16c8d8eccSSepherosa Ziehau /* 26c8d8eccSSepherosa Ziehau * Copyright (c) 2001 Wind River Systems 36c8d8eccSSepherosa Ziehau * Copyright (c) 1997, 1998, 1999, 2001 46c8d8eccSSepherosa Ziehau * Bill Paul <wpaul@windriver.com>. All rights reserved. 56c8d8eccSSepherosa Ziehau * 66c8d8eccSSepherosa Ziehau * Redistribution and use in source and binary forms, with or without 76c8d8eccSSepherosa Ziehau * modification, are permitted provided that the following conditions 86c8d8eccSSepherosa Ziehau * are met: 96c8d8eccSSepherosa Ziehau * 1. Redistributions of source code must retain the above copyright 106c8d8eccSSepherosa Ziehau * notice, this list of conditions and the following disclaimer. 116c8d8eccSSepherosa Ziehau * 2. Redistributions in binary form must reproduce the above copyright 126c8d8eccSSepherosa Ziehau * notice, this list of conditions and the following disclaimer in the 136c8d8eccSSepherosa Ziehau * documentation and/or other materials provided with the distribution. 146c8d8eccSSepherosa Ziehau * 3. All advertising materials mentioning features or use of this software 156c8d8eccSSepherosa Ziehau * must display the following acknowledgement: 166c8d8eccSSepherosa Ziehau * This product includes software developed by Bill Paul. 176c8d8eccSSepherosa Ziehau * 4. Neither the name of the author nor the names of any co-contributors 186c8d8eccSSepherosa Ziehau * may be used to endorse or promote products derived from this software 196c8d8eccSSepherosa Ziehau * without specific prior written permission. 206c8d8eccSSepherosa Ziehau * 216c8d8eccSSepherosa Ziehau * THIS SOFTWARE IS PROVIDED BY Bill Paul AND CONTRIBUTORS ``AS IS'' AND 226c8d8eccSSepherosa Ziehau * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 236c8d8eccSSepherosa Ziehau * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 246c8d8eccSSepherosa Ziehau * ARE DISCLAIMED. IN NO EVENT SHALL Bill Paul OR THE VOICES IN HIS HEAD 256c8d8eccSSepherosa Ziehau * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 266c8d8eccSSepherosa Ziehau * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 276c8d8eccSSepherosa Ziehau * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 286c8d8eccSSepherosa Ziehau * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 296c8d8eccSSepherosa Ziehau * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 306c8d8eccSSepherosa Ziehau * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF 316c8d8eccSSepherosa Ziehau * THE POSSIBILITY OF SUCH DAMAGE. 326c8d8eccSSepherosa Ziehau * 336c8d8eccSSepherosa Ziehau * $FreeBSD: src/sys/dev/bge/if_bge.c,v 1.3.2.39 2005/07/03 03:41:18 silby Exp $ 346c8d8eccSSepherosa Ziehau */ 356c8d8eccSSepherosa Ziehau 366c8d8eccSSepherosa Ziehau 376c8d8eccSSepherosa Ziehau #include "opt_polling.h" 386c8d8eccSSepherosa Ziehau 396c8d8eccSSepherosa Ziehau #include <sys/param.h> 406c8d8eccSSepherosa Ziehau #include <sys/bus.h> 416c8d8eccSSepherosa Ziehau #include <sys/endian.h> 426c8d8eccSSepherosa Ziehau #include <sys/kernel.h> 436c8d8eccSSepherosa Ziehau #include <sys/interrupt.h> 446c8d8eccSSepherosa Ziehau #include <sys/mbuf.h> 456c8d8eccSSepherosa Ziehau #include <sys/malloc.h> 466c8d8eccSSepherosa Ziehau #include <sys/queue.h> 476c8d8eccSSepherosa Ziehau #include <sys/rman.h> 486c8d8eccSSepherosa Ziehau #include <sys/serialize.h> 496c8d8eccSSepherosa Ziehau #include <sys/socket.h> 506c8d8eccSSepherosa Ziehau #include <sys/sockio.h> 516c8d8eccSSepherosa Ziehau #include <sys/sysctl.h> 526c8d8eccSSepherosa Ziehau 536c8d8eccSSepherosa Ziehau #include <net/bpf.h> 546c8d8eccSSepherosa Ziehau #include <net/ethernet.h> 556c8d8eccSSepherosa Ziehau #include <net/if.h> 566c8d8eccSSepherosa Ziehau #include <net/if_arp.h> 576c8d8eccSSepherosa Ziehau #include <net/if_dl.h> 586c8d8eccSSepherosa Ziehau #include <net/if_media.h> 596c8d8eccSSepherosa Ziehau #include <net/if_types.h> 606c8d8eccSSepherosa Ziehau #include <net/ifq_var.h> 616c8d8eccSSepherosa Ziehau #include <net/vlan/if_vlan_var.h> 626c8d8eccSSepherosa Ziehau #include <net/vlan/if_vlan_ether.h> 636c8d8eccSSepherosa Ziehau 646c8d8eccSSepherosa Ziehau #include <dev/netif/mii_layer/mii.h> 656c8d8eccSSepherosa Ziehau #include <dev/netif/mii_layer/miivar.h> 666c8d8eccSSepherosa Ziehau #include <dev/netif/mii_layer/brgphyreg.h> 676c8d8eccSSepherosa Ziehau 686c8d8eccSSepherosa Ziehau #include <bus/pci/pcidevs.h> 696c8d8eccSSepherosa Ziehau #include <bus/pci/pcireg.h> 706c8d8eccSSepherosa Ziehau #include <bus/pci/pcivar.h> 716c8d8eccSSepherosa Ziehau 726c8d8eccSSepherosa Ziehau #include <dev/netif/bge/if_bgereg.h> 736c8d8eccSSepherosa Ziehau #include <dev/netif/bnx/if_bnxvar.h> 746c8d8eccSSepherosa Ziehau 756c8d8eccSSepherosa Ziehau /* "device miibus" required. See GENERIC if you get errors here. */ 766c8d8eccSSepherosa Ziehau #include "miibus_if.h" 776c8d8eccSSepherosa Ziehau 783b18363fSSepherosa Ziehau #define BNX_CSUM_FEATURES (CSUM_IP | CSUM_TCP | CSUM_UDP) 796c8d8eccSSepherosa Ziehau 806c8d8eccSSepherosa Ziehau static const struct bnx_type { 816c8d8eccSSepherosa Ziehau uint16_t bnx_vid; 826c8d8eccSSepherosa Ziehau uint16_t bnx_did; 836c8d8eccSSepherosa Ziehau char *bnx_name; 846c8d8eccSSepherosa Ziehau } bnx_devs[] = { 856c8d8eccSSepherosa Ziehau { PCI_VENDOR_BROADCOM, PCI_PRODUCT_BROADCOM_BCM5717, 866c8d8eccSSepherosa Ziehau "Broadcom BCM5717 Gigabit Ethernet" }, 876c8d8eccSSepherosa Ziehau { PCI_VENDOR_BROADCOM, PCI_PRODUCT_BROADCOM_BCM5718, 886c8d8eccSSepherosa Ziehau "Broadcom BCM5718 Gigabit Ethernet" }, 896c8d8eccSSepherosa Ziehau { PCI_VENDOR_BROADCOM, PCI_PRODUCT_BROADCOM_BCM5719, 906c8d8eccSSepherosa Ziehau "Broadcom BCM5719 Gigabit Ethernet" }, 916c8d8eccSSepherosa Ziehau { PCI_VENDOR_BROADCOM, PCI_PRODUCT_BROADCOM_BCM5720_ALT, 926c8d8eccSSepherosa Ziehau "Broadcom BCM5720 Gigabit Ethernet" }, 936c8d8eccSSepherosa Ziehau 946c8d8eccSSepherosa Ziehau { PCI_VENDOR_BROADCOM, PCI_PRODUCT_BROADCOM_BCM57761, 956c8d8eccSSepherosa Ziehau "Broadcom BCM57761 Gigabit Ethernet" }, 966c8d8eccSSepherosa Ziehau { PCI_VENDOR_BROADCOM, PCI_PRODUCT_BROADCOM_BCM57781, 976c8d8eccSSepherosa Ziehau "Broadcom BCM57781 Gigabit Ethernet" }, 986c8d8eccSSepherosa Ziehau { PCI_VENDOR_BROADCOM, PCI_PRODUCT_BROADCOM_BCM57791, 996c8d8eccSSepherosa Ziehau "Broadcom BCM57791 Fast Ethernet" }, 1006c8d8eccSSepherosa Ziehau { PCI_VENDOR_BROADCOM, PCI_PRODUCT_BROADCOM_BCM57765, 1016c8d8eccSSepherosa Ziehau "Broadcom BCM57765 Gigabit Ethernet" }, 1026c8d8eccSSepherosa Ziehau { PCI_VENDOR_BROADCOM, PCI_PRODUCT_BROADCOM_BCM57785, 1036c8d8eccSSepherosa Ziehau "Broadcom BCM57785 Gigabit Ethernet" }, 1046c8d8eccSSepherosa Ziehau { PCI_VENDOR_BROADCOM, PCI_PRODUCT_BROADCOM_BCM57795, 1056c8d8eccSSepherosa Ziehau "Broadcom BCM57795 Fast Ethernet" }, 1066c8d8eccSSepherosa Ziehau 1076c8d8eccSSepherosa Ziehau { 0, 0, NULL } 1086c8d8eccSSepherosa Ziehau }; 1096c8d8eccSSepherosa Ziehau 1106c8d8eccSSepherosa Ziehau #define BNX_IS_JUMBO_CAPABLE(sc) ((sc)->bnx_flags & BNX_FLAG_JUMBO) 1116c8d8eccSSepherosa Ziehau #define BNX_IS_5717_PLUS(sc) ((sc)->bnx_flags & BNX_FLAG_5717_PLUS) 112f368d0d9SSepherosa Ziehau #define BNX_IS_57765_PLUS(sc) ((sc)->bnx_flags & BNX_FLAG_57765_PLUS) 113f368d0d9SSepherosa Ziehau #define BNX_IS_57765_FAMILY(sc) \ 114f368d0d9SSepherosa Ziehau ((sc)->bnx_flags & BNX_FLAG_57765_FAMILY) 1156c8d8eccSSepherosa Ziehau 1166c8d8eccSSepherosa Ziehau typedef int (*bnx_eaddr_fcn_t)(struct bnx_softc *, uint8_t[]); 1176c8d8eccSSepherosa Ziehau 1186c8d8eccSSepherosa Ziehau static int bnx_probe(device_t); 1196c8d8eccSSepherosa Ziehau static int bnx_attach(device_t); 1206c8d8eccSSepherosa Ziehau static int bnx_detach(device_t); 1216c8d8eccSSepherosa Ziehau static void bnx_shutdown(device_t); 1226c8d8eccSSepherosa Ziehau static int bnx_suspend(device_t); 1236c8d8eccSSepherosa Ziehau static int bnx_resume(device_t); 1246c8d8eccSSepherosa Ziehau static int bnx_miibus_readreg(device_t, int, int); 1256c8d8eccSSepherosa Ziehau static int bnx_miibus_writereg(device_t, int, int, int); 1266c8d8eccSSepherosa Ziehau static void bnx_miibus_statchg(device_t); 1276c8d8eccSSepherosa Ziehau 1286c8d8eccSSepherosa Ziehau #ifdef DEVICE_POLLING 1296c8d8eccSSepherosa Ziehau static void bnx_poll(struct ifnet *ifp, enum poll_cmd cmd, int count); 1306c8d8eccSSepherosa Ziehau #endif 1316c8d8eccSSepherosa Ziehau static void bnx_intr_legacy(void *); 1326c8d8eccSSepherosa Ziehau static void bnx_msi(void *); 1336c8d8eccSSepherosa Ziehau static void bnx_msi_oneshot(void *); 1346c8d8eccSSepherosa Ziehau static void bnx_intr(struct bnx_softc *); 1356c8d8eccSSepherosa Ziehau static void bnx_enable_intr(struct bnx_softc *); 1366c8d8eccSSepherosa Ziehau static void bnx_disable_intr(struct bnx_softc *); 1376c8d8eccSSepherosa Ziehau static void bnx_txeof(struct bnx_softc *, uint16_t); 1386c8d8eccSSepherosa Ziehau static void bnx_rxeof(struct bnx_softc *, uint16_t); 1396c8d8eccSSepherosa Ziehau 1406c8d8eccSSepherosa Ziehau static void bnx_start(struct ifnet *); 1416c8d8eccSSepherosa Ziehau static int bnx_ioctl(struct ifnet *, u_long, caddr_t, struct ucred *); 1426c8d8eccSSepherosa Ziehau static void bnx_init(void *); 1436c8d8eccSSepherosa Ziehau static void bnx_stop(struct bnx_softc *); 1446c8d8eccSSepherosa Ziehau static void bnx_watchdog(struct ifnet *); 1456c8d8eccSSepherosa Ziehau static int bnx_ifmedia_upd(struct ifnet *); 1466c8d8eccSSepherosa Ziehau static void bnx_ifmedia_sts(struct ifnet *, struct ifmediareq *); 1476c8d8eccSSepherosa Ziehau static void bnx_tick(void *); 1486c8d8eccSSepherosa Ziehau 1496c8d8eccSSepherosa Ziehau static int bnx_alloc_jumbo_mem(struct bnx_softc *); 1506c8d8eccSSepherosa Ziehau static void bnx_free_jumbo_mem(struct bnx_softc *); 1516c8d8eccSSepherosa Ziehau static struct bnx_jslot 1526c8d8eccSSepherosa Ziehau *bnx_jalloc(struct bnx_softc *); 1536c8d8eccSSepherosa Ziehau static void bnx_jfree(void *); 1546c8d8eccSSepherosa Ziehau static void bnx_jref(void *); 1556c8d8eccSSepherosa Ziehau static int bnx_newbuf_std(struct bnx_softc *, int, int); 1566c8d8eccSSepherosa Ziehau static int bnx_newbuf_jumbo(struct bnx_softc *, int, int); 1576c8d8eccSSepherosa Ziehau static void bnx_setup_rxdesc_std(struct bnx_softc *, int); 1586c8d8eccSSepherosa Ziehau static void bnx_setup_rxdesc_jumbo(struct bnx_softc *, int); 1596c8d8eccSSepherosa Ziehau static int bnx_init_rx_ring_std(struct bnx_softc *); 1606c8d8eccSSepherosa Ziehau static void bnx_free_rx_ring_std(struct bnx_softc *); 1616c8d8eccSSepherosa Ziehau static int bnx_init_rx_ring_jumbo(struct bnx_softc *); 1626c8d8eccSSepherosa Ziehau static void bnx_free_rx_ring_jumbo(struct bnx_softc *); 1636c8d8eccSSepherosa Ziehau static void bnx_free_tx_ring(struct bnx_softc *); 1646c8d8eccSSepherosa Ziehau static int bnx_init_tx_ring(struct bnx_softc *); 1656c8d8eccSSepherosa Ziehau static int bnx_dma_alloc(struct bnx_softc *); 1666c8d8eccSSepherosa Ziehau static void bnx_dma_free(struct bnx_softc *); 1676c8d8eccSSepherosa Ziehau static int bnx_dma_block_alloc(struct bnx_softc *, bus_size_t, 1686c8d8eccSSepherosa Ziehau bus_dma_tag_t *, bus_dmamap_t *, void **, bus_addr_t *); 1696c8d8eccSSepherosa Ziehau static void bnx_dma_block_free(bus_dma_tag_t, bus_dmamap_t, void *); 1706c8d8eccSSepherosa Ziehau static struct mbuf * 1716c8d8eccSSepherosa Ziehau bnx_defrag_shortdma(struct mbuf *); 1726c8d8eccSSepherosa Ziehau static int bnx_encap(struct bnx_softc *, struct mbuf **, uint32_t *); 1736c8d8eccSSepherosa Ziehau 1746c8d8eccSSepherosa Ziehau static void bnx_reset(struct bnx_softc *); 1756c8d8eccSSepherosa Ziehau static int bnx_chipinit(struct bnx_softc *); 1766c8d8eccSSepherosa Ziehau static int bnx_blockinit(struct bnx_softc *); 1776c8d8eccSSepherosa Ziehau static void bnx_stop_block(struct bnx_softc *, bus_size_t, uint32_t); 1786c8d8eccSSepherosa Ziehau static void bnx_enable_msi(struct bnx_softc *sc); 1796c8d8eccSSepherosa Ziehau static void bnx_setmulti(struct bnx_softc *); 1806c8d8eccSSepherosa Ziehau static void bnx_setpromisc(struct bnx_softc *); 1816c8d8eccSSepherosa Ziehau static void bnx_stats_update_regs(struct bnx_softc *); 1826c8d8eccSSepherosa Ziehau static uint32_t bnx_dma_swap_options(struct bnx_softc *); 1836c8d8eccSSepherosa Ziehau 1846c8d8eccSSepherosa Ziehau static uint32_t bnx_readmem_ind(struct bnx_softc *, uint32_t); 1856c8d8eccSSepherosa Ziehau static void bnx_writemem_ind(struct bnx_softc *, uint32_t, uint32_t); 1866c8d8eccSSepherosa Ziehau #ifdef notdef 1876c8d8eccSSepherosa Ziehau static uint32_t bnx_readreg_ind(struct bnx_softc *, uint32_t); 1886c8d8eccSSepherosa Ziehau #endif 1896c8d8eccSSepherosa Ziehau static void bnx_writereg_ind(struct bnx_softc *, uint32_t, uint32_t); 1906c8d8eccSSepherosa Ziehau static void bnx_writemem_direct(struct bnx_softc *, uint32_t, uint32_t); 1916c8d8eccSSepherosa Ziehau static void bnx_writembx(struct bnx_softc *, int, int); 1926c8d8eccSSepherosa Ziehau static uint8_t bnx_nvram_getbyte(struct bnx_softc *, int, uint8_t *); 1936c8d8eccSSepherosa Ziehau static int bnx_read_nvram(struct bnx_softc *, caddr_t, int, int); 1946c8d8eccSSepherosa Ziehau static uint8_t bnx_eeprom_getbyte(struct bnx_softc *, uint32_t, uint8_t *); 1956c8d8eccSSepherosa Ziehau static int bnx_read_eeprom(struct bnx_softc *, caddr_t, uint32_t, size_t); 1966c8d8eccSSepherosa Ziehau 1976c8d8eccSSepherosa Ziehau static void bnx_tbi_link_upd(struct bnx_softc *, uint32_t); 1986c8d8eccSSepherosa Ziehau static void bnx_copper_link_upd(struct bnx_softc *, uint32_t); 1996c8d8eccSSepherosa Ziehau static void bnx_autopoll_link_upd(struct bnx_softc *, uint32_t); 2006c8d8eccSSepherosa Ziehau static void bnx_link_poll(struct bnx_softc *); 2016c8d8eccSSepherosa Ziehau 2026c8d8eccSSepherosa Ziehau static int bnx_get_eaddr_mem(struct bnx_softc *, uint8_t[]); 2036c8d8eccSSepherosa Ziehau static int bnx_get_eaddr_nvram(struct bnx_softc *, uint8_t[]); 2046c8d8eccSSepherosa Ziehau static int bnx_get_eaddr_eeprom(struct bnx_softc *, uint8_t[]); 2056c8d8eccSSepherosa Ziehau static int bnx_get_eaddr(struct bnx_softc *, uint8_t[]); 2066c8d8eccSSepherosa Ziehau 2076c8d8eccSSepherosa Ziehau static void bnx_coal_change(struct bnx_softc *); 2086c8d8eccSSepherosa Ziehau static int bnx_sysctl_rx_coal_ticks(SYSCTL_HANDLER_ARGS); 2096c8d8eccSSepherosa Ziehau static int bnx_sysctl_tx_coal_ticks(SYSCTL_HANDLER_ARGS); 2106c8d8eccSSepherosa Ziehau static int bnx_sysctl_rx_coal_bds(SYSCTL_HANDLER_ARGS); 2116c8d8eccSSepherosa Ziehau static int bnx_sysctl_tx_coal_bds(SYSCTL_HANDLER_ARGS); 2126c8d8eccSSepherosa Ziehau static int bnx_sysctl_rx_coal_bds_int(SYSCTL_HANDLER_ARGS); 2136c8d8eccSSepherosa Ziehau static int bnx_sysctl_tx_coal_bds_int(SYSCTL_HANDLER_ARGS); 2146c8d8eccSSepherosa Ziehau static int bnx_sysctl_coal_chg(SYSCTL_HANDLER_ARGS, uint32_t *, 2156c8d8eccSSepherosa Ziehau int, int, uint32_t); 2166c8d8eccSSepherosa Ziehau 2176c8d8eccSSepherosa Ziehau static int bnx_msi_enable = 1; 2186c8d8eccSSepherosa Ziehau TUNABLE_INT("hw.bnx.msi.enable", &bnx_msi_enable); 2196c8d8eccSSepherosa Ziehau 2206c8d8eccSSepherosa Ziehau static device_method_t bnx_methods[] = { 2216c8d8eccSSepherosa Ziehau /* Device interface */ 2226c8d8eccSSepherosa Ziehau DEVMETHOD(device_probe, bnx_probe), 2236c8d8eccSSepherosa Ziehau DEVMETHOD(device_attach, bnx_attach), 2246c8d8eccSSepherosa Ziehau DEVMETHOD(device_detach, bnx_detach), 2256c8d8eccSSepherosa Ziehau DEVMETHOD(device_shutdown, bnx_shutdown), 2266c8d8eccSSepherosa Ziehau DEVMETHOD(device_suspend, bnx_suspend), 2276c8d8eccSSepherosa Ziehau DEVMETHOD(device_resume, bnx_resume), 2286c8d8eccSSepherosa Ziehau 2296c8d8eccSSepherosa Ziehau /* bus interface */ 2306c8d8eccSSepherosa Ziehau DEVMETHOD(bus_print_child, bus_generic_print_child), 2316c8d8eccSSepherosa Ziehau DEVMETHOD(bus_driver_added, bus_generic_driver_added), 2326c8d8eccSSepherosa Ziehau 2336c8d8eccSSepherosa Ziehau /* MII interface */ 2346c8d8eccSSepherosa Ziehau DEVMETHOD(miibus_readreg, bnx_miibus_readreg), 2356c8d8eccSSepherosa Ziehau DEVMETHOD(miibus_writereg, bnx_miibus_writereg), 2366c8d8eccSSepherosa Ziehau DEVMETHOD(miibus_statchg, bnx_miibus_statchg), 2376c8d8eccSSepherosa Ziehau 2386c8d8eccSSepherosa Ziehau { 0, 0 } 2396c8d8eccSSepherosa Ziehau }; 2406c8d8eccSSepherosa Ziehau 2416c8d8eccSSepherosa Ziehau static DEFINE_CLASS_0(bnx, bnx_driver, bnx_methods, sizeof(struct bnx_softc)); 2426c8d8eccSSepherosa Ziehau static devclass_t bnx_devclass; 2436c8d8eccSSepherosa Ziehau 2446c8d8eccSSepherosa Ziehau DECLARE_DUMMY_MODULE(if_bnx); 2456c8d8eccSSepherosa Ziehau DRIVER_MODULE(if_bnx, pci, bnx_driver, bnx_devclass, NULL, NULL); 2466c8d8eccSSepherosa Ziehau DRIVER_MODULE(miibus, bnx, miibus_driver, miibus_devclass, NULL, NULL); 2476c8d8eccSSepherosa Ziehau 2486c8d8eccSSepherosa Ziehau static uint32_t 2496c8d8eccSSepherosa Ziehau bnx_readmem_ind(struct bnx_softc *sc, uint32_t off) 2506c8d8eccSSepherosa Ziehau { 2516c8d8eccSSepherosa Ziehau device_t dev = sc->bnx_dev; 2526c8d8eccSSepherosa Ziehau uint32_t val; 2536c8d8eccSSepherosa Ziehau 2546c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5906 && 2556c8d8eccSSepherosa Ziehau off >= BGE_STATS_BLOCK && off < BGE_SEND_RING_1_TO_4) 2566c8d8eccSSepherosa Ziehau return 0; 2576c8d8eccSSepherosa Ziehau 2586c8d8eccSSepherosa Ziehau pci_write_config(dev, BGE_PCI_MEMWIN_BASEADDR, off, 4); 2596c8d8eccSSepherosa Ziehau val = pci_read_config(dev, BGE_PCI_MEMWIN_DATA, 4); 2606c8d8eccSSepherosa Ziehau pci_write_config(dev, BGE_PCI_MEMWIN_BASEADDR, 0, 4); 2616c8d8eccSSepherosa Ziehau return (val); 2626c8d8eccSSepherosa Ziehau } 2636c8d8eccSSepherosa Ziehau 2646c8d8eccSSepherosa Ziehau static void 2656c8d8eccSSepherosa Ziehau bnx_writemem_ind(struct bnx_softc *sc, uint32_t off, uint32_t val) 2666c8d8eccSSepherosa Ziehau { 2676c8d8eccSSepherosa Ziehau device_t dev = sc->bnx_dev; 2686c8d8eccSSepherosa Ziehau 2696c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5906 && 2706c8d8eccSSepherosa Ziehau off >= BGE_STATS_BLOCK && off < BGE_SEND_RING_1_TO_4) 2716c8d8eccSSepherosa Ziehau return; 2726c8d8eccSSepherosa Ziehau 2736c8d8eccSSepherosa Ziehau pci_write_config(dev, BGE_PCI_MEMWIN_BASEADDR, off, 4); 2746c8d8eccSSepherosa Ziehau pci_write_config(dev, BGE_PCI_MEMWIN_DATA, val, 4); 2756c8d8eccSSepherosa Ziehau pci_write_config(dev, BGE_PCI_MEMWIN_BASEADDR, 0, 4); 2766c8d8eccSSepherosa Ziehau } 2776c8d8eccSSepherosa Ziehau 2786c8d8eccSSepherosa Ziehau #ifdef notdef 2796c8d8eccSSepherosa Ziehau static uint32_t 2806c8d8eccSSepherosa Ziehau bnx_readreg_ind(struct bnx_softc *sc, uin32_t off) 2816c8d8eccSSepherosa Ziehau { 2826c8d8eccSSepherosa Ziehau device_t dev = sc->bnx_dev; 2836c8d8eccSSepherosa Ziehau 2846c8d8eccSSepherosa Ziehau pci_write_config(dev, BGE_PCI_REG_BASEADDR, off, 4); 2856c8d8eccSSepherosa Ziehau return(pci_read_config(dev, BGE_PCI_REG_DATA, 4)); 2866c8d8eccSSepherosa Ziehau } 2876c8d8eccSSepherosa Ziehau #endif 2886c8d8eccSSepherosa Ziehau 2896c8d8eccSSepherosa Ziehau static void 2906c8d8eccSSepherosa Ziehau bnx_writereg_ind(struct bnx_softc *sc, uint32_t off, uint32_t val) 2916c8d8eccSSepherosa Ziehau { 2926c8d8eccSSepherosa Ziehau device_t dev = sc->bnx_dev; 2936c8d8eccSSepherosa Ziehau 2946c8d8eccSSepherosa Ziehau pci_write_config(dev, BGE_PCI_REG_BASEADDR, off, 4); 2956c8d8eccSSepherosa Ziehau pci_write_config(dev, BGE_PCI_REG_DATA, val, 4); 2966c8d8eccSSepherosa Ziehau } 2976c8d8eccSSepherosa Ziehau 2986c8d8eccSSepherosa Ziehau static void 2996c8d8eccSSepherosa Ziehau bnx_writemem_direct(struct bnx_softc *sc, uint32_t off, uint32_t val) 3006c8d8eccSSepherosa Ziehau { 3016c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, off, val); 3026c8d8eccSSepherosa Ziehau } 3036c8d8eccSSepherosa Ziehau 3046c8d8eccSSepherosa Ziehau static void 3056c8d8eccSSepherosa Ziehau bnx_writembx(struct bnx_softc *sc, int off, int val) 3066c8d8eccSSepherosa Ziehau { 3076c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5906) 3086c8d8eccSSepherosa Ziehau off += BGE_LPMBX_IRQ0_HI - BGE_MBX_IRQ0_HI; 3096c8d8eccSSepherosa Ziehau 3106c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, off, val); 3116c8d8eccSSepherosa Ziehau } 3126c8d8eccSSepherosa Ziehau 3136c8d8eccSSepherosa Ziehau static uint8_t 3146c8d8eccSSepherosa Ziehau bnx_nvram_getbyte(struct bnx_softc *sc, int addr, uint8_t *dest) 3156c8d8eccSSepherosa Ziehau { 3166c8d8eccSSepherosa Ziehau uint32_t access, byte = 0; 3176c8d8eccSSepherosa Ziehau int i; 3186c8d8eccSSepherosa Ziehau 3196c8d8eccSSepherosa Ziehau /* Lock. */ 3206c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_NVRAM_SWARB, BGE_NVRAMSWARB_SET1); 3216c8d8eccSSepherosa Ziehau for (i = 0; i < 8000; i++) { 3226c8d8eccSSepherosa Ziehau if (CSR_READ_4(sc, BGE_NVRAM_SWARB) & BGE_NVRAMSWARB_GNT1) 3236c8d8eccSSepherosa Ziehau break; 3246c8d8eccSSepherosa Ziehau DELAY(20); 3256c8d8eccSSepherosa Ziehau } 3266c8d8eccSSepherosa Ziehau if (i == 8000) 3276c8d8eccSSepherosa Ziehau return (1); 3286c8d8eccSSepherosa Ziehau 3296c8d8eccSSepherosa Ziehau /* Enable access. */ 3306c8d8eccSSepherosa Ziehau access = CSR_READ_4(sc, BGE_NVRAM_ACCESS); 3316c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_NVRAM_ACCESS, access | BGE_NVRAMACC_ENABLE); 3326c8d8eccSSepherosa Ziehau 3336c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_NVRAM_ADDR, addr & 0xfffffffc); 3346c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_NVRAM_CMD, BGE_NVRAM_READCMD); 3356c8d8eccSSepherosa Ziehau for (i = 0; i < BNX_TIMEOUT * 10; i++) { 3366c8d8eccSSepherosa Ziehau DELAY(10); 3376c8d8eccSSepherosa Ziehau if (CSR_READ_4(sc, BGE_NVRAM_CMD) & BGE_NVRAMCMD_DONE) { 3386c8d8eccSSepherosa Ziehau DELAY(10); 3396c8d8eccSSepherosa Ziehau break; 3406c8d8eccSSepherosa Ziehau } 3416c8d8eccSSepherosa Ziehau } 3426c8d8eccSSepherosa Ziehau 3436c8d8eccSSepherosa Ziehau if (i == BNX_TIMEOUT * 10) { 3446c8d8eccSSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "nvram read timed out\n"); 3456c8d8eccSSepherosa Ziehau return (1); 3466c8d8eccSSepherosa Ziehau } 3476c8d8eccSSepherosa Ziehau 3486c8d8eccSSepherosa Ziehau /* Get result. */ 3496c8d8eccSSepherosa Ziehau byte = CSR_READ_4(sc, BGE_NVRAM_RDDATA); 3506c8d8eccSSepherosa Ziehau 3516c8d8eccSSepherosa Ziehau *dest = (bswap32(byte) >> ((addr % 4) * 8)) & 0xFF; 3526c8d8eccSSepherosa Ziehau 3536c8d8eccSSepherosa Ziehau /* Disable access. */ 3546c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_NVRAM_ACCESS, access); 3556c8d8eccSSepherosa Ziehau 3566c8d8eccSSepherosa Ziehau /* Unlock. */ 3576c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_NVRAM_SWARB, BGE_NVRAMSWARB_CLR1); 3586c8d8eccSSepherosa Ziehau CSR_READ_4(sc, BGE_NVRAM_SWARB); 3596c8d8eccSSepherosa Ziehau 3606c8d8eccSSepherosa Ziehau return (0); 3616c8d8eccSSepherosa Ziehau } 3626c8d8eccSSepherosa Ziehau 3636c8d8eccSSepherosa Ziehau /* 3646c8d8eccSSepherosa Ziehau * Read a sequence of bytes from NVRAM. 