.21 (Giant removal), in such a way that poll_mtx is not dropped during call to polling handler. This fixes problem with idle polling. o Make registration and deregistration from polling in a functional way, insted of next tick/interrupt. o Obsolete kern.polling.enable. Polling is turned on/off with ifconfig. Detailed kern_poll.c changes: - Remove polling handler flags, introduced in 1.21. The are not needed now. - Forget and do not check if_flags, if_capenable and if_drv_flags. - Call all registered polling handlers unconditionally. - Do not drop poll_mtx, when entering polling handlers. - In ether_poll() NET_LOCK_GIANT prior to locking poll_mtx. - In netisr_poll() axe the block, where polling code asks drivers to unregister. - In netisr_poll() and ether_poll() do polling always, if any handlers are present. - In ether_poll_[de]register() remove a lot of error hiding code. Assert that arguments are correct, instead. - In ether_poll_[de]register() use standard return values in case of error or success. - Introduce poll_switch() that is a sysctl handler for kern.polling.enable. poll_switch() goes through interface list and enabled/disables polling. A message that kern.polling.enable is deprecated is printed. Detailed driver changes: - On attach driver announces IFCAP_POLLING in if_capabilities, but not in if_capenable. - On detach driver calls ether_poll_deregister() if polling is enabled. - In polling handler driver obtains its lock and checks IFF_DRV_RUNNING flag. If there is no, then unlocks and returns. - In ioctl handler driver checks for IFCAP_POLLING flag requested to be set or cleared. Driver first calls ether_poll_[de]register(), then obtains driver lock and [dis/en]ables interrupts. - In interrupt handler driver checks IFCAP_POLLING flag in if_capenable. If present, then returns.This is important to protect from spurious interrupts. Reviewed by: ru, sam, jhb
2005-10-01 18:56:19 +00:00
#ifdef DEVICE_POLLING
if (ifp != NULL && ifp->if_capenable & IFCAP_POLLING)
Big polling(4) cleanup. o Axe poll in trap. o Axe IFF_POLLING flag from if_flags. o Rework revision 1.21 (Giant removal), in such a way that poll_mtx is not dropped during call to polling handler. This fixes problem with idle polling. o Make registration and deregistration from polling in a functional way, insted of next tick/interrupt. o Obsolete kern.polling.enable. Polling is turned on/off with ifconfig. Detailed kern_poll.c changes: - Remove polling handler flags, introduced in 1.21. The are not needed now. - Forget and do not check if_flags, if_capenable and if_drv_flags. - Call all registered polling handlers unconditionally. - Do not drop poll_mtx, when entering polling handlers. - In ether_poll() NET_LOCK_GIANT prior to locking poll_mtx. - In netisr_poll() axe the block, where polling code asks drivers to unregister. - In netisr_poll() and ether_poll() do polling always, if any handlers are present. - In ether_poll_[de]register() remove a lot of error hiding code. Assert that arguments are correct, instead. - In ether_poll_[de]register() use standard return values in case of error or success. - Introduce poll_switch() that is a sysctl handler for kern.polling.enable. poll_switch() goes through interface list and enabled/disables polling. A message that kern.polling.enable is deprecated is printed. Detailed driver changes: - On attach driver announces IFCAP_POLLING in if_capabilities, but not in if_capenable. - On detach driver calls ether_poll_deregister() if polling is enabled. - In polling handler driver obtains its lock and checks IFF_DRV_RUNNING flag. If there is no, then unlocks and returns. - In ioctl handler driver checks for IFCAP_POLLING flag requested to be set or cleared. Driver first calls ether_poll_[de]register(), then obtains driver lock and [dis/en]ables interrupts. - In interrupt handler driver checks IFCAP_POLLING flag in if_capenable. If present, then returns.This is important to protect from spurious interrupts. Reviewed by: ru, sam, jhb
2005-10-01 18:56:19 +00:00
ether_poll_deregister(ifp);
#endif
/* These should only be active if attach succeeded */
if (device_is_attached(dev)) {
DC_LOCK(sc);
dc_stop(sc);
DC_UNLOCK(sc);
callout_drain(&sc->dc_stat_ch);
callout_drain(&sc->dc_wdog_ch);
Clean up locking and resource management for pci/if_* - Remove locking of the softc in the attach method, instead depending on bus_setup_intr being at the end of attach (delaying interrupt enable until after ether_ifattach is called) - Call *_detach directly in the error case of attach, depending on checking in detach to only free resources that were allocated. This puts all resource freeing in one place, avoiding thinkos that lead to memory leaks. - Add bus_child_present check to calls to *_stop in the detach method to be sure hw is present before touching its registers. - Remove bzero softc calls since device_t should do this for us. - dc: move interrupt allocation back where it was before. It was unnecessary to move it. This reverts part of 1.88 - rl: move irq allocation before ether_ifattach. Problems might have been caused by allocating the irq after enabling interrupts on the card. - rl: call rl_stop before ether_ifdetach - sf: call sf_stop before ether_ifdetach - sis: add missed free of sis_tag - sis: check errors from tag creation - sis: move dmamem_alloc and dmamap_load to happen at same time as tag creation - sk: remove duplicate initialization of sk_dev - ste: add missed bus_generic_detach - ti: call ti_stop before ether_ifdetach - ti: add missed error setting in ti_rdata alloc failure - vr: add missed error setting in I/O, memory mapping cases - xl: add missed error setting in I/O, memory mapping cases - xl: remove multi-level goto on attach failure - xl: move dmamem_alloc and dmamap_load to happen at same time as tag creation - Calls to free(9) are unconditional because it is valid to call free with a null pointer. Reviewed by: imp, mdodd
2003-03-31 17:29:43 +00:00
ether_ifdetach(ifp);
}
if (sc->dc_miibus)
device_delete_child(dev, sc->dc_miibus);
bus_generic_detach(dev);
Clean up locking and resource management for pci/if_* - Remove locking of the softc in the attach method, instead depending on bus_setup_intr being at the end of attach (delaying interrupt enable until after ether_ifattach is called) - Call *_detach directly in the error case of attach, depending on checking in detach to only free resources that were allocated. This puts all resource freeing in one place, avoiding thinkos that lead to memory leaks. - Add bus_child_present check to calls to *_stop in the detach method to be sure hw is present before touching its registers. - Remove bzero softc calls since device_t should do this for us. - dc: move interrupt allocation back where it was before. It was unnecessary to move it. This reverts part of 1.88 - rl: move irq allocation before ether_ifattach. Problems might have been caused by allocating the irq after enabling interrupts on the card. - rl: call rl_stop before ether_ifdetach - sf: call sf_stop before ether_ifdetach - sis: add missed free of sis_tag - sis: check errors from tag creation - sis: move dmamem_alloc and dmamap_load to happen at same time as tag creation - sk: remove duplicate initialization of sk_dev - ste: add missed bus_generic_detach - ti: call ti_stop before ether_ifdetach - ti: add missed error setting in ti_rdata alloc failure - vr: add missed error setting in I/O, memory mapping cases - xl: add missed error setting in I/O, memory mapping cases - xl: remove multi-level goto on attach failure - xl: move dmamem_alloc and dmamap_load to happen at same time as tag creation - Calls to free(9) are unconditional because it is valid to call free with a null pointer. Reviewed by: imp, mdodd
2003-03-31 17:29:43 +00:00
if (sc->dc_intrhand)
bus_teardown_intr(dev, sc->dc_irq, sc->dc_intrhand);
if (sc->dc_irq)
bus_release_resource(dev, SYS_RES_IRQ, 0, sc->dc_irq);
if (sc->dc_res)
bus_release_resource(dev, DC_RES, DC_RID, sc->dc_res);
if (ifp != NULL)
2005-10-18 06:09:42 +00:00
if_free(ifp);
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
dc_dma_free(sc);
Clean up locking and resource management for pci/if_* - Remove locking of the softc in the attach method, instead depending on bus_setup_intr being at the end of attach (delaying interrupt enable until after ether_ifattach is called) - Call *_detach directly in the error case of attach, depending on checking in detach to only free resources that were allocated. This puts all resource freeing in one place, avoiding thinkos that lead to memory leaks. - Add bus_child_present check to calls to *_stop in the detach method to be sure hw is present before touching its registers. - Remove bzero softc calls since device_t should do this for us. - dc: move interrupt allocation back where it was before. It was unnecessary to move it. This reverts part of 1.88 - rl: move irq allocation before ether_ifattach. Problems might have been caused by allocating the irq after enabling interrupts on the card. - rl: call rl_stop before ether_ifdetach - sf: call sf_stop before ether_ifdetach - sis: add missed free of sis_tag - sis: check errors from tag creation - sis: move dmamem_alloc and dmamap_load to happen at same time as tag creation - sk: remove duplicate initialization of sk_dev - ste: add missed bus_generic_detach - ti: call ti_stop before ether_ifdetach - ti: add missed error setting in ti_rdata alloc failure - vr: add missed error setting in I/O, memory mapping cases - xl: add missed error setting in I/O, memory mapping cases - xl: remove multi-level goto on attach failure - xl: move dmamem_alloc and dmamap_load to happen at same time as tag creation - Calls to free(9) are unconditional because it is valid to call free with a null pointer. Reviewed by: imp, mdodd
2003-03-31 17:29:43 +00:00
free(sc->dc_pnic_rx_buf, M_DEVBUF);
while (sc->dc_mi != NULL) {
m = sc->dc_mi->dc_next;
free(sc->dc_mi, M_DEVBUF);
sc->dc_mi = m;
}
free(sc->dc_srom, M_DEVBUF);
mtx_destroy(&sc->dc_mtx);
return (0);
}
/*
* Initialize the transmit descriptors.
*/
static int
dc_list_tx_init(struct dc_softc *sc)
{
struct dc_chain_data *cd;
struct dc_list_data *ld;
int i, nexti;
cd = &sc->dc_cdata;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
ld = &sc->dc_ldata;
for (i = 0; i < DC_TX_LIST_CNT; i++) {
if (i == DC_TX_LIST_CNT - 1)
nexti = 0;
else
nexti = i + 1;
ld->dc_tx_list[i].dc_status = 0;
ld->dc_tx_list[i].dc_ctl = 0;
ld->dc_tx_list[i].dc_data = 0;
ld->dc_tx_list[i].dc_next = htole32(DC_TXDESC(sc, nexti));
cd->dc_tx_chain[i] = NULL;
}
cd->dc_tx_prod = cd->dc_tx_cons = cd->dc_tx_cnt = 0;
cd->dc_tx_pkts = 0;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
bus_dmamap_sync(sc->dc_tx_ltag, sc->dc_tx_lmap,
BUS_DMASYNC_PREWRITE | BUS_DMASYNC_PREREAD);
return (0);
}
/*
* Initialize the RX descriptors and allocate mbufs for them. Note that
* we arrange the descriptors in a closed ring, so that the last descriptor
* points back to the first.
*/
static int
dc_list_rx_init(struct dc_softc *sc)
{
struct dc_chain_data *cd;
struct dc_list_data *ld;
int i, nexti;
cd = &sc->dc_cdata;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
ld = &sc->dc_ldata;
for (i = 0; i < DC_RX_LIST_CNT; i++) {
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
if (dc_newbuf(sc, i) != 0)
return (ENOBUFS);
if (i == DC_RX_LIST_CNT - 1)
nexti = 0;
else
nexti = i + 1;
ld->dc_rx_list[i].dc_next = htole32(DC_RXDESC(sc, nexti));
}
cd->dc_rx_prod = 0;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
bus_dmamap_sync(sc->dc_rx_ltag, sc->dc_rx_lmap,
BUS_DMASYNC_PREWRITE | BUS_DMASYNC_PREREAD);
return (0);
}
/*
* Initialize an RX descriptor and attach an MBUF cluster.
*/
static int
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
dc_newbuf(struct dc_softc *sc, int i)
{
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
struct mbuf *m;
bus_dmamap_t map;
o In order to reduce bug and code duplication fold handling of NICs requiring DC_TX_ALIGN or DC_TX_COALESCE, which was previously done in dc_start_locked(), into dc_encap(). o In dc_encap(): - If m_defrag() fails just drop the packet like other NIC drivers do. This should only happen when there's a mbuf shortage, in which case it was possible to end up with an IFQ full of packets which couldn't be processed as they couldn't be defragmented as they were taking up all the mbufs themselves. This includes adjusting dc_start_locked() to not trying to prepend the mbuf (chain) if dc_encap() has freed it. - Likewise, if bus_dmamap_load_mbuf() fails as dc_dma_map_txbuf() failed, free the mbuf possibly allocated by the above call to m_defrag() and drop the packet. o In dc_txeof(): - Don't clear IFF_DRV_OACTIVE unless there are at least 6 free TX descriptors. Further down the road dc_encap() will bail if there are only 5 or fewer free TX descriptors, causing dc_start_locked() to abort and prepend the dequeued mbuf again so it makes no sense to pretend we could process mbufs again when in fact we won't. While at it replace this magic 5 with a macro DC_TX_LIST_RSVD. - Just always assign idx to sc->dc_cdata.dc_tx_cons; it doesn't make much sense to exclude the idx == sc->dc_cdata.dc_tx_cons case. o In dc_dma_map_txbuf() there's no need to set sc->dc_cdata.dc_tx_err to error if the latter is != 0, bus_dmamap_load_mbuf() already returns the same error value in that case anyway. o For less overhead, convert to use bus_dmamap_load_mbuf_sg() for loading RX buffers. o Remove some banal and/or outdated comments. Approved by: re (kensmith) MFC after: 1 week
2007-08-05 11:28:19 +00:00
bus_dma_segment_t segs[1];
int error, nseg;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
m = m_getcl(M_DONTWAIT, MT_DATA, M_PKTHDR);
if (m == NULL)
return (ENOBUFS);
m->m_len = m->m_pkthdr.len = MCLBYTES;
m_adj(m, sizeof(u_int64_t));
/*
* If this is a PNIC chip, zero the buffer. This is part
* of the workaround for the receive bug in the 82c168 and
* 82c169 chips.
*/
if (sc->dc_flags & DC_PNIC_RX_BUG_WAR)
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
bzero(mtod(m, char *), m->m_len);
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
error = bus_dmamap_load_mbuf_sg(sc->dc_rx_mtag, sc->dc_sparemap,
m, segs, &nseg, 0);
if (error) {
m_freem(m);
return (error);
}
KASSERT(nseg == 1, ("%s: wrong number of segments (%d)", __func__,
nseg));
if (sc->dc_cdata.dc_rx_chain[i] != NULL)
bus_dmamap_unload(sc->dc_rx_mtag, sc->dc_cdata.dc_rx_map[i]);
map = sc->dc_cdata.dc_rx_map[i];
sc->dc_cdata.dc_rx_map[i] = sc->dc_sparemap;
sc->dc_sparemap = map;
sc->dc_cdata.dc_rx_chain[i] = m;
bus_dmamap_sync(sc->dc_rx_mtag, sc->dc_cdata.dc_rx_map[i],
BUS_DMASYNC_PREREAD);
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
sc->dc_ldata.dc_rx_list[i].dc_ctl = htole32(DC_RXCTL_RLINK | DC_RXLEN);
sc->dc_ldata.dc_rx_list[i].dc_data =
htole32(DC_ADDR_LO(segs[0].ds_addr));
sc->dc_ldata.dc_rx_list[i].dc_status = htole32(DC_RXSTAT_OWN);
bus_dmamap_sync(sc->dc_rx_ltag, sc->dc_rx_lmap,
BUS_DMASYNC_PREWRITE | BUS_DMASYNC_PREREAD);
return (0);
}
/*
* Grrrrr.
* The PNIC chip has a terrible bug in it that manifests itself during
* periods of heavy activity. The exact mode of failure if difficult to
* pinpoint: sometimes it only happens in promiscuous mode, sometimes it
* will happen on slow machines. The bug is that sometimes instead of
* uploading one complete frame during reception, it uploads what looks
* like the entire contents of its FIFO memory. The frame we want is at
* the end of the whole mess, but we never know exactly how much data has
* been uploaded, so salvaging the frame is hard.
*
* There is only one way to do it reliably, and it's disgusting.
* Here's what we know:
*
* - We know there will always be somewhere between one and three extra
* descriptors uploaded.
*
* - We know the desired received frame will always be at the end of the
* total data upload.
*
* - We know the size of the desired received frame because it will be
* provided in the length field of the status word in the last descriptor.
*
* Here's what we do:
*
* - When we allocate buffers for the receive ring, we bzero() them.
* This means that we know that the buffer contents should be all
* zeros, except for data uploaded by the chip.
*
* - We also force the PNIC chip to upload frames that include the
* ethernet CRC at the end.
*
* - We gather all of the bogus frame data into a single buffer.
*
* - We then position a pointer at the end of this buffer and scan
* backwards until we encounter the first non-zero byte of data.
* This is the end of the received frame. We know we will encounter
* some data at the end of the frame because the CRC will always be
* there, so even if the sender transmits a packet of all zeros,
* we won't be fooled.
*
* - We know the size of the actual received frame, so we subtract
* that value from the current pointer location. This brings us
* to the start of the actual received packet.
*
* - We copy this into an mbuf and pass it on, along with the actual
* frame length.
*
* The performance hit is tremendous, but it beats dropping frames all
* the time.
*/
#define DC_WHOLEFRAME (DC_RXSTAT_FIRSTFRAG | DC_RXSTAT_LASTFRAG)
static void
dc_pnic_rx_bug_war(struct dc_softc *sc, int idx)
{
struct dc_desc *cur_rx;
struct dc_desc *c = NULL;
struct mbuf *m = NULL;
unsigned char *ptr;
int i, total_len;
2011-02-19 03:32:10 +00:00
uint32_t rxstat = 0;
i = sc->dc_pnic_rx_bug_save;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
cur_rx = &sc->dc_ldata.dc_rx_list[idx];
ptr = sc->dc_pnic_rx_buf;
bzero(ptr, DC_RXLEN * 5);
/* Copy all the bytes from the bogus buffers. */
while (1) {
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
c = &sc->dc_ldata.dc_rx_list[i];
rxstat = le32toh(c->dc_status);
m = sc->dc_cdata.dc_rx_chain[i];
bcopy(mtod(m, char *), ptr, DC_RXLEN);
ptr += DC_RXLEN;
/* If this is the last buffer, break out. */
if (i == idx || rxstat & DC_RXSTAT_LASTFRAG)
break;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
dc_discard_rxbuf(sc, i);
DC_INC(i, DC_RX_LIST_CNT);
}
/* Find the length of the actual receive frame. */
total_len = DC_RXBYTES(rxstat);
/* Scan backwards until we hit a non-zero byte. */
while (*ptr == 0x00)
ptr--;
/* Round off. */
if ((uintptr_t)(ptr) & 0x3)
ptr -= 1;
/* Now find the start of the frame. */
ptr -= total_len;
if (ptr < sc->dc_pnic_rx_buf)
ptr = sc->dc_pnic_rx_buf;
/*
* Now copy the salvaged frame to the last mbuf and fake up
* the status word to make it look like a successful
* frame reception.
*/
bcopy(ptr, mtod(m, char *), total_len);
cur_rx->dc_status = htole32(rxstat | DC_RXSTAT_FIRSTFRAG);
}
It appears that under certain circumstances that I still can't quite pin down, the dc driver and receiver can fall out of sync with one another, resulting in a condition where the chip continues to receive packets but the driver never notices. Normally, the receive handler checks each descriptor starting from the current producer index to see if the chip has relinquished ownership, indicating that a packet has been received. The driver hands the packet off to ether_input() and then prepares the descriptor to receive another frame before moving on to the next descriptor in the ring. But sometimes, the chip appears to skip a descriptor. This leaves the driver testing the status word in a descriptor that never gets updated. The driver still gets "RX done" interrupts but never advances further into the RX ring, until the ring fills up and the chip interrupts again to signal an error condition. Sometimes, the driver will remain in this desynchronized state, resulting in spotty performance until the interface is reset. Fortunately, it's fairly simple to detect this condition: if we call the rxeof routine but the number of received packets doesn't increase, we suspect that there could be a problem. In this case, we call a new routine called dc_rx_resync(), which scans ahead in the RX ring to see if there's a frame waiting for us somewhere beyond that the driver thinks is the current producer index. If it finds one, it bumps up the index and calls the rxeof handler again to snarf up the packet and bring the driver back in sync with the chip. (It may actually do this several times in the event that there's more than one "hole" in the ring.) So far the only card supported by if_dc which has exhibited this problem is a LinkSys LNE100TX v2.0 (82c115 PNIC II), and it only seems to happen on one particular system, however the fix is general enough and has low enough overhead that we may as well apply it for all supported chipsets. I also implemented the same fix for the 3Com xl driver, which is apparently vulnerable to the same problem. Problem originally noted and patch tested by: Matt Dillon
2000-01-03 15:28:47 +00:00
/*
* This routine searches the RX ring for dirty descriptors in the
* event that the rxeof routine falls out of sync with the chip's
* current descriptor pointer. This may happen sometimes as a result
* of a "no RX buffer available" condition that happens when the chip
* consumes all of the RX buffers before the driver has a chance to
* process the RX ring. This routine may need to be called more than
* once to bring the driver back in sync with the chip, however we
* should still be getting RX DONE interrupts to drive the search
* for new packets in the RX ring, so we should catch up eventually.
*/
static int
dc_rx_resync(struct dc_softc *sc)
It appears that under certain circumstances that I still can't quite pin down, the dc driver and receiver can fall out of sync with one another, resulting in a condition where the chip continues to receive packets but the driver never notices. Normally, the receive handler checks each descriptor starting from the current producer index to see if the chip has relinquished ownership, indicating that a packet has been received. The driver hands the packet off to ether_input() and then prepares the descriptor to receive another frame before moving on to the next descriptor in the ring. But sometimes, the chip appears to skip a descriptor. This leaves the driver testing the status word in a descriptor that never gets updated. The driver still gets "RX done" interrupts but never advances further into the RX ring, until the ring fills up and the chip interrupts again to signal an error condition. Sometimes, the driver will remain in this desynchronized state, resulting in spotty performance until the interface is reset. Fortunately, it's fairly simple to detect this condition: if we call the rxeof routine but the number of received packets doesn't increase, we suspect that there could be a problem. In this case, we call a new routine called dc_rx_resync(), which scans ahead in the RX ring to see if there's a frame waiting for us somewhere beyond that the driver thinks is the current producer index. If it finds one, it bumps up the index and calls the rxeof handler again to snarf up the packet and bring the driver back in sync with the chip. (It may actually do this several times in the event that there's more than one "hole" in the ring.) So far the only card supported by if_dc which has exhibited this problem is a LinkSys LNE100TX v2.0 (82c115 PNIC II), and it only seems to happen on one particular system, however the fix is general enough and has low enough overhead that we may as well apply it for all supported chipsets. I also implemented the same fix for the 3Com xl driver, which is apparently vulnerable to the same problem. Problem originally noted and patch tested by: Matt Dillon
2000-01-03 15:28:47 +00:00
{
struct dc_desc *cur_rx;
int i, pos;
It appears that under certain circumstances that I still can't quite pin down, the dc driver and receiver can fall out of sync with one another, resulting in a condition where the chip continues to receive packets but the driver never notices. Normally, the receive handler checks each descriptor starting from the current producer index to see if the chip has relinquished ownership, indicating that a packet has been received. The driver hands the packet off to ether_input() and then prepares the descriptor to receive another frame before moving on to the next descriptor in the ring. But sometimes, the chip appears to skip a descriptor. This leaves the driver testing the status word in a descriptor that never gets updated. The driver still gets "RX done" interrupts but never advances further into the RX ring, until the ring fills up and the chip interrupts again to signal an error condition. Sometimes, the driver will remain in this desynchronized state, resulting in spotty performance until the interface is reset. Fortunately, it's fairly simple to detect this condition: if we call the rxeof routine but the number of received packets doesn't increase, we suspect that there could be a problem. In this case, we call a new routine called dc_rx_resync(), which scans ahead in the RX ring to see if there's a frame waiting for us somewhere beyond that the driver thinks is the current producer index. If it finds one, it bumps up the index and calls the rxeof handler again to snarf up the packet and bring the driver back in sync with the chip. (It may actually do this several times in the event that there's more than one "hole" in the ring.) So far the only card supported by if_dc which has exhibited this problem is a LinkSys LNE100TX v2.0 (82c115 PNIC II), and it only seems to happen on one particular system, however the fix is general enough and has low enough overhead that we may as well apply it for all supported chipsets. I also implemented the same fix for the 3Com xl driver, which is apparently vulnerable to the same problem. Problem originally noted and patch tested by: Matt Dillon
2000-01-03 15:28:47 +00:00
pos = sc->dc_cdata.dc_rx_prod;
for (i = 0; i < DC_RX_LIST_CNT; i++) {
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
cur_rx = &sc->dc_ldata.dc_rx_list[pos];
if (!(le32toh(cur_rx->dc_status) & DC_RXSTAT_OWN))
It appears that under certain circumstances that I still can't quite pin down, the dc driver and receiver can fall out of sync with one another, resulting in a condition where the chip continues to receive packets but the driver never notices. Normally, the receive handler checks each descriptor starting from the current producer index to see if the chip has relinquished ownership, indicating that a packet has been received. The driver hands the packet off to ether_input() and then prepares the descriptor to receive another frame before moving on to the next descriptor in the ring. But sometimes, the chip appears to skip a descriptor. This leaves the driver testing the status word in a descriptor that never gets updated. The driver still gets "RX done" interrupts but never advances further into the RX ring, until the ring fills up and the chip interrupts again to signal an error condition. Sometimes, the driver will remain in this desynchronized state, resulting in spotty performance until the interface is reset. Fortunately, it's fairly simple to detect this condition: if we call the rxeof routine but the number of received packets doesn't increase, we suspect that there could be a problem. In this case, we call a new routine called dc_rx_resync(), which scans ahead in the RX ring to see if there's a frame waiting for us somewhere beyond that the driver thinks is the current producer index. If it finds one, it bumps up the index and calls the rxeof handler again to snarf up the packet and bring the driver back in sync with the chip. (It may actually do this several times in the event that there's more than one "hole" in the ring.) So far the only card supported by if_dc which has exhibited this problem is a LinkSys LNE100TX v2.0 (82c115 PNIC II), and it only seems to happen on one particular system, however the fix is general enough and has low enough overhead that we may as well apply it for all supported chipsets. I also implemented the same fix for the 3Com xl driver, which is apparently vulnerable to the same problem. Problem originally noted and patch tested by: Matt Dillon
2000-01-03 15:28:47 +00:00
break;
DC_INC(pos, DC_RX_LIST_CNT);
}
/* If the ring really is empty, then just return. */
if (i == DC_RX_LIST_CNT)
return (0);
It appears that under certain circumstances that I still can't quite pin down, the dc driver and receiver can fall out of sync with one another, resulting in a condition where the chip continues to receive packets but the driver never notices. Normally, the receive handler checks each descriptor starting from the current producer index to see if the chip has relinquished ownership, indicating that a packet has been received. The driver hands the packet off to ether_input() and then prepares the descriptor to receive another frame before moving on to the next descriptor in the ring. But sometimes, the chip appears to skip a descriptor. This leaves the driver testing the status word in a descriptor that never gets updated. The driver still gets "RX done" interrupts but never advances further into the RX ring, until the ring fills up and the chip interrupts again to signal an error condition. Sometimes, the driver will remain in this desynchronized state, resulting in spotty performance until the interface is reset. Fortunately, it's fairly simple to detect this condition: if we call the rxeof routine but the number of received packets doesn't increase, we suspect that there could be a problem. In this case, we call a new routine called dc_rx_resync(), which scans ahead in the RX ring to see if there's a frame waiting for us somewhere beyond that the driver thinks is the current producer index. If it finds one, it bumps up the index and calls the rxeof handler again to snarf up the packet and bring the driver back in sync with the chip. (It may actually do this several times in the event that there's more than one "hole" in the ring.) So far the only card supported by if_dc which has exhibited this problem is a LinkSys LNE100TX v2.0 (82c115 PNIC II), and it only seems to happen on one particular system, however the fix is general enough and has low enough overhead that we may as well apply it for all supported chipsets. I also implemented the same fix for the 3Com xl driver, which is apparently vulnerable to the same problem. Problem originally noted and patch tested by: Matt Dillon
2000-01-03 15:28:47 +00:00
/* We've fallen behing the chip: catch it. */
sc->dc_cdata.dc_rx_prod = pos;
return (EAGAIN);
It appears that under certain circumstances that I still can't quite pin down, the dc driver and receiver can fall out of sync with one another, resulting in a condition where the chip continues to receive packets but the driver never notices. Normally, the receive handler checks each descriptor starting from the current producer index to see if the chip has relinquished ownership, indicating that a packet has been received. The driver hands the packet off to ether_input() and then prepares the descriptor to receive another frame before moving on to the next descriptor in the ring. But sometimes, the chip appears to skip a descriptor. This leaves the driver testing the status word in a descriptor that never gets updated. The driver still gets "RX done" interrupts but never advances further into the RX ring, until the ring fills up and the chip interrupts again to signal an error condition. Sometimes, the driver will remain in this desynchronized state, resulting in spotty performance until the interface is reset. Fortunately, it's fairly simple to detect this condition: if we call the rxeof routine but the number of received packets doesn't increase, we suspect that there could be a problem. In this case, we call a new routine called dc_rx_resync(), which scans ahead in the RX ring to see if there's a frame waiting for us somewhere beyond that the driver thinks is the current producer index. If it finds one, it bumps up the index and calls the rxeof handler again to snarf up the packet and bring the driver back in sync with the chip. (It may actually do this several times in the event that there's more than one "hole" in the ring.) So far the only card supported by if_dc which has exhibited this problem is a LinkSys LNE100TX v2.0 (82c115 PNIC II), and it only seems to happen on one particular system, however the fix is general enough and has low enough overhead that we may as well apply it for all supported chipsets. I also implemented the same fix for the 3Com xl driver, which is apparently vulnerable to the same problem. Problem originally noted and patch tested by: Matt Dillon
2000-01-03 15:28:47 +00:00
}
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
static void
dc_discard_rxbuf(struct dc_softc *sc, int i)
{
struct mbuf *m;
if (sc->dc_flags & DC_PNIC_RX_BUG_WAR) {
m = sc->dc_cdata.dc_rx_chain[i];
bzero(mtod(m, char *), m->m_len);
}
sc->dc_ldata.dc_rx_list[i].dc_ctl = htole32(DC_RXCTL_RLINK | DC_RXLEN);
sc->dc_ldata.dc_rx_list[i].dc_status = htole32(DC_RXSTAT_OWN);
bus_dmamap_sync(sc->dc_rx_ltag, sc->dc_rx_lmap, BUS_DMASYNC_PREREAD |
BUS_DMASYNC_PREWRITE);
}
/*
* A frame has been uploaded: pass the resulting mbuf chain up to
* the higher level protocols.