3656c8d8eccSSepherosa Ziehau */ 3666c8d8eccSSepherosa Ziehau static int 3676c8d8eccSSepherosa Ziehau bnx_read_nvram(struct bnx_softc *sc, caddr_t dest, int off, int cnt) 3686c8d8eccSSepherosa Ziehau { 3696c8d8eccSSepherosa Ziehau int err = 0, i; 3706c8d8eccSSepherosa Ziehau uint8_t byte = 0; 3716c8d8eccSSepherosa Ziehau 3726c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev != BGE_ASICREV_BCM5906) 3736c8d8eccSSepherosa Ziehau return (1); 3746c8d8eccSSepherosa Ziehau 3756c8d8eccSSepherosa Ziehau for (i = 0; i < cnt; i++) { 3766c8d8eccSSepherosa Ziehau err = bnx_nvram_getbyte(sc, off + i, &byte); 3776c8d8eccSSepherosa Ziehau if (err) 3786c8d8eccSSepherosa Ziehau break; 3796c8d8eccSSepherosa Ziehau *(dest + i) = byte; 3806c8d8eccSSepherosa Ziehau } 3816c8d8eccSSepherosa Ziehau 3826c8d8eccSSepherosa Ziehau return (err ? 1 : 0); 3836c8d8eccSSepherosa Ziehau } 3846c8d8eccSSepherosa Ziehau 3856c8d8eccSSepherosa Ziehau /* 3866c8d8eccSSepherosa Ziehau * Read a byte of data stored in the EEPROM at address 'addr.' The 3876c8d8eccSSepherosa Ziehau * BCM570x supports both the traditional bitbang interface and an 3886c8d8eccSSepherosa Ziehau * auto access interface for reading the EEPROM. We use the auto 3896c8d8eccSSepherosa Ziehau * access method. 3906c8d8eccSSepherosa Ziehau */ 3916c8d8eccSSepherosa Ziehau static uint8_t 3926c8d8eccSSepherosa Ziehau bnx_eeprom_getbyte(struct bnx_softc *sc, uint32_t addr, uint8_t *dest) 3936c8d8eccSSepherosa Ziehau { 3946c8d8eccSSepherosa Ziehau int i; 3956c8d8eccSSepherosa Ziehau uint32_t byte = 0; 3966c8d8eccSSepherosa Ziehau 3976c8d8eccSSepherosa Ziehau /* 3986c8d8eccSSepherosa Ziehau * Enable use of auto EEPROM access so we can avoid 3996c8d8eccSSepherosa Ziehau * having to use the bitbang method. 4006c8d8eccSSepherosa Ziehau */ 4016c8d8eccSSepherosa Ziehau BNX_SETBIT(sc, BGE_MISC_LOCAL_CTL, BGE_MLC_AUTO_EEPROM); 4026c8d8eccSSepherosa Ziehau 4036c8d8eccSSepherosa Ziehau /* Reset the EEPROM, load the clock period. */ 4046c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_EE_ADDR, 4056c8d8eccSSepherosa Ziehau BGE_EEADDR_RESET|BGE_EEHALFCLK(BGE_HALFCLK_384SCL)); 4066c8d8eccSSepherosa Ziehau DELAY(20); 4076c8d8eccSSepherosa Ziehau 4086c8d8eccSSepherosa Ziehau /* Issue the read EEPROM command. */ 4096c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_EE_ADDR, BGE_EE_READCMD | addr); 4106c8d8eccSSepherosa Ziehau 4116c8d8eccSSepherosa Ziehau /* Wait for completion */ 4126c8d8eccSSepherosa Ziehau for(i = 0; i < BNX_TIMEOUT * 10; i++) { 4136c8d8eccSSepherosa Ziehau DELAY(10); 4146c8d8eccSSepherosa Ziehau if (CSR_READ_4(sc, BGE_EE_ADDR) & BGE_EEADDR_DONE) 4156c8d8eccSSepherosa Ziehau break; 4166c8d8eccSSepherosa Ziehau } 4176c8d8eccSSepherosa Ziehau 4186c8d8eccSSepherosa Ziehau if (i == BNX_TIMEOUT) { 4196c8d8eccSSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "eeprom read timed out\n"); 4206c8d8eccSSepherosa Ziehau return(1); 4216c8d8eccSSepherosa Ziehau } 4226c8d8eccSSepherosa Ziehau 4236c8d8eccSSepherosa Ziehau /* Get result. */ 4246c8d8eccSSepherosa Ziehau byte = CSR_READ_4(sc, BGE_EE_DATA); 4256c8d8eccSSepherosa Ziehau 4266c8d8eccSSepherosa Ziehau *dest = (byte >> ((addr % 4) * 8)) & 0xFF; 4276c8d8eccSSepherosa Ziehau 4286c8d8eccSSepherosa Ziehau return(0); 4296c8d8eccSSepherosa Ziehau } 4306c8d8eccSSepherosa Ziehau 4316c8d8eccSSepherosa Ziehau /* 4326c8d8eccSSepherosa Ziehau * Read a sequence of bytes from the EEPROM. 4336c8d8eccSSepherosa Ziehau */ 4346c8d8eccSSepherosa Ziehau static int 4356c8d8eccSSepherosa Ziehau bnx_read_eeprom(struct bnx_softc *sc, caddr_t dest, uint32_t off, size_t len) 4366c8d8eccSSepherosa Ziehau { 4376c8d8eccSSepherosa Ziehau size_t i; 4386c8d8eccSSepherosa Ziehau int err; 4396c8d8eccSSepherosa Ziehau uint8_t byte; 4406c8d8eccSSepherosa Ziehau 4416c8d8eccSSepherosa Ziehau for (byte = 0, err = 0, i = 0; i < len; i++) { 4426c8d8eccSSepherosa Ziehau err = bnx_eeprom_getbyte(sc, off + i, &byte); 4436c8d8eccSSepherosa Ziehau if (err) 4446c8d8eccSSepherosa Ziehau break; 4456c8d8eccSSepherosa Ziehau *(dest + i) = byte; 4466c8d8eccSSepherosa Ziehau } 4476c8d8eccSSepherosa Ziehau 4486c8d8eccSSepherosa Ziehau return(err ? 1 : 0); 4496c8d8eccSSepherosa Ziehau } 4506c8d8eccSSepherosa Ziehau 4516c8d8eccSSepherosa Ziehau static int 4526c8d8eccSSepherosa Ziehau bnx_miibus_readreg(device_t dev, int phy, int reg) 4536c8d8eccSSepherosa Ziehau { 4546c8d8eccSSepherosa Ziehau struct bnx_softc *sc = device_get_softc(dev); 4556c8d8eccSSepherosa Ziehau uint32_t val; 4566c8d8eccSSepherosa Ziehau int i; 4576c8d8eccSSepherosa Ziehau 4586c8d8eccSSepherosa Ziehau KASSERT(phy == sc->bnx_phyno, 4596c8d8eccSSepherosa Ziehau ("invalid phyno %d, should be %d", phy, sc->bnx_phyno)); 4606c8d8eccSSepherosa Ziehau 4616c8d8eccSSepherosa Ziehau /* Clear the autopoll bit if set, otherwise may trigger PCI errors. */ 4626c8d8eccSSepherosa Ziehau if (sc->bnx_mi_mode & BGE_MIMODE_AUTOPOLL) { 4636c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MI_MODE, 4646c8d8eccSSepherosa Ziehau sc->bnx_mi_mode & ~BGE_MIMODE_AUTOPOLL); 4656c8d8eccSSepherosa Ziehau DELAY(80); 4666c8d8eccSSepherosa Ziehau } 4676c8d8eccSSepherosa Ziehau 4686c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MI_COMM, BGE_MICMD_READ | BGE_MICOMM_BUSY | 4696c8d8eccSSepherosa Ziehau BGE_MIPHY(phy) | BGE_MIREG(reg)); 4706c8d8eccSSepherosa Ziehau 4716c8d8eccSSepherosa Ziehau /* Poll for the PHY register access to complete. */ 4726c8d8eccSSepherosa Ziehau for (i = 0; i < BNX_TIMEOUT; i++) { 4736c8d8eccSSepherosa Ziehau DELAY(10); 4746c8d8eccSSepherosa Ziehau val = CSR_READ_4(sc, BGE_MI_COMM); 4756c8d8eccSSepherosa Ziehau if ((val & BGE_MICOMM_BUSY) == 0) { 4766c8d8eccSSepherosa Ziehau DELAY(5); 4776c8d8eccSSepherosa Ziehau val = CSR_READ_4(sc, BGE_MI_COMM); 4786c8d8eccSSepherosa Ziehau break; 4796c8d8eccSSepherosa Ziehau } 4806c8d8eccSSepherosa Ziehau } 4816c8d8eccSSepherosa Ziehau if (i == BNX_TIMEOUT) { 4826c8d8eccSSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "PHY read timed out " 4836c8d8eccSSepherosa Ziehau "(phy %d, reg %d, val 0x%08x)\n", phy, reg, val); 4846c8d8eccSSepherosa Ziehau val = 0; 4856c8d8eccSSepherosa Ziehau } 4866c8d8eccSSepherosa Ziehau 4876c8d8eccSSepherosa Ziehau /* Restore the autopoll bit if necessary. */ 4886c8d8eccSSepherosa Ziehau if (sc->bnx_mi_mode & BGE_MIMODE_AUTOPOLL) { 4896c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MI_MODE, sc->bnx_mi_mode); 4906c8d8eccSSepherosa Ziehau DELAY(80); 4916c8d8eccSSepherosa Ziehau } 4926c8d8eccSSepherosa Ziehau 4936c8d8eccSSepherosa Ziehau if (val & BGE_MICOMM_READFAIL) 4946c8d8eccSSepherosa Ziehau return 0; 4956c8d8eccSSepherosa Ziehau 4966c8d8eccSSepherosa Ziehau return (val & 0xFFFF); 4976c8d8eccSSepherosa Ziehau } 4986c8d8eccSSepherosa Ziehau 4996c8d8eccSSepherosa Ziehau static int 5006c8d8eccSSepherosa Ziehau bnx_miibus_writereg(device_t dev, int phy, int reg, int val) 5016c8d8eccSSepherosa Ziehau { 5026c8d8eccSSepherosa Ziehau struct bnx_softc *sc = device_get_softc(dev); 5036c8d8eccSSepherosa Ziehau int i; 5046c8d8eccSSepherosa Ziehau 5056c8d8eccSSepherosa Ziehau KASSERT(phy == sc->bnx_phyno, 5066c8d8eccSSepherosa Ziehau ("invalid phyno %d, should be %d", phy, sc->bnx_phyno)); 5076c8d8eccSSepherosa Ziehau 5086c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5906 && 5096c8d8eccSSepherosa Ziehau (reg == BRGPHY_MII_1000CTL || reg == BRGPHY_MII_AUXCTL)) 5106c8d8eccSSepherosa Ziehau return 0; 5116c8d8eccSSepherosa Ziehau 5126c8d8eccSSepherosa Ziehau /* Clear the autopoll bit if set, otherwise may trigger PCI errors. */ 5136c8d8eccSSepherosa Ziehau if (sc->bnx_mi_mode & BGE_MIMODE_AUTOPOLL) { 5146c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MI_MODE, 5156c8d8eccSSepherosa Ziehau sc->bnx_mi_mode & ~BGE_MIMODE_AUTOPOLL); 5166c8d8eccSSepherosa Ziehau DELAY(80); 5176c8d8eccSSepherosa Ziehau } 5186c8d8eccSSepherosa Ziehau 5196c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MI_COMM, BGE_MICMD_WRITE | BGE_MICOMM_BUSY | 5206c8d8eccSSepherosa Ziehau BGE_MIPHY(phy) | BGE_MIREG(reg) | val); 5216c8d8eccSSepherosa Ziehau 5226c8d8eccSSepherosa Ziehau for (i = 0; i < BNX_TIMEOUT; i++) { 5236c8d8eccSSepherosa Ziehau DELAY(10); 5246c8d8eccSSepherosa Ziehau if (!(CSR_READ_4(sc, BGE_MI_COMM) & BGE_MICOMM_BUSY)) { 5256c8d8eccSSepherosa Ziehau DELAY(5); 5266c8d8eccSSepherosa Ziehau CSR_READ_4(sc, BGE_MI_COMM); /* dummy read */ 5276c8d8eccSSepherosa Ziehau break; 5286c8d8eccSSepherosa Ziehau } 5296c8d8eccSSepherosa Ziehau } 5306c8d8eccSSepherosa Ziehau if (i == BNX_TIMEOUT) { 5316c8d8eccSSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "PHY write timed out " 5326c8d8eccSSepherosa Ziehau "(phy %d, reg %d, val %d)\n", phy, reg, val); 5336c8d8eccSSepherosa Ziehau } 5346c8d8eccSSepherosa Ziehau 5356c8d8eccSSepherosa Ziehau /* Restore the autopoll bit if necessary. */ 5366c8d8eccSSepherosa Ziehau if (sc->bnx_mi_mode & BGE_MIMODE_AUTOPOLL) { 5376c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MI_MODE, sc->bnx_mi_mode); 5386c8d8eccSSepherosa Ziehau DELAY(80); 5396c8d8eccSSepherosa Ziehau } 5406c8d8eccSSepherosa Ziehau 5416c8d8eccSSepherosa Ziehau return 0; 5426c8d8eccSSepherosa Ziehau } 5436c8d8eccSSepherosa Ziehau 5446c8d8eccSSepherosa Ziehau static void 5456c8d8eccSSepherosa Ziehau bnx_miibus_statchg(device_t dev) 5466c8d8eccSSepherosa Ziehau { 5476c8d8eccSSepherosa Ziehau struct bnx_softc *sc; 5486c8d8eccSSepherosa Ziehau struct mii_data *mii; 5496c8d8eccSSepherosa Ziehau 5506c8d8eccSSepherosa Ziehau sc = device_get_softc(dev); 5516c8d8eccSSepherosa Ziehau mii = device_get_softc(sc->bnx_miibus); 5526c8d8eccSSepherosa Ziehau 5536c8d8eccSSepherosa Ziehau if ((mii->mii_media_status & (IFM_ACTIVE | IFM_AVALID)) == 5546c8d8eccSSepherosa Ziehau (IFM_ACTIVE | IFM_AVALID)) { 5556c8d8eccSSepherosa Ziehau switch (IFM_SUBTYPE(mii->mii_media_active)) { 5566c8d8eccSSepherosa Ziehau case IFM_10_T: 5576c8d8eccSSepherosa Ziehau case IFM_100_TX: 5586c8d8eccSSepherosa Ziehau sc->bnx_link = 1; 5596c8d8eccSSepherosa Ziehau break; 5606c8d8eccSSepherosa Ziehau case IFM_1000_T: 5616c8d8eccSSepherosa Ziehau case IFM_1000_SX: 5626c8d8eccSSepherosa Ziehau case IFM_2500_SX: 5636c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev != BGE_ASICREV_BCM5906) 5646c8d8eccSSepherosa Ziehau sc->bnx_link = 1; 5656c8d8eccSSepherosa Ziehau else 5666c8d8eccSSepherosa Ziehau sc->bnx_link = 0; 5676c8d8eccSSepherosa Ziehau break; 5686c8d8eccSSepherosa Ziehau default: 5696c8d8eccSSepherosa Ziehau sc->bnx_link = 0; 5706c8d8eccSSepherosa Ziehau break; 5716c8d8eccSSepherosa Ziehau } 5726c8d8eccSSepherosa Ziehau } else { 5736c8d8eccSSepherosa Ziehau sc->bnx_link = 0; 5746c8d8eccSSepherosa Ziehau } 5756c8d8eccSSepherosa Ziehau if (sc->bnx_link == 0) 5766c8d8eccSSepherosa Ziehau return; 5776c8d8eccSSepherosa Ziehau 5786c8d8eccSSepherosa Ziehau BNX_CLRBIT(sc, BGE_MAC_MODE, BGE_MACMODE_PORTMODE); 5796c8d8eccSSepherosa Ziehau if (IFM_SUBTYPE(mii->mii_media_active) == IFM_1000_T || 5806c8d8eccSSepherosa Ziehau IFM_SUBTYPE(mii->mii_media_active) == IFM_1000_SX) { 5816c8d8eccSSepherosa Ziehau BNX_SETBIT(sc, BGE_MAC_MODE, BGE_PORTMODE_GMII); 5826c8d8eccSSepherosa Ziehau } else { 5836c8d8eccSSepherosa Ziehau BNX_SETBIT(sc, BGE_MAC_MODE, BGE_PORTMODE_MII); 5846c8d8eccSSepherosa Ziehau } 5856c8d8eccSSepherosa Ziehau 5866c8d8eccSSepherosa Ziehau if ((mii->mii_media_active & IFM_GMASK) == IFM_FDX) { 5876c8d8eccSSepherosa Ziehau BNX_CLRBIT(sc, BGE_MAC_MODE, BGE_MACMODE_HALF_DUPLEX); 5886c8d8eccSSepherosa Ziehau } else { 5896c8d8eccSSepherosa Ziehau BNX_SETBIT(sc, BGE_MAC_MODE, BGE_MACMODE_HALF_DUPLEX); 5906c8d8eccSSepherosa Ziehau } 5916c8d8eccSSepherosa Ziehau } 5926c8d8eccSSepherosa Ziehau 5936c8d8eccSSepherosa Ziehau /* 5946c8d8eccSSepherosa Ziehau * Memory management for jumbo frames. 5956c8d8eccSSepherosa Ziehau */ 5966c8d8eccSSepherosa Ziehau static int 5976c8d8eccSSepherosa Ziehau bnx_alloc_jumbo_mem(struct bnx_softc *sc) 5986c8d8eccSSepherosa Ziehau { 5996c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 6006c8d8eccSSepherosa Ziehau struct bnx_jslot *entry; 6016c8d8eccSSepherosa Ziehau uint8_t *ptr; 6026c8d8eccSSepherosa Ziehau bus_addr_t paddr; 6036c8d8eccSSepherosa Ziehau int i, error; 6046c8d8eccSSepherosa Ziehau 6056c8d8eccSSepherosa Ziehau /* 6066c8d8eccSSepherosa Ziehau * Create tag for jumbo mbufs. 6076c8d8eccSSepherosa Ziehau * This is really a bit of a kludge. We allocate a special 6086c8d8eccSSepherosa Ziehau * jumbo buffer pool which (thanks to the way our DMA 6096c8d8eccSSepherosa Ziehau * memory allocation works) will consist of contiguous 6106c8d8eccSSepherosa Ziehau * pages. This means that even though a jumbo buffer might 6116c8d8eccSSepherosa Ziehau * be larger than a page size, we don't really need to 6126c8d8eccSSepherosa Ziehau * map it into more than one DMA segment. However, the 6136c8d8eccSSepherosa Ziehau * default mbuf tag will result in multi-segment mappings, 6146c8d8eccSSepherosa Ziehau * so we have to create a special jumbo mbuf tag that 6156c8d8eccSSepherosa Ziehau * lets us get away with mapping the jumbo buffers as 6166c8d8eccSSepherosa Ziehau * a single segment. I think eventually the driver should 6176c8d8eccSSepherosa Ziehau * be changed so that it uses ordinary mbufs and cluster 6186c8d8eccSSepherosa Ziehau * buffers, i.e. jumbo frames can span multiple DMA 6196c8d8eccSSepherosa Ziehau * descriptors. But that's a project for another day. 6206c8d8eccSSepherosa Ziehau */ 6216c8d8eccSSepherosa Ziehau 6226c8d8eccSSepherosa Ziehau /* 6236c8d8eccSSepherosa Ziehau * Create DMA stuffs for jumbo RX ring. 6246c8d8eccSSepherosa Ziehau */ 6256c8d8eccSSepherosa Ziehau error = bnx_dma_block_alloc(sc, BGE_JUMBO_RX_RING_SZ, 6266c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_rx_jumbo_ring_tag, 6276c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_rx_jumbo_ring_map, 6286c8d8eccSSepherosa Ziehau (void *)&sc->bnx_ldata.bnx_rx_jumbo_ring, 6296c8d8eccSSepherosa Ziehau &sc->bnx_ldata.bnx_rx_jumbo_ring_paddr); 6306c8d8eccSSepherosa Ziehau if (error) { 6316c8d8eccSSepherosa Ziehau if_printf(ifp, "could not create jumbo RX ring\n"); 6326c8d8eccSSepherosa Ziehau return error; 6336c8d8eccSSepherosa Ziehau } 6346c8d8eccSSepherosa Ziehau 6356c8d8eccSSepherosa Ziehau /* 6366c8d8eccSSepherosa Ziehau * Create DMA stuffs for jumbo buffer block. 6376c8d8eccSSepherosa Ziehau */ 6386c8d8eccSSepherosa Ziehau error = bnx_dma_block_alloc(sc, BNX_JMEM, 6396c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_jumbo_tag, 6406c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_jumbo_map, 6416c8d8eccSSepherosa Ziehau (void **)&sc->bnx_ldata.bnx_jumbo_buf, 6426c8d8eccSSepherosa Ziehau &paddr); 6436c8d8eccSSepherosa Ziehau if (error) { 6446c8d8eccSSepherosa Ziehau if_printf(ifp, "could not create jumbo buffer\n"); 6456c8d8eccSSepherosa Ziehau return error; 6466c8d8eccSSepherosa Ziehau } 6476c8d8eccSSepherosa Ziehau 6486c8d8eccSSepherosa Ziehau SLIST_INIT(&sc->bnx_jfree_listhead); 6496c8d8eccSSepherosa Ziehau 6506c8d8eccSSepherosa Ziehau /* 6516c8d8eccSSepherosa Ziehau * Now divide it up into 9K pieces and save the addresses 6526c8d8eccSSepherosa Ziehau * in an array. Note that we play an evil trick here by using 6536c8d8eccSSepherosa Ziehau * the first few bytes in the buffer to hold the the address 6546c8d8eccSSepherosa Ziehau * of the softc structure for this interface. This is because 6556c8d8eccSSepherosa Ziehau * bnx_jfree() needs it, but it is called by the mbuf management 6566c8d8eccSSepherosa Ziehau * code which will not pass it to us explicitly. 6576c8d8eccSSepherosa Ziehau */ 6586c8d8eccSSepherosa Ziehau for (i = 0, ptr = sc->bnx_ldata.bnx_jumbo_buf; i < BNX_JSLOTS; i++) { 6596c8d8eccSSepherosa Ziehau entry = &sc->bnx_cdata.bnx_jslots[i]; 6606c8d8eccSSepherosa Ziehau entry->bnx_sc = sc; 6616c8d8eccSSepherosa Ziehau entry->bnx_buf = ptr; 6626c8d8eccSSepherosa Ziehau entry->bnx_paddr = paddr; 6636c8d8eccSSepherosa Ziehau entry->bnx_inuse = 0; 6646c8d8eccSSepherosa Ziehau entry->bnx_slot = i; 6656c8d8eccSSepherosa Ziehau SLIST_INSERT_HEAD(&sc->bnx_jfree_listhead, entry, jslot_link); 6666c8d8eccSSepherosa Ziehau 6676c8d8eccSSepherosa Ziehau ptr += BNX_JLEN; 6686c8d8eccSSepherosa Ziehau paddr += BNX_JLEN; 6696c8d8eccSSepherosa Ziehau } 6706c8d8eccSSepherosa Ziehau return 0; 6716c8d8eccSSepherosa Ziehau } 6726c8d8eccSSepherosa Ziehau 6736c8d8eccSSepherosa Ziehau static void 6746c8d8eccSSepherosa Ziehau bnx_free_jumbo_mem(struct bnx_softc *sc) 6756c8d8eccSSepherosa Ziehau { 6766c8d8eccSSepherosa Ziehau /* Destroy jumbo RX ring. */ 6776c8d8eccSSepherosa Ziehau bnx_dma_block_free(sc->bnx_cdata.bnx_rx_jumbo_ring_tag, 6786c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_jumbo_ring_map, 6796c8d8eccSSepherosa Ziehau sc->bnx_ldata.bnx_rx_jumbo_ring); 6806c8d8eccSSepherosa Ziehau 6816c8d8eccSSepherosa Ziehau /* Destroy jumbo buffer block. */ 6826c8d8eccSSepherosa Ziehau bnx_dma_block_free(sc->bnx_cdata.bnx_jumbo_tag, 6836c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_jumbo_map, 6846c8d8eccSSepherosa Ziehau sc->bnx_ldata.bnx_jumbo_buf); 6856c8d8eccSSepherosa Ziehau } 6866c8d8eccSSepherosa Ziehau 6876c8d8eccSSepherosa Ziehau /* 6886c8d8eccSSepherosa Ziehau * Allocate a jumbo buffer. 6896c8d8eccSSepherosa Ziehau */ 6906c8d8eccSSepherosa Ziehau static struct bnx_jslot * 6916c8d8eccSSepherosa Ziehau bnx_jalloc(struct bnx_softc *sc) 6926c8d8eccSSepherosa Ziehau { 6936c8d8eccSSepherosa Ziehau struct bnx_jslot *entry; 6946c8d8eccSSepherosa Ziehau 6956c8d8eccSSepherosa Ziehau lwkt_serialize_enter(&sc->bnx_jslot_serializer); 6966c8d8eccSSepherosa Ziehau entry = SLIST_FIRST(&sc->bnx_jfree_listhead); 6976c8d8eccSSepherosa Ziehau if (entry) { 6986c8d8eccSSepherosa Ziehau SLIST_REMOVE_HEAD(&sc->bnx_jfree_listhead, jslot_link); 6996c8d8eccSSepherosa Ziehau entry->bnx_inuse = 1; 7006c8d8eccSSepherosa Ziehau } else { 7016c8d8eccSSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "no free jumbo buffers\n"); 7026c8d8eccSSepherosa Ziehau } 7036c8d8eccSSepherosa Ziehau lwkt_serialize_exit(&sc->bnx_jslot_serializer); 7046c8d8eccSSepherosa Ziehau return(entry); 7056c8d8eccSSepherosa Ziehau } 7066c8d8eccSSepherosa Ziehau 7076c8d8eccSSepherosa Ziehau /* 7086c8d8eccSSepherosa Ziehau * Adjust usage count on a jumbo buffer. 7096c8d8eccSSepherosa Ziehau */ 7106c8d8eccSSepherosa Ziehau static void 7116c8d8eccSSepherosa Ziehau bnx_jref(void *arg) 7126c8d8eccSSepherosa Ziehau { 7136c8d8eccSSepherosa Ziehau struct bnx_jslot *entry = (struct bnx_jslot *)arg; 7146c8d8eccSSepherosa Ziehau struct bnx_softc *sc = entry->bnx_sc; 7156c8d8eccSSepherosa Ziehau 7166c8d8eccSSepherosa Ziehau if (sc == NULL) 7176c8d8eccSSepherosa Ziehau panic("bnx_jref: can't find softc pointer!"); 7186c8d8eccSSepherosa Ziehau 7196c8d8eccSSepherosa Ziehau if (&sc->bnx_cdata.bnx_jslots[entry->bnx_slot] != entry) { 7206c8d8eccSSepherosa Ziehau panic("bnx_jref: asked to reference buffer " 7216c8d8eccSSepherosa Ziehau "that we don't manage!"); 7226c8d8eccSSepherosa Ziehau } else if (entry->bnx_inuse == 0) { 7236c8d8eccSSepherosa Ziehau panic("bnx_jref: buffer already free!"); 7246c8d8eccSSepherosa Ziehau } else { 7256c8d8eccSSepherosa Ziehau atomic_add_int(&entry->bnx_inuse, 1); 7266c8d8eccSSepherosa Ziehau } 7276c8d8eccSSepherosa Ziehau } 7286c8d8eccSSepherosa Ziehau 7296c8d8eccSSepherosa Ziehau /* 7306c8d8eccSSepherosa Ziehau * Release a jumbo buffer. 7316c8d8eccSSepherosa Ziehau */ 7326c8d8eccSSepherosa Ziehau static void 7336c8d8eccSSepherosa Ziehau bnx_jfree(void *arg) 7346c8d8eccSSepherosa Ziehau { 7356c8d8eccSSepherosa Ziehau struct bnx_jslot *entry = (struct bnx_jslot *)arg; 7366c8d8eccSSepherosa Ziehau struct bnx_softc *sc = entry->bnx_sc; 7376c8d8eccSSepherosa Ziehau 7386c8d8eccSSepherosa Ziehau if (sc == NULL) 7396c8d8eccSSepherosa Ziehau panic("bnx_jfree: can't find softc pointer!"); 7406c8d8eccSSepherosa Ziehau 7416c8d8eccSSepherosa Ziehau if (&sc->bnx_cdata.bnx_jslots[entry->bnx_slot] != entry) { 7426c8d8eccSSepherosa Ziehau panic("bnx_jfree: asked to free buffer that we don't manage!"); 7436c8d8eccSSepherosa Ziehau } else if (entry->bnx_inuse == 0) { 7446c8d8eccSSepherosa Ziehau panic("bnx_jfree: buffer already free!"); 7456c8d8eccSSepherosa Ziehau } else { 7466c8d8eccSSepherosa Ziehau /* 7476c8d8eccSSepherosa Ziehau * Possible MP race to 0, use the serializer. The atomic insn 7486c8d8eccSSepherosa Ziehau * is still needed for races against bnx_jref(). 