*/
static int
dc_rxeof(struct dc_softc *sc)
{
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
struct mbuf *m;
struct ifnet *ifp;
struct dc_desc *cur_rx;
int i, total_len, rx_npkts;
2011-02-19 03:32:10 +00:00
uint32_t rxstat;
DC_LOCK_ASSERT(sc);
ifp = sc->dc_ifp;
rx_npkts = 0;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
bus_dmamap_sync(sc->dc_rx_ltag, sc->dc_rx_lmap, BUS_DMASYNC_POSTREAD |
BUS_DMASYNC_POSTWRITE);
for (i = sc->dc_cdata.dc_rx_prod;
(ifp->if_drv_flags & IFF_DRV_RUNNING) != 0;
DC_INC(i, DC_RX_LIST_CNT)) {
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
#ifdef DEVICE_POLLING
Big polling(4) cleanup. o Axe poll in trap. o Axe IFF_POLLING flag from if_flags. o Rework revision 1.21 (Giant removal), in such a way that poll_mtx is not dropped during call to polling handler. This fixes problem with idle polling. o Make registration and deregistration from polling in a functional way, insted of next tick/interrupt. o Obsolete kern.polling.enable. Polling is turned on/off with ifconfig. Detailed kern_poll.c changes: - Remove polling handler flags, introduced in 1.21. The are not needed now. - Forget and do not check if_flags, if_capenable and if_drv_flags. - Call all registered polling handlers unconditionally. - Do not drop poll_mtx, when entering polling handlers. - In ether_poll() NET_LOCK_GIANT prior to locking poll_mtx. - In netisr_poll() axe the block, where polling code asks drivers to unregister. - In netisr_poll() and ether_poll() do polling always, if any handlers are present. - In ether_poll_[de]register() remove a lot of error hiding code. Assert that arguments are correct, instead. - In ether_poll_[de]register() use standard return values in case of error or success. - Introduce poll_switch() that is a sysctl handler for kern.polling.enable. poll_switch() goes through interface list and enabled/disables polling. A message that kern.polling.enable is deprecated is printed. Detailed driver changes: - On attach driver announces IFCAP_POLLING in if_capabilities, but not in if_capenable. - On detach driver calls ether_poll_deregister() if polling is enabled. - In polling handler driver obtains its lock and checks IFF_DRV_RUNNING flag. If there is no, then unlocks and returns. - In ioctl handler driver checks for IFCAP_POLLING flag requested to be set or cleared. Driver first calls ether_poll_[de]register(), then obtains driver lock and [dis/en]ables interrupts. - In interrupt handler driver checks IFCAP_POLLING flag in if_capenable. If present, then returns.This is important to protect from spurious interrupts. Reviewed by: ru, sam, jhb
2005-10-01 18:56:19 +00:00
if (ifp->if_capenable & IFCAP_POLLING) {
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
if (sc->rxcycles <= 0)
break;
sc->rxcycles--;
}
#endif
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
cur_rx = &sc->dc_ldata.dc_rx_list[i];
rxstat = le32toh(cur_rx->dc_status);
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
if ((rxstat & DC_RXSTAT_OWN) != 0)
break;
m = sc->dc_cdata.dc_rx_chain[i];
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
bus_dmamap_sync(sc->dc_rx_mtag, sc->dc_cdata.dc_rx_map[i],
BUS_DMASYNC_POSTREAD);
total_len = DC_RXBYTES(rxstat);
rx_npkts++;
if (sc->dc_flags & DC_PNIC_RX_BUG_WAR) {
if ((rxstat & DC_WHOLEFRAME) != DC_WHOLEFRAME) {
if (rxstat & DC_RXSTAT_FIRSTFRAG)
sc->dc_pnic_rx_bug_save = i;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
if ((rxstat & DC_RXSTAT_LASTFRAG) == 0)
continue;
dc_pnic_rx_bug_war(sc, i);
rxstat = le32toh(cur_rx->dc_status);
total_len = DC_RXBYTES(rxstat);
}
}
/*
* If an error occurs, update stats, clear the
* status word and leave the mbuf cluster in place:
* it should simply get re-used next time this descriptor
* comes up in the ring. However, don't report long
* frames as errors since they could be vlans.
*/
if ((rxstat & DC_RXSTAT_RXERR)) {
if (!(rxstat & DC_RXSTAT_GIANT) ||
(rxstat & (DC_RXSTAT_CRCERR | DC_RXSTAT_DRIBBLE |
DC_RXSTAT_MIIERE | DC_RXSTAT_COLLSEEN |
DC_RXSTAT_RUNT | DC_RXSTAT_DE))) {
ifp->if_ierrors++;
if (rxstat & DC_RXSTAT_COLLSEEN)
ifp->if_collisions++;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
dc_discard_rxbuf(sc, i);
if (rxstat & DC_RXSTAT_CRCERR)
continue;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
else {
ifp->if_drv_flags &= ~IFF_DRV_RUNNING;
dc_init_locked(sc);
return (rx_npkts);
}
}
}
/* No errors; receive the packet. */
total_len -= ETHER_CRC_LEN;
#ifdef __NO_STRICT_ALIGNMENT
/*
* On architectures without alignment problems we try to
* allocate a new buffer for the receive ring, and pass up
* the one where the packet is already, saving the expensive
* copy done in m_devget().
* If we are on an architecture with alignment problems, or
* if the allocation fails, then use m_devget and leave the
* existing buffer in the receive ring.
*/
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
if (dc_newbuf(sc, i) != 0) {
dc_discard_rxbuf(sc, i);
ifp->if_iqdrops++;
continue;
}
m->m_pkthdr.rcvif = ifp;
m->m_pkthdr.len = m->m_len = total_len;
#else
{
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
struct mbuf *m0;
m0 = m_devget(mtod(m, char *), total_len,
ETHER_ALIGN, ifp, NULL);
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
dc_discard_rxbuf(sc, i);
if (m0 == NULL) {
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
ifp->if_iqdrops++;
continue;
}
m = m0;
}
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
#endif
ifp->if_ipackets++;
DC_UNLOCK(sc);
(*ifp->if_input)(ifp, m);
DC_LOCK(sc);
}
sc->dc_cdata.dc_rx_prod = i;
return (rx_npkts);
}
/*
* A frame was downloaded to the chip. It's safe for us to clean up
* the list buffers.
*/
static void
dc_txeof(struct dc_softc *sc)
{
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
struct dc_desc *cur_tx;
struct ifnet *ifp;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
int idx, setup;
2011-02-19 03:32:10 +00:00
uint32_t ctl, txstat;
if (sc->dc_cdata.dc_tx_cnt == 0)
return;
ifp = sc->dc_ifp;
/*
* Go through our tx list and free mbufs for those
* frames that have been transmitted.
*/
bus_dmamap_sync(sc->dc_tx_ltag, sc->dc_tx_lmap, BUS_DMASYNC_POSTREAD |
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
BUS_DMASYNC_POSTWRITE);
setup = 0;
for (idx = sc->dc_cdata.dc_tx_cons; idx != sc->dc_cdata.dc_tx_prod;
DC_INC(idx, DC_TX_LIST_CNT), sc->dc_cdata.dc_tx_cnt--) {
cur_tx = &sc->dc_ldata.dc_tx_list[idx];
txstat = le32toh(cur_tx->dc_status);
ctl = le32toh(cur_tx->dc_ctl);
if (txstat & DC_TXSTAT_OWN)
break;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
if (sc->dc_cdata.dc_tx_chain[idx] == NULL)
continue;
if (ctl & DC_TXCTL_SETUP) {
cur_tx->dc_ctl = htole32(ctl & ~DC_TXCTL_SETUP);
setup++;
bus_dmamap_sync(sc->dc_stag, sc->dc_smap,
BUS_DMASYNC_POSTWRITE);
/*
* Yes, the PNIC is so brain damaged
* that it will sometimes generate a TX
* underrun error while DMAing the RX
* filter setup frame. If we detect this,
* we have to send the setup frame again,
* or else the filter won't be programmed
* correctly.
*/
if (DC_IS_PNIC(sc)) {
if (txstat & DC_TXSTAT_ERRSUM)
dc_setfilt(sc);
}
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
sc->dc_cdata.dc_tx_chain[idx] = NULL;
continue;
}
if (DC_IS_XIRCOM(sc) || DC_IS_CONEXANT(sc)) {
/*
* XXX: Why does my Xircom taunt me so?
* For some reason it likes setting the CARRLOST flag
* even when the carrier is there. wtf?!?
* Who knows, but Conexant chips have the
* same problem. Maybe they took lessons
* from Xircom.
*/
if (/*sc->dc_type == DC_TYPE_21143 &&*/
sc->dc_pmode == DC_PMODE_MII &&
((txstat & 0xFFFF) & ~(DC_TXSTAT_ERRSUM |
DC_TXSTAT_NOCARRIER)))
txstat &= ~DC_TXSTAT_ERRSUM;
} else {
if (/*sc->dc_type == DC_TYPE_21143 &&*/
sc->dc_pmode == DC_PMODE_MII &&
((txstat & 0xFFFF) & ~(DC_TXSTAT_ERRSUM |
DC_TXSTAT_NOCARRIER | DC_TXSTAT_CARRLOST)))
txstat &= ~DC_TXSTAT_ERRSUM;
}
if (txstat & DC_TXSTAT_ERRSUM) {
ifp->if_oerrors++;
if (txstat & DC_TXSTAT_EXCESSCOLL)
ifp->if_collisions++;
if (txstat & DC_TXSTAT_LATECOLL)
ifp->if_collisions++;
if (!(txstat & DC_TXSTAT_UNDERRUN)) {
ifp->if_drv_flags &= ~IFF_DRV_RUNNING;
dc_init_locked(sc);
return;
}
} else
ifp->if_opackets++;
ifp->if_collisions += (txstat & DC_TXSTAT_COLLCNT) >> 3;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
bus_dmamap_sync(sc->dc_tx_mtag, sc->dc_cdata.dc_tx_map[idx],
BUS_DMASYNC_POSTWRITE);
bus_dmamap_unload(sc->dc_tx_mtag, sc->dc_cdata.dc_tx_map[idx]);
m_freem(sc->dc_cdata.dc_tx_chain[idx]);
sc->dc_cdata.dc_tx_chain[idx] = NULL;
}
o In order to reduce bug and code duplication fold handling of NICs requiring DC_TX_ALIGN or DC_TX_COALESCE, which was previously done in dc_start_locked(), into dc_encap(). o In dc_encap(): - If m_defrag() fails just drop the packet like other NIC drivers do. This should only happen when there's a mbuf shortage, in which case it was possible to end up with an IFQ full of packets which couldn't be processed as they couldn't be defragmented as they were taking up all the mbufs themselves. This includes adjusting dc_start_locked() to not trying to prepend the mbuf (chain) if dc_encap() has freed it. - Likewise, if bus_dmamap_load_mbuf() fails as dc_dma_map_txbuf() failed, free the mbuf possibly allocated by the above call to m_defrag() and drop the packet. o In dc_txeof(): - Don't clear IFF_DRV_OACTIVE unless there are at least 6 free TX descriptors. Further down the road dc_encap() will bail if there are only 5 or fewer free TX descriptors, causing dc_start_locked() to abort and prepend the dequeued mbuf again so it makes no sense to pretend we could process mbufs again when in fact we won't. While at it replace this magic 5 with a macro DC_TX_LIST_RSVD. - Just always assign idx to sc->dc_cdata.dc_tx_cons; it doesn't make much sense to exclude the idx == sc->dc_cdata.dc_tx_cons case. o In dc_dma_map_txbuf() there's no need to set sc->dc_cdata.dc_tx_err to error if the latter is != 0, bus_dmamap_load_mbuf() already returns the same error value in that case anyway. o For less overhead, convert to use bus_dmamap_load_mbuf_sg() for loading RX buffers. o Remove some banal and/or outdated comments. Approved by: re (kensmith) MFC after: 1 week
2007-08-05 11:28:19 +00:00
sc->dc_cdata.dc_tx_cons = idx;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
if (sc->dc_cdata.dc_tx_cnt <= DC_TX_LIST_CNT - DC_TX_LIST_RSVD) {
ifp->if_drv_flags &= ~IFF_DRV_OACTIVE;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
if (sc->dc_cdata.dc_tx_cnt == 0)
sc->dc_wdog_timer = 0;
}
if (setup > 0)
bus_dmamap_sync(sc->dc_tx_ltag, sc->dc_tx_lmap,
BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE);
}
static void
dc_tick(void *xsc)
{
struct dc_softc *sc;
struct mii_data *mii;
struct ifnet *ifp;
2011-02-19 03:32:10 +00:00
uint32_t r;
sc = xsc;
DC_LOCK_ASSERT(sc);
ifp = sc->dc_ifp;
mii = device_get_softc(sc->dc_miibus);
/*
* Reclaim transmitted frames for controllers that do
* not generate TX completion interrupt for every frame.
*/
if (sc->dc_flags & DC_TX_USE_TX_INTR)
dc_txeof(sc);
if (sc->dc_flags & DC_REDUCED_MII_POLL) {
if (sc->dc_flags & DC_21143_NWAY) {
r = CSR_READ_4(sc, DC_10BTSTAT);
if (IFM_SUBTYPE(mii->mii_media_active) ==
IFM_100_TX && (r & DC_TSTAT_LS100)) {
sc->dc_link = 0;
mii_mediachg(mii);
}
if (IFM_SUBTYPE(mii->mii_media_active) ==
IFM_10_T && (r & DC_TSTAT_LS10)) {
sc->dc_link = 0;
mii_mediachg(mii);
}
if (sc->dc_link == 0)
mii_tick(mii);
} else {
/*
* For NICs which never report DC_RXSTATE_WAIT, we
* have to bite the bullet...
*/
if ((DC_HAS_BROKEN_RXSTATE(sc) || (CSR_READ_4(sc,
DC_ISR) & DC_ISR_RX_STATE) == DC_RXSTATE_WAIT) &&
sc->dc_cdata.dc_tx_cnt == 0)
mii_tick(mii);
}
} else
mii_tick(mii);
/*
* When the init routine completes, we expect to be able to send
* packets right away, and in fact the network code will send a
* gratuitous ARP the moment the init routine marks the interface
* as running. However, even though the MAC may have been initialized,
* there may be a delay of a few seconds before the PHY completes
* autonegotiation and the link is brought up. Any transmissions
* made during that delay will be lost. Dealing with this is tricky:
* we can't just pause in the init routine while waiting for the
* PHY to come ready since that would bring the whole system to
* a screeching halt for several seconds.
*
* What we do here is prevent the TX start routine from sending
* any packets until a link has been established. After the
* interface has been initialized, the tick routine will poll
* the state of the PHY until the IFM_ACTIVE flag is set. Until
* that time, packets will stay in the send queue, and once the
* link comes up, they will be flushed out to the wire.
*/
if (sc->dc_link != 0 && !IFQ_DRV_IS_EMPTY(&ifp->if_snd))
dc_start_locked(ifp);
if (sc->dc_flags & DC_21143_NWAY && !sc->dc_link)
callout_reset(&sc->dc_stat_ch, hz/10, dc_tick, sc);
else
callout_reset(&sc->dc_stat_ch, hz, dc_tick, sc);
}
/*
* A transmit underrun has occurred. Back off the transmit threshold,
* or switch to store and forward mode if we have to.
*/
static void
dc_tx_underrun(struct dc_softc *sc)
{
uint32_t netcfg, isr;
int i, reinit;
reinit = 0;
netcfg = CSR_READ_4(sc, DC_NETCFG);
device_printf(sc->dc_dev, "TX underrun -- ");
if ((sc->dc_flags & DC_TX_STORENFWD) == 0) {
if (sc->dc_txthresh + DC_TXTHRESH_INC > DC_TXTHRESH_MAX) {
printf("using store and forward mode\n");
netcfg |= DC_NETCFG_STORENFWD;
} else {
printf("increasing TX threshold\n");
sc->dc_txthresh += DC_TXTHRESH_INC;
netcfg &= ~DC_NETCFG_TX_THRESH;
netcfg |= sc->dc_txthresh;
}
if (DC_IS_INTEL(sc)) {
/*
* The real 21143 requires that the transmitter be idle
* in order to change the transmit threshold or store
* and forward state.
*/
CSR_WRITE_4(sc, DC_NETCFG, netcfg & ~DC_NETCFG_TX_ON);
for (i = 0; i < DC_TIMEOUT; i++) {
isr = CSR_READ_4(sc, DC_ISR);
if (isr & DC_ISR_TX_IDLE)
break;
DELAY(10);
}
if (i == DC_TIMEOUT) {
device_printf(sc->dc_dev,
"%s: failed to force tx to idle state\n",
__func__);
reinit++;
}
}
} else {
printf("resetting\n");
reinit++;
}
if (reinit == 0) {
CSR_WRITE_4(sc, DC_NETCFG, netcfg);
if (DC_IS_INTEL(sc))
CSR_WRITE_4(sc, DC_NETCFG, netcfg | DC_NETCFG_TX_ON);
} else {
sc->dc_ifp->if_drv_flags &= ~IFF_DRV_RUNNING;
dc_init_locked(sc);
}
}
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
#ifdef DEVICE_POLLING
static poll_handler_t dc_poll;
static int
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
dc_poll(struct ifnet *ifp, enum poll_cmd cmd, int count)
{
struct dc_softc *sc = ifp->if_softc;
int rx_npkts = 0;
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
Big polling(4) cleanup. o Axe poll in trap. o Axe IFF_POLLING flag from if_flags. o Rework revision 1.21 (Giant removal), in such a way that poll_mtx is not dropped during call to polling handler. This fixes problem with idle polling. o Make registration and deregistration from polling in a functional way, insted of next tick/interrupt. o Obsolete kern.polling.enable. Polling is turned on/off with ifconfig. Detailed kern_poll.c changes: - Remove polling handler flags, introduced in 1.21. The are not needed now. - Forget and do not check if_flags, if_capenable and if_drv_flags. - Call all registered polling handlers unconditionally. - Do not drop poll_mtx, when entering polling handlers. - In ether_poll() NET_LOCK_GIANT prior to locking poll_mtx. - In netisr_poll() axe the block, where polling code asks drivers to unregister. - In netisr_poll() and ether_poll() do polling always, if any handlers are present. - In ether_poll_[de]register() remove a lot of error hiding code. Assert that arguments are correct, instead. - In ether_poll_[de]register() use standard return values in case of error or success. - Introduce poll_switch() that is a sysctl handler for kern.polling.enable. poll_switch() goes through interface list and enabled/disables polling. A message that kern.polling.enable is deprecated is printed. Detailed driver changes: - On attach driver announces IFCAP_POLLING in if_capabilities, but not in if_capenable. - On detach driver calls ether_poll_deregister() if polling is enabled. - In polling handler driver obtains its lock and checks IFF_DRV_RUNNING flag. If there is no, then unlocks and returns. - In ioctl handler driver checks for IFCAP_POLLING flag requested to be set or cleared. Driver first calls ether_poll_[de]register(), then obtains driver lock and [dis/en]ables interrupts. - In interrupt handler driver checks IFCAP_POLLING flag in if_capenable. If present, then returns.This is important to protect from spurious interrupts. Reviewed by: ru, sam, jhb
2005-10-01 18:56:19 +00:00
DC_LOCK(sc);
if (!(ifp->if_drv_flags & IFF_DRV_RUNNING)) {
DC_UNLOCK(sc);
return (rx_npkts);
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
}
Big polling(4) cleanup. o Axe poll in trap. o Axe IFF_POLLING flag from if_flags. o Rework revision 1.21 (Giant removal), in such a way that poll_mtx is not dropped during call to polling handler. This fixes problem with idle polling. o Make registration and deregistration from polling in a functional way, insted of next tick/interrupt. o Obsolete kern.polling.enable. Polling is turned on/off with ifconfig. Detailed kern_poll.c changes: - Remove polling handler flags, introduced in 1.21. The are not needed now. - Forget and do not check if_flags, if_capenable and if_drv_flags. - Call all registered polling handlers unconditionally. - Do not drop poll_mtx, when entering polling handlers. - In ether_poll() NET_LOCK_GIANT prior to locking poll_mtx. - In netisr_poll() axe the block, where polling code asks drivers to unregister. - In netisr_poll() and ether_poll() do polling always, if any handlers are present. - In ether_poll_[de]register() remove a lot of error hiding code. Assert that arguments are correct, instead. - In ether_poll_[de]register() use standard return values in case of error or success. - Introduce poll_switch() that is a sysctl handler for kern.polling.enable. poll_switch() goes through interface list and enabled/disables polling. A message that kern.polling.enable is deprecated is printed. Detailed driver changes: - On attach driver announces IFCAP_POLLING in if_capabilities, but not in if_capenable. - On detach driver calls ether_poll_deregister() if polling is enabled. - In polling handler driver obtains its lock and checks IFF_DRV_RUNNING flag. If there is no, then unlocks and returns. - In ioctl handler driver checks for IFCAP_POLLING flag requested to be set or cleared. Driver first calls ether_poll_[de]register(), then obtains driver lock and [dis/en]ables interrupts. - In interrupt handler driver checks IFCAP_POLLING flag in if_capenable. If present, then returns.This is important to protect from spurious interrupts. Reviewed by: ru, sam, jhb
2005-10-01 18:56:19 +00:00
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
sc->rxcycles = count;
rx_npkts = dc_rxeof(sc);
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
dc_txeof(sc);
if (!IFQ_IS_EMPTY(&ifp->if_snd) &&
!(ifp->if_drv_flags & IFF_DRV_OACTIVE))
dc_start_locked(ifp);
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
if (cmd == POLL_AND_CHECK_STATUS) { /* also check status register */
2011-02-19 03:32:10 +00:00
uint32_t status;
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
status = CSR_READ_4(sc, DC_ISR);
status &= (DC_ISR_RX_WATDOGTIMEO | DC_ISR_RX_NOBUF |
DC_ISR_TX_NOBUF | DC_ISR_TX_IDLE | DC_ISR_TX_UNDERRUN |
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
DC_ISR_BUS_ERR);
if (!status) {
DC_UNLOCK(sc);
return (rx_npkts);
}
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
/* ack what we have */
CSR_WRITE_4(sc, DC_ISR, status);
if (status & (DC_ISR_RX_WATDOGTIMEO | DC_ISR_RX_NOBUF)) {
2011-02-19 03:32:10 +00:00
uint32_t r = CSR_READ_4(sc, DC_FRAMESDISCARDED);
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
ifp->if_ierrors += (r & 0xffff) + ((r >> 17) & 0x7ff);
if (dc_rx_resync(sc))
dc_rxeof(sc);
}
/* restart transmit unit if necessary */
if (status & DC_ISR_TX_IDLE && sc->dc_cdata.dc_tx_cnt)
CSR_WRITE_4(sc, DC_TXSTART, 0xFFFFFFFF);
if (status & DC_ISR_TX_UNDERRUN)
dc_tx_underrun(sc);
if (status & DC_ISR_BUS_ERR) {
if_printf(ifp, "%s: bus error\n", __func__);
ifp->if_drv_flags &= ~IFF_DRV_RUNNING;
dc_init_locked(sc);
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
}
}
DC_UNLOCK(sc);
return (rx_npkts);
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
}
#endif /* DEVICE_POLLING */
static void
dc_intr(void *arg)
{
struct dc_softc *sc;
struct ifnet *ifp;
2011-02-19 03:32:10 +00:00
uint32_t r, status;
int n;
sc = arg;
if (sc->suspended)
return;
DC_LOCK(sc);
status = CSR_READ_4(sc, DC_ISR);
if (status == 0xFFFFFFFF || (status & DC_INTRS) == 0) {
DC_UNLOCK(sc);
return;
}
ifp = sc->dc_ifp;
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
#ifdef DEVICE_POLLING
Big polling(4) cleanup. o Axe poll in trap. o Axe IFF_POLLING flag from if_flags. o Rework revision 1.21 (Giant removal), in such a way that poll_mtx is not dropped during call to polling handler. This fixes problem with idle polling. o Make registration and deregistration from polling in a functional way, insted of next tick/interrupt. o Obsolete kern.polling.enable. Polling is turned on/off with ifconfig. Detailed kern_poll.c changes: - Remove polling handler flags, introduced in 1.21. The are not needed now. - Forget and do not check if_flags, if_capenable and if_drv_flags. - Call all registered polling handlers unconditionally. - Do not drop poll_mtx, when entering polling handlers. - In ether_poll() NET_LOCK_GIANT prior to locking poll_mtx. - In netisr_poll() axe the block, where polling code asks drivers to unregister. - In netisr_poll() and ether_poll() do polling always, if any handlers are present. - In ether_poll_[de]register() remove a lot of error hiding code. Assert that arguments are correct, instead. - In ether_poll_[de]register() use standard return values in case of error or success. - Introduce poll_switch() that is a sysctl handler for kern.polling.enable. poll_switch() goes through interface list and enabled/disables polling. A message that kern.polling.enable is deprecated is printed. Detailed driver changes: - On attach driver announces IFCAP_POLLING in if_capabilities, but not in if_capenable. - On detach driver calls ether_poll_deregister() if polling is enabled. - In polling handler driver obtains its lock and checks IFF_DRV_RUNNING flag. If there is no, then unlocks and returns. - In ioctl handler driver checks for IFCAP_POLLING flag requested to be set or cleared. Driver first calls ether_poll_[de]register(), then obtains driver lock and [dis/en]ables interrupts. - In interrupt handler driver checks IFCAP_POLLING flag in if_capenable. If present, then returns.This is important to protect from spurious interrupts. Reviewed by: ru, sam, jhb
2005-10-01 18:56:19 +00:00
if (ifp->if_capenable & IFCAP_POLLING) {
DC_UNLOCK(sc);
return;
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
}
#endif
/* Disable interrupts. */
CSR_WRITE_4(sc, DC_IMR, 0x00000000);
for (n = 16; n > 0; n--) {
if ((ifp->if_drv_flags & IFF_DRV_RUNNING) == 0)
break;