7496c8d8eccSSepherosa Ziehau */ 7506c8d8eccSSepherosa Ziehau lwkt_serialize_enter(&sc->bnx_jslot_serializer); 7516c8d8eccSSepherosa Ziehau atomic_subtract_int(&entry->bnx_inuse, 1); 7526c8d8eccSSepherosa Ziehau if (entry->bnx_inuse == 0) { 7536c8d8eccSSepherosa Ziehau SLIST_INSERT_HEAD(&sc->bnx_jfree_listhead, 7546c8d8eccSSepherosa Ziehau entry, jslot_link); 7556c8d8eccSSepherosa Ziehau } 7566c8d8eccSSepherosa Ziehau lwkt_serialize_exit(&sc->bnx_jslot_serializer); 7576c8d8eccSSepherosa Ziehau } 7586c8d8eccSSepherosa Ziehau } 7596c8d8eccSSepherosa Ziehau 7606c8d8eccSSepherosa Ziehau 7616c8d8eccSSepherosa Ziehau /* 7626c8d8eccSSepherosa Ziehau * Intialize a standard receive ring descriptor. 7636c8d8eccSSepherosa Ziehau */ 7646c8d8eccSSepherosa Ziehau static int 7656c8d8eccSSepherosa Ziehau bnx_newbuf_std(struct bnx_softc *sc, int i, int init) 7666c8d8eccSSepherosa Ziehau { 7676c8d8eccSSepherosa Ziehau struct mbuf *m_new = NULL; 7686c8d8eccSSepherosa Ziehau bus_dma_segment_t seg; 7696c8d8eccSSepherosa Ziehau bus_dmamap_t map; 7706c8d8eccSSepherosa Ziehau int error, nsegs; 7716c8d8eccSSepherosa Ziehau 7726c8d8eccSSepherosa Ziehau m_new = m_getcl(init ? MB_WAIT : MB_DONTWAIT, MT_DATA, M_PKTHDR); 7736c8d8eccSSepherosa Ziehau if (m_new == NULL) 7746c8d8eccSSepherosa Ziehau return ENOBUFS; 7756c8d8eccSSepherosa Ziehau m_new->m_len = m_new->m_pkthdr.len = MCLBYTES; 7766c8d8eccSSepherosa Ziehau m_adj(m_new, ETHER_ALIGN); 7776c8d8eccSSepherosa Ziehau 7786c8d8eccSSepherosa Ziehau error = bus_dmamap_load_mbuf_segment(sc->bnx_cdata.bnx_rx_mtag, 7796c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_tmpmap, m_new, 7806c8d8eccSSepherosa Ziehau &seg, 1, &nsegs, BUS_DMA_NOWAIT); 7816c8d8eccSSepherosa Ziehau if (error) { 7826c8d8eccSSepherosa Ziehau m_freem(m_new); 7836c8d8eccSSepherosa Ziehau return error; 7846c8d8eccSSepherosa Ziehau } 7856c8d8eccSSepherosa Ziehau 7866c8d8eccSSepherosa Ziehau if (!init) { 7876c8d8eccSSepherosa Ziehau bus_dmamap_sync(sc->bnx_cdata.bnx_rx_mtag, 7886c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_std_dmamap[i], 7896c8d8eccSSepherosa Ziehau BUS_DMASYNC_POSTREAD); 7906c8d8eccSSepherosa Ziehau bus_dmamap_unload(sc->bnx_cdata.bnx_rx_mtag, 7916c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_std_dmamap[i]); 7926c8d8eccSSepherosa Ziehau } 7936c8d8eccSSepherosa Ziehau 7946c8d8eccSSepherosa Ziehau map = sc->bnx_cdata.bnx_rx_tmpmap; 7956c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_tmpmap = sc->bnx_cdata.bnx_rx_std_dmamap[i]; 7966c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_std_dmamap[i] = map; 7976c8d8eccSSepherosa Ziehau 7986c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_std_chain[i].bnx_mbuf = m_new; 7996c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_std_chain[i].bnx_paddr = seg.ds_addr; 8006c8d8eccSSepherosa Ziehau 8016c8d8eccSSepherosa Ziehau bnx_setup_rxdesc_std(sc, i); 8026c8d8eccSSepherosa Ziehau return 0; 8036c8d8eccSSepherosa Ziehau } 8046c8d8eccSSepherosa Ziehau 8056c8d8eccSSepherosa Ziehau static void 8066c8d8eccSSepherosa Ziehau bnx_setup_rxdesc_std(struct bnx_softc *sc, int i) 8076c8d8eccSSepherosa Ziehau { 8086c8d8eccSSepherosa Ziehau struct bnx_rxchain *rc; 8096c8d8eccSSepherosa Ziehau struct bge_rx_bd *r; 8106c8d8eccSSepherosa Ziehau 8116c8d8eccSSepherosa Ziehau rc = &sc->bnx_cdata.bnx_rx_std_chain[i]; 8126c8d8eccSSepherosa Ziehau r = &sc->bnx_ldata.bnx_rx_std_ring[i]; 8136c8d8eccSSepherosa Ziehau 8146c8d8eccSSepherosa Ziehau r->bge_addr.bge_addr_lo = BGE_ADDR_LO(rc->bnx_paddr); 8156c8d8eccSSepherosa Ziehau r->bge_addr.bge_addr_hi = BGE_ADDR_HI(rc->bnx_paddr); 8166c8d8eccSSepherosa Ziehau r->bge_len = rc->bnx_mbuf->m_len; 8176c8d8eccSSepherosa Ziehau r->bge_idx = i; 8186c8d8eccSSepherosa Ziehau r->bge_flags = BGE_RXBDFLAG_END; 8196c8d8eccSSepherosa Ziehau } 8206c8d8eccSSepherosa Ziehau 8216c8d8eccSSepherosa Ziehau /* 8226c8d8eccSSepherosa Ziehau * Initialize a jumbo receive ring descriptor. This allocates 8236c8d8eccSSepherosa Ziehau * a jumbo buffer from the pool managed internally by the driver. 8246c8d8eccSSepherosa Ziehau */ 8256c8d8eccSSepherosa Ziehau static int 8266c8d8eccSSepherosa Ziehau bnx_newbuf_jumbo(struct bnx_softc *sc, int i, int init) 8276c8d8eccSSepherosa Ziehau { 8286c8d8eccSSepherosa Ziehau struct mbuf *m_new = NULL; 8296c8d8eccSSepherosa Ziehau struct bnx_jslot *buf; 8306c8d8eccSSepherosa Ziehau bus_addr_t paddr; 8316c8d8eccSSepherosa Ziehau 8326c8d8eccSSepherosa Ziehau /* Allocate the mbuf. */ 8336c8d8eccSSepherosa Ziehau MGETHDR(m_new, init ? MB_WAIT : MB_DONTWAIT, MT_DATA); 8346c8d8eccSSepherosa Ziehau if (m_new == NULL) 8356c8d8eccSSepherosa Ziehau return ENOBUFS; 8366c8d8eccSSepherosa Ziehau 8376c8d8eccSSepherosa Ziehau /* Allocate the jumbo buffer */ 8386c8d8eccSSepherosa Ziehau buf = bnx_jalloc(sc); 8396c8d8eccSSepherosa Ziehau if (buf == NULL) { 8406c8d8eccSSepherosa Ziehau m_freem(m_new); 8416c8d8eccSSepherosa Ziehau return ENOBUFS; 8426c8d8eccSSepherosa Ziehau } 8436c8d8eccSSepherosa Ziehau 8446c8d8eccSSepherosa Ziehau /* Attach the buffer to the mbuf. */ 8456c8d8eccSSepherosa Ziehau m_new->m_ext.ext_arg = buf; 8466c8d8eccSSepherosa Ziehau m_new->m_ext.ext_buf = buf->bnx_buf; 8476c8d8eccSSepherosa Ziehau m_new->m_ext.ext_free = bnx_jfree; 8486c8d8eccSSepherosa Ziehau m_new->m_ext.ext_ref = bnx_jref; 8496c8d8eccSSepherosa Ziehau m_new->m_ext.ext_size = BNX_JUMBO_FRAMELEN; 8506c8d8eccSSepherosa Ziehau 8516c8d8eccSSepherosa Ziehau m_new->m_flags |= M_EXT; 8526c8d8eccSSepherosa Ziehau 8536c8d8eccSSepherosa Ziehau m_new->m_data = m_new->m_ext.ext_buf; 8546c8d8eccSSepherosa Ziehau m_new->m_len = m_new->m_pkthdr.len = m_new->m_ext.ext_size; 8556c8d8eccSSepherosa Ziehau 8566c8d8eccSSepherosa Ziehau paddr = buf->bnx_paddr; 8576c8d8eccSSepherosa Ziehau m_adj(m_new, ETHER_ALIGN); 8586c8d8eccSSepherosa Ziehau paddr += ETHER_ALIGN; 8596c8d8eccSSepherosa Ziehau 8606c8d8eccSSepherosa Ziehau /* Save necessary information */ 8616c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_jumbo_chain[i].bnx_mbuf = m_new; 8626c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_jumbo_chain[i].bnx_paddr = paddr; 8636c8d8eccSSepherosa Ziehau 8646c8d8eccSSepherosa Ziehau /* Set up the descriptor. */ 8656c8d8eccSSepherosa Ziehau bnx_setup_rxdesc_jumbo(sc, i); 8666c8d8eccSSepherosa Ziehau return 0; 8676c8d8eccSSepherosa Ziehau } 8686c8d8eccSSepherosa Ziehau 8696c8d8eccSSepherosa Ziehau static void 8706c8d8eccSSepherosa Ziehau bnx_setup_rxdesc_jumbo(struct bnx_softc *sc, int i) 8716c8d8eccSSepherosa Ziehau { 8726c8d8eccSSepherosa Ziehau struct bge_rx_bd *r; 8736c8d8eccSSepherosa Ziehau struct bnx_rxchain *rc; 8746c8d8eccSSepherosa Ziehau 8756c8d8eccSSepherosa Ziehau r = &sc->bnx_ldata.bnx_rx_jumbo_ring[i]; 8766c8d8eccSSepherosa Ziehau rc = &sc->bnx_cdata.bnx_rx_jumbo_chain[i]; 8776c8d8eccSSepherosa Ziehau 8786c8d8eccSSepherosa Ziehau r->bge_addr.bge_addr_lo = BGE_ADDR_LO(rc->bnx_paddr); 8796c8d8eccSSepherosa Ziehau r->bge_addr.bge_addr_hi = BGE_ADDR_HI(rc->bnx_paddr); 8806c8d8eccSSepherosa Ziehau r->bge_len = rc->bnx_mbuf->m_len; 8816c8d8eccSSepherosa Ziehau r->bge_idx = i; 8826c8d8eccSSepherosa Ziehau r->bge_flags = BGE_RXBDFLAG_END|BGE_RXBDFLAG_JUMBO_RING; 8836c8d8eccSSepherosa Ziehau } 8846c8d8eccSSepherosa Ziehau 8856c8d8eccSSepherosa Ziehau static int 8866c8d8eccSSepherosa Ziehau bnx_init_rx_ring_std(struct bnx_softc *sc) 8876c8d8eccSSepherosa Ziehau { 8886c8d8eccSSepherosa Ziehau int i, error; 8896c8d8eccSSepherosa Ziehau 8906c8d8eccSSepherosa Ziehau for (i = 0; i < BGE_STD_RX_RING_CNT; i++) { 8916c8d8eccSSepherosa Ziehau error = bnx_newbuf_std(sc, i, 1); 8926c8d8eccSSepherosa Ziehau if (error) 8936c8d8eccSSepherosa Ziehau return error; 8946c8d8eccSSepherosa Ziehau }; 8956c8d8eccSSepherosa Ziehau 8966c8d8eccSSepherosa Ziehau sc->bnx_std = BGE_STD_RX_RING_CNT - 1; 8976c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_RX_STD_PROD_LO, sc->bnx_std); 8986c8d8eccSSepherosa Ziehau 8996c8d8eccSSepherosa Ziehau return(0); 9006c8d8eccSSepherosa Ziehau } 9016c8d8eccSSepherosa Ziehau 9026c8d8eccSSepherosa Ziehau static void 9036c8d8eccSSepherosa Ziehau bnx_free_rx_ring_std(struct bnx_softc *sc) 9046c8d8eccSSepherosa Ziehau { 9056c8d8eccSSepherosa Ziehau int i; 9066c8d8eccSSepherosa Ziehau 9076c8d8eccSSepherosa Ziehau for (i = 0; i < BGE_STD_RX_RING_CNT; i++) { 9086c8d8eccSSepherosa Ziehau struct bnx_rxchain *rc = &sc->bnx_cdata.bnx_rx_std_chain[i]; 9096c8d8eccSSepherosa Ziehau 9106c8d8eccSSepherosa Ziehau if (rc->bnx_mbuf != NULL) { 9116c8d8eccSSepherosa Ziehau bus_dmamap_unload(sc->bnx_cdata.bnx_rx_mtag, 9126c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_std_dmamap[i]); 9136c8d8eccSSepherosa Ziehau m_freem(rc->bnx_mbuf); 9146c8d8eccSSepherosa Ziehau rc->bnx_mbuf = NULL; 9156c8d8eccSSepherosa Ziehau } 9166c8d8eccSSepherosa Ziehau bzero(&sc->bnx_ldata.bnx_rx_std_ring[i], 9176c8d8eccSSepherosa Ziehau sizeof(struct bge_rx_bd)); 9186c8d8eccSSepherosa Ziehau } 9196c8d8eccSSepherosa Ziehau } 9206c8d8eccSSepherosa Ziehau 9216c8d8eccSSepherosa Ziehau static int 9226c8d8eccSSepherosa Ziehau bnx_init_rx_ring_jumbo(struct bnx_softc *sc) 9236c8d8eccSSepherosa Ziehau { 9246c8d8eccSSepherosa Ziehau struct bge_rcb *rcb; 9256c8d8eccSSepherosa Ziehau int i, error; 9266c8d8eccSSepherosa Ziehau 9276c8d8eccSSepherosa Ziehau for (i = 0; i < BGE_JUMBO_RX_RING_CNT; i++) { 9286c8d8eccSSepherosa Ziehau error = bnx_newbuf_jumbo(sc, i, 1); 9296c8d8eccSSepherosa Ziehau if (error) 9306c8d8eccSSepherosa Ziehau return error; 9316c8d8eccSSepherosa Ziehau }; 9326c8d8eccSSepherosa Ziehau 9336c8d8eccSSepherosa Ziehau sc->bnx_jumbo = BGE_JUMBO_RX_RING_CNT - 1; 9346c8d8eccSSepherosa Ziehau 9356c8d8eccSSepherosa Ziehau rcb = &sc->bnx_ldata.bnx_info.bnx_jumbo_rx_rcb; 9366c8d8eccSSepherosa Ziehau rcb->bge_maxlen_flags = BGE_RCB_MAXLEN_FLAGS(0, 0); 9376c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RX_JUMBO_RCB_MAXLEN_FLAGS, rcb->bge_maxlen_flags); 9386c8d8eccSSepherosa Ziehau 9396c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_RX_JUMBO_PROD_LO, sc->bnx_jumbo); 9406c8d8eccSSepherosa Ziehau 9416c8d8eccSSepherosa Ziehau return(0); 9426c8d8eccSSepherosa Ziehau } 9436c8d8eccSSepherosa Ziehau 9446c8d8eccSSepherosa Ziehau static void 9456c8d8eccSSepherosa Ziehau bnx_free_rx_ring_jumbo(struct bnx_softc *sc) 9466c8d8eccSSepherosa Ziehau { 9476c8d8eccSSepherosa Ziehau int i; 9486c8d8eccSSepherosa Ziehau 9496c8d8eccSSepherosa Ziehau for (i = 0; i < BGE_JUMBO_RX_RING_CNT; i++) { 9506c8d8eccSSepherosa Ziehau struct bnx_rxchain *rc = &sc->bnx_cdata.bnx_rx_jumbo_chain[i]; 9516c8d8eccSSepherosa Ziehau 9526c8d8eccSSepherosa Ziehau if (rc->bnx_mbuf != NULL) { 9536c8d8eccSSepherosa Ziehau m_freem(rc->bnx_mbuf); 9546c8d8eccSSepherosa Ziehau rc->bnx_mbuf = NULL; 9556c8d8eccSSepherosa Ziehau } 9566c8d8eccSSepherosa Ziehau bzero(&sc->bnx_ldata.bnx_rx_jumbo_ring[i], 9576c8d8eccSSepherosa Ziehau sizeof(struct bge_rx_bd)); 9586c8d8eccSSepherosa Ziehau } 9596c8d8eccSSepherosa Ziehau } 9606c8d8eccSSepherosa Ziehau 9616c8d8eccSSepherosa Ziehau static void 9626c8d8eccSSepherosa Ziehau bnx_free_tx_ring(struct bnx_softc *sc) 9636c8d8eccSSepherosa Ziehau { 9646c8d8eccSSepherosa Ziehau int i; 9656c8d8eccSSepherosa Ziehau 9666c8d8eccSSepherosa Ziehau for (i = 0; i < BGE_TX_RING_CNT; i++) { 9676c8d8eccSSepherosa Ziehau if (sc->bnx_cdata.bnx_tx_chain[i] != NULL) { 9686c8d8eccSSepherosa Ziehau bus_dmamap_unload(sc->bnx_cdata.bnx_tx_mtag, 9696c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_tx_dmamap[i]); 9706c8d8eccSSepherosa Ziehau m_freem(sc->bnx_cdata.bnx_tx_chain[i]); 9716c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_tx_chain[i] = NULL; 9726c8d8eccSSepherosa Ziehau } 9736c8d8eccSSepherosa Ziehau bzero(&sc->bnx_ldata.bnx_tx_ring[i], 9746c8d8eccSSepherosa Ziehau sizeof(struct bge_tx_bd)); 9756c8d8eccSSepherosa Ziehau } 9766c8d8eccSSepherosa Ziehau } 9776c8d8eccSSepherosa Ziehau 9786c8d8eccSSepherosa Ziehau static int 9796c8d8eccSSepherosa Ziehau bnx_init_tx_ring(struct bnx_softc *sc) 9806c8d8eccSSepherosa Ziehau { 9816c8d8eccSSepherosa Ziehau sc->bnx_txcnt = 0; 9826c8d8eccSSepherosa Ziehau sc->bnx_tx_saved_considx = 0; 9836c8d8eccSSepherosa Ziehau sc->bnx_tx_prodidx = 0; 9846c8d8eccSSepherosa Ziehau 9856c8d8eccSSepherosa Ziehau /* Initialize transmit producer index for host-memory send ring. */ 9866c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_TX_HOST_PROD0_LO, sc->bnx_tx_prodidx); 9876c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_TX_NIC_PROD0_LO, 0); 9886c8d8eccSSepherosa Ziehau 9896c8d8eccSSepherosa Ziehau return(0); 9906c8d8eccSSepherosa Ziehau } 9916c8d8eccSSepherosa Ziehau 9926c8d8eccSSepherosa Ziehau static void 9936c8d8eccSSepherosa Ziehau bnx_setmulti(struct bnx_softc *sc) 9946c8d8eccSSepherosa Ziehau { 9956c8d8eccSSepherosa Ziehau struct ifnet *ifp; 9966c8d8eccSSepherosa Ziehau struct ifmultiaddr *ifma; 9976c8d8eccSSepherosa Ziehau uint32_t hashes[4] = { 0, 0, 0, 0 }; 9986c8d8eccSSepherosa Ziehau int h, i; 9996c8d8eccSSepherosa Ziehau 10006c8d8eccSSepherosa Ziehau ifp = &sc->arpcom.ac_if; 10016c8d8eccSSepherosa Ziehau 10026c8d8eccSSepherosa Ziehau if (ifp->if_flags & IFF_ALLMULTI || ifp->if_flags & IFF_PROMISC) { 10036c8d8eccSSepherosa Ziehau for (i = 0; i < 4; i++) 10046c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAR0 + (i * 4), 0xFFFFFFFF); 10056c8d8eccSSepherosa Ziehau return; 10066c8d8eccSSepherosa Ziehau } 10076c8d8eccSSepherosa Ziehau 10086c8d8eccSSepherosa Ziehau /* First, zot all the existing filters. */ 10096c8d8eccSSepherosa Ziehau for (i = 0; i < 4; i++) 10106c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAR0 + (i * 4), 0); 10116c8d8eccSSepherosa Ziehau 10126c8d8eccSSepherosa Ziehau /* Now program new ones. */ 10136c8d8eccSSepherosa Ziehau TAILQ_FOREACH(ifma, &ifp->if_multiaddrs, ifma_link) { 10146c8d8eccSSepherosa Ziehau if (ifma->ifma_addr->sa_family != AF_LINK) 10156c8d8eccSSepherosa Ziehau continue; 10166c8d8eccSSepherosa Ziehau h = ether_crc32_le( 10176c8d8eccSSepherosa Ziehau LLADDR((struct sockaddr_dl *)ifma->ifma_addr), 10186c8d8eccSSepherosa Ziehau ETHER_ADDR_LEN) & 0x7f; 10196c8d8eccSSepherosa Ziehau hashes[(h & 0x60) >> 5] |= 1 << (h & 0x1F); 10206c8d8eccSSepherosa Ziehau } 10216c8d8eccSSepherosa Ziehau 10226c8d8eccSSepherosa Ziehau for (i = 0; i < 4; i++) 10236c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAR0 + (i * 4), hashes[i]); 10246c8d8eccSSepherosa Ziehau } 10256c8d8eccSSepherosa Ziehau 10266c8d8eccSSepherosa Ziehau /* 10276c8d8eccSSepherosa Ziehau * Do endian, PCI and DMA initialization. Also check the on-board ROM 10286c8d8eccSSepherosa Ziehau * self-test results. 10296c8d8eccSSepherosa Ziehau */ 10306c8d8eccSSepherosa Ziehau static int 10316c8d8eccSSepherosa Ziehau bnx_chipinit(struct bnx_softc *sc) 10326c8d8eccSSepherosa Ziehau { 10336c8d8eccSSepherosa Ziehau uint32_t dma_rw_ctl, mode_ctl; 10346c8d8eccSSepherosa Ziehau int i; 10356c8d8eccSSepherosa Ziehau 10366c8d8eccSSepherosa Ziehau /* Set endian type before we access any non-PCI registers. */ 10376c8d8eccSSepherosa Ziehau pci_write_config(sc->bnx_dev, BGE_PCI_MISC_CTL, 10386c8d8eccSSepherosa Ziehau BGE_INIT | BGE_PCIMISCCTL_TAGGED_STATUS, 4); 10396c8d8eccSSepherosa Ziehau 10406c8d8eccSSepherosa Ziehau /* Clear the MAC control register */ 10416c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAC_MODE, 0); 10426c8d8eccSSepherosa Ziehau 10436c8d8eccSSepherosa Ziehau /* 10446c8d8eccSSepherosa Ziehau * Clear the MAC statistics block in the NIC's 10456c8d8eccSSepherosa Ziehau * internal memory. 10466c8d8eccSSepherosa Ziehau */ 10476c8d8eccSSepherosa Ziehau for (i = BGE_STATS_BLOCK; 10486c8d8eccSSepherosa Ziehau i < BGE_STATS_BLOCK_END + 1; i += sizeof(uint32_t)) 10496c8d8eccSSepherosa Ziehau BNX_MEMWIN_WRITE(sc, i, 0); 10506c8d8eccSSepherosa Ziehau 10516c8d8eccSSepherosa Ziehau for (i = BGE_STATUS_BLOCK; 10526c8d8eccSSepherosa Ziehau i < BGE_STATUS_BLOCK_END + 1; i += sizeof(uint32_t)) 10536c8d8eccSSepherosa Ziehau BNX_MEMWIN_WRITE(sc, i, 0); 10546c8d8eccSSepherosa Ziehau 10556c8d8eccSSepherosa Ziehau /* Set up the PCI DMA control register. */ 10566c8d8eccSSepherosa Ziehau dma_rw_ctl = BGE_PCI_READ_CMD | BGE_PCI_WRITE_CMD | 10576c8d8eccSSepherosa Ziehau (0x3 << BGE_PCIDMARWCTL_WR_WAT_SHIFT); 10586c8d8eccSSepherosa Ziehau 1059f368d0d9SSepherosa Ziehau if (BNX_IS_57765_PLUS(sc)) { 10606c8d8eccSSepherosa Ziehau dma_rw_ctl &= ~BGE_PCIDMARWCTL_DIS_CACHE_ALIGNMENT; 10616c8d8eccSSepherosa Ziehau if (sc->bnx_chipid == BGE_CHIPID_BCM57765_A0) 10626c8d8eccSSepherosa Ziehau dma_rw_ctl &= ~BGE_PCIDMARWCTL_CRDRDR_RDMA_MRRS_MSK; 10636c8d8eccSSepherosa Ziehau /* 10646c8d8eccSSepherosa Ziehau * Enable HW workaround for controllers that misinterpret 10656c8d8eccSSepherosa Ziehau * a status tag update and leave interrupts permanently 10666c8d8eccSSepherosa Ziehau * disabled. 10676c8d8eccSSepherosa Ziehau */ 10686c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev != BGE_ASICREV_BCM5717 && 10696c8d8eccSSepherosa Ziehau sc->bnx_asicrev != BGE_ASICREV_BCM57765) 10706c8d8eccSSepherosa Ziehau dma_rw_ctl |= BGE_PCIDMARWCTL_TAGGED_STATUS_WA; 10716c8d8eccSSepherosa Ziehau } 10726c8d8eccSSepherosa Ziehau pci_write_config(sc->bnx_dev, BGE_PCI_DMA_RW_CTL, dma_rw_ctl, 4); 10736c8d8eccSSepherosa Ziehau 10746c8d8eccSSepherosa Ziehau /* 10756c8d8eccSSepherosa Ziehau * Set up general mode register. 10766c8d8eccSSepherosa Ziehau */ 10776c8d8eccSSepherosa Ziehau mode_ctl = bnx_dma_swap_options(sc) | BGE_MODECTL_MAC_ATTN_INTR | 10786c8d8eccSSepherosa Ziehau BGE_MODECTL_HOST_SEND_BDS | BGE_MODECTL_TX_NO_PHDR_CSUM; 10796c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MODE_CTL, mode_ctl); 10806c8d8eccSSepherosa Ziehau 10816c8d8eccSSepherosa Ziehau /* 10826c8d8eccSSepherosa Ziehau * Disable memory write invalidate. Apparently it is not supported 10836c8d8eccSSepherosa Ziehau * properly by these devices. Also ensure that INTx isn't disabled, 10846c8d8eccSSepherosa Ziehau * as these chips need it even when using MSI. 10856c8d8eccSSepherosa Ziehau */ 10866c8d8eccSSepherosa Ziehau PCI_CLRBIT(sc->bnx_dev, BGE_PCI_CMD, 10876c8d8eccSSepherosa Ziehau (PCIM_CMD_MWRICEN | PCIM_CMD_INTxDIS), 4); 10886c8d8eccSSepherosa Ziehau 10896c8d8eccSSepherosa Ziehau /* Set the timer prescaler (always 66Mhz) */ 10906c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MISC_CFG, 65 << 1/*BGE_32BITTIME_66MHZ*/); 10916c8d8eccSSepherosa Ziehau 10926c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5906) { 10936c8d8eccSSepherosa Ziehau DELAY(40); /* XXX */ 10946c8d8eccSSepherosa Ziehau 10956c8d8eccSSepherosa Ziehau /* Put PHY into ready state */ 10966c8d8eccSSepherosa Ziehau BNX_CLRBIT(sc, BGE_MISC_CFG, BGE_MISCCFG_EPHY_IDDQ); 10976c8d8eccSSepherosa Ziehau CSR_READ_4(sc, BGE_MISC_CFG); /* Flush */ 10986c8d8eccSSepherosa Ziehau DELAY(40); 10996c8d8eccSSepherosa Ziehau } 11006c8d8eccSSepherosa Ziehau 11016c8d8eccSSepherosa Ziehau return(0); 11026c8d8eccSSepherosa Ziehau } 11036c8d8eccSSepherosa Ziehau 11046c8d8eccSSepherosa Ziehau static int 11056c8d8eccSSepherosa Ziehau bnx_blockinit(struct bnx_softc *sc) 11066c8d8eccSSepherosa Ziehau { 11076c8d8eccSSepherosa Ziehau struct bge_rcb *rcb; 11086c8d8eccSSepherosa Ziehau bus_size_t vrcb; 11096c8d8eccSSepherosa Ziehau bge_hostaddr taddr; 11106c8d8eccSSepherosa Ziehau uint32_t val; 11116c8d8eccSSepherosa Ziehau int i, limit; 11126c8d8eccSSepherosa Ziehau 11136c8d8eccSSepherosa Ziehau /* 11146c8d8eccSSepherosa Ziehau * Initialize the memory window pointer register so that 11156c8d8eccSSepherosa Ziehau * we can access the first 32K of internal NIC RAM. This will 11166c8d8eccSSepherosa Ziehau * allow us to set up the TX send ring RCBs and the RX return 11176c8d8eccSSepherosa Ziehau * ring RCBs, plus other things which live in NIC memory. 11186c8d8eccSSepherosa Ziehau */ 11196c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_PCI_MEMWIN_BASEADDR, 0); 11206c8d8eccSSepherosa Ziehau 11216c8d8eccSSepherosa Ziehau /* Configure mbuf pool watermarks */ 1122f368d0d9SSepherosa Ziehau if (BNX_IS_57765_PLUS(sc)) { 11236c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_BMAN_MBUFPOOL_READDMA_LOWAT, 0x0); 11246c8d8eccSSepherosa Ziehau if (sc->arpcom.ac_if.if_mtu > ETHERMTU) { 11256c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_BMAN_MBUFPOOL_MACRX_LOWAT, 0x7e); 11266c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_BMAN_MBUFPOOL_HIWAT, 0xea); 11276c8d8eccSSepherosa Ziehau } else { 11286c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_BMAN_MBUFPOOL_MACRX_LOWAT, 0x2a); 11296c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_BMAN_MBUFPOOL_HIWAT, 0xa0); 11306c8d8eccSSepherosa Ziehau } 11316c8d8eccSSepherosa Ziehau } else if (sc->bnx_asicrev == BGE_ASICREV_BCM5906) { 11326c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_BMAN_MBUFPOOL_READDMA_LOWAT, 0x0); 11336c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_BMAN_MBUFPOOL_MACRX_LOWAT, 0x04); 11346c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_BMAN_MBUFPOOL_HIWAT, 0x10); 11356c8d8eccSSepherosa Ziehau } else { 11366c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_BMAN_MBUFPOOL_READDMA_LOWAT, 0x0); 11376c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_BMAN_MBUFPOOL_MACRX_LOWAT, 0x10); 11386c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_BMAN_MBUFPOOL_HIWAT, 0x60); 11396c8d8eccSSepherosa Ziehau } 11406c8d8eccSSepherosa Ziehau 11416c8d8eccSSepherosa Ziehau /* Configure DMA resource watermarks */ 11426c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_BMAN_DMA_DESCPOOL_LOWAT, 5); 11436c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_BMAN_DMA_DESCPOOL_HIWAT, 10); 11446c8d8eccSSepherosa Ziehau 11456c8d8eccSSepherosa Ziehau /* Enable buffer manager */ 11466c8d8eccSSepherosa Ziehau val = BGE_BMANMODE_ENABLE | BGE_BMANMODE_LOMBUF_ATTN; 11476c8d8eccSSepherosa Ziehau /* 11486c8d8eccSSepherosa Ziehau * Change the arbitration algorithm of TXMBUF read request to 11496c8d8eccSSepherosa Ziehau * round-robin instead of priority based for BCM5719. When 11506c8d8eccSSepherosa Ziehau * TXFIFO is almost empty, RDMA will hold its request until 11516c8d8eccSSepherosa Ziehau * TXFIFO is not almost empty. 11526c8d8eccSSepherosa Ziehau */ 11536c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5719) 11546c8d8eccSSepherosa Ziehau val |= BGE_BMANMODE_NO_TX_UNDERRUN; 11556c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_BMAN_MODE, val); 11566c8d8eccSSepherosa Ziehau 11576c8d8eccSSepherosa Ziehau /* Poll for buffer manager start indication */ 11586c8d8eccSSepherosa Ziehau for (i = 0; i < BNX_TIMEOUT; i++) { 11596c8d8eccSSepherosa Ziehau if (CSR_READ_4(sc, BGE_BMAN_MODE) & BGE_BMANMODE_ENABLE) 11606c8d8eccSSepherosa Ziehau break; 11616c8d8eccSSepherosa Ziehau DELAY(10); 11626c8d8eccSSepherosa Ziehau } 11636c8d8eccSSepherosa Ziehau 11646c8d8eccSSepherosa Ziehau if (i == BNX_TIMEOUT) { 11656c8d8eccSSepherosa Ziehau if_printf(&sc->arpcom.ac_if, 11666c8d8eccSSepherosa Ziehau "buffer manager failed to start\n"); 11676c8d8eccSSepherosa Ziehau return(ENXIO); 11686c8d8eccSSepherosa Ziehau } 11696c8d8eccSSepherosa Ziehau 11706c8d8eccSSepherosa Ziehau /* Enable flow-through queues */ 11716c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_FTQ_RESET, 0xFFFFFFFF); 11726c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_FTQ_RESET, 0); 11736c8d8eccSSepherosa Ziehau 11746c8d8eccSSepherosa Ziehau /* Wait until queue initialization is complete */ 11756c8d8eccSSepherosa Ziehau for (i = 0; i < BNX_TIMEOUT; i++) { 11766c8d8eccSSepherosa Ziehau if (CSR_READ_4(sc, BGE_FTQ_RESET) == 0) 11776c8d8eccSSepherosa Ziehau break; 11786c8d8eccSSepherosa Ziehau DELAY(10); 11796c8d8eccSSepherosa Ziehau } 11806c8d8eccSSepherosa Ziehau 11816c8d8eccSSepherosa Ziehau if (i == BNX_TIMEOUT) { 11826c8d8eccSSepherosa Ziehau if_printf(&sc->arpcom.ac_if, 11836c8d8eccSSepherosa Ziehau "flow-through queue init failed\n"); 11846c8d8eccSSepherosa Ziehau return(ENXIO); 11856c8d8eccSSepherosa Ziehau } 11866c8d8eccSSepherosa Ziehau 11876c8d8eccSSepherosa Ziehau /* 11886c8d8eccSSepherosa Ziehau * Summary of rings supported by the controller: 11896c8d8eccSSepherosa Ziehau * 11906c8d8eccSSepherosa Ziehau * Standard Receive Producer Ring 11916c8d8eccSSepherosa Ziehau * - This ring is used to feed receive buffers for "standard" 11926c8d8eccSSepherosa Ziehau * sized frames (typically 1536 bytes) to the controller. 11936c8d8eccSSepherosa Ziehau * 11946c8d8eccSSepherosa Ziehau * Jumbo Receive Producer Ring 11956c8d8eccSSepherosa Ziehau * - This ring is used to feed receive buffers for jumbo sized 11966c8d8eccSSepherosa Ziehau * frames (i.e. anything bigger than the "standard" frames) 11976c8d8eccSSepherosa Ziehau * to the controller. 11986c8d8eccSSepherosa Ziehau * 11996c8d8eccSSepherosa Ziehau * Mini Receive Producer Ring 12006c8d8eccSSepherosa Ziehau * - This ring is used to feed receive buffers for "mini" 12016c8d8eccSSepherosa Ziehau * sized frames to the controller. 12026c8d8eccSSepherosa Ziehau * - This feature required external memory for the controller 12036c8d8eccSSepherosa Ziehau * but was never used in a production system. Should always 12046c8d8eccSSepherosa Ziehau * be disabled. 12056c8d8eccSSepherosa Ziehau * 12066c8d8eccSSepherosa Ziehau * Receive Return Ring 12076c8d8eccSSepherosa Ziehau * - After the controller has placed an incoming frame into a 12086c8d8eccSSepherosa Ziehau * receive buffer that buffer is moved into a receive return 12096c8d8eccSSepherosa Ziehau * ring. The driver is then responsible to passing the 12106c8d8eccSSepherosa Ziehau * buffer up to the stack. Many versions of the controller 12116c8d8eccSSepherosa Ziehau * support multiple RR rings. 12126c8d8eccSSepherosa Ziehau * 12136c8d8eccSSepherosa Ziehau * Send Ring 12146c8d8eccSSepherosa Ziehau * - This ring is used for outgoing frames. Many versions of 12156c8d8eccSSepherosa Ziehau * the controller support multiple send rings. 12166c8d8eccSSepherosa Ziehau */ 12176c8d8eccSSepherosa Ziehau 12186c8d8eccSSepherosa Ziehau /* Initialize the standard receive producer ring control block. */ 12196c8d8eccSSepherosa Ziehau rcb = &sc->bnx_ldata.bnx_info.bnx_std_rx_rcb; 12206c8d8eccSSepherosa Ziehau rcb->bge_hostaddr.bge_addr_lo = 12216c8d8eccSSepherosa Ziehau BGE_ADDR_LO(sc->bnx_ldata.bnx_rx_std_ring_paddr); 12226c8d8eccSSepherosa Ziehau rcb->bge_hostaddr.bge_addr_hi = 12236c8d8eccSSepherosa Ziehau BGE_ADDR_HI(sc->bnx_ldata.bnx_rx_std_ring_paddr); 1224f368d0d9SSepherosa Ziehau if (BNX_IS_57765_PLUS(sc)) { 12256c8d8eccSSepherosa Ziehau /* 12266c8d8eccSSepherosa Ziehau * Bits 31-16: Programmable ring size (2048, 1024, 512, .., 32) 12276c8d8eccSSepherosa Ziehau * Bits 15-2 : Maximum RX frame size 12286c8d8eccSSepherosa Ziehau * Bit 1 : 1 = Ring Disabled, 0 = Ring ENabled 12296c8d8eccSSepherosa Ziehau * Bit 0 : Reserved 12306c8d8eccSSepherosa Ziehau */ 12316c8d8eccSSepherosa Ziehau rcb->bge_maxlen_flags = 12326c8d8eccSSepherosa Ziehau BGE_RCB_MAXLEN_FLAGS(512, BNX_MAX_FRAMELEN << 2); 12336c8d8eccSSepherosa Ziehau } else { 12346c8d8eccSSepherosa Ziehau /* 12356c8d8eccSSepherosa Ziehau * Bits 31-16: Programmable ring size (512, 256, 128, 64, 32) 12366c8d8eccSSepherosa Ziehau * Bits 15-2 : Reserved (should be 0) 12376c8d8eccSSepherosa Ziehau * Bit 1 : 1 = Ring Disabled, 0 = Ring Enabled 12386c8d8eccSSepherosa Ziehau * Bit 0 : Reserved 12396c8d8eccSSepherosa Ziehau */ 12406c8d8eccSSepherosa Ziehau rcb->bge_maxlen_flags = BGE_RCB_MAXLEN_FLAGS(512, 0); 12416c8d8eccSSepherosa Ziehau } 12426c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5717 || 12436c8d8eccSSepherosa Ziehau sc->bnx_asicrev == BGE_ASICREV_BCM5719 || 12446c8d8eccSSepherosa Ziehau sc->bnx_asicrev == BGE_ASICREV_BCM5720) 12456c8d8eccSSepherosa Ziehau rcb->bge_nicaddr = BGE_STD_RX_RINGS_5717; 12466c8d8eccSSepherosa Ziehau else 12476c8d8eccSSepherosa Ziehau rcb->bge_nicaddr = BGE_STD_RX_RINGS; 12486c8d8eccSSepherosa Ziehau /* Write the standard receive producer ring control block. */ 12496c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RX_STD_RCB_HADDR_HI, rcb->bge_hostaddr.bge_addr_hi); 12506c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RX_STD_RCB_HADDR_LO, rcb->bge_hostaddr.bge_addr_lo); 12516c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RX_STD_RCB_MAXLEN_FLAGS, rcb->bge_maxlen_flags); 12526c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RX_STD_RCB_NICADDR, rcb->bge_nicaddr); 12536c8d8eccSSepherosa Ziehau /* Reset the standard receive producer ring producer index. */ 12546c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_RX_STD_PROD_LO, 0); 12556c8d8eccSSepherosa Ziehau 12566c8d8eccSSepherosa Ziehau /* 12576c8d8eccSSepherosa Ziehau * Initialize the jumbo RX producer ring control 12586c8d8eccSSepherosa Ziehau * block. We set the 'ring disabled' bit in the 12596c8d8eccSSepherosa Ziehau * flags field until we're actually ready to start 12606c8d8eccSSepherosa Ziehau * using this ring (i.e. once we set the MTU 12616c8d8eccSSepherosa Ziehau * high enough to require it). 12626c8d8eccSSepherosa Ziehau */ 12636c8d8eccSSepherosa Ziehau if (BNX_IS_JUMBO_CAPABLE(sc)) { 12646c8d8eccSSepherosa Ziehau rcb = &sc->bnx_ldata.bnx_info.bnx_jumbo_rx_rcb; 12656c8d8eccSSepherosa Ziehau /* Get the jumbo receive producer ring RCB parameters. */ 12666c8d8eccSSepherosa Ziehau rcb->bge_hostaddr.bge_addr_lo = 12676c8d8eccSSepherosa Ziehau BGE_ADDR_LO(sc->bnx_ldata.bnx_rx_jumbo_ring_paddr); 12686c8d8eccSSepherosa Ziehau rcb->bge_hostaddr.bge_addr_hi = 12696c8d8eccSSepherosa Ziehau BGE_ADDR_HI(sc->bnx_ldata.bnx_rx_jumbo_ring_paddr); 12706c8d8eccSSepherosa Ziehau rcb->bge_maxlen_flags = 12716c8d8eccSSepherosa Ziehau BGE_RCB_MAXLEN_FLAGS(BNX_MAX_FRAMELEN, 12726c8d8eccSSepherosa Ziehau BGE_RCB_FLAG_RING_DISABLED); 12736c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5717 || 12746c8d8eccSSepherosa Ziehau sc->bnx_asicrev == BGE_ASICREV_BCM5719 || 12756c8d8eccSSepherosa Ziehau sc->bnx_asicrev == BGE_ASICREV_BCM5720) 12766c8d8eccSSepherosa Ziehau rcb->bge_nicaddr = BGE_JUMBO_RX_RINGS_5717; 12776c8d8eccSSepherosa Ziehau else 12786c8d8eccSSepherosa Ziehau rcb->bge_nicaddr = BGE_JUMBO_RX_RINGS; 12796c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RX_JUMBO_RCB_HADDR_HI, 12806c8d8eccSSepherosa Ziehau rcb->bge_hostaddr.bge_addr_hi); 12816c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RX_JUMBO_RCB_HADDR_LO, 12826c8d8eccSSepherosa Ziehau rcb->bge_hostaddr.bge_addr_lo); 12836c8d8eccSSepherosa Ziehau /* Program the jumbo receive producer ring RCB parameters. */ 12846c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RX_JUMBO_RCB_MAXLEN_FLAGS, 12856c8d8eccSSepherosa Ziehau rcb->bge_maxlen_flags); 12866c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RX_JUMBO_RCB_NICADDR, rcb->bge_nicaddr); 12876c8d8eccSSepherosa Ziehau /* Reset the jumbo receive producer ring producer index. */ 12886c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_RX_JUMBO_PROD_LO, 0); 12896c8d8eccSSepherosa Ziehau } 12906c8d8eccSSepherosa Ziehau 12916c8d8eccSSepherosa Ziehau /* Choose de-pipeline mode for BCM5906 A0, A1 and A2. */ 12926c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5906 && 12936c8d8eccSSepherosa Ziehau (sc->bnx_chipid == BGE_CHIPID_BCM5906_A0 || 12946c8d8eccSSepherosa Ziehau sc->bnx_chipid == BGE_CHIPID_BCM5906_A1 || 12956c8d8eccSSepherosa Ziehau sc->bnx_chipid == BGE_CHIPID_BCM5906_A2)) { 12966c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_ISO_PKT_TX, 12976c8d8eccSSepherosa Ziehau (CSR_READ_4(sc, BGE_ISO_PKT_TX) & ~3) | 2); 12986c8d8eccSSepherosa Ziehau } 12996c8d8eccSSepherosa Ziehau 13006c8d8eccSSepherosa Ziehau /* 13016c8d8eccSSepherosa Ziehau * The BD ring replenish thresholds control how often the 13026c8d8eccSSepherosa Ziehau * hardware fetches new BD's from the producer rings in host 13036c8d8eccSSepherosa Ziehau * memory. Setting the value too low on a busy system can 13046c8d8eccSSepherosa Ziehau * starve the hardware and recue the throughpout. 13056c8d8eccSSepherosa Ziehau * 13066c8d8eccSSepherosa Ziehau * Set the BD ring replentish thresholds. The recommended 13076c8d8eccSSepherosa Ziehau * values are 1/8th the number of descriptors allocated to 13086c8d8eccSSepherosa Ziehau * each ring. 13096c8d8eccSSepherosa Ziehau */ 13106c8d8eccSSepherosa Ziehau val = 8; 13116c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RBDI_STD_REPL_THRESH, val); 13126c8d8eccSSepherosa Ziehau if (BNX_IS_JUMBO_CAPABLE(sc)) { 13136c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RBDI_JUMBO_REPL_THRESH, 13146c8d8eccSSepherosa Ziehau BGE_JUMBO_RX_RING_CNT/8); 13156c8d8eccSSepherosa Ziehau } 1316f368d0d9SSepherosa Ziehau if (BNX_IS_57765_PLUS(sc)) { 13176c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_STD_REPLENISH_LWM, 32); 13186c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_JMB_REPLENISH_LWM, 16); 13196c8d8eccSSepherosa Ziehau } 13206c8d8eccSSepherosa Ziehau 13216c8d8eccSSepherosa Ziehau /* 13226c8d8eccSSepherosa Ziehau * Disable all send rings by setting the 'ring disabled' bit 13236c8d8eccSSepherosa Ziehau * in the flags field of all the TX send ring control blocks, 13246c8d8eccSSepherosa Ziehau * located in NIC memory. 13256c8d8eccSSepherosa Ziehau */ 132680969639SSepherosa Ziehau if (BNX_IS_5717_PLUS(sc)) 132780969639SSepherosa Ziehau limit = 4; 132880969639SSepherosa Ziehau else 13296c8d8eccSSepherosa Ziehau limit = 1; 13306c8d8eccSSepherosa Ziehau vrcb = BGE_MEMWIN_START + BGE_SEND_RING_RCB; 13316c8d8eccSSepherosa Ziehau for (i = 0; i < limit; i++) { 13326c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_maxlen_flags, 13336c8d8eccSSepherosa Ziehau BGE_RCB_MAXLEN_FLAGS(0, BGE_RCB_FLAG_RING_DISABLED)); 13346c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_nicaddr, 0); 13356c8d8eccSSepherosa Ziehau vrcb += sizeof(struct bge_rcb); 13366c8d8eccSSepherosa Ziehau } 13376c8d8eccSSepherosa Ziehau 13386c8d8eccSSepherosa Ziehau /* Configure send ring RCB 0 (we use only the first ring) */ 13396c8d8eccSSepherosa Ziehau vrcb = BGE_MEMWIN_START + BGE_SEND_RING_RCB; 13406c8d8eccSSepherosa Ziehau BGE_HOSTADDR(taddr, sc->bnx_ldata.bnx_tx_ring_paddr); 13416c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_hostaddr.bge_addr_hi, taddr.bge_addr_hi); 13426c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_hostaddr.bge_addr_lo, taddr.bge_addr_lo); 13436c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5717 || 13446c8d8eccSSepherosa Ziehau sc->bnx_asicrev == BGE_ASICREV_BCM5719 || 13456c8d8eccSSepherosa Ziehau sc->bnx_asicrev == BGE_ASICREV_BCM5720) { 13466c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_nicaddr, BGE_SEND_RING_5717); 13476c8d8eccSSepherosa Ziehau } else { 13486c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_nicaddr, 13496c8d8eccSSepherosa Ziehau BGE_NIC_TXRING_ADDR(0, BGE_TX_RING_CNT)); 13506c8d8eccSSepherosa Ziehau } 13516c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_maxlen_flags, 13526c8d8eccSSepherosa Ziehau BGE_RCB_MAXLEN_FLAGS(BGE_TX_RING_CNT, 0)); 13536c8d8eccSSepherosa Ziehau 13546c8d8eccSSepherosa Ziehau /* 13556c8d8eccSSepherosa Ziehau * Disable all receive return rings by setting the 13566c8d8eccSSepherosa Ziehau * 'ring disabled' bit in the flags field of all the receive 13576c8d8eccSSepherosa Ziehau * return ring control blocks, located in NIC memory. 13586c8d8eccSSepherosa Ziehau */ 135980969639SSepherosa Ziehau if (BNX_IS_5717_PLUS(sc)) { 13606c8d8eccSSepherosa Ziehau /* Should be 17, use 16 until we get an SRAM map. */ 13616c8d8eccSSepherosa Ziehau limit = 16; 13626c8d8eccSSepherosa Ziehau } else if (sc->bnx_asicrev == BGE_ASICREV_BCM57765) { 13636c8d8eccSSepherosa Ziehau limit = 4; 13646c8d8eccSSepherosa Ziehau } else { 13656c8d8eccSSepherosa Ziehau limit = 1; 13666c8d8eccSSepherosa Ziehau } 13676c8d8eccSSepherosa Ziehau /* Disable all receive return rings. */ 13686c8d8eccSSepherosa Ziehau vrcb = BGE_MEMWIN_START + BGE_RX_RETURN_RING_RCB; 13696c8d8eccSSepherosa Ziehau for (i = 0; i < limit; i++) { 13706c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_hostaddr.bge_addr_hi, 0); 13716c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_hostaddr.bge_addr_lo, 0); 13726c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_maxlen_flags, 13736c8d8eccSSepherosa Ziehau BGE_RCB_FLAG_RING_DISABLED); 13746c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_nicaddr, 0); 13756c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_RX_CONS0_LO + 13766c8d8eccSSepherosa Ziehau (i * (sizeof(uint64_t))), 0); 13776c8d8eccSSepherosa Ziehau vrcb += sizeof(struct bge_rcb); 13786c8d8eccSSepherosa Ziehau } 13796c8d8eccSSepherosa Ziehau 13806c8d8eccSSepherosa Ziehau /* 13816c8d8eccSSepherosa Ziehau * Set up receive return ring 0. Note that the NIC address 13826c8d8eccSSepherosa Ziehau * for RX return rings is 0x0. The return rings live entirely 13836c8d8eccSSepherosa Ziehau * within the host, so the nicaddr field in the RCB isn't used. 13846c8d8eccSSepherosa Ziehau */ 13856c8d8eccSSepherosa Ziehau vrcb = BGE_MEMWIN_START + BGE_RX_RETURN_RING_RCB; 13866c8d8eccSSepherosa Ziehau BGE_HOSTADDR(taddr, sc->bnx_ldata.bnx_rx_return_ring_paddr); 13876c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_hostaddr.bge_addr_hi, taddr.bge_addr_hi); 13886c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_hostaddr.bge_addr_lo, taddr.bge_addr_lo); 13896c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_nicaddr, 0); 13906c8d8eccSSepherosa Ziehau RCB_WRITE_4(sc, vrcb, bge_maxlen_flags, 13916c8d8eccSSepherosa Ziehau BGE_RCB_MAXLEN_FLAGS(sc->bnx_return_ring_cnt, 0)); 13926c8d8eccSSepherosa Ziehau 13936c8d8eccSSepherosa Ziehau /* Set random backoff seed for TX */ 13946c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_TX_RANDOM_BACKOFF, 13956c8d8eccSSepherosa Ziehau sc->arpcom.ac_enaddr[0] + sc->arpcom.ac_enaddr[1] + 13966c8d8eccSSepherosa Ziehau sc->arpcom.ac_enaddr[2] + sc->arpcom.ac_enaddr[3] + 13976c8d8eccSSepherosa Ziehau sc->arpcom.ac_enaddr[4] + sc->arpcom.ac_enaddr[5] + 13986c8d8eccSSepherosa Ziehau BGE_TX_BACKOFF_SEED_MASK); 13996c8d8eccSSepherosa Ziehau 14006c8d8eccSSepherosa Ziehau /* Set inter-packet gap */ 14016c8d8eccSSepherosa Ziehau val = 0x2620; 14026c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5720) { 14036c8d8eccSSepherosa Ziehau val |= CSR_READ_4(sc, BGE_TX_LENGTHS) & 14046c8d8eccSSepherosa Ziehau (BGE_TXLEN_JMB_FRM_LEN_MSK | BGE_TXLEN_CNT_DN_VAL_MSK); 14056c8d8eccSSepherosa Ziehau } 14066c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_TX_LENGTHS, val); 14076c8d8eccSSepherosa Ziehau 14086c8d8eccSSepherosa Ziehau /* 14096c8d8eccSSepherosa Ziehau * Specify which ring to use for packets that don't match 14106c8d8eccSSepherosa Ziehau * any RX rules. 14116c8d8eccSSepherosa Ziehau */ 14126c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RX_RULES_CFG, 0x08); 14136c8d8eccSSepherosa Ziehau 14146c8d8eccSSepherosa Ziehau /* 14156c8d8eccSSepherosa Ziehau * Configure number of RX lists. One interrupt distribution 14166c8d8eccSSepherosa Ziehau * list, sixteen active lists, one bad frames class. 14176c8d8eccSSepherosa Ziehau */ 14186c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RXLP_CFG, 0x181); 14196c8d8eccSSepherosa Ziehau 14206c8d8eccSSepherosa Ziehau /* Inialize RX list placement stats mask. */ 14216c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RXLP_STATS_ENABLE_MASK, 0x007FFFFF); 14226c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RXLP_STATS_CTL, 0x1); 14236c8d8eccSSepherosa Ziehau 14246c8d8eccSSepherosa Ziehau /* Disable host coalescing until we get it set up */ 14256c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_MODE, 0x00000000); 14266c8d8eccSSepherosa Ziehau 14276c8d8eccSSepherosa Ziehau /* Poll to make sure it's shut down. */ 14286c8d8eccSSepherosa Ziehau for (i = 0; i < BNX_TIMEOUT; i++) { 14296c8d8eccSSepherosa Ziehau if (!(CSR_READ_4(sc, BGE_HCC_MODE) & BGE_HCCMODE_ENABLE)) 14306c8d8eccSSepherosa Ziehau break; 14316c8d8eccSSepherosa Ziehau DELAY(10); 14326c8d8eccSSepherosa Ziehau } 14336c8d8eccSSepherosa Ziehau 14346c8d8eccSSepherosa Ziehau if (i == BNX_TIMEOUT) { 14356c8d8eccSSepherosa Ziehau if_printf(&sc->arpcom.ac_if, 14366c8d8eccSSepherosa Ziehau "host coalescing engine failed to idle\n"); 14376c8d8eccSSepherosa Ziehau return(ENXIO); 14386c8d8eccSSepherosa Ziehau } 14396c8d8eccSSepherosa Ziehau 14406c8d8eccSSepherosa Ziehau /* Set up host coalescing defaults */ 14416c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_RX_COAL_TICKS, sc->bnx_rx_coal_ticks); 14426c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_TX_COAL_TICKS, sc->bnx_tx_coal_ticks); 14436c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_RX_MAX_COAL_BDS, sc->bnx_rx_coal_bds); 14446c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_TX_MAX_COAL_BDS, sc->bnx_tx_coal_bds); 14456c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_RX_MAX_COAL_BDS_INT, sc->bnx_rx_coal_bds_int); 14466c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_TX_MAX_COAL_BDS_INT, sc->bnx_tx_coal_bds_int); 14476c8d8eccSSepherosa Ziehau 14486c8d8eccSSepherosa Ziehau /* Set up address of status block */ 14496c8d8eccSSepherosa Ziehau bzero(sc->bnx_ldata.bnx_status_block, BGE_STATUS_BLK_SZ); 14506c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_STATUSBLK_ADDR_HI, 14516c8d8eccSSepherosa Ziehau BGE_ADDR_HI(sc->bnx_ldata.bnx_status_block_paddr)); 14526c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_STATUSBLK_ADDR_LO, 14536c8d8eccSSepherosa Ziehau BGE_ADDR_LO(sc->bnx_ldata.bnx_status_block_paddr)); 14546c8d8eccSSepherosa Ziehau 14556c8d8eccSSepherosa Ziehau /* Set up status block partail update size. */ 14566c8d8eccSSepherosa Ziehau val = BGE_STATBLKSZ_32BYTE; 14576c8d8eccSSepherosa Ziehau #if 0 14586c8d8eccSSepherosa Ziehau /* 14596c8d8eccSSepherosa Ziehau * Does not seem to have visible effect in both 14606c8d8eccSSepherosa Ziehau * bulk data (1472B UDP datagram) and tiny data 14616c8d8eccSSepherosa Ziehau * (18B UDP datagram) TX tests. 