/* Ack interrupts. */
CSR_WRITE_4(sc, DC_ISR, status);
It appears that under certain circumstances that I still can't quite pin down, the dc driver and receiver can fall out of sync with one another, resulting in a condition where the chip continues to receive packets but the driver never notices. Normally, the receive handler checks each descriptor starting from the current producer index to see if the chip has relinquished ownership, indicating that a packet has been received. The driver hands the packet off to ether_input() and then prepares the descriptor to receive another frame before moving on to the next descriptor in the ring. But sometimes, the chip appears to skip a descriptor. This leaves the driver testing the status word in a descriptor that never gets updated. The driver still gets "RX done" interrupts but never advances further into the RX ring, until the ring fills up and the chip interrupts again to signal an error condition. Sometimes, the driver will remain in this desynchronized state, resulting in spotty performance until the interface is reset. Fortunately, it's fairly simple to detect this condition: if we call the rxeof routine but the number of received packets doesn't increase, we suspect that there could be a problem. In this case, we call a new routine called dc_rx_resync(), which scans ahead in the RX ring to see if there's a frame waiting for us somewhere beyond that the driver thinks is the current producer index. If it finds one, it bumps up the index and calls the rxeof handler again to snarf up the packet and bring the driver back in sync with the chip. (It may actually do this several times in the event that there's more than one "hole" in the ring.) So far the only card supported by if_dc which has exhibited this problem is a LinkSys LNE100TX v2.0 (82c115 PNIC II), and it only seems to happen on one particular system, however the fix is general enough and has low enough overhead that we may as well apply it for all supported chipsets. I also implemented the same fix for the 3Com xl driver, which is apparently vulnerable to the same problem. Problem originally noted and patch tested by: Matt Dillon
2000-01-03 15:28:47 +00:00
if (status & DC_ISR_RX_OK) {
if (dc_rxeof(sc) == 0) {
while (dc_rx_resync(sc))
It appears that under certain circumstances that I still can't quite pin down, the dc driver and receiver can fall out of sync with one another, resulting in a condition where the chip continues to receive packets but the driver never notices. Normally, the receive handler checks each descriptor starting from the current producer index to see if the chip has relinquished ownership, indicating that a packet has been received. The driver hands the packet off to ether_input() and then prepares the descriptor to receive another frame before moving on to the next descriptor in the ring. But sometimes, the chip appears to skip a descriptor. This leaves the driver testing the status word in a descriptor that never gets updated. The driver still gets "RX done" interrupts but never advances further into the RX ring, until the ring fills up and the chip interrupts again to signal an error condition. Sometimes, the driver will remain in this desynchronized state, resulting in spotty performance until the interface is reset. Fortunately, it's fairly simple to detect this condition: if we call the rxeof routine but the number of received packets doesn't increase, we suspect that there could be a problem. In this case, we call a new routine called dc_rx_resync(), which scans ahead in the RX ring to see if there's a frame waiting for us somewhere beyond that the driver thinks is the current producer index. If it finds one, it bumps up the index and calls the rxeof handler again to snarf up the packet and bring the driver back in sync with the chip. (It may actually do this several times in the event that there's more than one "hole" in the ring.) So far the only card supported by if_dc which has exhibited this problem is a LinkSys LNE100TX v2.0 (82c115 PNIC II), and it only seems to happen on one particular system, however the fix is general enough and has low enough overhead that we may as well apply it for all supported chipsets. I also implemented the same fix for the 3Com xl driver, which is apparently vulnerable to the same problem. Problem originally noted and patch tested by: Matt Dillon
2000-01-03 15:28:47 +00:00
dc_rxeof(sc);
}
}
if (status & (DC_ISR_TX_OK | DC_ISR_TX_NOBUF))
dc_txeof(sc);
if (status & DC_ISR_TX_IDLE) {
dc_txeof(sc);
if (sc->dc_cdata.dc_tx_cnt) {
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_TX_ON);
CSR_WRITE_4(sc, DC_TXSTART, 0xFFFFFFFF);
}
}
if (status & DC_ISR_TX_UNDERRUN)
dc_tx_underrun(sc);
if ((status & DC_ISR_RX_WATDOGTIMEO)
It appears that under certain circumstances that I still can't quite pin down, the dc driver and receiver can fall out of sync with one another, resulting in a condition where the chip continues to receive packets but the driver never notices. Normally, the receive handler checks each descriptor starting from the current producer index to see if the chip has relinquished ownership, indicating that a packet has been received. The driver hands the packet off to ether_input() and then prepares the descriptor to receive another frame before moving on to the next descriptor in the ring. But sometimes, the chip appears to skip a descriptor. This leaves the driver testing the status word in a descriptor that never gets updated. The driver still gets "RX done" interrupts but never advances further into the RX ring, until the ring fills up and the chip interrupts again to signal an error condition. Sometimes, the driver will remain in this desynchronized state, resulting in spotty performance until the interface is reset. Fortunately, it's fairly simple to detect this condition: if we call the rxeof routine but the number of received packets doesn't increase, we suspect that there could be a problem. In this case, we call a new routine called dc_rx_resync(), which scans ahead in the RX ring to see if there's a frame waiting for us somewhere beyond that the driver thinks is the current producer index. If it finds one, it bumps up the index and calls the rxeof handler again to snarf up the packet and bring the driver back in sync with the chip. (It may actually do this several times in the event that there's more than one "hole" in the ring.) So far the only card supported by if_dc which has exhibited this problem is a LinkSys LNE100TX v2.0 (82c115 PNIC II), and it only seems to happen on one particular system, however the fix is general enough and has low enough overhead that we may as well apply it for all supported chipsets. I also implemented the same fix for the 3Com xl driver, which is apparently vulnerable to the same problem. Problem originally noted and patch tested by: Matt Dillon
2000-01-03 15:28:47 +00:00
|| (status & DC_ISR_RX_NOBUF)) {
r = CSR_READ_4(sc, DC_FRAMESDISCARDED);
ifp->if_ierrors += (r & 0xffff) + ((r >> 17) & 0x7ff);
if (dc_rxeof(sc) == 0) {
while (dc_rx_resync(sc))
It appears that under certain circumstances that I still can't quite pin down, the dc driver and receiver can fall out of sync with one another, resulting in a condition where the chip continues to receive packets but the driver never notices. Normally, the receive handler checks each descriptor starting from the current producer index to see if the chip has relinquished ownership, indicating that a packet has been received. The driver hands the packet off to ether_input() and then prepares the descriptor to receive another frame before moving on to the next descriptor in the ring. But sometimes, the chip appears to skip a descriptor. This leaves the driver testing the status word in a descriptor that never gets updated. The driver still gets "RX done" interrupts but never advances further into the RX ring, until the ring fills up and the chip interrupts again to signal an error condition. Sometimes, the driver will remain in this desynchronized state, resulting in spotty performance until the interface is reset. Fortunately, it's fairly simple to detect this condition: if we call the rxeof routine but the number of received packets doesn't increase, we suspect that there could be a problem. In this case, we call a new routine called dc_rx_resync(), which scans ahead in the RX ring to see if there's a frame waiting for us somewhere beyond that the driver thinks is the current producer index. If it finds one, it bumps up the index and calls the rxeof handler again to snarf up the packet and bring the driver back in sync with the chip. (It may actually do this several times in the event that there's more than one "hole" in the ring.) So far the only card supported by if_dc which has exhibited this problem is a LinkSys LNE100TX v2.0 (82c115 PNIC II), and it only seems to happen on one particular system, however the fix is general enough and has low enough overhead that we may as well apply it for all supported chipsets. I also implemented the same fix for the 3Com xl driver, which is apparently vulnerable to the same problem. Problem originally noted and patch tested by: Matt Dillon
2000-01-03 15:28:47 +00:00
dc_rxeof(sc);
}
}
if (!IFQ_DRV_IS_EMPTY(&ifp->if_snd))
dc_start_locked(ifp);
if (status & DC_ISR_BUS_ERR) {
ifp->if_drv_flags &= ~IFF_DRV_RUNNING;
dc_init_locked(sc);
DC_UNLOCK(sc);
return;
}
status = CSR_READ_4(sc, DC_ISR);
if (status == 0xFFFFFFFF || (status & DC_INTRS) == 0)
break;
}
/* Re-enable interrupts. */
if (ifp->if_drv_flags & IFF_DRV_RUNNING)
CSR_WRITE_4(sc, DC_IMR, DC_INTRS);
DC_UNLOCK(sc);
}
/*
* Encapsulate an mbuf chain in a descriptor by coupling the mbuf data
* pointers to the fragment pointers.
*/
static int
dc_encap(struct dc_softc *sc, struct mbuf **m_head)
{
bus_dma_segment_t segs[DC_MAXFRAGS];
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
bus_dmamap_t map;
struct dc_desc *f;
struct mbuf *m;
int cur, defragged, error, first, frag, i, idx, nseg;
o In order to reduce bug and code duplication fold handling of NICs requiring DC_TX_ALIGN or DC_TX_COALESCE, which was previously done in dc_start_locked(), into dc_encap(). o In dc_encap(): - If m_defrag() fails just drop the packet like other NIC drivers do. This should only happen when there's a mbuf shortage, in which case it was possible to end up with an IFQ full of packets which couldn't be processed as they couldn't be defragmented as they were taking up all the mbufs themselves. This includes adjusting dc_start_locked() to not trying to prepend the mbuf (chain) if dc_encap() has freed it. - Likewise, if bus_dmamap_load_mbuf() fails as dc_dma_map_txbuf() failed, free the mbuf possibly allocated by the above call to m_defrag() and drop the packet. o In dc_txeof(): - Don't clear IFF_DRV_OACTIVE unless there are at least 6 free TX descriptors. Further down the road dc_encap() will bail if there are only 5 or fewer free TX descriptors, causing dc_start_locked() to abort and prepend the dequeued mbuf again so it makes no sense to pretend we could process mbufs again when in fact we won't. While at it replace this magic 5 with a macro DC_TX_LIST_RSVD. - Just always assign idx to sc->dc_cdata.dc_tx_cons; it doesn't make much sense to exclude the idx == sc->dc_cdata.dc_tx_cons case. o In dc_dma_map_txbuf() there's no need to set sc->dc_cdata.dc_tx_err to error if the latter is != 0, bus_dmamap_load_mbuf() already returns the same error value in that case anyway. o For less overhead, convert to use bus_dmamap_load_mbuf_sg() for loading RX buffers. o Remove some banal and/or outdated comments. Approved by: re (kensmith) MFC after: 1 week
2007-08-05 11:28:19 +00:00
m = NULL;
defragged = 0;
if (sc->dc_flags & DC_TX_COALESCE &&
((*m_head)->m_next != NULL || sc->dc_flags & DC_TX_ALIGN)) {
m = m_defrag(*m_head, M_DONTWAIT);
defragged = 1;
} else {
/*
* Count the number of frags in this chain to see if we
* need to m_collapse. Since the descriptor list is shared
* by all packets, we'll m_collapse long chains so that they
* do not use up the entire list, even if they would fit.