14626c8d8eccSSepherosa Ziehau */ 14636c8d8eccSSepherosa Ziehau val |= BGE_HCCMODE_CLRTICK_TX; 14646c8d8eccSSepherosa Ziehau #endif 14656c8d8eccSSepherosa Ziehau /* Turn on host coalescing state machine */ 14666c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_MODE, val | BGE_HCCMODE_ENABLE); 14676c8d8eccSSepherosa Ziehau 14686c8d8eccSSepherosa Ziehau /* Turn on RX BD completion state machine and enable attentions */ 14696c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RBDC_MODE, 14706c8d8eccSSepherosa Ziehau BGE_RBDCMODE_ENABLE|BGE_RBDCMODE_ATTN); 14716c8d8eccSSepherosa Ziehau 14726c8d8eccSSepherosa Ziehau /* Turn on RX list placement state machine */ 14736c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RXLP_MODE, BGE_RXLPMODE_ENABLE); 14746c8d8eccSSepherosa Ziehau 14756c8d8eccSSepherosa Ziehau val = BGE_MACMODE_TXDMA_ENB | BGE_MACMODE_RXDMA_ENB | 14766c8d8eccSSepherosa Ziehau BGE_MACMODE_RX_STATS_CLEAR | BGE_MACMODE_TX_STATS_CLEAR | 14776c8d8eccSSepherosa Ziehau BGE_MACMODE_RX_STATS_ENB | BGE_MACMODE_TX_STATS_ENB | 14786c8d8eccSSepherosa Ziehau BGE_MACMODE_FRMHDR_DMA_ENB; 14796c8d8eccSSepherosa Ziehau 14806c8d8eccSSepherosa Ziehau if (sc->bnx_flags & BNX_FLAG_TBI) 14816c8d8eccSSepherosa Ziehau val |= BGE_PORTMODE_TBI; 14826c8d8eccSSepherosa Ziehau else if (sc->bnx_flags & BNX_FLAG_MII_SERDES) 14836c8d8eccSSepherosa Ziehau val |= BGE_PORTMODE_GMII; 14846c8d8eccSSepherosa Ziehau else 14856c8d8eccSSepherosa Ziehau val |= BGE_PORTMODE_MII; 14866c8d8eccSSepherosa Ziehau 14876c8d8eccSSepherosa Ziehau /* Turn on DMA, clear stats */ 14886c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAC_MODE, val); 14896c8d8eccSSepherosa Ziehau 14906c8d8eccSSepherosa Ziehau /* Set misc. local control, enable interrupts on attentions */ 14916c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MISC_LOCAL_CTL, BGE_MLC_INTR_ONATTN); 14926c8d8eccSSepherosa Ziehau 14936c8d8eccSSepherosa Ziehau #ifdef notdef 14946c8d8eccSSepherosa Ziehau /* Assert GPIO pins for PHY reset */ 14956c8d8eccSSepherosa Ziehau BNX_SETBIT(sc, BGE_MISC_LOCAL_CTL, BGE_MLC_MISCIO_OUT0| 14966c8d8eccSSepherosa Ziehau BGE_MLC_MISCIO_OUT1|BGE_MLC_MISCIO_OUT2); 14976c8d8eccSSepherosa Ziehau BNX_SETBIT(sc, BGE_MISC_LOCAL_CTL, BGE_MLC_MISCIO_OUTEN0| 14986c8d8eccSSepherosa Ziehau BGE_MLC_MISCIO_OUTEN1|BGE_MLC_MISCIO_OUTEN2); 14996c8d8eccSSepherosa Ziehau #endif 15006c8d8eccSSepherosa Ziehau 15016c8d8eccSSepherosa Ziehau /* Turn on write DMA state machine */ 15026c8d8eccSSepherosa Ziehau val = BGE_WDMAMODE_ENABLE|BGE_WDMAMODE_ALL_ATTNS; 15036c8d8eccSSepherosa Ziehau /* Enable host coalescing bug fix. */ 15046c8d8eccSSepherosa Ziehau val |= BGE_WDMAMODE_STATUS_TAG_FIX; 15056c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5785) { 15066c8d8eccSSepherosa Ziehau /* Request larger DMA burst size to get better performance. */ 15076c8d8eccSSepherosa Ziehau val |= BGE_WDMAMODE_BURST_ALL_DATA; 15086c8d8eccSSepherosa Ziehau } 15096c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_WDMA_MODE, val); 15106c8d8eccSSepherosa Ziehau DELAY(40); 15116c8d8eccSSepherosa Ziehau 1512*3730a14dSSepherosa Ziehau if (BNX_IS_57765_PLUS(sc)) { 15136c8d8eccSSepherosa Ziehau uint32_t dmactl; 15146c8d8eccSSepherosa Ziehau 15156c8d8eccSSepherosa Ziehau dmactl = CSR_READ_4(sc, BGE_RDMA_RSRVCTRL); 15166c8d8eccSSepherosa Ziehau /* 15176c8d8eccSSepherosa Ziehau * Adjust tx margin to prevent TX data corruption and 15186c8d8eccSSepherosa Ziehau * fix internal FIFO overflow. 15196c8d8eccSSepherosa Ziehau */ 15206c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5719 || 15216c8d8eccSSepherosa Ziehau sc->bnx_asicrev == BGE_ASICREV_BCM5720) { 15226c8d8eccSSepherosa Ziehau dmactl &= ~(BGE_RDMA_RSRVCTRL_FIFO_LWM_MASK | 15236c8d8eccSSepherosa Ziehau BGE_RDMA_RSRVCTRL_FIFO_HWM_MASK | 15246c8d8eccSSepherosa Ziehau BGE_RDMA_RSRVCTRL_TXMRGN_MASK); 15256c8d8eccSSepherosa Ziehau dmactl |= BGE_RDMA_RSRVCTRL_FIFO_LWM_1_5K | 15266c8d8eccSSepherosa Ziehau BGE_RDMA_RSRVCTRL_FIFO_HWM_1_5K | 15276c8d8eccSSepherosa Ziehau BGE_RDMA_RSRVCTRL_TXMRGN_320B; 15286c8d8eccSSepherosa Ziehau } 15296c8d8eccSSepherosa Ziehau /* 15306c8d8eccSSepherosa Ziehau * Enable fix for read DMA FIFO overruns. 15316c8d8eccSSepherosa Ziehau * The fix is to limit the number of RX BDs 15326c8d8eccSSepherosa Ziehau * the hardware would fetch at a fime. 15336c8d8eccSSepherosa Ziehau */ 15346c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RDMA_RSRVCTRL, 15356c8d8eccSSepherosa Ziehau dmactl | BGE_RDMA_RSRVCTRL_FIFO_OFLW_FIX); 15366c8d8eccSSepherosa Ziehau } 15376c8d8eccSSepherosa Ziehau 15386c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5719) { 15396c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RDMA_LSO_CRPTEN_CTRL, 15406c8d8eccSSepherosa Ziehau CSR_READ_4(sc, BGE_RDMA_LSO_CRPTEN_CTRL) | 15416c8d8eccSSepherosa Ziehau BGE_RDMA_LSO_CRPTEN_CTRL_BLEN_BD_4K | 15426c8d8eccSSepherosa Ziehau BGE_RDMA_LSO_CRPTEN_CTRL_BLEN_LSO_4K); 15436c8d8eccSSepherosa Ziehau } else if (sc->bnx_asicrev == BGE_ASICREV_BCM5720) { 15446c8d8eccSSepherosa Ziehau /* 15456c8d8eccSSepherosa Ziehau * Allow 4KB burst length reads for non-LSO frames. 15466c8d8eccSSepherosa Ziehau * Enable 512B burst length reads for buffer descriptors. 15476c8d8eccSSepherosa Ziehau */ 15486c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RDMA_LSO_CRPTEN_CTRL, 15496c8d8eccSSepherosa Ziehau CSR_READ_4(sc, BGE_RDMA_LSO_CRPTEN_CTRL) | 15506c8d8eccSSepherosa Ziehau BGE_RDMA_LSO_CRPTEN_CTRL_BLEN_BD_512 | 15516c8d8eccSSepherosa Ziehau BGE_RDMA_LSO_CRPTEN_CTRL_BLEN_LSO_4K); 15526c8d8eccSSepherosa Ziehau } 15536c8d8eccSSepherosa Ziehau 15546c8d8eccSSepherosa Ziehau /* Turn on read DMA state machine */ 15556c8d8eccSSepherosa Ziehau val = BGE_RDMAMODE_ENABLE | BGE_RDMAMODE_ALL_ATTNS; 15566c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5717) 15576c8d8eccSSepherosa Ziehau val |= BGE_RDMAMODE_MULT_DMA_RD_DIS; 15586c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5784 || 15596c8d8eccSSepherosa Ziehau sc->bnx_asicrev == BGE_ASICREV_BCM5785 || 15606c8d8eccSSepherosa Ziehau sc->bnx_asicrev == BGE_ASICREV_BCM57780) { 15616c8d8eccSSepherosa Ziehau val |= BGE_RDMAMODE_BD_SBD_CRPT_ATTN | 15626c8d8eccSSepherosa Ziehau BGE_RDMAMODE_MBUF_RBD_CRPT_ATTN | 15636c8d8eccSSepherosa Ziehau BGE_RDMAMODE_MBUF_SBD_CRPT_ATTN; 15646c8d8eccSSepherosa Ziehau } 15656c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5720) { 15666c8d8eccSSepherosa Ziehau val |= CSR_READ_4(sc, BGE_RDMA_MODE) & 15676c8d8eccSSepherosa Ziehau BGE_RDMAMODE_H2BNC_VLAN_DET; 15686c8d8eccSSepherosa Ziehau /* 15696c8d8eccSSepherosa Ziehau * Allow multiple outstanding read requests from 15706c8d8eccSSepherosa Ziehau * non-LSO read DMA engine. 15716c8d8eccSSepherosa Ziehau */ 15726c8d8eccSSepherosa Ziehau val &= ~BGE_RDMAMODE_MULT_DMA_RD_DIS; 15736c8d8eccSSepherosa Ziehau } 15746c8d8eccSSepherosa Ziehau val |= BGE_RDMAMODE_FIFO_LONG_BURST; 15756c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RDMA_MODE, val); 15766c8d8eccSSepherosa Ziehau DELAY(40); 15776c8d8eccSSepherosa Ziehau 15786c8d8eccSSepherosa Ziehau /* Turn on RX data completion state machine */ 15796c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RDC_MODE, BGE_RDCMODE_ENABLE); 15806c8d8eccSSepherosa Ziehau 15816c8d8eccSSepherosa Ziehau /* Turn on RX BD initiator state machine */ 15826c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RBDI_MODE, BGE_RBDIMODE_ENABLE); 15836c8d8eccSSepherosa Ziehau 15846c8d8eccSSepherosa Ziehau /* Turn on RX data and RX BD initiator state machine */ 15856c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RDBDI_MODE, BGE_RDBDIMODE_ENABLE); 15866c8d8eccSSepherosa Ziehau 15876c8d8eccSSepherosa Ziehau /* Turn on send BD completion state machine */ 15886c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_SBDC_MODE, BGE_SBDCMODE_ENABLE); 15896c8d8eccSSepherosa Ziehau 15906c8d8eccSSepherosa Ziehau /* Turn on send data completion state machine */ 15916c8d8eccSSepherosa Ziehau val = BGE_SDCMODE_ENABLE; 15926c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5761) 15936c8d8eccSSepherosa Ziehau val |= BGE_SDCMODE_CDELAY; 15946c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_SDC_MODE, val); 15956c8d8eccSSepherosa Ziehau 15966c8d8eccSSepherosa Ziehau /* Turn on send data initiator state machine */ 15976c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_SDI_MODE, BGE_SDIMODE_ENABLE); 15986c8d8eccSSepherosa Ziehau 15996c8d8eccSSepherosa Ziehau /* Turn on send BD initiator state machine */ 16006c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_SBDI_MODE, BGE_SBDIMODE_ENABLE); 16016c8d8eccSSepherosa Ziehau 16026c8d8eccSSepherosa Ziehau /* Turn on send BD selector state machine */ 16036c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_SRS_MODE, BGE_SRSMODE_ENABLE); 16046c8d8eccSSepherosa Ziehau 16056c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_SDI_STATS_ENABLE_MASK, 0x007FFFFF); 16066c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_SDI_STATS_CTL, 16076c8d8eccSSepherosa Ziehau BGE_SDISTATSCTL_ENABLE|BGE_SDISTATSCTL_FASTER); 16086c8d8eccSSepherosa Ziehau 16096c8d8eccSSepherosa Ziehau /* ack/clear link change events */ 16106c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAC_STS, BGE_MACSTAT_SYNC_CHANGED| 16116c8d8eccSSepherosa Ziehau BGE_MACSTAT_CFG_CHANGED|BGE_MACSTAT_MI_COMPLETE| 16126c8d8eccSSepherosa Ziehau BGE_MACSTAT_LINK_CHANGED); 16136c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MI_STS, 0); 16146c8d8eccSSepherosa Ziehau 16156c8d8eccSSepherosa Ziehau /* 16166c8d8eccSSepherosa Ziehau * Enable attention when the link has changed state for 16176c8d8eccSSepherosa Ziehau * devices that use auto polling. 16186c8d8eccSSepherosa Ziehau */ 16196c8d8eccSSepherosa Ziehau if (sc->bnx_flags & BNX_FLAG_TBI) { 16206c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MI_STS, BGE_MISTS_LINK); 16216c8d8eccSSepherosa Ziehau } else { 16226c8d8eccSSepherosa Ziehau if (sc->bnx_mi_mode & BGE_MIMODE_AUTOPOLL) { 16236c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MI_MODE, sc->bnx_mi_mode); 16246c8d8eccSSepherosa Ziehau DELAY(80); 16256c8d8eccSSepherosa Ziehau } 16266c8d8eccSSepherosa Ziehau } 16276c8d8eccSSepherosa Ziehau 16286c8d8eccSSepherosa Ziehau /* 16296c8d8eccSSepherosa Ziehau * Clear any pending link state attention. 16306c8d8eccSSepherosa Ziehau * Otherwise some link state change events may be lost until attention 16316c8d8eccSSepherosa Ziehau * is cleared by bnx_intr() -> bnx_softc.bnx_link_upd() sequence. 16326c8d8eccSSepherosa Ziehau * It's not necessary on newer BCM chips - perhaps enabling link 16336c8d8eccSSepherosa Ziehau * state change attentions implies clearing pending attention. 16346c8d8eccSSepherosa Ziehau */ 16356c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAC_STS, BGE_MACSTAT_SYNC_CHANGED| 16366c8d8eccSSepherosa Ziehau BGE_MACSTAT_CFG_CHANGED|BGE_MACSTAT_MI_COMPLETE| 16376c8d8eccSSepherosa Ziehau BGE_MACSTAT_LINK_CHANGED); 16386c8d8eccSSepherosa Ziehau 16396c8d8eccSSepherosa Ziehau /* Enable link state change attentions. */ 16406c8d8eccSSepherosa Ziehau BNX_SETBIT(sc, BGE_MAC_EVT_ENB, BGE_EVTENB_LINK_CHANGED); 16416c8d8eccSSepherosa Ziehau 16426c8d8eccSSepherosa Ziehau return(0); 16436c8d8eccSSepherosa Ziehau } 16446c8d8eccSSepherosa Ziehau 16456c8d8eccSSepherosa Ziehau /* 16466c8d8eccSSepherosa Ziehau * Probe for a Broadcom chip. Check the PCI vendor and device IDs 16476c8d8eccSSepherosa Ziehau * against our list and return its name if we find a match. Note 16486c8d8eccSSepherosa Ziehau * that since the Broadcom controller contains VPD support, we 16496c8d8eccSSepherosa Ziehau * can get the device name string from the controller itself instead 16506c8d8eccSSepherosa Ziehau * of the compiled-in string. This is a little slow, but it guarantees 16516c8d8eccSSepherosa Ziehau * we'll always announce the right product name. 16526c8d8eccSSepherosa Ziehau */ 16536c8d8eccSSepherosa Ziehau static int 16546c8d8eccSSepherosa Ziehau bnx_probe(device_t dev) 16556c8d8eccSSepherosa Ziehau { 16566c8d8eccSSepherosa Ziehau const struct bnx_type *t; 16576c8d8eccSSepherosa Ziehau uint16_t product, vendor; 16586c8d8eccSSepherosa Ziehau 16596c8d8eccSSepherosa Ziehau if (!pci_is_pcie(dev)) 16606c8d8eccSSepherosa Ziehau return ENXIO; 16616c8d8eccSSepherosa Ziehau 16626c8d8eccSSepherosa Ziehau product = pci_get_device(dev); 16636c8d8eccSSepherosa Ziehau vendor = pci_get_vendor(dev); 16646c8d8eccSSepherosa Ziehau 16656c8d8eccSSepherosa Ziehau for (t = bnx_devs; t->bnx_name != NULL; t++) { 16666c8d8eccSSepherosa Ziehau if (vendor == t->bnx_vid && product == t->bnx_did) 16676c8d8eccSSepherosa Ziehau break; 16686c8d8eccSSepherosa Ziehau } 16696c8d8eccSSepherosa Ziehau if (t->bnx_name == NULL) 16706c8d8eccSSepherosa Ziehau return ENXIO; 16716c8d8eccSSepherosa Ziehau 16726c8d8eccSSepherosa Ziehau device_set_desc(dev, t->bnx_name); 16736c8d8eccSSepherosa Ziehau return 0; 16746c8d8eccSSepherosa Ziehau } 16756c8d8eccSSepherosa Ziehau 16766c8d8eccSSepherosa Ziehau static int 16776c8d8eccSSepherosa Ziehau bnx_attach(device_t dev) 16786c8d8eccSSepherosa Ziehau { 16796c8d8eccSSepherosa Ziehau struct ifnet *ifp; 16806c8d8eccSSepherosa Ziehau struct bnx_softc *sc; 16816c8d8eccSSepherosa Ziehau uint32_t hwcfg = 0, misccfg; 16826c8d8eccSSepherosa Ziehau int error = 0, rid, capmask; 16836c8d8eccSSepherosa Ziehau uint8_t ether_addr[ETHER_ADDR_LEN]; 16846c8d8eccSSepherosa Ziehau uint16_t product, vendor; 16856c8d8eccSSepherosa Ziehau driver_intr_t *intr_func; 16866c8d8eccSSepherosa Ziehau uintptr_t mii_priv = 0; 16876c8d8eccSSepherosa Ziehau u_int intr_flags; 16886c8d8eccSSepherosa Ziehau 16896c8d8eccSSepherosa Ziehau sc = device_get_softc(dev); 16906c8d8eccSSepherosa Ziehau sc->bnx_dev = dev; 16916c8d8eccSSepherosa Ziehau callout_init(&sc->bnx_stat_timer); 16926c8d8eccSSepherosa Ziehau lwkt_serialize_init(&sc->bnx_jslot_serializer); 16936c8d8eccSSepherosa Ziehau 16946c8d8eccSSepherosa Ziehau product = pci_get_device(dev); 16956c8d8eccSSepherosa Ziehau vendor = pci_get_vendor(dev); 16966c8d8eccSSepherosa Ziehau 16976c8d8eccSSepherosa Ziehau #ifndef BURN_BRIDGES 16986c8d8eccSSepherosa Ziehau if (pci_get_powerstate(dev) != PCI_POWERSTATE_D0) { 16996c8d8eccSSepherosa Ziehau uint32_t irq, mem; 17006c8d8eccSSepherosa Ziehau 17016c8d8eccSSepherosa Ziehau irq = pci_read_config(dev, PCIR_INTLINE, 4); 17026c8d8eccSSepherosa Ziehau mem = pci_read_config(dev, BGE_PCI_BAR0, 4); 17036c8d8eccSSepherosa Ziehau 17046c8d8eccSSepherosa Ziehau device_printf(dev, "chip is in D%d power mode " 17056c8d8eccSSepherosa Ziehau "-- setting to D0\n", pci_get_powerstate(dev)); 17066c8d8eccSSepherosa Ziehau 17076c8d8eccSSepherosa Ziehau pci_set_powerstate(dev, PCI_POWERSTATE_D0); 17086c8d8eccSSepherosa Ziehau 17096c8d8eccSSepherosa Ziehau pci_write_config(dev, PCIR_INTLINE, irq, 4); 17106c8d8eccSSepherosa Ziehau pci_write_config(dev, BGE_PCI_BAR0, mem, 4); 17116c8d8eccSSepherosa Ziehau } 17126c8d8eccSSepherosa Ziehau #endif /* !BURN_BRIDGE */ 17136c8d8eccSSepherosa Ziehau 17146c8d8eccSSepherosa Ziehau /* 17156c8d8eccSSepherosa Ziehau * Map control/status registers. 17166c8d8eccSSepherosa Ziehau */ 17176c8d8eccSSepherosa Ziehau pci_enable_busmaster(dev); 17186c8d8eccSSepherosa Ziehau 17196c8d8eccSSepherosa Ziehau rid = BGE_PCI_BAR0; 17206c8d8eccSSepherosa Ziehau sc->bnx_res = bus_alloc_resource_any(dev, SYS_RES_MEMORY, &rid, 17216c8d8eccSSepherosa Ziehau RF_ACTIVE); 17226c8d8eccSSepherosa Ziehau 17236c8d8eccSSepherosa Ziehau if (sc->bnx_res == NULL) { 17246c8d8eccSSepherosa Ziehau device_printf(dev, "couldn't map memory\n"); 17256c8d8eccSSepherosa Ziehau return ENXIO; 17266c8d8eccSSepherosa Ziehau } 17276c8d8eccSSepherosa Ziehau 17286c8d8eccSSepherosa Ziehau sc->bnx_btag = rman_get_bustag(sc->bnx_res); 17296c8d8eccSSepherosa Ziehau sc->bnx_bhandle = rman_get_bushandle(sc->bnx_res); 17306c8d8eccSSepherosa Ziehau 17316c8d8eccSSepherosa Ziehau /* Save various chip information */ 17326c8d8eccSSepherosa Ziehau sc->bnx_chipid = 17336c8d8eccSSepherosa Ziehau pci_read_config(dev, BGE_PCI_MISC_CTL, 4) >> 17346c8d8eccSSepherosa Ziehau BGE_PCIMISCCTL_ASICREV_SHIFT; 17356c8d8eccSSepherosa Ziehau if (BGE_ASICREV(sc->bnx_chipid) == BGE_ASICREV_USE_PRODID_REG) { 17366c8d8eccSSepherosa Ziehau /* All chips having dedicated ASICREV register have CPMU */ 17376c8d8eccSSepherosa Ziehau sc->bnx_flags |= BNX_FLAG_CPMU; 17386c8d8eccSSepherosa Ziehau 17396c8d8eccSSepherosa Ziehau switch (product) { 17406c8d8eccSSepherosa Ziehau case PCI_PRODUCT_BROADCOM_BCM5717: 17416c8d8eccSSepherosa Ziehau case PCI_PRODUCT_BROADCOM_BCM5718: 17426c8d8eccSSepherosa Ziehau case PCI_PRODUCT_BROADCOM_BCM5719: 17436c8d8eccSSepherosa Ziehau case PCI_PRODUCT_BROADCOM_BCM5720_ALT: 17446c8d8eccSSepherosa Ziehau sc->bnx_chipid = pci_read_config(dev, 17456c8d8eccSSepherosa Ziehau BGE_PCI_GEN2_PRODID_ASICREV, 4); 17466c8d8eccSSepherosa Ziehau break; 17476c8d8eccSSepherosa Ziehau 17486c8d8eccSSepherosa Ziehau case PCI_PRODUCT_BROADCOM_BCM57761: 17496c8d8eccSSepherosa Ziehau case PCI_PRODUCT_BROADCOM_BCM57765: 17506c8d8eccSSepherosa Ziehau case PCI_PRODUCT_BROADCOM_BCM57781: 17516c8d8eccSSepherosa Ziehau case PCI_PRODUCT_BROADCOM_BCM57785: 17526c8d8eccSSepherosa Ziehau case PCI_PRODUCT_BROADCOM_BCM57791: 17536c8d8eccSSepherosa Ziehau case PCI_PRODUCT_BROADCOM_BCM57795: 17546c8d8eccSSepherosa Ziehau sc->bnx_chipid = pci_read_config(dev, 17556c8d8eccSSepherosa Ziehau BGE_PCI_GEN15_PRODID_ASICREV, 4); 17566c8d8eccSSepherosa Ziehau break; 17576c8d8eccSSepherosa Ziehau 17586c8d8eccSSepherosa Ziehau default: 17596c8d8eccSSepherosa Ziehau sc->bnx_chipid = pci_read_config(dev, 17606c8d8eccSSepherosa Ziehau BGE_PCI_PRODID_ASICREV, 4); 17616c8d8eccSSepherosa Ziehau break; 17626c8d8eccSSepherosa Ziehau } 17636c8d8eccSSepherosa Ziehau } 17646c8d8eccSSepherosa Ziehau sc->bnx_asicrev = BGE_ASICREV(sc->bnx_chipid); 17656c8d8eccSSepherosa Ziehau sc->bnx_chiprev = BGE_CHIPREV(sc->bnx_chipid); 17666c8d8eccSSepherosa Ziehau 17676c8d8eccSSepherosa Ziehau switch (sc->bnx_asicrev) { 17686c8d8eccSSepherosa Ziehau case BGE_ASICREV_BCM5717: 17696c8d8eccSSepherosa Ziehau case BGE_ASICREV_BCM5719: 17706c8d8eccSSepherosa Ziehau case BGE_ASICREV_BCM5720: 1771f368d0d9SSepherosa Ziehau sc->bnx_flags |= BNX_FLAG_5717_PLUS | BNX_FLAG_57765_PLUS; 1772f368d0d9SSepherosa Ziehau break; 1773f368d0d9SSepherosa Ziehau 17746c8d8eccSSepherosa Ziehau case BGE_ASICREV_BCM57765: 1775f368d0d9SSepherosa Ziehau sc->bnx_flags |= BNX_FLAG_57765_FAMILY | BNX_FLAG_57765_PLUS; 17766c8d8eccSSepherosa Ziehau break; 17776c8d8eccSSepherosa Ziehau } 17786c8d8eccSSepherosa Ziehau sc->bnx_flags |= BNX_FLAG_SHORTDMA; 17796c8d8eccSSepherosa Ziehau 17806c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5906) 17816c8d8eccSSepherosa Ziehau sc->bnx_flags |= BNX_FLAG_NO_EEPROM; 17826c8d8eccSSepherosa Ziehau 17836c8d8eccSSepherosa Ziehau misccfg = CSR_READ_4(sc, BGE_MISC_CFG) & BGE_MISCCFG_BOARD_ID_MASK; 17846c8d8eccSSepherosa Ziehau 17856c8d8eccSSepherosa Ziehau sc->bnx_pciecap = pci_get_pciecap_ptr(sc->bnx_dev); 17866c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5719 || 17876c8d8eccSSepherosa Ziehau sc->bnx_asicrev == BGE_ASICREV_BCM5720) 17886c8d8eccSSepherosa Ziehau pcie_set_max_readrq(dev, PCIEM_DEVCTL_MAX_READRQ_2048); 17896c8d8eccSSepherosa Ziehau else 17906c8d8eccSSepherosa Ziehau pcie_set_max_readrq(dev, PCIEM_DEVCTL_MAX_READRQ_4096); 17916c8d8eccSSepherosa Ziehau device_printf(dev, "CHIP ID 0x%08x; " 17926c8d8eccSSepherosa Ziehau "ASIC REV 0x%02x; CHIP REV 0x%02x\n", 17936c8d8eccSSepherosa Ziehau sc->bnx_chipid, sc->bnx_asicrev, sc->bnx_chiprev); 17946c8d8eccSSepherosa Ziehau 17956c8d8eccSSepherosa Ziehau /* 17966c8d8eccSSepherosa Ziehau * Set various PHY quirk flags. 17976c8d8eccSSepherosa Ziehau */ 17986c8d8eccSSepherosa Ziehau 17996c8d8eccSSepherosa Ziehau capmask = MII_CAPMASK_DEFAULT; 18006c8d8eccSSepherosa Ziehau if ((sc->bnx_asicrev == BGE_ASICREV_BCM5703 && 18016c8d8eccSSepherosa Ziehau (misccfg == 0x4000 || misccfg == 0x8000)) || 18026c8d8eccSSepherosa Ziehau (sc->bnx_asicrev == BGE_ASICREV_BCM5705 && 18036c8d8eccSSepherosa Ziehau vendor == PCI_VENDOR_BROADCOM && 18046c8d8eccSSepherosa Ziehau (product == PCI_PRODUCT_BROADCOM_BCM5901 || 18056c8d8eccSSepherosa Ziehau product == PCI_PRODUCT_BROADCOM_BCM5901A2 || 18066c8d8eccSSepherosa Ziehau product == PCI_PRODUCT_BROADCOM_BCM5705F)) || 18076c8d8eccSSepherosa Ziehau (vendor == PCI_VENDOR_BROADCOM && 18086c8d8eccSSepherosa Ziehau (product == PCI_PRODUCT_BROADCOM_BCM5751F || 18096c8d8eccSSepherosa Ziehau product == PCI_PRODUCT_BROADCOM_BCM5753F || 18106c8d8eccSSepherosa Ziehau product == PCI_PRODUCT_BROADCOM_BCM5787F)) || 18116c8d8eccSSepherosa Ziehau product == PCI_PRODUCT_BROADCOM_BCM57790 || 18126c8d8eccSSepherosa Ziehau sc->bnx_asicrev == BGE_ASICREV_BCM5906) { 18136c8d8eccSSepherosa Ziehau /* 10/100 only */ 18146c8d8eccSSepherosa Ziehau capmask &= ~BMSR_EXTSTAT; 18156c8d8eccSSepherosa Ziehau } 18166c8d8eccSSepherosa Ziehau 18176c8d8eccSSepherosa Ziehau mii_priv |= BRGPHY_FLAG_WIRESPEED; 18186c8d8eccSSepherosa Ziehau 18196c8d8eccSSepherosa Ziehau /* 18206c8d8eccSSepherosa Ziehau * Allocate interrupt 18216c8d8eccSSepherosa Ziehau */ 18226c8d8eccSSepherosa Ziehau sc->bnx_irq_type = pci_alloc_1intr(dev, bnx_msi_enable, &sc->bnx_irq_rid, 18236c8d8eccSSepherosa Ziehau &intr_flags); 18246c8d8eccSSepherosa Ziehau 18256c8d8eccSSepherosa Ziehau sc->bnx_irq = bus_alloc_resource_any(dev, SYS_RES_IRQ, &sc->bnx_irq_rid, 18266c8d8eccSSepherosa Ziehau intr_flags); 18276c8d8eccSSepherosa Ziehau if (sc->bnx_irq == NULL) { 18286c8d8eccSSepherosa Ziehau device_printf(dev, "couldn't map interrupt\n"); 18296c8d8eccSSepherosa Ziehau error = ENXIO; 18306c8d8eccSSepherosa Ziehau goto fail; 18316c8d8eccSSepherosa Ziehau } 18326c8d8eccSSepherosa Ziehau 18336c8d8eccSSepherosa Ziehau if (sc->bnx_irq_type == PCI_INTR_TYPE_MSI) { 18346c8d8eccSSepherosa Ziehau sc->bnx_flags |= BNX_FLAG_ONESHOT_MSI; 18356c8d8eccSSepherosa Ziehau bnx_enable_msi(sc); 18366c8d8eccSSepherosa Ziehau } 18376c8d8eccSSepherosa Ziehau 18386c8d8eccSSepherosa Ziehau /* Initialize if_name earlier, so if_printf could be used */ 18396c8d8eccSSepherosa Ziehau ifp = &sc->arpcom.ac_if; 18406c8d8eccSSepherosa Ziehau if_initname(ifp, device_get_name(dev), device_get_unit(dev)); 18416c8d8eccSSepherosa Ziehau 18426c8d8eccSSepherosa Ziehau /* Try to reset the chip. */ 18436c8d8eccSSepherosa Ziehau bnx_reset(sc); 18446c8d8eccSSepherosa Ziehau 18456c8d8eccSSepherosa Ziehau if (bnx_chipinit(sc)) { 18466c8d8eccSSepherosa Ziehau device_printf(dev, "chip initialization failed\n"); 18476c8d8eccSSepherosa Ziehau error = ENXIO; 18486c8d8eccSSepherosa Ziehau goto fail; 18496c8d8eccSSepherosa Ziehau } 18506c8d8eccSSepherosa Ziehau 18516c8d8eccSSepherosa Ziehau /* 18526c8d8eccSSepherosa Ziehau * Get station address 18536c8d8eccSSepherosa Ziehau */ 18546c8d8eccSSepherosa Ziehau error = bnx_get_eaddr(sc, ether_addr); 18556c8d8eccSSepherosa Ziehau if (error) { 18566c8d8eccSSepherosa Ziehau device_printf(dev, "failed to read station address\n"); 18576c8d8eccSSepherosa Ziehau goto fail; 18586c8d8eccSSepherosa Ziehau } 18596c8d8eccSSepherosa Ziehau 1860f368d0d9SSepherosa Ziehau if (BNX_IS_57765_PLUS(sc)) { 18616c8d8eccSSepherosa Ziehau sc->bnx_return_ring_cnt = BGE_RETURN_RING_CNT; 18626c8d8eccSSepherosa Ziehau } else { 18636c8d8eccSSepherosa Ziehau /* 5705/5750 limits RX return ring to 512 entries. */ 18646c8d8eccSSepherosa Ziehau sc->bnx_return_ring_cnt = BGE_RETURN_RING_CNT_5705; 18656c8d8eccSSepherosa Ziehau } 18666c8d8eccSSepherosa Ziehau 18676c8d8eccSSepherosa Ziehau error = bnx_dma_alloc(sc); 18686c8d8eccSSepherosa Ziehau if (error) 18696c8d8eccSSepherosa Ziehau goto fail; 18706c8d8eccSSepherosa Ziehau 18716c8d8eccSSepherosa Ziehau /* Set default tuneable values. */ 18726c8d8eccSSepherosa Ziehau sc->bnx_rx_coal_ticks = BNX_RX_COAL_TICKS_DEF; 18736c8d8eccSSepherosa Ziehau sc->bnx_tx_coal_ticks = BNX_TX_COAL_TICKS_DEF; 18746c8d8eccSSepherosa Ziehau sc->bnx_rx_coal_bds = BNX_RX_COAL_BDS_DEF; 18756c8d8eccSSepherosa Ziehau sc->bnx_tx_coal_bds = BNX_TX_COAL_BDS_DEF; 18766c8d8eccSSepherosa Ziehau sc->bnx_rx_coal_bds_int = BNX_RX_COAL_BDS_DEF; 18776c8d8eccSSepherosa Ziehau sc->bnx_tx_coal_bds_int = BNX_TX_COAL_BDS_DEF; 18786c8d8eccSSepherosa Ziehau 18796c8d8eccSSepherosa Ziehau /* Set up ifnet structure */ 18806c8d8eccSSepherosa Ziehau ifp->if_softc = sc; 18816c8d8eccSSepherosa Ziehau ifp->if_flags = IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST; 18826c8d8eccSSepherosa Ziehau ifp->if_ioctl = bnx_ioctl; 18836c8d8eccSSepherosa Ziehau ifp->if_start = bnx_start; 18846c8d8eccSSepherosa Ziehau #ifdef DEVICE_POLLING 18856c8d8eccSSepherosa Ziehau ifp->if_poll = bnx_poll; 18866c8d8eccSSepherosa Ziehau #endif 18876c8d8eccSSepherosa Ziehau ifp->if_watchdog = bnx_watchdog; 18886c8d8eccSSepherosa Ziehau ifp->if_init = bnx_init; 18896c8d8eccSSepherosa Ziehau ifp->if_mtu = ETHERMTU; 18906c8d8eccSSepherosa Ziehau ifp->if_capabilities = IFCAP_VLAN_HWTAGGING | IFCAP_VLAN_MTU; 18916c8d8eccSSepherosa Ziehau ifq_set_maxlen(&ifp->if_snd, BGE_TX_RING_CNT - 1); 18926c8d8eccSSepherosa Ziehau ifq_set_ready(&ifp->if_snd); 18936c8d8eccSSepherosa Ziehau 18946c8d8eccSSepherosa Ziehau ifp->if_capabilities |= IFCAP_HWCSUM; 18956c8d8eccSSepherosa Ziehau ifp->if_hwassist = BNX_CSUM_FEATURES; 18966c8d8eccSSepherosa Ziehau ifp->if_capenable = ifp->if_capabilities; 18976c8d8eccSSepherosa Ziehau 18986c8d8eccSSepherosa Ziehau /* 18996c8d8eccSSepherosa Ziehau * Figure out what sort of media we have by checking the 19006c8d8eccSSepherosa Ziehau * hardware config word in the first 32k of NIC internal memory, 19016c8d8eccSSepherosa Ziehau * or fall back to examining the EEPROM if necessary. 