*/
i = 0;
for (m = *m_head; m != NULL; m = m->m_next)
i++;
if (i > DC_TX_LIST_CNT / 4 ||
DC_TX_LIST_CNT - i + sc->dc_cdata.dc_tx_cnt <=
DC_TX_LIST_RSVD) {
m = m_collapse(*m_head, M_DONTWAIT, DC_MAXFRAGS);
defragged = 1;
}
}
if (defragged != 0) {
o In order to reduce bug and code duplication fold handling of NICs requiring DC_TX_ALIGN or DC_TX_COALESCE, which was previously done in dc_start_locked(), into dc_encap(). o In dc_encap(): - If m_defrag() fails just drop the packet like other NIC drivers do. This should only happen when there's a mbuf shortage, in which case it was possible to end up with an IFQ full of packets which couldn't be processed as they couldn't be defragmented as they were taking up all the mbufs themselves. This includes adjusting dc_start_locked() to not trying to prepend the mbuf (chain) if dc_encap() has freed it. - Likewise, if bus_dmamap_load_mbuf() fails as dc_dma_map_txbuf() failed, free the mbuf possibly allocated by the above call to m_defrag() and drop the packet. o In dc_txeof(): - Don't clear IFF_DRV_OACTIVE unless there are at least 6 free TX descriptors. Further down the road dc_encap() will bail if there are only 5 or fewer free TX descriptors, causing dc_start_locked() to abort and prepend the dequeued mbuf again so it makes no sense to pretend we could process mbufs again when in fact we won't. While at it replace this magic 5 with a macro DC_TX_LIST_RSVD. - Just always assign idx to sc->dc_cdata.dc_tx_cons; it doesn't make much sense to exclude the idx == sc->dc_cdata.dc_tx_cons case. o In dc_dma_map_txbuf() there's no need to set sc->dc_cdata.dc_tx_err to error if the latter is != 0, bus_dmamap_load_mbuf() already returns the same error value in that case anyway. o For less overhead, convert to use bus_dmamap_load_mbuf_sg() for loading RX buffers. o Remove some banal and/or outdated comments. Approved by: re (kensmith) MFC after: 1 week
2007-08-05 11:28:19 +00:00
if (m == NULL) {
m_freem(*m_head);
*m_head = NULL;
return (ENOBUFS);
o In order to reduce bug and code duplication fold handling of NICs requiring DC_TX_ALIGN or DC_TX_COALESCE, which was previously done in dc_start_locked(), into dc_encap(). o In dc_encap(): - If m_defrag() fails just drop the packet like other NIC drivers do. This should only happen when there's a mbuf shortage, in which case it was possible to end up with an IFQ full of packets which couldn't be processed as they couldn't be defragmented as they were taking up all the mbufs themselves. This includes adjusting dc_start_locked() to not trying to prepend the mbuf (chain) if dc_encap() has freed it. - Likewise, if bus_dmamap_load_mbuf() fails as dc_dma_map_txbuf() failed, free the mbuf possibly allocated by the above call to m_defrag() and drop the packet. o In dc_txeof(): - Don't clear IFF_DRV_OACTIVE unless there are at least 6 free TX descriptors. Further down the road dc_encap() will bail if there are only 5 or fewer free TX descriptors, causing dc_start_locked() to abort and prepend the dequeued mbuf again so it makes no sense to pretend we could process mbufs again when in fact we won't. While at it replace this magic 5 with a macro DC_TX_LIST_RSVD. - Just always assign idx to sc->dc_cdata.dc_tx_cons; it doesn't make much sense to exclude the idx == sc->dc_cdata.dc_tx_cons case. o In dc_dma_map_txbuf() there's no need to set sc->dc_cdata.dc_tx_err to error if the latter is != 0, bus_dmamap_load_mbuf() already returns the same error value in that case anyway. o For less overhead, convert to use bus_dmamap_load_mbuf_sg() for loading RX buffers. o Remove some banal and/or outdated comments. Approved by: re (kensmith) MFC after: 1 week
2007-08-05 11:28:19 +00:00
}
*m_head = m;
}
idx = sc->dc_cdata.dc_tx_prod;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
error = bus_dmamap_load_mbuf_sg(sc->dc_tx_mtag,
sc->dc_cdata.dc_tx_map[idx], *m_head, segs, &nseg, 0);
if (error == EFBIG) {
if (defragged != 0 || (m = m_collapse(*m_head, M_DONTWAIT,
DC_MAXFRAGS)) == NULL) {
m_freem(*m_head);
o In order to reduce bug and code duplication fold handling of NICs requiring DC_TX_ALIGN or DC_TX_COALESCE, which was previously done in dc_start_locked(), into dc_encap(). o In dc_encap(): - If m_defrag() fails just drop the packet like other NIC drivers do. This should only happen when there's a mbuf shortage, in which case it was possible to end up with an IFQ full of packets which couldn't be processed as they couldn't be defragmented as they were taking up all the mbufs themselves. This includes adjusting dc_start_locked() to not trying to prepend the mbuf (chain) if dc_encap() has freed it. - Likewise, if bus_dmamap_load_mbuf() fails as dc_dma_map_txbuf() failed, free the mbuf possibly allocated by the above call to m_defrag() and drop the packet. o In dc_txeof(): - Don't clear IFF_DRV_OACTIVE unless there are at least 6 free TX descriptors. Further down the road dc_encap() will bail if there are only 5 or fewer free TX descriptors, causing dc_start_locked() to abort and prepend the dequeued mbuf again so it makes no sense to pretend we could process mbufs again when in fact we won't. While at it replace this magic 5 with a macro DC_TX_LIST_RSVD. - Just always assign idx to sc->dc_cdata.dc_tx_cons; it doesn't make much sense to exclude the idx == sc->dc_cdata.dc_tx_cons case. o In dc_dma_map_txbuf() there's no need to set sc->dc_cdata.dc_tx_err to error if the latter is != 0, bus_dmamap_load_mbuf() already returns the same error value in that case anyway. o For less overhead, convert to use bus_dmamap_load_mbuf_sg() for loading RX buffers. o Remove some banal and/or outdated comments. Approved by: re (kensmith) MFC after: 1 week
2007-08-05 11:28:19 +00:00
*m_head = NULL;
return (defragged != 0 ? error : ENOBUFS);
}
*m_head = m;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
error = bus_dmamap_load_mbuf_sg(sc->dc_tx_mtag,
sc->dc_cdata.dc_tx_map[idx], *m_head, segs, &nseg, 0);
if (error != 0) {
m_freem(*m_head);
*m_head = NULL;
return (error);
o In order to reduce bug and code duplication fold handling of NICs requiring DC_TX_ALIGN or DC_TX_COALESCE, which was previously done in dc_start_locked(), into dc_encap(). o In dc_encap(): - If m_defrag() fails just drop the packet like other NIC drivers do. This should only happen when there's a mbuf shortage, in which case it was possible to end up with an IFQ full of packets which couldn't be processed as they couldn't be defragmented as they were taking up all the mbufs themselves. This includes adjusting dc_start_locked() to not trying to prepend the mbuf (chain) if dc_encap() has freed it. - Likewise, if bus_dmamap_load_mbuf() fails as dc_dma_map_txbuf() failed, free the mbuf possibly allocated by the above call to m_defrag() and drop the packet. o In dc_txeof(): - Don't clear IFF_DRV_OACTIVE unless there are at least 6 free TX descriptors. Further down the road dc_encap() will bail if there are only 5 or fewer free TX descriptors, causing dc_start_locked() to abort and prepend the dequeued mbuf again so it makes no sense to pretend we could process mbufs again when in fact we won't. While at it replace this magic 5 with a macro DC_TX_LIST_RSVD. - Just always assign idx to sc->dc_cdata.dc_tx_cons; it doesn't make much sense to exclude the idx == sc->dc_cdata.dc_tx_cons case. o In dc_dma_map_txbuf() there's no need to set sc->dc_cdata.dc_tx_err to error if the latter is != 0, bus_dmamap_load_mbuf() already returns the same error value in that case anyway. o For less overhead, convert to use bus_dmamap_load_mbuf_sg() for loading RX buffers. o Remove some banal and/or outdated comments. Approved by: re (kensmith) MFC after: 1 week
2007-08-05 11:28:19 +00:00
}
} else if (error != 0)
return (error);
KASSERT(nseg <= DC_MAXFRAGS,
("%s: wrong number of segments (%d)", __func__, nseg));
if (nseg == 0) {
m_freem(*m_head);
*m_head = NULL;
return (EIO);
o In order to reduce bug and code duplication fold handling of NICs requiring DC_TX_ALIGN or DC_TX_COALESCE, which was previously done in dc_start_locked(), into dc_encap(). o In dc_encap(): - If m_defrag() fails just drop the packet like other NIC drivers do. This should only happen when there's a mbuf shortage, in which case it was possible to end up with an IFQ full of packets which couldn't be processed as they couldn't be defragmented as they were taking up all the mbufs themselves. This includes adjusting dc_start_locked() to not trying to prepend the mbuf (chain) if dc_encap() has freed it. - Likewise, if bus_dmamap_load_mbuf() fails as dc_dma_map_txbuf() failed, free the mbuf possibly allocated by the above call to m_defrag() and drop the packet. o In dc_txeof(): - Don't clear IFF_DRV_OACTIVE unless there are at least 6 free TX descriptors. Further down the road dc_encap() will bail if there are only 5 or fewer free TX descriptors, causing dc_start_locked() to abort and prepend the dequeued mbuf again so it makes no sense to pretend we could process mbufs again when in fact we won't. While at it replace this magic 5 with a macro DC_TX_LIST_RSVD. - Just always assign idx to sc->dc_cdata.dc_tx_cons; it doesn't make much sense to exclude the idx == sc->dc_cdata.dc_tx_cons case. o In dc_dma_map_txbuf() there's no need to set sc->dc_cdata.dc_tx_err to error if the latter is != 0, bus_dmamap_load_mbuf() already returns the same error value in that case anyway. o For less overhead, convert to use bus_dmamap_load_mbuf_sg() for loading RX buffers. o Remove some banal and/or outdated comments. Approved by: re (kensmith) MFC after: 1 week
2007-08-05 11:28:19 +00:00
}
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
/* Check descriptor overruns. */
if (sc->dc_cdata.dc_tx_cnt + nseg > DC_TX_LIST_CNT - DC_TX_LIST_RSVD) {
bus_dmamap_unload(sc->dc_tx_mtag, sc->dc_cdata.dc_tx_map[idx]);
return (ENOBUFS);
}
bus_dmamap_sync(sc->dc_tx_mtag, sc->dc_cdata.dc_tx_map[idx],
BUS_DMASYNC_PREWRITE);
first = cur = frag = sc->dc_cdata.dc_tx_prod;
for (i = 0; i < nseg; i++) {
if ((sc->dc_flags & DC_TX_ADMTEK_WAR) &&
(frag == (DC_TX_LIST_CNT - 1)) &&
(first != sc->dc_cdata.dc_tx_first)) {
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
bus_dmamap_unload(sc->dc_tx_mtag,
sc->dc_cdata.dc_tx_map[first]);
m_freem(*m_head);
*m_head = NULL;
return (ENOBUFS);
}
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
f = &sc->dc_ldata.dc_tx_list[frag];
f->dc_ctl = htole32(DC_TXCTL_TLINK | segs[i].ds_len);
if (i == 0) {
f->dc_status = 0;
f->dc_ctl |= htole32(DC_TXCTL_FIRSTFRAG);
} else
f->dc_status = htole32(DC_TXSTAT_OWN);
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
f->dc_data = htole32(DC_ADDR_LO(segs[i].ds_addr));
cur = frag;
DC_INC(frag, DC_TX_LIST_CNT);
}
sc->dc_cdata.dc_tx_prod = frag;
sc->dc_cdata.dc_tx_cnt += nseg;
sc->dc_cdata.dc_tx_chain[cur] = *m_head;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
sc->dc_ldata.dc_tx_list[cur].dc_ctl |= htole32(DC_TXCTL_LASTFRAG);
if (sc->dc_flags & DC_TX_INTR_FIRSTFRAG)
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
sc->dc_ldata.dc_tx_list[first].dc_ctl |=
htole32(DC_TXCTL_FINT);
if (sc->dc_flags & DC_TX_INTR_ALWAYS)
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
sc->dc_ldata.dc_tx_list[cur].dc_ctl |= htole32(DC_TXCTL_FINT);
if (sc->dc_flags & DC_TX_USE_TX_INTR &&
++sc->dc_cdata.dc_tx_pkts >= 8) {
sc->dc_cdata.dc_tx_pkts = 0;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
sc->dc_ldata.dc_tx_list[cur].dc_ctl |= htole32(DC_TXCTL_FINT);
}
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
sc->dc_ldata.dc_tx_list[first].dc_status = htole32(DC_TXSTAT_OWN);
bus_dmamap_sync(sc->dc_tx_ltag, sc->dc_tx_lmap,
BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE);
/*
* Swap the last and the first dmamaps to ensure the map for
* this transmission is placed at the last descriptor.
*/
map = sc->dc_cdata.dc_tx_map[cur];
sc->dc_cdata.dc_tx_map[cur] = sc->dc_cdata.dc_tx_map[first];
sc->dc_cdata.dc_tx_map[first] = map;
return (0);
}
static void
dc_start(struct ifnet *ifp)
{
struct dc_softc *sc;
sc = ifp->if_softc;
DC_LOCK(sc);
dc_start_locked(ifp);
DC_UNLOCK(sc);
}
/*
* Main transmit routine
* To avoid having to do mbuf copies, we put pointers to the mbuf data
* regions directly in the transmit lists. We also save a copy of the
* pointers since the transmit list fragment pointers are physical
* addresses.
*/
static void
dc_start_locked(struct ifnet *ifp)
{
struct dc_softc *sc;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
struct mbuf *m_head;
int queued;
sc = ifp->if_softc;
DC_LOCK_ASSERT(sc);
if ((ifp->if_drv_flags & (IFF_DRV_RUNNING | IFF_DRV_OACTIVE)) !=
IFF_DRV_RUNNING || sc->dc_link == 0)
return;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
sc->dc_cdata.dc_tx_first = sc->dc_cdata.dc_tx_prod;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
for (queued = 0; !IFQ_DRV_IS_EMPTY(&ifp->if_snd); ) {
/*
* If there's no way we can send any packets, return now.
*/
if (sc->dc_cdata.dc_tx_cnt > DC_TX_LIST_CNT - DC_TX_LIST_RSVD) {
ifp->if_drv_flags |= IFF_DRV_OACTIVE;
break;
}
IFQ_DRV_DEQUEUE(&ifp->if_snd, m_head);
if (m_head == NULL)
break;
if (dc_encap(sc, &m_head)) {
o In order to reduce bug and code duplication fold handling of NICs requiring DC_TX_ALIGN or DC_TX_COALESCE, which was previously done in dc_start_locked(), into dc_encap(). o In dc_encap(): - If m_defrag() fails just drop the packet like other NIC drivers do. This should only happen when there's a mbuf shortage, in which case it was possible to end up with an IFQ full of packets which couldn't be processed as they couldn't be defragmented as they were taking up all the mbufs themselves. This includes adjusting dc_start_locked() to not trying to prepend the mbuf (chain) if dc_encap() has freed it. - Likewise, if bus_dmamap_load_mbuf() fails as dc_dma_map_txbuf() failed, free the mbuf possibly allocated by the above call to m_defrag() and drop the packet. o In dc_txeof(): - Don't clear IFF_DRV_OACTIVE unless there are at least 6 free TX descriptors. Further down the road dc_encap() will bail if there are only 5 or fewer free TX descriptors, causing dc_start_locked() to abort and prepend the dequeued mbuf again so it makes no sense to pretend we could process mbufs again when in fact we won't. While at it replace this magic 5 with a macro DC_TX_LIST_RSVD. - Just always assign idx to sc->dc_cdata.dc_tx_cons; it doesn't make much sense to exclude the idx == sc->dc_cdata.dc_tx_cons case. o In dc_dma_map_txbuf() there's no need to set sc->dc_cdata.dc_tx_err to error if the latter is != 0, bus_dmamap_load_mbuf() already returns the same error value in that case anyway. o For less overhead, convert to use bus_dmamap_load_mbuf_sg() for loading RX buffers. o Remove some banal and/or outdated comments. Approved by: re (kensmith) MFC after: 1 week
2007-08-05 11:28:19 +00:00
if (m_head == NULL)
break;
IFQ_DRV_PREPEND(&ifp->if_snd, m_head);
ifp->if_drv_flags |= IFF_DRV_OACTIVE;
break;
}
queued++;
/*
* If there's a BPF listener, bounce a copy of this frame
* to him.