19026c8d8eccSSepherosa Ziehau * Note: on some BCM5700 cards, this value appears to be unset. 19036c8d8eccSSepherosa Ziehau * If that's the case, we have to rely on identifying the NIC 19046c8d8eccSSepherosa Ziehau * by its PCI subsystem ID, as we do below for the SysKonnect 19056c8d8eccSSepherosa Ziehau * SK-9D41. 19066c8d8eccSSepherosa Ziehau */ 19076c8d8eccSSepherosa Ziehau if (bnx_readmem_ind(sc, BGE_SOFTWARE_GENCOMM_SIG) == BGE_MAGIC_NUMBER) { 19086c8d8eccSSepherosa Ziehau hwcfg = bnx_readmem_ind(sc, BGE_SOFTWARE_GENCOMM_NICCFG); 19096c8d8eccSSepherosa Ziehau } else { 19106c8d8eccSSepherosa Ziehau if (bnx_read_eeprom(sc, (caddr_t)&hwcfg, BGE_EE_HWCFG_OFFSET, 19116c8d8eccSSepherosa Ziehau sizeof(hwcfg))) { 19126c8d8eccSSepherosa Ziehau device_printf(dev, "failed to read EEPROM\n"); 19136c8d8eccSSepherosa Ziehau error = ENXIO; 19146c8d8eccSSepherosa Ziehau goto fail; 19156c8d8eccSSepherosa Ziehau } 19166c8d8eccSSepherosa Ziehau hwcfg = ntohl(hwcfg); 19176c8d8eccSSepherosa Ziehau } 19186c8d8eccSSepherosa Ziehau 19196c8d8eccSSepherosa Ziehau /* The SysKonnect SK-9D41 is a 1000baseSX card. */ 19206c8d8eccSSepherosa Ziehau if (pci_get_subvendor(dev) == PCI_PRODUCT_SCHNEIDERKOCH_SK_9D41 || 19216c8d8eccSSepherosa Ziehau (hwcfg & BGE_HWCFG_MEDIA) == BGE_MEDIA_FIBER) 19226c8d8eccSSepherosa Ziehau sc->bnx_flags |= BNX_FLAG_TBI; 19236c8d8eccSSepherosa Ziehau 19246c8d8eccSSepherosa Ziehau /* Setup MI MODE */ 19256c8d8eccSSepherosa Ziehau if (sc->bnx_flags & BNX_FLAG_CPMU) 19266c8d8eccSSepherosa Ziehau sc->bnx_mi_mode = BGE_MIMODE_500KHZ_CONST; 19276c8d8eccSSepherosa Ziehau else 19286c8d8eccSSepherosa Ziehau sc->bnx_mi_mode = BGE_MIMODE_BASE; 19296c8d8eccSSepherosa Ziehau 19306c8d8eccSSepherosa Ziehau /* Setup link status update stuffs */ 19316c8d8eccSSepherosa Ziehau if (sc->bnx_flags & BNX_FLAG_TBI) { 19326c8d8eccSSepherosa Ziehau sc->bnx_link_upd = bnx_tbi_link_upd; 19336c8d8eccSSepherosa Ziehau sc->bnx_link_chg = BGE_MACSTAT_LINK_CHANGED; 19346c8d8eccSSepherosa Ziehau } else if (sc->bnx_mi_mode & BGE_MIMODE_AUTOPOLL) { 19356c8d8eccSSepherosa Ziehau sc->bnx_link_upd = bnx_autopoll_link_upd; 19366c8d8eccSSepherosa Ziehau sc->bnx_link_chg = BGE_MACSTAT_LINK_CHANGED; 19376c8d8eccSSepherosa Ziehau } else { 19386c8d8eccSSepherosa Ziehau sc->bnx_link_upd = bnx_copper_link_upd; 19396c8d8eccSSepherosa Ziehau sc->bnx_link_chg = BGE_MACSTAT_LINK_CHANGED; 19406c8d8eccSSepherosa Ziehau } 19416c8d8eccSSepherosa Ziehau 19426c8d8eccSSepherosa Ziehau /* Set default PHY address */ 19436c8d8eccSSepherosa Ziehau sc->bnx_phyno = 1; 19446c8d8eccSSepherosa Ziehau 19456c8d8eccSSepherosa Ziehau /* 19466c8d8eccSSepherosa Ziehau * PHY address mapping for various devices. 19476c8d8eccSSepherosa Ziehau * 19486c8d8eccSSepherosa Ziehau * | F0 Cu | F0 Sr | F1 Cu | F1 Sr | 19496c8d8eccSSepherosa Ziehau * ---------+-------+-------+-------+-------+ 19506c8d8eccSSepherosa Ziehau * BCM57XX | 1 | X | X | X | 19516c8d8eccSSepherosa Ziehau * BCM5704 | 1 | X | 1 | X | 19526c8d8eccSSepherosa Ziehau * BCM5717 | 1 | 8 | 2 | 9 | 19536c8d8eccSSepherosa Ziehau * BCM5719 | 1 | 8 | 2 | 9 | 19546c8d8eccSSepherosa Ziehau * BCM5720 | 1 | 8 | 2 | 9 | 19556c8d8eccSSepherosa Ziehau * 19566c8d8eccSSepherosa Ziehau * Other addresses may respond but they are not 19576c8d8eccSSepherosa Ziehau * IEEE compliant PHYs and should be ignored. 19586c8d8eccSSepherosa Ziehau */ 195980969639SSepherosa Ziehau if (BNX_IS_5717_PLUS(sc)) { 19606c8d8eccSSepherosa Ziehau int f; 19616c8d8eccSSepherosa Ziehau 19626c8d8eccSSepherosa Ziehau f = pci_get_function(dev); 19636c8d8eccSSepherosa Ziehau if (sc->bnx_chipid == BGE_CHIPID_BCM5717_A0) { 19646c8d8eccSSepherosa Ziehau if (CSR_READ_4(sc, BGE_SGDIG_STS) & 19656c8d8eccSSepherosa Ziehau BGE_SGDIGSTS_IS_SERDES) 19666c8d8eccSSepherosa Ziehau sc->bnx_phyno = f + 8; 19676c8d8eccSSepherosa Ziehau else 19686c8d8eccSSepherosa Ziehau sc->bnx_phyno = f + 1; 19696c8d8eccSSepherosa Ziehau } else { 19706c8d8eccSSepherosa Ziehau if (CSR_READ_4(sc, BGE_CPMU_PHY_STRAP) & 19716c8d8eccSSepherosa Ziehau BGE_CPMU_PHY_STRAP_IS_SERDES) 19726c8d8eccSSepherosa Ziehau sc->bnx_phyno = f + 8; 19736c8d8eccSSepherosa Ziehau else 19746c8d8eccSSepherosa Ziehau sc->bnx_phyno = f + 1; 19756c8d8eccSSepherosa Ziehau } 19766c8d8eccSSepherosa Ziehau } 19776c8d8eccSSepherosa Ziehau 19786c8d8eccSSepherosa Ziehau if (sc->bnx_flags & BNX_FLAG_TBI) { 19796c8d8eccSSepherosa Ziehau ifmedia_init(&sc->bnx_ifmedia, IFM_IMASK, 19806c8d8eccSSepherosa Ziehau bnx_ifmedia_upd, bnx_ifmedia_sts); 19816c8d8eccSSepherosa Ziehau ifmedia_add(&sc->bnx_ifmedia, IFM_ETHER|IFM_1000_SX, 0, NULL); 19826c8d8eccSSepherosa Ziehau ifmedia_add(&sc->bnx_ifmedia, 19836c8d8eccSSepherosa Ziehau IFM_ETHER|IFM_1000_SX|IFM_FDX, 0, NULL); 19846c8d8eccSSepherosa Ziehau ifmedia_add(&sc->bnx_ifmedia, IFM_ETHER|IFM_AUTO, 0, NULL); 19856c8d8eccSSepherosa Ziehau ifmedia_set(&sc->bnx_ifmedia, IFM_ETHER|IFM_AUTO); 19866c8d8eccSSepherosa Ziehau sc->bnx_ifmedia.ifm_media = sc->bnx_ifmedia.ifm_cur->ifm_media; 19876c8d8eccSSepherosa Ziehau } else { 19886c8d8eccSSepherosa Ziehau struct mii_probe_args mii_args; 19896c8d8eccSSepherosa Ziehau 19906c8d8eccSSepherosa Ziehau mii_probe_args_init(&mii_args, bnx_ifmedia_upd, bnx_ifmedia_sts); 19916c8d8eccSSepherosa Ziehau mii_args.mii_probemask = 1 << sc->bnx_phyno; 19926c8d8eccSSepherosa Ziehau mii_args.mii_capmask = capmask; 19936c8d8eccSSepherosa Ziehau mii_args.mii_privtag = MII_PRIVTAG_BRGPHY; 19946c8d8eccSSepherosa Ziehau mii_args.mii_priv = mii_priv; 19956c8d8eccSSepherosa Ziehau 19966c8d8eccSSepherosa Ziehau error = mii_probe(dev, &sc->bnx_miibus, &mii_args); 19976c8d8eccSSepherosa Ziehau if (error) { 19986c8d8eccSSepherosa Ziehau device_printf(dev, "MII without any PHY!\n"); 19996c8d8eccSSepherosa Ziehau goto fail; 20006c8d8eccSSepherosa Ziehau } 20016c8d8eccSSepherosa Ziehau } 20026c8d8eccSSepherosa Ziehau 20036c8d8eccSSepherosa Ziehau /* 20046c8d8eccSSepherosa Ziehau * Create sysctl nodes. 20056c8d8eccSSepherosa Ziehau */ 20066c8d8eccSSepherosa Ziehau sysctl_ctx_init(&sc->bnx_sysctl_ctx); 20076c8d8eccSSepherosa Ziehau sc->bnx_sysctl_tree = SYSCTL_ADD_NODE(&sc->bnx_sysctl_ctx, 20086c8d8eccSSepherosa Ziehau SYSCTL_STATIC_CHILDREN(_hw), 20096c8d8eccSSepherosa Ziehau OID_AUTO, 20106c8d8eccSSepherosa Ziehau device_get_nameunit(dev), 20116c8d8eccSSepherosa Ziehau CTLFLAG_RD, 0, ""); 20126c8d8eccSSepherosa Ziehau if (sc->bnx_sysctl_tree == NULL) { 20136c8d8eccSSepherosa Ziehau device_printf(dev, "can't add sysctl node\n"); 20146c8d8eccSSepherosa Ziehau error = ENXIO; 20156c8d8eccSSepherosa Ziehau goto fail; 20166c8d8eccSSepherosa Ziehau } 20176c8d8eccSSepherosa Ziehau 20186c8d8eccSSepherosa Ziehau SYSCTL_ADD_PROC(&sc->bnx_sysctl_ctx, 20196c8d8eccSSepherosa Ziehau SYSCTL_CHILDREN(sc->bnx_sysctl_tree), 20206c8d8eccSSepherosa Ziehau OID_AUTO, "rx_coal_ticks", 20216c8d8eccSSepherosa Ziehau CTLTYPE_INT | CTLFLAG_RW, 20226c8d8eccSSepherosa Ziehau sc, 0, bnx_sysctl_rx_coal_ticks, "I", 20236c8d8eccSSepherosa Ziehau "Receive coalescing ticks (usec)."); 20246c8d8eccSSepherosa Ziehau SYSCTL_ADD_PROC(&sc->bnx_sysctl_ctx, 20256c8d8eccSSepherosa Ziehau SYSCTL_CHILDREN(sc->bnx_sysctl_tree), 20266c8d8eccSSepherosa Ziehau OID_AUTO, "tx_coal_ticks", 20276c8d8eccSSepherosa Ziehau CTLTYPE_INT | CTLFLAG_RW, 20286c8d8eccSSepherosa Ziehau sc, 0, bnx_sysctl_tx_coal_ticks, "I", 20296c8d8eccSSepherosa Ziehau "Transmit coalescing ticks (usec)."); 20306c8d8eccSSepherosa Ziehau SYSCTL_ADD_PROC(&sc->bnx_sysctl_ctx, 20316c8d8eccSSepherosa Ziehau SYSCTL_CHILDREN(sc->bnx_sysctl_tree), 20326c8d8eccSSepherosa Ziehau OID_AUTO, "rx_coal_bds", 20336c8d8eccSSepherosa Ziehau CTLTYPE_INT | CTLFLAG_RW, 20346c8d8eccSSepherosa Ziehau sc, 0, bnx_sysctl_rx_coal_bds, "I", 20356c8d8eccSSepherosa Ziehau "Receive max coalesced BD count."); 20366c8d8eccSSepherosa Ziehau SYSCTL_ADD_PROC(&sc->bnx_sysctl_ctx, 20376c8d8eccSSepherosa Ziehau SYSCTL_CHILDREN(sc->bnx_sysctl_tree), 20386c8d8eccSSepherosa Ziehau OID_AUTO, "tx_coal_bds", 20396c8d8eccSSepherosa Ziehau CTLTYPE_INT | CTLFLAG_RW, 20406c8d8eccSSepherosa Ziehau sc, 0, bnx_sysctl_tx_coal_bds, "I", 20416c8d8eccSSepherosa Ziehau "Transmit max coalesced BD count."); 20426c8d8eccSSepherosa Ziehau /* 20436c8d8eccSSepherosa Ziehau * A common design characteristic for many Broadcom 20446c8d8eccSSepherosa Ziehau * client controllers is that they only support a 20456c8d8eccSSepherosa Ziehau * single outstanding DMA read operation on the PCIe 20466c8d8eccSSepherosa Ziehau * bus. This means that it will take twice as long to 20476c8d8eccSSepherosa Ziehau * fetch a TX frame that is split into header and 20486c8d8eccSSepherosa Ziehau * payload buffers as it does to fetch a single, 20496c8d8eccSSepherosa Ziehau * contiguous TX frame (2 reads vs. 1 read). For these 20506c8d8eccSSepherosa Ziehau * controllers, coalescing buffers to reduce the number 20516c8d8eccSSepherosa Ziehau * of memory reads is effective way to get maximum 20526c8d8eccSSepherosa Ziehau * performance(about 940Mbps). Without collapsing TX 20536c8d8eccSSepherosa Ziehau * buffers the maximum TCP bulk transfer performance 20546c8d8eccSSepherosa Ziehau * is about 850Mbps. However forcing coalescing mbufs 20556c8d8eccSSepherosa Ziehau * consumes a lot of CPU cycles, so leave it off by 20566c8d8eccSSepherosa Ziehau * default. 20576c8d8eccSSepherosa Ziehau */ 20586c8d8eccSSepherosa Ziehau SYSCTL_ADD_INT(&sc->bnx_sysctl_ctx, 20596c8d8eccSSepherosa Ziehau SYSCTL_CHILDREN(sc->bnx_sysctl_tree), OID_AUTO, 20606c8d8eccSSepherosa Ziehau "force_defrag", CTLFLAG_RW, &sc->bnx_force_defrag, 0, 20616c8d8eccSSepherosa Ziehau "Force defragment on TX path"); 20626c8d8eccSSepherosa Ziehau 20636c8d8eccSSepherosa Ziehau SYSCTL_ADD_PROC(&sc->bnx_sysctl_ctx, 20646c8d8eccSSepherosa Ziehau SYSCTL_CHILDREN(sc->bnx_sysctl_tree), OID_AUTO, 20656c8d8eccSSepherosa Ziehau "rx_coal_bds_int", CTLTYPE_INT | CTLFLAG_RW, 20666c8d8eccSSepherosa Ziehau sc, 0, bnx_sysctl_rx_coal_bds_int, "I", 20676c8d8eccSSepherosa Ziehau "Receive max coalesced BD count during interrupt."); 20686c8d8eccSSepherosa Ziehau SYSCTL_ADD_PROC(&sc->bnx_sysctl_ctx, 20696c8d8eccSSepherosa Ziehau SYSCTL_CHILDREN(sc->bnx_sysctl_tree), OID_AUTO, 20706c8d8eccSSepherosa Ziehau "tx_coal_bds_int", CTLTYPE_INT | CTLFLAG_RW, 20716c8d8eccSSepherosa Ziehau sc, 0, bnx_sysctl_tx_coal_bds_int, "I", 20726c8d8eccSSepherosa Ziehau "Transmit max coalesced BD count during interrupt."); 20736c8d8eccSSepherosa Ziehau 20746c8d8eccSSepherosa Ziehau /* 20756c8d8eccSSepherosa Ziehau * Call MI attach routine. 20766c8d8eccSSepherosa Ziehau */ 20776c8d8eccSSepherosa Ziehau ether_ifattach(ifp, ether_addr, NULL); 20786c8d8eccSSepherosa Ziehau 20796c8d8eccSSepherosa Ziehau if (sc->bnx_irq_type == PCI_INTR_TYPE_MSI) { 20806c8d8eccSSepherosa Ziehau if (sc->bnx_flags & BNX_FLAG_ONESHOT_MSI) { 20816c8d8eccSSepherosa Ziehau intr_func = bnx_msi_oneshot; 20826c8d8eccSSepherosa Ziehau if (bootverbose) 20836c8d8eccSSepherosa Ziehau device_printf(dev, "oneshot MSI\n"); 20846c8d8eccSSepherosa Ziehau } else { 20856c8d8eccSSepherosa Ziehau intr_func = bnx_msi; 20866c8d8eccSSepherosa Ziehau } 20876c8d8eccSSepherosa Ziehau } else { 20886c8d8eccSSepherosa Ziehau intr_func = bnx_intr_legacy; 20896c8d8eccSSepherosa Ziehau } 20906c8d8eccSSepherosa Ziehau error = bus_setup_intr(dev, sc->bnx_irq, INTR_MPSAFE, intr_func, sc, 20916c8d8eccSSepherosa Ziehau &sc->bnx_intrhand, ifp->if_serializer); 20926c8d8eccSSepherosa Ziehau if (error) { 20936c8d8eccSSepherosa Ziehau ether_ifdetach(ifp); 20946c8d8eccSSepherosa Ziehau device_printf(dev, "couldn't set up irq\n"); 20956c8d8eccSSepherosa Ziehau goto fail; 20966c8d8eccSSepherosa Ziehau } 20976c8d8eccSSepherosa Ziehau 20986c8d8eccSSepherosa Ziehau ifp->if_cpuid = rman_get_cpuid(sc->bnx_irq); 20996c8d8eccSSepherosa Ziehau KKASSERT(ifp->if_cpuid >= 0 && ifp->if_cpuid < ncpus); 21006c8d8eccSSepherosa Ziehau 21016c8d8eccSSepherosa Ziehau return(0); 21026c8d8eccSSepherosa Ziehau fail: 21036c8d8eccSSepherosa Ziehau bnx_detach(dev); 21046c8d8eccSSepherosa Ziehau return(error); 21056c8d8eccSSepherosa Ziehau } 21066c8d8eccSSepherosa Ziehau 21076c8d8eccSSepherosa Ziehau static int 21086c8d8eccSSepherosa Ziehau bnx_detach(device_t dev) 21096c8d8eccSSepherosa Ziehau { 21106c8d8eccSSepherosa Ziehau struct bnx_softc *sc = device_get_softc(dev); 21116c8d8eccSSepherosa Ziehau 21126c8d8eccSSepherosa Ziehau if (device_is_attached(dev)) { 21136c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 21146c8d8eccSSepherosa Ziehau 21156c8d8eccSSepherosa Ziehau lwkt_serialize_enter(ifp->if_serializer); 21166c8d8eccSSepherosa Ziehau bnx_stop(sc); 21176c8d8eccSSepherosa Ziehau bnx_reset(sc); 21186c8d8eccSSepherosa Ziehau bus_teardown_intr(dev, sc->bnx_irq, sc->bnx_intrhand); 21196c8d8eccSSepherosa Ziehau lwkt_serialize_exit(ifp->if_serializer); 21206c8d8eccSSepherosa Ziehau 21216c8d8eccSSepherosa Ziehau ether_ifdetach(ifp); 21226c8d8eccSSepherosa Ziehau } 21236c8d8eccSSepherosa Ziehau 21246c8d8eccSSepherosa Ziehau if (sc->bnx_flags & BNX_FLAG_TBI) 21256c8d8eccSSepherosa Ziehau ifmedia_removeall(&sc->bnx_ifmedia); 21266c8d8eccSSepherosa Ziehau if (sc->bnx_miibus) 21276c8d8eccSSepherosa Ziehau device_delete_child(dev, sc->bnx_miibus); 21286c8d8eccSSepherosa Ziehau bus_generic_detach(dev); 21296c8d8eccSSepherosa Ziehau 21306c8d8eccSSepherosa Ziehau if (sc->bnx_irq != NULL) { 21316c8d8eccSSepherosa Ziehau bus_release_resource(dev, SYS_RES_IRQ, sc->bnx_irq_rid, 21326c8d8eccSSepherosa Ziehau sc->bnx_irq); 21336c8d8eccSSepherosa Ziehau } 21346c8d8eccSSepherosa Ziehau if (sc->bnx_irq_type == PCI_INTR_TYPE_MSI) 21356c8d8eccSSepherosa Ziehau pci_release_msi(dev); 21366c8d8eccSSepherosa Ziehau 21376c8d8eccSSepherosa Ziehau if (sc->bnx_res != NULL) { 21386c8d8eccSSepherosa Ziehau bus_release_resource(dev, SYS_RES_MEMORY, 21396c8d8eccSSepherosa Ziehau BGE_PCI_BAR0, sc->bnx_res); 21406c8d8eccSSepherosa Ziehau } 21416c8d8eccSSepherosa Ziehau 21426c8d8eccSSepherosa Ziehau if (sc->bnx_sysctl_tree != NULL) 21436c8d8eccSSepherosa Ziehau sysctl_ctx_free(&sc->bnx_sysctl_ctx); 21446c8d8eccSSepherosa Ziehau 21456c8d8eccSSepherosa Ziehau bnx_dma_free(sc); 21466c8d8eccSSepherosa Ziehau 21476c8d8eccSSepherosa Ziehau return 0; 21486c8d8eccSSepherosa Ziehau } 21496c8d8eccSSepherosa Ziehau 21506c8d8eccSSepherosa Ziehau static void 21516c8d8eccSSepherosa Ziehau bnx_reset(struct bnx_softc *sc) 21526c8d8eccSSepherosa Ziehau { 21536c8d8eccSSepherosa Ziehau device_t dev; 21546c8d8eccSSepherosa Ziehau uint32_t cachesize, command, pcistate, reset; 21556c8d8eccSSepherosa Ziehau void (*write_op)(struct bnx_softc *, uint32_t, uint32_t); 21566c8d8eccSSepherosa Ziehau int i, val = 0; 21576c8d8eccSSepherosa Ziehau uint16_t devctl; 21586c8d8eccSSepherosa Ziehau 21596c8d8eccSSepherosa Ziehau dev = sc->bnx_dev; 21606c8d8eccSSepherosa Ziehau 21616c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev != BGE_ASICREV_BCM5906) 21626c8d8eccSSepherosa Ziehau write_op = bnx_writemem_direct; 21636c8d8eccSSepherosa Ziehau else 21646c8d8eccSSepherosa Ziehau write_op = bnx_writereg_ind; 21656c8d8eccSSepherosa Ziehau 21666c8d8eccSSepherosa Ziehau /* Save some important PCI state. */ 21676c8d8eccSSepherosa Ziehau cachesize = pci_read_config(dev, BGE_PCI_CACHESZ, 4); 21686c8d8eccSSepherosa Ziehau command = pci_read_config(dev, BGE_PCI_CMD, 4); 21696c8d8eccSSepherosa Ziehau pcistate = pci_read_config(dev, BGE_PCI_PCISTATE, 4); 21706c8d8eccSSepherosa Ziehau 21716c8d8eccSSepherosa Ziehau pci_write_config(dev, BGE_PCI_MISC_CTL, 21726c8d8eccSSepherosa Ziehau BGE_PCIMISCCTL_INDIRECT_ACCESS|BGE_PCIMISCCTL_MASK_PCI_INTR| 21736c8d8eccSSepherosa Ziehau BGE_HIF_SWAP_OPTIONS|BGE_PCIMISCCTL_PCISTATE_RW| 21746c8d8eccSSepherosa Ziehau BGE_PCIMISCCTL_TAGGED_STATUS, 4); 21756c8d8eccSSepherosa Ziehau 21766c8d8eccSSepherosa Ziehau /* Disable fastboot on controllers that support it. */ 21776c8d8eccSSepherosa Ziehau if (bootverbose) 21786c8d8eccSSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "Disabling fastboot\n"); 21796c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_FASTBOOT_PC, 0x0); 21806c8d8eccSSepherosa Ziehau 21816c8d8eccSSepherosa Ziehau /* 21826c8d8eccSSepherosa Ziehau * Write the magic number to SRAM at offset 0xB50. 21836c8d8eccSSepherosa Ziehau * When firmware finishes its initialization it will 21846c8d8eccSSepherosa Ziehau * write ~BGE_MAGIC_NUMBER to the same location. 21856c8d8eccSSepherosa Ziehau */ 21866c8d8eccSSepherosa Ziehau bnx_writemem_ind(sc, BGE_SOFTWARE_GENCOMM, BGE_MAGIC_NUMBER); 21876c8d8eccSSepherosa Ziehau 21886c8d8eccSSepherosa Ziehau reset = BGE_MISCCFG_RESET_CORE_CLOCKS|(65<<1); 21896c8d8eccSSepherosa Ziehau 21906c8d8eccSSepherosa Ziehau /* XXX: Broadcom Linux driver. */ 21916c8d8eccSSepherosa Ziehau /* Force PCI-E 1.0a mode */ 2192*3730a14dSSepherosa Ziehau if (!BNX_IS_57765_PLUS(sc) && 21936c8d8eccSSepherosa Ziehau CSR_READ_4(sc, BGE_PCIE_PHY_TSTCTL) == 21946c8d8eccSSepherosa Ziehau (BGE_PCIE_PHY_TSTCTL_PSCRAM | 21956c8d8eccSSepherosa Ziehau BGE_PCIE_PHY_TSTCTL_PCIE10)) { 21966c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_PCIE_PHY_TSTCTL, 21976c8d8eccSSepherosa Ziehau BGE_PCIE_PHY_TSTCTL_PSCRAM); 21986c8d8eccSSepherosa Ziehau } 21996c8d8eccSSepherosa Ziehau if (sc->bnx_chipid != BGE_CHIPID_BCM5750_A0) { 22006c8d8eccSSepherosa Ziehau /* Prevent PCIE link training during global reset */ 22016c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MISC_CFG, (1<<29)); 22026c8d8eccSSepherosa Ziehau reset |= (1<<29); 22036c8d8eccSSepherosa Ziehau } 22046c8d8eccSSepherosa Ziehau 22056c8d8eccSSepherosa Ziehau /* 22066c8d8eccSSepherosa Ziehau * Set GPHY Power Down Override to leave GPHY 22076c8d8eccSSepherosa Ziehau * powered up in D0 uninitialized. 