*/
BPF_MTAP(ifp, m_head);
}
if (queued > 0) {
/* Transmit */
if (!(sc->dc_flags & DC_TX_POLL))
CSR_WRITE_4(sc, DC_TXSTART, 0xFFFFFFFF);
/*
* Set a timeout in case the chip goes out to lunch.
*/
sc->dc_wdog_timer = 5;
}
}
static void
dc_init(void *xsc)
{
struct dc_softc *sc = xsc;
DC_LOCK(sc);
dc_init_locked(sc);
DC_UNLOCK(sc);
}
static void
dc_init_locked(struct dc_softc *sc)
{
struct ifnet *ifp = sc->dc_ifp;
struct mii_data *mii;
struct ifmedia *ifm;
DC_LOCK_ASSERT(sc);
if ((ifp->if_drv_flags & IFF_DRV_RUNNING) != 0)
return;
mii = device_get_softc(sc->dc_miibus);
/*
* Cancel pending I/O and free all RX/TX buffers.
*/
dc_stop(sc);
dc_reset(sc);
if (DC_IS_INTEL(sc)) {
ifm = &mii->mii_media;
dc_apply_fixup(sc, ifm->ifm_media);
}
/*
* Set cache alignment and burst length.
*/
if (DC_IS_ASIX(sc) || DC_IS_DAVICOM(sc) || DC_IS_ULI(sc))
CSR_WRITE_4(sc, DC_BUSCTL, 0);
else
CSR_WRITE_4(sc, DC_BUSCTL, DC_BUSCTL_MRME | DC_BUSCTL_MRLE);
/*
* Evenly share the bus between receive and transmit process.
*/
if (DC_IS_INTEL(sc))
DC_SETBIT(sc, DC_BUSCTL, DC_BUSCTL_ARBITRATION);
if (DC_IS_DAVICOM(sc) || DC_IS_INTEL(sc)) {
DC_SETBIT(sc, DC_BUSCTL, DC_BURSTLEN_USECA);
} else {
DC_SETBIT(sc, DC_BUSCTL, DC_BURSTLEN_16LONG);
}
if (sc->dc_flags & DC_TX_POLL)
DC_SETBIT(sc, DC_BUSCTL, DC_TXPOLL_1);
switch(sc->dc_cachesize) {
case 32:
DC_SETBIT(sc, DC_BUSCTL, DC_CACHEALIGN_32LONG);
break;
case 16:
DC_SETBIT(sc, DC_BUSCTL, DC_CACHEALIGN_16LONG);
break;
case 8:
DC_SETBIT(sc, DC_BUSCTL, DC_CACHEALIGN_8LONG);
break;
case 0:
default:
DC_SETBIT(sc, DC_BUSCTL, DC_CACHEALIGN_NONE);
break;
}
if (sc->dc_flags & DC_TX_STORENFWD)
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_STORENFWD);
else {
if (sc->dc_txthresh > DC_TXTHRESH_MAX) {
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_STORENFWD);
} else {
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_STORENFWD);
DC_SETBIT(sc, DC_NETCFG, sc->dc_txthresh);
}
}
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_NO_RXCRC);
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_TX_BACKOFF);
if (DC_IS_MACRONIX(sc) || DC_IS_PNICII(sc)) {
/*
* The app notes for the 98713 and 98715A say that
* in order to have the chips operate properly, a magic
* number must be written to CSR16. Macronix does not
* document the meaning of these bits so there's no way
* to know exactly what they do. The 98713 has a magic
* number all its own; the rest all use a different one.
*/
DC_CLRBIT(sc, DC_MX_MAGICPACKET, 0xFFFF0000);
if (sc->dc_type == DC_TYPE_98713)
DC_SETBIT(sc, DC_MX_MAGICPACKET, DC_MX_MAGIC_98713);
else
DC_SETBIT(sc, DC_MX_MAGICPACKET, DC_MX_MAGIC_98715);
}
if (DC_IS_XIRCOM(sc)) {
/*
* setup General Purpose Port mode and data so the tulip
* can talk to the MII.
*/
CSR_WRITE_4(sc, DC_SIAGP, DC_SIAGP_WRITE_EN | DC_SIAGP_INT1_EN |
DC_SIAGP_MD_GP2_OUTPUT | DC_SIAGP_MD_GP0_OUTPUT);
DELAY(10);
CSR_WRITE_4(sc, DC_SIAGP, DC_SIAGP_INT1_EN |
DC_SIAGP_MD_GP2_OUTPUT | DC_SIAGP_MD_GP0_OUTPUT);
DELAY(10);
}
DC_CLRBIT(sc, DC_NETCFG, DC_NETCFG_TX_THRESH);
DC_SETBIT(sc, DC_NETCFG, DC_TXTHRESH_MIN);
/* Init circular RX list. */
if (dc_list_rx_init(sc) == ENOBUFS) {
device_printf(sc->dc_dev,
"initialization failed: no memory for rx buffers\n");
dc_stop(sc);
return;
}
/*
* Init TX descriptors.
*/
dc_list_tx_init(sc);
/*
* Load the address of the RX list.
*/
CSR_WRITE_4(sc, DC_RXADDR, DC_RXDESC(sc, 0));
CSR_WRITE_4(sc, DC_TXADDR, DC_TXDESC(sc, 0));
/*
* Enable interrupts.
*/
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
#ifdef DEVICE_POLLING
/*
* ... but only if we are not polling, and make sure they are off in
* the case of polling. Some cards (e.g. fxp) turn interrupts on
* after a reset.
*/
Big polling(4) cleanup. o Axe poll in trap. o Axe IFF_POLLING flag from if_flags. o Rework revision 1.21 (Giant removal), in such a way that poll_mtx is not dropped during call to polling handler. This fixes problem with idle polling. o Make registration and deregistration from polling in a functional way, insted of next tick/interrupt. o Obsolete kern.polling.enable. Polling is turned on/off with ifconfig. Detailed kern_poll.c changes: - Remove polling handler flags, introduced in 1.21. The are not needed now. - Forget and do not check if_flags, if_capenable and if_drv_flags. - Call all registered polling handlers unconditionally. - Do not drop poll_mtx, when entering polling handlers. - In ether_poll() NET_LOCK_GIANT prior to locking poll_mtx. - In netisr_poll() axe the block, where polling code asks drivers to unregister. - In netisr_poll() and ether_poll() do polling always, if any handlers are present. - In ether_poll_[de]register() remove a lot of error hiding code. Assert that arguments are correct, instead. - In ether_poll_[de]register() use standard return values in case of error or success. - Introduce poll_switch() that is a sysctl handler for kern.polling.enable. poll_switch() goes through interface list and enabled/disables polling. A message that kern.polling.enable is deprecated is printed. Detailed driver changes: - On attach driver announces IFCAP_POLLING in if_capabilities, but not in if_capenable. - On detach driver calls ether_poll_deregister() if polling is enabled. - In polling handler driver obtains its lock and checks IFF_DRV_RUNNING flag. If there is no, then unlocks and returns. - In ioctl handler driver checks for IFCAP_POLLING flag requested to be set or cleared. Driver first calls ether_poll_[de]register(), then obtains driver lock and [dis/en]ables interrupts. - In interrupt handler driver checks IFCAP_POLLING flag in if_capenable. If present, then returns.This is important to protect from spurious interrupts. Reviewed by: ru, sam, jhb
2005-10-01 18:56:19 +00:00
if (ifp->if_capenable & IFCAP_POLLING)
Device Polling code for -current. Non-SMP, i386-only, no polling in the idle loop at the moment. To use this code you must compile a kernel with options DEVICE_POLLING and at runtime enable polling with sysctl kern.polling.enable=1 The percentage of CPU reserved to userland can be set with sysctl kern.polling.user_frac=NN (default is 50) while the remainder is used by polling device drivers and netisr's. These are the only two variables that you should need to touch. There are a few more parameters in kern.polling but the default values are adequate for all purposes. See the code in kern_poll.c for more details on them. Polling in the idle loop will be implemented shortly by introducing a kernel thread which does the job. Until then, the amount of CPU dedicated to polling will never exceed (100-user_frac). The equivalent (actually, better) code for -stable is at http://info.iet.unipi.it/~luigi/polling/ and also supports polling in the idle loop. NOTE to Alpha developers: There is really nothing in this code that is i386-specific. If you move the 2 lines supporting the new option from sys/conf/{files,options}.i386 to sys/conf/{files,options} I am pretty sure that this should work on the Alpha as well, just that I do not have a suitable test box to try it. If someone feels like trying it, I would appreciate it. NOTE to other developers: sure some things could be done better, and as always I am open to constructive criticism, which a few of you have already given and I greatly appreciated. However, before proposing radical architectural changes, please take some time to possibly try out this code, or at the very least read the comments in kern_poll.c, especially re. the reason why I am using a soft netisr and cannot (I believe) replace it with a simple timeout. Quick description of files touched by this commit: sys/conf/files.i386 new file kern/kern_poll.c sys/conf/options.i386 new option sys/i386/i386/trap.c poll in trap (disabled by default) sys/kern/kern_clock.c initialization and hardclock hooks. sys/kern/kern_intr.c minor swi_net changes sys/kern/kern_poll.c the bulk of the code. sys/net/if.h new flag sys/net/if_var.h declaration for functions used in device drivers. sys/net/netisr.h NETISR_POLL sys/dev/fxp/if_fxp.c sys/dev/fxp/if_fxpvar.h sys/pci/if_dc.c sys/pci/if_dcreg.h sys/pci/if_sis.c sys/pci/if_sisreg.h device driver modifications
2001-12-14 17:56:12 +00:00
CSR_WRITE_4(sc, DC_IMR, 0x00000000);
else
#endif
CSR_WRITE_4(sc, DC_IMR, DC_INTRS);
CSR_WRITE_4(sc, DC_ISR, 0xFFFFFFFF);
/* Initialize TX jabber and RX watchdog timer. */
if (DC_IS_ULI(sc))
CSR_WRITE_4(sc, DC_WATCHDOG, DC_WDOG_JABBERCLK |
DC_WDOG_HOSTUNJAB);
/* Enable transmitter. */
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_TX_ON);
/*
* If this is an Intel 21143 and we're not using the
* MII port, program the LED control pins so we get
* link and activity indications.
*/
if (sc->dc_flags & DC_TULIP_LEDS) {
CSR_WRITE_4(sc, DC_WATCHDOG,
DC_WDOG_CTLWREN | DC_WDOG_LINK | DC_WDOG_ACTIVITY);
CSR_WRITE_4(sc, DC_WATCHDOG, 0);
}
/*
* Load the RX/multicast filter. We do this sort of late
* because the filter programming scheme on the 21143 and
* some clones requires DMAing a setup frame via the TX
* engine, and we need the transmitter enabled for that.
*/
dc_setfilt(sc);
/* Enable receiver. */
DC_SETBIT(sc, DC_NETCFG, DC_NETCFG_RX_ON);
CSR_WRITE_4(sc, DC_RXSTART, 0xFFFFFFFF);
ifp->if_drv_flags |= IFF_DRV_RUNNING;
ifp->if_drv_flags &= ~IFF_DRV_OACTIVE;
dc_ifmedia_upd_locked(sc);
/* Clear missed frames and overflow counter. */
CSR_READ_4(sc, DC_FRAMESDISCARDED);
/* Don't start the ticker if this is a homePNA link. */
if (IFM_SUBTYPE(mii->mii_media.ifm_media) == IFM_HPNA_1)
sc->dc_link = 1;
else {
if (sc->dc_flags & DC_21143_NWAY)
callout_reset(&sc->dc_stat_ch, hz/10, dc_tick, sc);
else
callout_reset(&sc->dc_stat_ch, hz, dc_tick, sc);
}
sc->dc_wdog_timer = 0;
callout_reset(&sc->dc_wdog_ch, hz, dc_watchdog, sc);
}
/*
* Set media options.
*/
static int
dc_ifmedia_upd(struct ifnet *ifp)
{
struct dc_softc *sc;
int error;
sc = ifp->if_softc;
DC_LOCK(sc);
error = dc_ifmedia_upd_locked(sc);
DC_UNLOCK(sc);
return (error);
}
static int
dc_ifmedia_upd_locked(struct dc_softc *sc)
{
struct mii_data *mii;
struct ifmedia *ifm;
int error;
DC_LOCK_ASSERT(sc);
sc->dc_link = 0;
mii = device_get_softc(sc->dc_miibus);
error = mii_mediachg(mii);
if (error == 0) {
ifm = &mii->mii_media;
if (DC_IS_INTEL(sc))
dc_setcfg(sc, ifm->ifm_media);
else if (DC_IS_DAVICOM(sc) &&
IFM_SUBTYPE(ifm->ifm_media) == IFM_HPNA_1)
dc_setcfg(sc, ifm->ifm_media);
}
return (error);
}
/*
* Report current media status.