22086c8d8eccSSepherosa Ziehau */ 22096c8d8eccSSepherosa Ziehau if ((sc->bnx_flags & BNX_FLAG_CPMU) == 0) 22106c8d8eccSSepherosa Ziehau reset |= BGE_MISCCFG_GPHY_PD_OVERRIDE; 22116c8d8eccSSepherosa Ziehau 22126c8d8eccSSepherosa Ziehau /* Issue global reset */ 22136c8d8eccSSepherosa Ziehau write_op(sc, BGE_MISC_CFG, reset); 22146c8d8eccSSepherosa Ziehau 22156c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5906) { 22166c8d8eccSSepherosa Ziehau uint32_t status, ctrl; 22176c8d8eccSSepherosa Ziehau 22186c8d8eccSSepherosa Ziehau status = CSR_READ_4(sc, BGE_VCPU_STATUS); 22196c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_VCPU_STATUS, 22206c8d8eccSSepherosa Ziehau status | BGE_VCPU_STATUS_DRV_RESET); 22216c8d8eccSSepherosa Ziehau ctrl = CSR_READ_4(sc, BGE_VCPU_EXT_CTRL); 22226c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_VCPU_EXT_CTRL, 22236c8d8eccSSepherosa Ziehau ctrl & ~BGE_VCPU_EXT_CTRL_HALT_CPU); 22246c8d8eccSSepherosa Ziehau } 22256c8d8eccSSepherosa Ziehau 22266c8d8eccSSepherosa Ziehau DELAY(1000); 22276c8d8eccSSepherosa Ziehau 22286c8d8eccSSepherosa Ziehau /* XXX: Broadcom Linux driver. */ 22296c8d8eccSSepherosa Ziehau if (sc->bnx_chipid == BGE_CHIPID_BCM5750_A0) { 22306c8d8eccSSepherosa Ziehau uint32_t v; 22316c8d8eccSSepherosa Ziehau 22326c8d8eccSSepherosa Ziehau DELAY(500000); /* wait for link training to complete */ 22336c8d8eccSSepherosa Ziehau v = pci_read_config(dev, 0xc4, 4); 22346c8d8eccSSepherosa Ziehau pci_write_config(dev, 0xc4, v | (1<<15), 4); 22356c8d8eccSSepherosa Ziehau } 22366c8d8eccSSepherosa Ziehau 22376c8d8eccSSepherosa Ziehau devctl = pci_read_config(dev, sc->bnx_pciecap + PCIER_DEVCTRL, 2); 22386c8d8eccSSepherosa Ziehau 22396c8d8eccSSepherosa Ziehau /* Disable no snoop and disable relaxed ordering. */ 22406c8d8eccSSepherosa Ziehau devctl &= ~(PCIEM_DEVCTL_RELAX_ORDER | PCIEM_DEVCTL_NOSNOOP); 22416c8d8eccSSepherosa Ziehau 22426c8d8eccSSepherosa Ziehau /* Old PCI-E chips only support 128 bytes Max PayLoad Size. */ 22436c8d8eccSSepherosa Ziehau if ((sc->bnx_flags & BNX_FLAG_CPMU) == 0) { 22446c8d8eccSSepherosa Ziehau devctl &= ~PCIEM_DEVCTL_MAX_PAYLOAD_MASK; 22456c8d8eccSSepherosa Ziehau devctl |= PCIEM_DEVCTL_MAX_PAYLOAD_128; 22466c8d8eccSSepherosa Ziehau } 22476c8d8eccSSepherosa Ziehau 22486c8d8eccSSepherosa Ziehau pci_write_config(dev, sc->bnx_pciecap + PCIER_DEVCTRL, 22496c8d8eccSSepherosa Ziehau devctl, 2); 22506c8d8eccSSepherosa Ziehau 22516c8d8eccSSepherosa Ziehau /* Clear error status. */ 22526c8d8eccSSepherosa Ziehau pci_write_config(dev, sc->bnx_pciecap + PCIER_DEVSTS, 22536c8d8eccSSepherosa Ziehau PCIEM_DEVSTS_CORR_ERR | 22546c8d8eccSSepherosa Ziehau PCIEM_DEVSTS_NFATAL_ERR | 22556c8d8eccSSepherosa Ziehau PCIEM_DEVSTS_FATAL_ERR | 22566c8d8eccSSepherosa Ziehau PCIEM_DEVSTS_UNSUPP_REQ, 2); 22576c8d8eccSSepherosa Ziehau 22586c8d8eccSSepherosa Ziehau /* Reset some of the PCI state that got zapped by reset */ 22596c8d8eccSSepherosa Ziehau pci_write_config(dev, BGE_PCI_MISC_CTL, 22606c8d8eccSSepherosa Ziehau BGE_PCIMISCCTL_INDIRECT_ACCESS|BGE_PCIMISCCTL_MASK_PCI_INTR| 22616c8d8eccSSepherosa Ziehau BGE_HIF_SWAP_OPTIONS|BGE_PCIMISCCTL_PCISTATE_RW| 22626c8d8eccSSepherosa Ziehau BGE_PCIMISCCTL_TAGGED_STATUS, 4); 22636c8d8eccSSepherosa Ziehau pci_write_config(dev, BGE_PCI_CACHESZ, cachesize, 4); 22646c8d8eccSSepherosa Ziehau pci_write_config(dev, BGE_PCI_CMD, command, 4); 22656c8d8eccSSepherosa Ziehau write_op(sc, BGE_MISC_CFG, (65 << 1)); 22666c8d8eccSSepherosa Ziehau 22676c8d8eccSSepherosa Ziehau /* Enable memory arbiter */ 22686c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MARB_MODE, BGE_MARBMODE_ENABLE); 22696c8d8eccSSepherosa Ziehau 22706c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5906) { 22716c8d8eccSSepherosa Ziehau for (i = 0; i < BNX_TIMEOUT; i++) { 22726c8d8eccSSepherosa Ziehau val = CSR_READ_4(sc, BGE_VCPU_STATUS); 22736c8d8eccSSepherosa Ziehau if (val & BGE_VCPU_STATUS_INIT_DONE) 22746c8d8eccSSepherosa Ziehau break; 22756c8d8eccSSepherosa Ziehau DELAY(100); 22766c8d8eccSSepherosa Ziehau } 22776c8d8eccSSepherosa Ziehau if (i == BNX_TIMEOUT) { 22786c8d8eccSSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "reset timed out\n"); 22796c8d8eccSSepherosa Ziehau return; 22806c8d8eccSSepherosa Ziehau } 22816c8d8eccSSepherosa Ziehau } else { 22826c8d8eccSSepherosa Ziehau /* 22836c8d8eccSSepherosa Ziehau * Poll until we see the 1's complement of the magic number. 22846c8d8eccSSepherosa Ziehau * This indicates that the firmware initialization 22856c8d8eccSSepherosa Ziehau * is complete. 22866c8d8eccSSepherosa Ziehau */ 22876c8d8eccSSepherosa Ziehau for (i = 0; i < BNX_FIRMWARE_TIMEOUT; i++) { 22886c8d8eccSSepherosa Ziehau val = bnx_readmem_ind(sc, BGE_SOFTWARE_GENCOMM); 22896c8d8eccSSepherosa Ziehau if (val == ~BGE_MAGIC_NUMBER) 22906c8d8eccSSepherosa Ziehau break; 22916c8d8eccSSepherosa Ziehau DELAY(10); 22926c8d8eccSSepherosa Ziehau } 22936c8d8eccSSepherosa Ziehau if (i == BNX_FIRMWARE_TIMEOUT) { 22946c8d8eccSSepherosa Ziehau if_printf(&sc->arpcom.ac_if, "firmware handshake " 22956c8d8eccSSepherosa Ziehau "timed out, found 0x%08x\n", val); 22966c8d8eccSSepherosa Ziehau } 22976c8d8eccSSepherosa Ziehau 22986c8d8eccSSepherosa Ziehau /* BCM57765 A0 needs additional time before accessing. */ 22996c8d8eccSSepherosa Ziehau if (sc->bnx_chipid == BGE_CHIPID_BCM57765_A0) 23006c8d8eccSSepherosa Ziehau DELAY(10 * 1000); 23016c8d8eccSSepherosa Ziehau } 23026c8d8eccSSepherosa Ziehau 23036c8d8eccSSepherosa Ziehau /* 23046c8d8eccSSepherosa Ziehau * XXX Wait for the value of the PCISTATE register to 23056c8d8eccSSepherosa Ziehau * return to its original pre-reset state. This is a 23066c8d8eccSSepherosa Ziehau * fairly good indicator of reset completion. If we don't 23076c8d8eccSSepherosa Ziehau * wait for the reset to fully complete, trying to read 23086c8d8eccSSepherosa Ziehau * from the device's non-PCI registers may yield garbage 23096c8d8eccSSepherosa Ziehau * results. 23106c8d8eccSSepherosa Ziehau */ 23116c8d8eccSSepherosa Ziehau for (i = 0; i < BNX_TIMEOUT; i++) { 23126c8d8eccSSepherosa Ziehau if (pci_read_config(dev, BGE_PCI_PCISTATE, 4) == pcistate) 23136c8d8eccSSepherosa Ziehau break; 23146c8d8eccSSepherosa Ziehau DELAY(10); 23156c8d8eccSSepherosa Ziehau } 23166c8d8eccSSepherosa Ziehau 23176c8d8eccSSepherosa Ziehau /* Fix up byte swapping */ 23186c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MODE_CTL, bnx_dma_swap_options(sc)); 23196c8d8eccSSepherosa Ziehau 23206c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAC_MODE, 0); 23216c8d8eccSSepherosa Ziehau 23226c8d8eccSSepherosa Ziehau /* 23236c8d8eccSSepherosa Ziehau * The 5704 in TBI mode apparently needs some special 23246c8d8eccSSepherosa Ziehau * adjustment to insure the SERDES drive level is set 23256c8d8eccSSepherosa Ziehau * to 1.2V. 23266c8d8eccSSepherosa Ziehau */ 23276c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5704 && 23286c8d8eccSSepherosa Ziehau (sc->bnx_flags & BNX_FLAG_TBI)) { 23296c8d8eccSSepherosa Ziehau uint32_t serdescfg; 23306c8d8eccSSepherosa Ziehau 23316c8d8eccSSepherosa Ziehau serdescfg = CSR_READ_4(sc, BGE_SERDES_CFG); 23326c8d8eccSSepherosa Ziehau serdescfg = (serdescfg & ~0xFFF) | 0x880; 23336c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_SERDES_CFG, serdescfg); 23346c8d8eccSSepherosa Ziehau } 23356c8d8eccSSepherosa Ziehau 23366c8d8eccSSepherosa Ziehau /* XXX: Broadcom Linux driver. */ 2337*3730a14dSSepherosa Ziehau if (!BNX_IS_57765_PLUS(sc)) { 23386c8d8eccSSepherosa Ziehau uint32_t v; 23396c8d8eccSSepherosa Ziehau 23406c8d8eccSSepherosa Ziehau /* Enable Data FIFO protection. */ 2341f1f34fc4SSepherosa Ziehau v = CSR_READ_4(sc, BGE_PCIE_TLDLPL_PORT); 2342f1f34fc4SSepherosa Ziehau CSR_WRITE_4(sc, BGE_PCIE_TLDLPL_PORT, v | (1 << 25)); 23436c8d8eccSSepherosa Ziehau } 23446c8d8eccSSepherosa Ziehau 23456c8d8eccSSepherosa Ziehau DELAY(10000); 23466c8d8eccSSepherosa Ziehau 23476c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5720) { 23486c8d8eccSSepherosa Ziehau BNX_CLRBIT(sc, BGE_CPMU_CLCK_ORIDE, 23496c8d8eccSSepherosa Ziehau CPMU_CLCK_ORIDE_MAC_ORIDE_EN); 23506c8d8eccSSepherosa Ziehau } 23516c8d8eccSSepherosa Ziehau } 23526c8d8eccSSepherosa Ziehau 23536c8d8eccSSepherosa Ziehau /* 23546c8d8eccSSepherosa Ziehau * Frame reception handling. This is called if there's a frame 23556c8d8eccSSepherosa Ziehau * on the receive return list. 23566c8d8eccSSepherosa Ziehau * 23576c8d8eccSSepherosa Ziehau * Note: we have to be able to handle two possibilities here: 23586c8d8eccSSepherosa Ziehau * 1) the frame is from the jumbo recieve ring 23596c8d8eccSSepherosa Ziehau * 2) the frame is from the standard receive ring 23606c8d8eccSSepherosa Ziehau */ 23616c8d8eccSSepherosa Ziehau 23626c8d8eccSSepherosa Ziehau static void 23636c8d8eccSSepherosa Ziehau bnx_rxeof(struct bnx_softc *sc, uint16_t rx_prod) 23646c8d8eccSSepherosa Ziehau { 23656c8d8eccSSepherosa Ziehau struct ifnet *ifp; 23666c8d8eccSSepherosa Ziehau int stdcnt = 0, jumbocnt = 0; 23676c8d8eccSSepherosa Ziehau 23686c8d8eccSSepherosa Ziehau ifp = &sc->arpcom.ac_if; 23696c8d8eccSSepherosa Ziehau 23706c8d8eccSSepherosa Ziehau while (sc->bnx_rx_saved_considx != rx_prod) { 23716c8d8eccSSepherosa Ziehau struct bge_rx_bd *cur_rx; 23726c8d8eccSSepherosa Ziehau uint32_t rxidx; 23736c8d8eccSSepherosa Ziehau struct mbuf *m = NULL; 23746c8d8eccSSepherosa Ziehau uint16_t vlan_tag = 0; 23756c8d8eccSSepherosa Ziehau int have_tag = 0; 23766c8d8eccSSepherosa Ziehau 23776c8d8eccSSepherosa Ziehau cur_rx = 23786c8d8eccSSepherosa Ziehau &sc->bnx_ldata.bnx_rx_return_ring[sc->bnx_rx_saved_considx]; 23796c8d8eccSSepherosa Ziehau 23806c8d8eccSSepherosa Ziehau rxidx = cur_rx->bge_idx; 23816c8d8eccSSepherosa Ziehau BNX_INC(sc->bnx_rx_saved_considx, sc->bnx_return_ring_cnt); 23826c8d8eccSSepherosa Ziehau 23836c8d8eccSSepherosa Ziehau if (cur_rx->bge_flags & BGE_RXBDFLAG_VLAN_TAG) { 23846c8d8eccSSepherosa Ziehau have_tag = 1; 23856c8d8eccSSepherosa Ziehau vlan_tag = cur_rx->bge_vlan_tag; 23866c8d8eccSSepherosa Ziehau } 23876c8d8eccSSepherosa Ziehau 23886c8d8eccSSepherosa Ziehau if (cur_rx->bge_flags & BGE_RXBDFLAG_JUMBO_RING) { 23896c8d8eccSSepherosa Ziehau BNX_INC(sc->bnx_jumbo, BGE_JUMBO_RX_RING_CNT); 23906c8d8eccSSepherosa Ziehau jumbocnt++; 23916c8d8eccSSepherosa Ziehau 23926c8d8eccSSepherosa Ziehau if (rxidx != sc->bnx_jumbo) { 23936c8d8eccSSepherosa Ziehau ifp->if_ierrors++; 23946c8d8eccSSepherosa Ziehau if_printf(ifp, "sw jumbo index(%d) " 23956c8d8eccSSepherosa Ziehau "and hw jumbo index(%d) mismatch, drop!\n", 23966c8d8eccSSepherosa Ziehau sc->bnx_jumbo, rxidx); 23976c8d8eccSSepherosa Ziehau bnx_setup_rxdesc_jumbo(sc, rxidx); 23986c8d8eccSSepherosa Ziehau continue; 23996c8d8eccSSepherosa Ziehau } 24006c8d8eccSSepherosa Ziehau 24016c8d8eccSSepherosa Ziehau m = sc->bnx_cdata.bnx_rx_jumbo_chain[rxidx].bnx_mbuf; 24026c8d8eccSSepherosa Ziehau if (cur_rx->bge_flags & BGE_RXBDFLAG_ERROR) { 24036c8d8eccSSepherosa Ziehau ifp->if_ierrors++; 24046c8d8eccSSepherosa Ziehau bnx_setup_rxdesc_jumbo(sc, sc->bnx_jumbo); 24056c8d8eccSSepherosa Ziehau continue; 24066c8d8eccSSepherosa Ziehau } 24076c8d8eccSSepherosa Ziehau if (bnx_newbuf_jumbo(sc, sc->bnx_jumbo, 0)) { 24086c8d8eccSSepherosa Ziehau ifp->if_ierrors++; 24096c8d8eccSSepherosa Ziehau bnx_setup_rxdesc_jumbo(sc, sc->bnx_jumbo); 24106c8d8eccSSepherosa Ziehau continue; 24116c8d8eccSSepherosa Ziehau } 24126c8d8eccSSepherosa Ziehau } else { 24136c8d8eccSSepherosa Ziehau BNX_INC(sc->bnx_std, BGE_STD_RX_RING_CNT); 24146c8d8eccSSepherosa Ziehau stdcnt++; 24156c8d8eccSSepherosa Ziehau 24166c8d8eccSSepherosa Ziehau if (rxidx != sc->bnx_std) { 24176c8d8eccSSepherosa Ziehau ifp->if_ierrors++; 24186c8d8eccSSepherosa Ziehau if_printf(ifp, "sw std index(%d) " 24196c8d8eccSSepherosa Ziehau "and hw std index(%d) mismatch, drop!\n", 24206c8d8eccSSepherosa Ziehau sc->bnx_std, rxidx); 24216c8d8eccSSepherosa Ziehau bnx_setup_rxdesc_std(sc, rxidx); 24226c8d8eccSSepherosa Ziehau continue; 24236c8d8eccSSepherosa Ziehau } 24246c8d8eccSSepherosa Ziehau 24256c8d8eccSSepherosa Ziehau m = sc->bnx_cdata.bnx_rx_std_chain[rxidx].bnx_mbuf; 24266c8d8eccSSepherosa Ziehau if (cur_rx->bge_flags & BGE_RXBDFLAG_ERROR) { 24276c8d8eccSSepherosa Ziehau ifp->if_ierrors++; 24286c8d8eccSSepherosa Ziehau bnx_setup_rxdesc_std(sc, sc->bnx_std); 24296c8d8eccSSepherosa Ziehau continue; 24306c8d8eccSSepherosa Ziehau } 24316c8d8eccSSepherosa Ziehau if (bnx_newbuf_std(sc, sc->bnx_std, 0)) { 24326c8d8eccSSepherosa Ziehau ifp->if_ierrors++; 24336c8d8eccSSepherosa Ziehau bnx_setup_rxdesc_std(sc, sc->bnx_std); 24346c8d8eccSSepherosa Ziehau continue; 24356c8d8eccSSepherosa Ziehau } 24366c8d8eccSSepherosa Ziehau } 24376c8d8eccSSepherosa Ziehau 24386c8d8eccSSepherosa Ziehau ifp->if_ipackets++; 24396c8d8eccSSepherosa Ziehau m->m_pkthdr.len = m->m_len = cur_rx->bge_len - ETHER_CRC_LEN; 24406c8d8eccSSepherosa Ziehau m->m_pkthdr.rcvif = ifp; 24416c8d8eccSSepherosa Ziehau 24426c8d8eccSSepherosa Ziehau if ((ifp->if_capenable & IFCAP_RXCSUM) && 24436c8d8eccSSepherosa Ziehau (cur_rx->bge_flags & BGE_RXBDFLAG_IPV6) == 0) { 24446c8d8eccSSepherosa Ziehau if (cur_rx->bge_flags & BGE_RXBDFLAG_IP_CSUM) { 24456c8d8eccSSepherosa Ziehau m->m_pkthdr.csum_flags |= CSUM_IP_CHECKED; 24466c8d8eccSSepherosa Ziehau if ((cur_rx->bge_error_flag & 24476c8d8eccSSepherosa Ziehau BGE_RXERRFLAG_IP_CSUM_NOK) == 0) 24486c8d8eccSSepherosa Ziehau m->m_pkthdr.csum_flags |= CSUM_IP_VALID; 24496c8d8eccSSepherosa Ziehau } 24506c8d8eccSSepherosa Ziehau if (cur_rx->bge_flags & BGE_RXBDFLAG_TCP_UDP_CSUM) { 24516c8d8eccSSepherosa Ziehau m->m_pkthdr.csum_data = 24526c8d8eccSSepherosa Ziehau cur_rx->bge_tcp_udp_csum; 24536c8d8eccSSepherosa Ziehau m->m_pkthdr.csum_flags |= CSUM_DATA_VALID | 24546c8d8eccSSepherosa Ziehau CSUM_PSEUDO_HDR; 24556c8d8eccSSepherosa Ziehau } 24566c8d8eccSSepherosa Ziehau } 24576c8d8eccSSepherosa Ziehau 24586c8d8eccSSepherosa Ziehau /* 24596c8d8eccSSepherosa Ziehau * If we received a packet with a vlan tag, pass it 24606c8d8eccSSepherosa Ziehau * to vlan_input() instead of ether_input(). 24616c8d8eccSSepherosa Ziehau */ 24626c8d8eccSSepherosa Ziehau if (have_tag) { 24636c8d8eccSSepherosa Ziehau m->m_flags |= M_VLANTAG; 24646c8d8eccSSepherosa Ziehau m->m_pkthdr.ether_vlantag = vlan_tag; 24656c8d8eccSSepherosa Ziehau have_tag = vlan_tag = 0; 24666c8d8eccSSepherosa Ziehau } 24676c8d8eccSSepherosa Ziehau ifp->if_input(ifp, m); 24686c8d8eccSSepherosa Ziehau } 24696c8d8eccSSepherosa Ziehau 24706c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_RX_CONS0_LO, sc->bnx_rx_saved_considx); 24716c8d8eccSSepherosa Ziehau if (stdcnt) 24726c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_RX_STD_PROD_LO, sc->bnx_std); 24736c8d8eccSSepherosa Ziehau if (jumbocnt) 24746c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_RX_JUMBO_PROD_LO, sc->bnx_jumbo); 24756c8d8eccSSepherosa Ziehau } 24766c8d8eccSSepherosa Ziehau 24776c8d8eccSSepherosa Ziehau static void 24786c8d8eccSSepherosa Ziehau bnx_txeof(struct bnx_softc *sc, uint16_t tx_cons) 24796c8d8eccSSepherosa Ziehau { 24806c8d8eccSSepherosa Ziehau struct bge_tx_bd *cur_tx = NULL; 24816c8d8eccSSepherosa Ziehau struct ifnet *ifp; 24826c8d8eccSSepherosa Ziehau 24836c8d8eccSSepherosa Ziehau ifp = &sc->arpcom.ac_if; 24846c8d8eccSSepherosa Ziehau 24856c8d8eccSSepherosa Ziehau /* 24866c8d8eccSSepherosa Ziehau * Go through our tx ring and free mbufs for those 24876c8d8eccSSepherosa Ziehau * frames that have been sent. 24886c8d8eccSSepherosa Ziehau */ 24896c8d8eccSSepherosa Ziehau while (sc->bnx_tx_saved_considx != tx_cons) { 24906c8d8eccSSepherosa Ziehau uint32_t idx = 0; 24916c8d8eccSSepherosa Ziehau 24926c8d8eccSSepherosa Ziehau idx = sc->bnx_tx_saved_considx; 24936c8d8eccSSepherosa Ziehau cur_tx = &sc->bnx_ldata.bnx_tx_ring[idx]; 24946c8d8eccSSepherosa Ziehau if (cur_tx->bge_flags & BGE_TXBDFLAG_END) 24956c8d8eccSSepherosa Ziehau ifp->if_opackets++; 24966c8d8eccSSepherosa Ziehau if (sc->bnx_cdata.bnx_tx_chain[idx] != NULL) { 24976c8d8eccSSepherosa Ziehau bus_dmamap_unload(sc->bnx_cdata.bnx_tx_mtag, 24986c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_tx_dmamap[idx]); 24996c8d8eccSSepherosa Ziehau m_freem(sc->bnx_cdata.bnx_tx_chain[idx]); 25006c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_tx_chain[idx] = NULL; 25016c8d8eccSSepherosa Ziehau } 25026c8d8eccSSepherosa Ziehau sc->bnx_txcnt--; 25036c8d8eccSSepherosa Ziehau BNX_INC(sc->bnx_tx_saved_considx, BGE_TX_RING_CNT); 25046c8d8eccSSepherosa Ziehau } 25056c8d8eccSSepherosa Ziehau 25066c8d8eccSSepherosa Ziehau if (cur_tx != NULL && 25076c8d8eccSSepherosa Ziehau (BGE_TX_RING_CNT - sc->bnx_txcnt) >= 25086c8d8eccSSepherosa Ziehau (BNX_NSEG_RSVD + BNX_NSEG_SPARE)) 25096c8d8eccSSepherosa Ziehau ifp->if_flags &= ~IFF_OACTIVE; 25106c8d8eccSSepherosa Ziehau 25116c8d8eccSSepherosa Ziehau if (sc->bnx_txcnt == 0) 25126c8d8eccSSepherosa Ziehau ifp->if_timer = 0; 25136c8d8eccSSepherosa Ziehau 25146c8d8eccSSepherosa Ziehau if (!ifq_is_empty(&ifp->if_snd)) 25156c8d8eccSSepherosa Ziehau if_devstart(ifp); 25166c8d8eccSSepherosa Ziehau } 25176c8d8eccSSepherosa Ziehau 25186c8d8eccSSepherosa Ziehau #ifdef DEVICE_POLLING 25196c8d8eccSSepherosa Ziehau 25206c8d8eccSSepherosa Ziehau static void 25216c8d8eccSSepherosa Ziehau bnx_poll(struct ifnet *ifp, enum poll_cmd cmd, int count) 25226c8d8eccSSepherosa Ziehau { 25236c8d8eccSSepherosa Ziehau struct bnx_softc *sc = ifp->if_softc; 25246c8d8eccSSepherosa Ziehau struct bge_status_block *sblk = sc->bnx_ldata.bnx_status_block; 25256c8d8eccSSepherosa Ziehau uint16_t rx_prod, tx_cons; 25266c8d8eccSSepherosa Ziehau 25276c8d8eccSSepherosa Ziehau switch(cmd) { 25286c8d8eccSSepherosa Ziehau case POLL_REGISTER: 25296c8d8eccSSepherosa Ziehau bnx_disable_intr(sc); 25306c8d8eccSSepherosa Ziehau break; 25316c8d8eccSSepherosa Ziehau case POLL_DEREGISTER: 25326c8d8eccSSepherosa Ziehau bnx_enable_intr(sc); 25336c8d8eccSSepherosa Ziehau break; 25346c8d8eccSSepherosa Ziehau case POLL_AND_CHECK_STATUS: 25356c8d8eccSSepherosa Ziehau /* 25366c8d8eccSSepherosa Ziehau * Process link state changes. 25376c8d8eccSSepherosa Ziehau */ 25386c8d8eccSSepherosa Ziehau bnx_link_poll(sc); 25396c8d8eccSSepherosa Ziehau /* Fall through */ 25406c8d8eccSSepherosa Ziehau case POLL_ONLY: 25416c8d8eccSSepherosa Ziehau sc->bnx_status_tag = sblk->bge_status_tag; 25426c8d8eccSSepherosa Ziehau /* 25436c8d8eccSSepherosa Ziehau * Use a load fence to ensure that status_tag 25446c8d8eccSSepherosa Ziehau * is saved before rx_prod and tx_cons. 25456c8d8eccSSepherosa Ziehau */ 25466c8d8eccSSepherosa Ziehau cpu_lfence(); 25476c8d8eccSSepherosa Ziehau 25486c8d8eccSSepherosa Ziehau rx_prod = sblk->bge_idx[0].bge_rx_prod_idx; 25496c8d8eccSSepherosa Ziehau tx_cons = sblk->bge_idx[0].bge_tx_cons_idx; 25506c8d8eccSSepherosa Ziehau if (ifp->if_flags & IFF_RUNNING) { 25516c8d8eccSSepherosa Ziehau rx_prod = sblk->bge_idx[0].bge_rx_prod_idx; 25526c8d8eccSSepherosa Ziehau if (sc->bnx_rx_saved_considx != rx_prod) 25536c8d8eccSSepherosa Ziehau bnx_rxeof(sc, rx_prod); 25546c8d8eccSSepherosa Ziehau 25556c8d8eccSSepherosa Ziehau tx_cons = sblk->bge_idx[0].bge_tx_cons_idx; 25566c8d8eccSSepherosa Ziehau if (sc->bnx_tx_saved_considx != tx_cons) 25576c8d8eccSSepherosa Ziehau bnx_txeof(sc, tx_cons); 25586c8d8eccSSepherosa Ziehau } 25596c8d8eccSSepherosa Ziehau break; 25606c8d8eccSSepherosa Ziehau } 25616c8d8eccSSepherosa Ziehau } 25626c8d8eccSSepherosa Ziehau 25636c8d8eccSSepherosa Ziehau #endif 25646c8d8eccSSepherosa Ziehau 25656c8d8eccSSepherosa Ziehau static void 25666c8d8eccSSepherosa Ziehau bnx_intr_legacy(void *xsc) 25676c8d8eccSSepherosa Ziehau { 25686c8d8eccSSepherosa Ziehau struct bnx_softc *sc = xsc; 25696c8d8eccSSepherosa Ziehau struct bge_status_block *sblk = sc->bnx_ldata.bnx_status_block; 25706c8d8eccSSepherosa Ziehau 25716c8d8eccSSepherosa Ziehau if (sc->bnx_status_tag == sblk->bge_status_tag) { 25726c8d8eccSSepherosa Ziehau uint32_t val; 25736c8d8eccSSepherosa Ziehau 25746c8d8eccSSepherosa Ziehau val = pci_read_config(sc->bnx_dev, BGE_PCI_PCISTATE, 4); 25756c8d8eccSSepherosa Ziehau if (val & BGE_PCISTAT_INTR_NOTACT) 25766c8d8eccSSepherosa Ziehau return; 25776c8d8eccSSepherosa Ziehau } 25786c8d8eccSSepherosa Ziehau 25796c8d8eccSSepherosa Ziehau /* 25806c8d8eccSSepherosa Ziehau * NOTE: 25816c8d8eccSSepherosa Ziehau * Interrupt will have to be disabled if tagged status 25826c8d8eccSSepherosa Ziehau * is used, else interrupt will always be asserted on 25836c8d8eccSSepherosa Ziehau * certain chips (at least on BCM5750 AX/BX). 25846c8d8eccSSepherosa Ziehau */ 25856c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_IRQ0_LO, 1); 25866c8d8eccSSepherosa Ziehau 25876c8d8eccSSepherosa Ziehau bnx_intr(sc); 25886c8d8eccSSepherosa Ziehau } 25896c8d8eccSSepherosa Ziehau 25906c8d8eccSSepherosa Ziehau static void 25916c8d8eccSSepherosa Ziehau bnx_msi(void *xsc) 25926c8d8eccSSepherosa Ziehau { 25936c8d8eccSSepherosa Ziehau struct bnx_softc *sc = xsc; 25946c8d8eccSSepherosa Ziehau 25956c8d8eccSSepherosa Ziehau /* Disable interrupt first */ 25966c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_IRQ0_LO, 1); 25976c8d8eccSSepherosa Ziehau bnx_intr(sc); 25986c8d8eccSSepherosa Ziehau } 25996c8d8eccSSepherosa Ziehau 26006c8d8eccSSepherosa Ziehau static void 26016c8d8eccSSepherosa Ziehau bnx_msi_oneshot(void *xsc) 26026c8d8eccSSepherosa Ziehau { 26036c8d8eccSSepherosa Ziehau bnx_intr(xsc); 26046c8d8eccSSepherosa Ziehau } 26056c8d8eccSSepherosa Ziehau 26066c8d8eccSSepherosa Ziehau static void 26076c8d8eccSSepherosa Ziehau bnx_intr(struct bnx_softc *sc) 26086c8d8eccSSepherosa Ziehau { 26096c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 26106c8d8eccSSepherosa Ziehau struct bge_status_block *sblk = sc->bnx_ldata.bnx_status_block; 26116c8d8eccSSepherosa Ziehau uint16_t rx_prod, tx_cons; 26126c8d8eccSSepherosa Ziehau uint32_t status; 26136c8d8eccSSepherosa Ziehau 26146c8d8eccSSepherosa Ziehau sc->bnx_status_tag = sblk->bge_status_tag; 26156c8d8eccSSepherosa Ziehau /* 26166c8d8eccSSepherosa Ziehau * Use a load fence to ensure that status_tag is saved 26176c8d8eccSSepherosa Ziehau * before rx_prod, tx_cons and status. 