*/
static void
dc_ifmedia_sts(struct ifnet *ifp, struct ifmediareq *ifmr)
{
struct dc_softc *sc;
struct mii_data *mii;
struct ifmedia *ifm;
sc = ifp->if_softc;
mii = device_get_softc(sc->dc_miibus);
DC_LOCK(sc);
mii_pollstat(mii);
ifm = &mii->mii_media;
if (DC_IS_DAVICOM(sc)) {
if (IFM_SUBTYPE(ifm->ifm_media) == IFM_HPNA_1) {
ifmr->ifm_active = ifm->ifm_media;
ifmr->ifm_status = 0;
DC_UNLOCK(sc);
return;
}
}
ifmr->ifm_active = mii->mii_media_active;
ifmr->ifm_status = mii->mii_media_status;
DC_UNLOCK(sc);
}
static int
dc_ioctl(struct ifnet *ifp, u_long command, caddr_t data)
{
struct dc_softc *sc = ifp->if_softc;
struct ifreq *ifr = (struct ifreq *)data;
struct mii_data *mii;
int error = 0;
switch (command) {
case SIOCSIFFLAGS:
DC_LOCK(sc);
if (ifp->if_flags & IFF_UP) {
int need_setfilt = (ifp->if_flags ^ sc->dc_if_flags) &
(IFF_PROMISC | IFF_ALLMULTI);
if (ifp->if_drv_flags & IFF_DRV_RUNNING) {
if (need_setfilt)
dc_setfilt(sc);
} else {
ifp->if_drv_flags &= ~IFF_DRV_RUNNING;
dc_init_locked(sc);
}
} else {
if (ifp->if_drv_flags & IFF_DRV_RUNNING)
dc_stop(sc);
}
sc->dc_if_flags = ifp->if_flags;
DC_UNLOCK(sc);
break;
case SIOCADDMULTI:
case SIOCDELMULTI:
DC_LOCK(sc);
if (ifp->if_drv_flags & IFF_DRV_RUNNING)
dc_setfilt(sc);
DC_UNLOCK(sc);
break;
case SIOCGIFMEDIA:
case SIOCSIFMEDIA:
mii = device_get_softc(sc->dc_miibus);
error = ifmedia_ioctl(ifp, ifr, &mii->mii_media, command);
break;
case SIOCSIFCAP:
Big polling(4) cleanup. o Axe poll in trap. o Axe IFF_POLLING flag from if_flags. o Rework revision 1.21 (Giant removal), in such a way that poll_mtx is not dropped during call to polling handler. This fixes problem with idle polling. o Make registration and deregistration from polling in a functional way, insted of next tick/interrupt. o Obsolete kern.polling.enable. Polling is turned on/off with ifconfig. Detailed kern_poll.c changes: - Remove polling handler flags, introduced in 1.21. The are not needed now. - Forget and do not check if_flags, if_capenable and if_drv_flags. - Call all registered polling handlers unconditionally. - Do not drop poll_mtx, when entering polling handlers. - In ether_poll() NET_LOCK_GIANT prior to locking poll_mtx. - In netisr_poll() axe the block, where polling code asks drivers to unregister. - In netisr_poll() and ether_poll() do polling always, if any handlers are present. - In ether_poll_[de]register() remove a lot of error hiding code. Assert that arguments are correct, instead. - In ether_poll_[de]register() use standard return values in case of error or success. - Introduce poll_switch() that is a sysctl handler for kern.polling.enable. poll_switch() goes through interface list and enabled/disables polling. A message that kern.polling.enable is deprecated is printed. Detailed driver changes: - On attach driver announces IFCAP_POLLING in if_capabilities, but not in if_capenable. - On detach driver calls ether_poll_deregister() if polling is enabled. - In polling handler driver obtains its lock and checks IFF_DRV_RUNNING flag. If there is no, then unlocks and returns. - In ioctl handler driver checks for IFCAP_POLLING flag requested to be set or cleared. Driver first calls ether_poll_[de]register(), then obtains driver lock and [dis/en]ables interrupts. - In interrupt handler driver checks IFCAP_POLLING flag in if_capenable. If present, then returns.This is important to protect from spurious interrupts. Reviewed by: ru, sam, jhb
2005-10-01 18:56:19 +00:00
#ifdef DEVICE_POLLING
if (ifr->ifr_reqcap & IFCAP_POLLING &&
!(ifp->if_capenable & IFCAP_POLLING)) {
error = ether_poll_register(dc_poll, ifp);
if (error)
return(error);
DC_LOCK(sc);
/* Disable interrupts */
CSR_WRITE_4(sc, DC_IMR, 0x00000000);
ifp->if_capenable |= IFCAP_POLLING;
DC_UNLOCK(sc);
return (error);
}
if (!(ifr->ifr_reqcap & IFCAP_POLLING) &&
ifp->if_capenable & IFCAP_POLLING) {
error = ether_poll_deregister(ifp);
/* Enable interrupts. */
DC_LOCK(sc);
CSR_WRITE_4(sc, DC_IMR, DC_INTRS);
ifp->if_capenable &= ~IFCAP_POLLING;
DC_UNLOCK(sc);
return (error);
}
#endif /* DEVICE_POLLING */
break;
default:
error = ether_ioctl(ifp, command, data);
break;
}
return (error);
}
static void
dc_watchdog(void *xsc)
{
struct dc_softc *sc = xsc;
struct ifnet *ifp;
DC_LOCK_ASSERT(sc);
if (sc->dc_wdog_timer == 0 || --sc->dc_wdog_timer != 0) {
callout_reset(&sc->dc_wdog_ch, hz, dc_watchdog, sc);
return;
}
ifp = sc->dc_ifp;
ifp->if_oerrors++;
device_printf(sc->dc_dev, "watchdog timeout\n");
ifp->if_drv_flags &= ~IFF_DRV_RUNNING;
dc_init_locked(sc);
if (!IFQ_DRV_IS_EMPTY(&ifp->if_snd))
dc_start_locked(ifp);
}
/*
* Stop the adapter and free any mbufs allocated to the
* RX and TX lists.
*/
static void
dc_stop(struct dc_softc *sc)
{
struct ifnet *ifp;
struct dc_list_data *ld;
struct dc_chain_data *cd;
int i;
uint32_t ctl, netcfg;
DC_LOCK_ASSERT(sc);
ifp = sc->dc_ifp;
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
ld = &sc->dc_ldata;
cd = &sc->dc_cdata;
callout_stop(&sc->dc_stat_ch);
callout_stop(&sc->dc_wdog_ch);
sc->dc_wdog_timer = 0;
sc->dc_link = 0;
ifp->if_drv_flags &= ~(IFF_DRV_RUNNING | IFF_DRV_OACTIVE);
netcfg = CSR_READ_4(sc, DC_NETCFG);
if (netcfg & (DC_NETCFG_RX_ON | DC_NETCFG_TX_ON))
CSR_WRITE_4(sc, DC_NETCFG,
netcfg & ~(DC_NETCFG_RX_ON | DC_NETCFG_TX_ON));
CSR_WRITE_4(sc, DC_IMR, 0x00000000);
/* Wait the completion of TX/RX SM. */
if (netcfg & (DC_NETCFG_RX_ON | DC_NETCFG_TX_ON))
dc_netcfg_wait(sc);
CSR_WRITE_4(sc, DC_TXADDR, 0x00000000);
CSR_WRITE_4(sc, DC_RXADDR, 0x00000000);
/*
* Free data in the RX lists.
*/
for (i = 0; i < DC_RX_LIST_CNT; i++) {
if (cd->dc_rx_chain[i] != NULL) {
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
bus_dmamap_sync(sc->dc_rx_mtag,
cd->dc_rx_map[i], BUS_DMASYNC_POSTREAD);
bus_dmamap_unload(sc->dc_rx_mtag,
cd->dc_rx_map[i]);
m_freem(cd->dc_rx_chain[i]);
cd->dc_rx_chain[i] = NULL;
}
}
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
bzero(ld->dc_rx_list, DC_RX_LIST_SZ);
bus_dmamap_sync(sc->dc_rx_ltag, sc->dc_rx_lmap,
BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE);
/*
* Free the TX list buffers.
*/
for (i = 0; i < DC_TX_LIST_CNT; i++) {
if (cd->dc_tx_chain[i] != NULL) {
ctl = le32toh(ld->dc_tx_list[i].dc_ctl);
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
if (ctl & DC_TXCTL_SETUP) {
bus_dmamap_sync(sc->dc_stag, sc->dc_smap,
BUS_DMASYNC_POSTWRITE);
} else {
bus_dmamap_sync(sc->dc_tx_mtag,
cd->dc_tx_map[i], BUS_DMASYNC_POSTWRITE);
bus_dmamap_unload(sc->dc_tx_mtag,
cd->dc_tx_map[i]);
m_freem(cd->dc_tx_chain[i]);
}
cd->dc_tx_chain[i] = NULL;
}
}
Split common TX/RX descriptor DMA tag to TX and RX DMA tags respectively and fix all bus_dma(9) issues seen when bounce buffers are used. o Setup frame handling had no bus_dmamap_sync(9) which prevented driver from configuring RX filter. Add missing bus_dmamap_sync(9) in both dc_setfilt_21143()/dc_setfilt_xircom() and dc_txeof(). o Use bus_addr_t for DMA segment instead of using u_int32_t. o Introduce dc_dma_alloc()/dc_dma_free() functions to allocate/free DMA'able memory. o Create two DMA descriptor list for each TX/RX lists. This change will minimize the size of bounce buffers that would be used in each TX/RX path. Previously driver had to copy both TX/RX lists when bounce buffer is active. o 21143 data sheet says descriptor list requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Setup frame requires 4 bytes alignment. Remove PAGE_SIZE alignment restriction and use sizeof(struct dc_dec). o Add missing DMA map unload for both setup frame and TX/RX descriptor list. o Overhaul RX handling logic such that make driver always allocate new RX buffer with dc_newbuf(). Previously driver allowed to copy received frame with m_devget(9) after passing the descriptor ownership to controller. This can lead to passing wrong frame to upper stack. o Introduce dc_discard_rxbuf() which will discard received frame and reuse loaded DMA map and RX mbuf. o Correct several wrong bus_dmamap_sync(9) usage in dc_rxeof and dc_txeof. The TX/RX descriptor lists are updated by both driver and HW so READ/WRITE semantics should be used. o If driver failed to allocate new RX buffer, update if_iqdrops counter instead of if_ierrors since driver received the frame without errors. o Make sure to unload loaded setup frame DMA map in dc_txeof and clear the mark of setup frame of the TX descriptor in dc_txeof(). o Add check for possible TX descriptor overruns in dc_encap() and move check for free buffer to caller, dc_start_locked(). o Swap the loaded DMA map and the last DMA map for multi-segmented frames. Since dc_txeof() assumes the last descriptor of the frame has the DMA map, driver should swap the first and the last DMA map in dc_encap(). Previously driver tried to unload not-yet-loaded DMA map such that the loaded DMA map was not unloaded at all for multi-segmented frames. o Rewrite DC_RXDESC/DC_TXDESC macro to simpler one. o Remove definition of ETHER_ALIGN, it's already defined in ethernet.h. With this changes, dc(4) works with bounce buffers and it shall also fix issues which might have shown in PAE environments. Tested by: marius
2011-02-19 02:47:10 +00:00
bzero(ld->dc_tx_list, DC_TX_LIST_SZ);
bus_dmamap_sync(sc->dc_tx_ltag, sc->dc_tx_lmap,
BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE);
}
/*
* Device suspend routine. Stop the interface and save some PCI
* settings in case the BIOS doesn't restore them properly on
* resume.
*/
static int
dc_suspend(device_t dev)
{
struct dc_softc *sc;
sc = device_get_softc(dev);
DC_LOCK(sc);
dc_stop(sc);
sc->suspended = 1;
DC_UNLOCK(sc);
return (0);
}
/*
* Device resume routine. Restore some PCI settings in case the BIOS
* doesn't, re-enable busmastering, and restart the interface if
* appropriate.
*/
static int
dc_resume(device_t dev)
{
struct dc_softc *sc;
struct ifnet *ifp;
sc = device_get_softc(dev);
ifp = sc->dc_ifp;
/* reinitialize interface if necessary */
DC_LOCK(sc);
if (ifp->if_flags & IFF_UP)
dc_init_locked(sc);
sc->suspended = 0;
DC_UNLOCK(sc);
return (0);
}
/*
* Stop all chip I/O so that the kernel's probe routines don't
* get confused by errant DMAs when rebooting.
*/
static int
dc_shutdown(device_t dev)
{
struct dc_softc *sc;
sc = device_get_softc(dev);
DC_LOCK(sc);
dc_stop(sc);
DC_UNLOCK(sc);
return (0);
}
static int
dc_check_multiport(struct dc_softc *sc)
{
struct dc_softc *dsc;
devclass_t dc;
device_t child;
uint8_t *eaddr;
int unit;
dc = devclass_find("dc");
for (unit = 0; unit < devclass_get_maxunit(dc); unit++) {
child = devclass_get_device(dc, unit);
if (child == NULL)
continue;
if (child == sc->dc_dev)
continue;
if (device_get_parent(child) != device_get_parent(sc->dc_dev))
continue;
if (unit > device_get_unit(sc->dc_dev))
continue;
if (device_is_attached(child) == 0)
continue;
dsc = device_get_softc(child);
device_printf(sc->dc_dev,
"Using station address of %s as base\n",
device_get_nameunit(child));
bcopy(dsc->dc_eaddr, sc->dc_eaddr, ETHER_ADDR_LEN);
eaddr = (uint8_t *)sc->dc_eaddr;
eaddr[5]++;
/* Prepare SROM to parse again. */
if (DC_IS_INTEL(sc) && dsc->dc_srom != NULL &&
sc->dc_romwidth != 0) {
free(sc->dc_srom, M_DEVBUF);
sc->dc_romwidth = dsc->dc_romwidth;
sc->dc_srom = malloc(DC_ROM_SIZE(sc->dc_romwidth),
M_DEVBUF, M_NOWAIT);
if (sc->dc_srom == NULL) {
device_printf(sc->dc_dev,
"Could not allocate SROM buffer\n");
return (ENOMEM);
}
bcopy(dsc->dc_srom, sc->dc_srom,
DC_ROM_SIZE(sc->dc_romwidth));
}
return (0);
}
return (ENOENT);
}