26186c8d8eccSSepherosa Ziehau */ 26196c8d8eccSSepherosa Ziehau cpu_lfence(); 26206c8d8eccSSepherosa Ziehau 26216c8d8eccSSepherosa Ziehau rx_prod = sblk->bge_idx[0].bge_rx_prod_idx; 26226c8d8eccSSepherosa Ziehau tx_cons = sblk->bge_idx[0].bge_tx_cons_idx; 26236c8d8eccSSepherosa Ziehau status = sblk->bge_status; 26246c8d8eccSSepherosa Ziehau 26256c8d8eccSSepherosa Ziehau if ((status & BGE_STATFLAG_LINKSTATE_CHANGED) || sc->bnx_link_evt) 26266c8d8eccSSepherosa Ziehau bnx_link_poll(sc); 26276c8d8eccSSepherosa Ziehau 26286c8d8eccSSepherosa Ziehau if (ifp->if_flags & IFF_RUNNING) { 26296c8d8eccSSepherosa Ziehau if (sc->bnx_rx_saved_considx != rx_prod) 26306c8d8eccSSepherosa Ziehau bnx_rxeof(sc, rx_prod); 26316c8d8eccSSepherosa Ziehau 26326c8d8eccSSepherosa Ziehau if (sc->bnx_tx_saved_considx != tx_cons) 26336c8d8eccSSepherosa Ziehau bnx_txeof(sc, tx_cons); 26346c8d8eccSSepherosa Ziehau } 26356c8d8eccSSepherosa Ziehau 26366c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_IRQ0_LO, sc->bnx_status_tag << 24); 26376c8d8eccSSepherosa Ziehau 26386c8d8eccSSepherosa Ziehau if (sc->bnx_coal_chg) 26396c8d8eccSSepherosa Ziehau bnx_coal_change(sc); 26406c8d8eccSSepherosa Ziehau } 26416c8d8eccSSepherosa Ziehau 26426c8d8eccSSepherosa Ziehau static void 26436c8d8eccSSepherosa Ziehau bnx_tick(void *xsc) 26446c8d8eccSSepherosa Ziehau { 26456c8d8eccSSepherosa Ziehau struct bnx_softc *sc = xsc; 26466c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 26476c8d8eccSSepherosa Ziehau 26486c8d8eccSSepherosa Ziehau lwkt_serialize_enter(ifp->if_serializer); 26496c8d8eccSSepherosa Ziehau 26506c8d8eccSSepherosa Ziehau bnx_stats_update_regs(sc); 26516c8d8eccSSepherosa Ziehau 26526c8d8eccSSepherosa Ziehau if (sc->bnx_flags & BNX_FLAG_TBI) { 26536c8d8eccSSepherosa Ziehau /* 26546c8d8eccSSepherosa Ziehau * Since in TBI mode auto-polling can't be used we should poll 26556c8d8eccSSepherosa Ziehau * link status manually. Here we register pending link event 26566c8d8eccSSepherosa Ziehau * and trigger interrupt. 26576c8d8eccSSepherosa Ziehau */ 26586c8d8eccSSepherosa Ziehau sc->bnx_link_evt++; 26596c8d8eccSSepherosa Ziehau BNX_SETBIT(sc, BGE_HCC_MODE, BGE_HCCMODE_COAL_NOW); 26606c8d8eccSSepherosa Ziehau } else if (!sc->bnx_link) { 26616c8d8eccSSepherosa Ziehau mii_tick(device_get_softc(sc->bnx_miibus)); 26626c8d8eccSSepherosa Ziehau } 26636c8d8eccSSepherosa Ziehau 26646c8d8eccSSepherosa Ziehau callout_reset(&sc->bnx_stat_timer, hz, bnx_tick, sc); 26656c8d8eccSSepherosa Ziehau 26666c8d8eccSSepherosa Ziehau lwkt_serialize_exit(ifp->if_serializer); 26676c8d8eccSSepherosa Ziehau } 26686c8d8eccSSepherosa Ziehau 26696c8d8eccSSepherosa Ziehau static void 26706c8d8eccSSepherosa Ziehau bnx_stats_update_regs(struct bnx_softc *sc) 26716c8d8eccSSepherosa Ziehau { 26726c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 26736c8d8eccSSepherosa Ziehau struct bge_mac_stats_regs stats; 26746c8d8eccSSepherosa Ziehau uint32_t *s; 26756c8d8eccSSepherosa Ziehau int i; 26766c8d8eccSSepherosa Ziehau 26776c8d8eccSSepherosa Ziehau s = (uint32_t *)&stats; 26786c8d8eccSSepherosa Ziehau for (i = 0; i < sizeof(struct bge_mac_stats_regs); i += 4) { 26796c8d8eccSSepherosa Ziehau *s = CSR_READ_4(sc, BGE_RX_STATS + i); 26806c8d8eccSSepherosa Ziehau s++; 26816c8d8eccSSepherosa Ziehau } 26826c8d8eccSSepherosa Ziehau 26836c8d8eccSSepherosa Ziehau ifp->if_collisions += 26846c8d8eccSSepherosa Ziehau (stats.dot3StatsSingleCollisionFrames + 26856c8d8eccSSepherosa Ziehau stats.dot3StatsMultipleCollisionFrames + 26866c8d8eccSSepherosa Ziehau stats.dot3StatsExcessiveCollisions + 26876c8d8eccSSepherosa Ziehau stats.dot3StatsLateCollisions) - 26886c8d8eccSSepherosa Ziehau ifp->if_collisions; 26896c8d8eccSSepherosa Ziehau } 26906c8d8eccSSepherosa Ziehau 26916c8d8eccSSepherosa Ziehau /* 26926c8d8eccSSepherosa Ziehau * Encapsulate an mbuf chain in the tx ring by coupling the mbuf data 26936c8d8eccSSepherosa Ziehau * pointers to descriptors. 26946c8d8eccSSepherosa Ziehau */ 26956c8d8eccSSepherosa Ziehau static int 26966c8d8eccSSepherosa Ziehau bnx_encap(struct bnx_softc *sc, struct mbuf **m_head0, uint32_t *txidx) 26976c8d8eccSSepherosa Ziehau { 26986c8d8eccSSepherosa Ziehau struct bge_tx_bd *d = NULL; 26996c8d8eccSSepherosa Ziehau uint16_t csum_flags = 0; 27006c8d8eccSSepherosa Ziehau bus_dma_segment_t segs[BNX_NSEG_NEW]; 27016c8d8eccSSepherosa Ziehau bus_dmamap_t map; 27026c8d8eccSSepherosa Ziehau int error, maxsegs, nsegs, idx, i; 27036c8d8eccSSepherosa Ziehau struct mbuf *m_head = *m_head0, *m_new; 27046c8d8eccSSepherosa Ziehau 27056c8d8eccSSepherosa Ziehau if (m_head->m_pkthdr.csum_flags) { 27066c8d8eccSSepherosa Ziehau if (m_head->m_pkthdr.csum_flags & CSUM_IP) 27076c8d8eccSSepherosa Ziehau csum_flags |= BGE_TXBDFLAG_IP_CSUM; 27086c8d8eccSSepherosa Ziehau if (m_head->m_pkthdr.csum_flags & (CSUM_TCP | CSUM_UDP)) 27096c8d8eccSSepherosa Ziehau csum_flags |= BGE_TXBDFLAG_TCP_UDP_CSUM; 27106c8d8eccSSepherosa Ziehau if (m_head->m_flags & M_LASTFRAG) 27116c8d8eccSSepherosa Ziehau csum_flags |= BGE_TXBDFLAG_IP_FRAG_END; 27126c8d8eccSSepherosa Ziehau else if (m_head->m_flags & M_FRAG) 27136c8d8eccSSepherosa Ziehau csum_flags |= BGE_TXBDFLAG_IP_FRAG; 27146c8d8eccSSepherosa Ziehau } 27156c8d8eccSSepherosa Ziehau 27166c8d8eccSSepherosa Ziehau idx = *txidx; 27176c8d8eccSSepherosa Ziehau map = sc->bnx_cdata.bnx_tx_dmamap[idx]; 27186c8d8eccSSepherosa Ziehau 27196c8d8eccSSepherosa Ziehau maxsegs = (BGE_TX_RING_CNT - sc->bnx_txcnt) - BNX_NSEG_RSVD; 27206c8d8eccSSepherosa Ziehau KASSERT(maxsegs >= BNX_NSEG_SPARE, 27216c8d8eccSSepherosa Ziehau ("not enough segments %d", maxsegs)); 27226c8d8eccSSepherosa Ziehau 27236c8d8eccSSepherosa Ziehau if (maxsegs > BNX_NSEG_NEW) 27246c8d8eccSSepherosa Ziehau maxsegs = BNX_NSEG_NEW; 27256c8d8eccSSepherosa Ziehau 27266c8d8eccSSepherosa Ziehau /* 27276c8d8eccSSepherosa Ziehau * Pad outbound frame to BGE_MIN_FRAMELEN for an unusual reason. 27286c8d8eccSSepherosa Ziehau * The bge hardware will pad out Tx runts to BGE_MIN_FRAMELEN, 27296c8d8eccSSepherosa Ziehau * but when such padded frames employ the bge IP/TCP checksum 27306c8d8eccSSepherosa Ziehau * offload, the hardware checksum assist gives incorrect results 27316c8d8eccSSepherosa Ziehau * (possibly from incorporating its own padding into the UDP/TCP 27326c8d8eccSSepherosa Ziehau * checksum; who knows). If we pad such runts with zeros, the 27336c8d8eccSSepherosa Ziehau * onboard checksum comes out correct. 27346c8d8eccSSepherosa Ziehau */ 27356c8d8eccSSepherosa Ziehau if ((csum_flags & BGE_TXBDFLAG_TCP_UDP_CSUM) && 27366c8d8eccSSepherosa Ziehau m_head->m_pkthdr.len < BNX_MIN_FRAMELEN) { 27376c8d8eccSSepherosa Ziehau error = m_devpad(m_head, BNX_MIN_FRAMELEN); 27386c8d8eccSSepherosa Ziehau if (error) 27396c8d8eccSSepherosa Ziehau goto back; 27406c8d8eccSSepherosa Ziehau } 27416c8d8eccSSepherosa Ziehau 27426c8d8eccSSepherosa Ziehau if ((sc->bnx_flags & BNX_FLAG_SHORTDMA) && m_head->m_next != NULL) { 27436c8d8eccSSepherosa Ziehau m_new = bnx_defrag_shortdma(m_head); 27446c8d8eccSSepherosa Ziehau if (m_new == NULL) { 27456c8d8eccSSepherosa Ziehau error = ENOBUFS; 27466c8d8eccSSepherosa Ziehau goto back; 27476c8d8eccSSepherosa Ziehau } 27486c8d8eccSSepherosa Ziehau *m_head0 = m_head = m_new; 27496c8d8eccSSepherosa Ziehau } 27506c8d8eccSSepherosa Ziehau if (sc->bnx_force_defrag && m_head->m_next != NULL) { 27516c8d8eccSSepherosa Ziehau /* 27526c8d8eccSSepherosa Ziehau * Forcefully defragment mbuf chain to overcome hardware 27536c8d8eccSSepherosa Ziehau * limitation which only support a single outstanding 27546c8d8eccSSepherosa Ziehau * DMA read operation. If it fails, keep moving on using 27556c8d8eccSSepherosa Ziehau * the original mbuf chain. 27566c8d8eccSSepherosa Ziehau */ 27576c8d8eccSSepherosa Ziehau m_new = m_defrag(m_head, MB_DONTWAIT); 27586c8d8eccSSepherosa Ziehau if (m_new != NULL) 27596c8d8eccSSepherosa Ziehau *m_head0 = m_head = m_new; 27606c8d8eccSSepherosa Ziehau } 27616c8d8eccSSepherosa Ziehau 27626c8d8eccSSepherosa Ziehau error = bus_dmamap_load_mbuf_defrag(sc->bnx_cdata.bnx_tx_mtag, map, 27636c8d8eccSSepherosa Ziehau m_head0, segs, maxsegs, &nsegs, BUS_DMA_NOWAIT); 27646c8d8eccSSepherosa Ziehau if (error) 27656c8d8eccSSepherosa Ziehau goto back; 27666c8d8eccSSepherosa Ziehau 27676c8d8eccSSepherosa Ziehau m_head = *m_head0; 27686c8d8eccSSepherosa Ziehau bus_dmamap_sync(sc->bnx_cdata.bnx_tx_mtag, map, BUS_DMASYNC_PREWRITE); 27696c8d8eccSSepherosa Ziehau 27706c8d8eccSSepherosa Ziehau for (i = 0; ; i++) { 27716c8d8eccSSepherosa Ziehau d = &sc->bnx_ldata.bnx_tx_ring[idx]; 27726c8d8eccSSepherosa Ziehau 27736c8d8eccSSepherosa Ziehau d->bge_addr.bge_addr_lo = BGE_ADDR_LO(segs[i].ds_addr); 27746c8d8eccSSepherosa Ziehau d->bge_addr.bge_addr_hi = BGE_ADDR_HI(segs[i].ds_addr); 27756c8d8eccSSepherosa Ziehau d->bge_len = segs[i].ds_len; 27766c8d8eccSSepherosa Ziehau d->bge_flags = csum_flags; 27776c8d8eccSSepherosa Ziehau 27786c8d8eccSSepherosa Ziehau if (i == nsegs - 1) 27796c8d8eccSSepherosa Ziehau break; 27806c8d8eccSSepherosa Ziehau BNX_INC(idx, BGE_TX_RING_CNT); 27816c8d8eccSSepherosa Ziehau } 27826c8d8eccSSepherosa Ziehau /* Mark the last segment as end of packet... */ 27836c8d8eccSSepherosa Ziehau d->bge_flags |= BGE_TXBDFLAG_END; 27846c8d8eccSSepherosa Ziehau 27856c8d8eccSSepherosa Ziehau /* Set vlan tag to the first segment of the packet. */ 27866c8d8eccSSepherosa Ziehau d = &sc->bnx_ldata.bnx_tx_ring[*txidx]; 27876c8d8eccSSepherosa Ziehau if (m_head->m_flags & M_VLANTAG) { 27886c8d8eccSSepherosa Ziehau d->bge_flags |= BGE_TXBDFLAG_VLAN_TAG; 27896c8d8eccSSepherosa Ziehau d->bge_vlan_tag = m_head->m_pkthdr.ether_vlantag; 27906c8d8eccSSepherosa Ziehau } else { 27916c8d8eccSSepherosa Ziehau d->bge_vlan_tag = 0; 27926c8d8eccSSepherosa Ziehau } 27936c8d8eccSSepherosa Ziehau 27946c8d8eccSSepherosa Ziehau /* 27956c8d8eccSSepherosa Ziehau * Insure that the map for this transmission is placed at 27966c8d8eccSSepherosa Ziehau * the array index of the last descriptor in this chain. 27976c8d8eccSSepherosa Ziehau */ 27986c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_tx_dmamap[*txidx] = sc->bnx_cdata.bnx_tx_dmamap[idx]; 27996c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_tx_dmamap[idx] = map; 28006c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_tx_chain[idx] = m_head; 28016c8d8eccSSepherosa Ziehau sc->bnx_txcnt += nsegs; 28026c8d8eccSSepherosa Ziehau 28036c8d8eccSSepherosa Ziehau BNX_INC(idx, BGE_TX_RING_CNT); 28046c8d8eccSSepherosa Ziehau *txidx = idx; 28056c8d8eccSSepherosa Ziehau back: 28066c8d8eccSSepherosa Ziehau if (error) { 28076c8d8eccSSepherosa Ziehau m_freem(*m_head0); 28086c8d8eccSSepherosa Ziehau *m_head0 = NULL; 28096c8d8eccSSepherosa Ziehau } 28106c8d8eccSSepherosa Ziehau return error; 28116c8d8eccSSepherosa Ziehau } 28126c8d8eccSSepherosa Ziehau 28136c8d8eccSSepherosa Ziehau /* 28146c8d8eccSSepherosa Ziehau * Main transmit routine. To avoid having to do mbuf copies, we put pointers 28156c8d8eccSSepherosa Ziehau * to the mbuf data regions directly in the transmit descriptors. 28166c8d8eccSSepherosa Ziehau */ 28176c8d8eccSSepherosa Ziehau static void 28186c8d8eccSSepherosa Ziehau bnx_start(struct ifnet *ifp) 28196c8d8eccSSepherosa Ziehau { 28206c8d8eccSSepherosa Ziehau struct bnx_softc *sc = ifp->if_softc; 28216c8d8eccSSepherosa Ziehau struct mbuf *m_head = NULL; 28226c8d8eccSSepherosa Ziehau uint32_t prodidx; 28236c8d8eccSSepherosa Ziehau int need_trans; 28246c8d8eccSSepherosa Ziehau 28256c8d8eccSSepherosa Ziehau if ((ifp->if_flags & (IFF_RUNNING | IFF_OACTIVE)) != IFF_RUNNING) 28266c8d8eccSSepherosa Ziehau return; 28276c8d8eccSSepherosa Ziehau 28286c8d8eccSSepherosa Ziehau prodidx = sc->bnx_tx_prodidx; 28296c8d8eccSSepherosa Ziehau 28306c8d8eccSSepherosa Ziehau need_trans = 0; 28316c8d8eccSSepherosa Ziehau while (sc->bnx_cdata.bnx_tx_chain[prodidx] == NULL) { 28326c8d8eccSSepherosa Ziehau m_head = ifq_dequeue(&ifp->if_snd, NULL); 28336c8d8eccSSepherosa Ziehau if (m_head == NULL) 28346c8d8eccSSepherosa Ziehau break; 28356c8d8eccSSepherosa Ziehau 28366c8d8eccSSepherosa Ziehau /* 28376c8d8eccSSepherosa Ziehau * XXX 28386c8d8eccSSepherosa Ziehau * The code inside the if() block is never reached since we 28396c8d8eccSSepherosa Ziehau * must mark CSUM_IP_FRAGS in our if_hwassist to start getting 28406c8d8eccSSepherosa Ziehau * requests to checksum TCP/UDP in a fragmented packet. 28416c8d8eccSSepherosa Ziehau * 28426c8d8eccSSepherosa Ziehau * XXX 28436c8d8eccSSepherosa Ziehau * safety overkill. If this is a fragmented packet chain 28446c8d8eccSSepherosa Ziehau * with delayed TCP/UDP checksums, then only encapsulate 28456c8d8eccSSepherosa Ziehau * it if we have enough descriptors to handle the entire 28466c8d8eccSSepherosa Ziehau * chain at once. 28476c8d8eccSSepherosa Ziehau * (paranoia -- may not actually be needed) 28486c8d8eccSSepherosa Ziehau */ 28496c8d8eccSSepherosa Ziehau if ((m_head->m_flags & M_FIRSTFRAG) && 28506c8d8eccSSepherosa Ziehau (m_head->m_pkthdr.csum_flags & CSUM_DELAY_DATA)) { 28516c8d8eccSSepherosa Ziehau if ((BGE_TX_RING_CNT - sc->bnx_txcnt) < 28526c8d8eccSSepherosa Ziehau m_head->m_pkthdr.csum_data + BNX_NSEG_RSVD) { 28536c8d8eccSSepherosa Ziehau ifp->if_flags |= IFF_OACTIVE; 28546c8d8eccSSepherosa Ziehau ifq_prepend(&ifp->if_snd, m_head); 28556c8d8eccSSepherosa Ziehau break; 28566c8d8eccSSepherosa Ziehau } 28576c8d8eccSSepherosa Ziehau } 28586c8d8eccSSepherosa Ziehau 28596c8d8eccSSepherosa Ziehau /* 28606c8d8eccSSepherosa Ziehau * Sanity check: avoid coming within BGE_NSEG_RSVD 28616c8d8eccSSepherosa Ziehau * descriptors of the end of the ring. Also make 28626c8d8eccSSepherosa Ziehau * sure there are BGE_NSEG_SPARE descriptors for 28636c8d8eccSSepherosa Ziehau * jumbo buffers' defragmentation. 28646c8d8eccSSepherosa Ziehau */ 28656c8d8eccSSepherosa Ziehau if ((BGE_TX_RING_CNT - sc->bnx_txcnt) < 28666c8d8eccSSepherosa Ziehau (BNX_NSEG_RSVD + BNX_NSEG_SPARE)) { 28676c8d8eccSSepherosa Ziehau ifp->if_flags |= IFF_OACTIVE; 28686c8d8eccSSepherosa Ziehau ifq_prepend(&ifp->if_snd, m_head); 28696c8d8eccSSepherosa Ziehau break; 28706c8d8eccSSepherosa Ziehau } 28716c8d8eccSSepherosa Ziehau 28726c8d8eccSSepherosa Ziehau /* 28736c8d8eccSSepherosa Ziehau * Pack the data into the transmit ring. If we 28746c8d8eccSSepherosa Ziehau * don't have room, set the OACTIVE flag and wait 28756c8d8eccSSepherosa Ziehau * for the NIC to drain the ring. 28766c8d8eccSSepherosa Ziehau */ 28776c8d8eccSSepherosa Ziehau if (bnx_encap(sc, &m_head, &prodidx)) { 28786c8d8eccSSepherosa Ziehau ifp->if_flags |= IFF_OACTIVE; 28796c8d8eccSSepherosa Ziehau ifp->if_oerrors++; 28806c8d8eccSSepherosa Ziehau break; 28816c8d8eccSSepherosa Ziehau } 28826c8d8eccSSepherosa Ziehau need_trans = 1; 28836c8d8eccSSepherosa Ziehau 28846c8d8eccSSepherosa Ziehau ETHER_BPF_MTAP(ifp, m_head); 28856c8d8eccSSepherosa Ziehau } 28866c8d8eccSSepherosa Ziehau 28876c8d8eccSSepherosa Ziehau if (!need_trans) 28886c8d8eccSSepherosa Ziehau return; 28896c8d8eccSSepherosa Ziehau 28906c8d8eccSSepherosa Ziehau /* Transmit */ 28916c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_TX_HOST_PROD0_LO, prodidx); 28926c8d8eccSSepherosa Ziehau 28936c8d8eccSSepherosa Ziehau sc->bnx_tx_prodidx = prodidx; 28946c8d8eccSSepherosa Ziehau 28956c8d8eccSSepherosa Ziehau /* 28966c8d8eccSSepherosa Ziehau * Set a timeout in case the chip goes out to lunch. 28976c8d8eccSSepherosa Ziehau */ 28986c8d8eccSSepherosa Ziehau ifp->if_timer = 5; 28996c8d8eccSSepherosa Ziehau } 29006c8d8eccSSepherosa Ziehau 29016c8d8eccSSepherosa Ziehau static void 29026c8d8eccSSepherosa Ziehau bnx_init(void *xsc) 29036c8d8eccSSepherosa Ziehau { 29046c8d8eccSSepherosa Ziehau struct bnx_softc *sc = xsc; 29056c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 29066c8d8eccSSepherosa Ziehau uint16_t *m; 29076c8d8eccSSepherosa Ziehau uint32_t mode; 29086c8d8eccSSepherosa Ziehau 29096c8d8eccSSepherosa Ziehau ASSERT_SERIALIZED(ifp->if_serializer); 29106c8d8eccSSepherosa Ziehau 29116c8d8eccSSepherosa Ziehau /* Cancel pending I/O and flush buffers. */ 29126c8d8eccSSepherosa Ziehau bnx_stop(sc); 29136c8d8eccSSepherosa Ziehau bnx_reset(sc); 29146c8d8eccSSepherosa Ziehau bnx_chipinit(sc); 29156c8d8eccSSepherosa Ziehau 29166c8d8eccSSepherosa Ziehau /* 29176c8d8eccSSepherosa Ziehau * Init the various state machines, ring 29186c8d8eccSSepherosa Ziehau * control blocks and firmware. 29196c8d8eccSSepherosa Ziehau */ 29206c8d8eccSSepherosa Ziehau if (bnx_blockinit(sc)) { 29216c8d8eccSSepherosa Ziehau if_printf(ifp, "initialization failure\n"); 29226c8d8eccSSepherosa Ziehau bnx_stop(sc); 29236c8d8eccSSepherosa Ziehau return; 29246c8d8eccSSepherosa Ziehau } 29256c8d8eccSSepherosa Ziehau 29266c8d8eccSSepherosa Ziehau /* Specify MTU. */ 29276c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_RX_MTU, ifp->if_mtu + 29286c8d8eccSSepherosa Ziehau ETHER_HDR_LEN + ETHER_CRC_LEN + EVL_ENCAPLEN); 29296c8d8eccSSepherosa Ziehau 29306c8d8eccSSepherosa Ziehau /* Load our MAC address. */ 29316c8d8eccSSepherosa Ziehau m = (uint16_t *)&sc->arpcom.ac_enaddr[0]; 29326c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAC_ADDR1_LO, htons(m[0])); 29336c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAC_ADDR1_HI, (htons(m[1]) << 16) | htons(m[2])); 29346c8d8eccSSepherosa Ziehau 29356c8d8eccSSepherosa Ziehau /* Enable or disable promiscuous mode as needed. */ 29366c8d8eccSSepherosa Ziehau bnx_setpromisc(sc); 29376c8d8eccSSepherosa Ziehau 29386c8d8eccSSepherosa Ziehau /* Program multicast filter. */ 29396c8d8eccSSepherosa Ziehau bnx_setmulti(sc); 29406c8d8eccSSepherosa Ziehau 29416c8d8eccSSepherosa Ziehau /* Init RX ring. */ 29426c8d8eccSSepherosa Ziehau if (bnx_init_rx_ring_std(sc)) { 29436c8d8eccSSepherosa Ziehau if_printf(ifp, "RX ring initialization failed\n"); 29446c8d8eccSSepherosa Ziehau bnx_stop(sc); 29456c8d8eccSSepherosa Ziehau return; 29466c8d8eccSSepherosa Ziehau } 29476c8d8eccSSepherosa Ziehau 29486c8d8eccSSepherosa Ziehau /* Init jumbo RX ring. */ 29496c8d8eccSSepherosa Ziehau if (ifp->if_mtu > (ETHERMTU + ETHER_HDR_LEN + ETHER_CRC_LEN)) { 29506c8d8eccSSepherosa Ziehau if (bnx_init_rx_ring_jumbo(sc)) { 29516c8d8eccSSepherosa Ziehau if_printf(ifp, "Jumbo RX ring initialization failed\n"); 29526c8d8eccSSepherosa Ziehau bnx_stop(sc); 29536c8d8eccSSepherosa Ziehau return; 29546c8d8eccSSepherosa Ziehau } 29556c8d8eccSSepherosa Ziehau } 29566c8d8eccSSepherosa Ziehau 29576c8d8eccSSepherosa Ziehau /* Init our RX return ring index */ 29586c8d8eccSSepherosa Ziehau sc->bnx_rx_saved_considx = 0; 29596c8d8eccSSepherosa Ziehau 29606c8d8eccSSepherosa Ziehau /* Init TX ring. */ 29616c8d8eccSSepherosa Ziehau bnx_init_tx_ring(sc); 29626c8d8eccSSepherosa Ziehau 29636c8d8eccSSepherosa Ziehau /* Enable TX MAC state machine lockup fix. */ 29646c8d8eccSSepherosa Ziehau mode = CSR_READ_4(sc, BGE_TX_MODE); 29656c8d8eccSSepherosa Ziehau mode |= BGE_TXMODE_MBUF_LOCKUP_FIX; 29666c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5720) { 29676c8d8eccSSepherosa Ziehau mode &= ~(BGE_TXMODE_JMB_FRM_LEN | BGE_TXMODE_CNT_DN_MODE); 29686c8d8eccSSepherosa Ziehau mode |= CSR_READ_4(sc, BGE_TX_MODE) & 29696c8d8eccSSepherosa Ziehau (BGE_TXMODE_JMB_FRM_LEN | BGE_TXMODE_CNT_DN_MODE); 29706c8d8eccSSepherosa Ziehau } 29716c8d8eccSSepherosa Ziehau /* Turn on transmitter */ 29726c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_TX_MODE, mode | BGE_TXMODE_ENABLE); 29736c8d8eccSSepherosa Ziehau 29746c8d8eccSSepherosa Ziehau /* Turn on receiver */ 29756c8d8eccSSepherosa Ziehau BNX_SETBIT(sc, BGE_RX_MODE, BGE_RXMODE_ENABLE); 29766c8d8eccSSepherosa Ziehau 29776c8d8eccSSepherosa Ziehau /* 29786c8d8eccSSepherosa Ziehau * Set the number of good frames to receive after RX MBUF 29796c8d8eccSSepherosa Ziehau * Low Watermark has been reached. After the RX MAC receives 29806c8d8eccSSepherosa Ziehau * this number of frames, it will drop subsequent incoming 29816c8d8eccSSepherosa Ziehau * frames until the MBUF High Watermark is reached. 29826c8d8eccSSepherosa Ziehau */ 29836c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM57765) 29846c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAX_RX_FRAME_LOWAT, 1); 29856c8d8eccSSepherosa Ziehau else 29866c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAX_RX_FRAME_LOWAT, 2); 29876c8d8eccSSepherosa Ziehau 29886c8d8eccSSepherosa Ziehau if (sc->bnx_irq_type == PCI_INTR_TYPE_MSI) { 29896c8d8eccSSepherosa Ziehau if (bootverbose) { 29906c8d8eccSSepherosa Ziehau if_printf(ifp, "MSI_MODE: %#x\n", 29916c8d8eccSSepherosa Ziehau CSR_READ_4(sc, BGE_MSI_MODE)); 29926c8d8eccSSepherosa Ziehau } 29936c8d8eccSSepherosa Ziehau } 29946c8d8eccSSepherosa Ziehau 29956c8d8eccSSepherosa Ziehau /* Tell firmware we're alive. */ 29966c8d8eccSSepherosa Ziehau BNX_SETBIT(sc, BGE_MODE_CTL, BGE_MODECTL_STACKUP); 29976c8d8eccSSepherosa Ziehau 29986c8d8eccSSepherosa Ziehau /* Enable host interrupts if polling(4) is not enabled. */ 29996c8d8eccSSepherosa Ziehau PCI_SETBIT(sc->bnx_dev, BGE_PCI_MISC_CTL, BGE_PCIMISCCTL_CLEAR_INTA, 4); 30006c8d8eccSSepherosa Ziehau #ifdef DEVICE_POLLING 30016c8d8eccSSepherosa Ziehau if (ifp->if_flags & IFF_POLLING) 30026c8d8eccSSepherosa Ziehau bnx_disable_intr(sc); 30036c8d8eccSSepherosa Ziehau else 30046c8d8eccSSepherosa Ziehau #endif 30056c8d8eccSSepherosa Ziehau bnx_enable_intr(sc); 30066c8d8eccSSepherosa Ziehau 30076c8d8eccSSepherosa Ziehau bnx_ifmedia_upd(ifp); 30086c8d8eccSSepherosa Ziehau 30096c8d8eccSSepherosa Ziehau ifp->if_flags |= IFF_RUNNING; 30106c8d8eccSSepherosa Ziehau ifp->if_flags &= ~IFF_OACTIVE; 30116c8d8eccSSepherosa Ziehau 30126c8d8eccSSepherosa Ziehau callout_reset(&sc->bnx_stat_timer, hz, bnx_tick, sc); 30136c8d8eccSSepherosa Ziehau } 30146c8d8eccSSepherosa Ziehau 30156c8d8eccSSepherosa Ziehau /* 30166c8d8eccSSepherosa Ziehau * Set media options. 30176c8d8eccSSepherosa Ziehau */ 30186c8d8eccSSepherosa Ziehau static int 30196c8d8eccSSepherosa Ziehau bnx_ifmedia_upd(struct ifnet *ifp) 30206c8d8eccSSepherosa Ziehau { 30216c8d8eccSSepherosa Ziehau struct bnx_softc *sc = ifp->if_softc; 30226c8d8eccSSepherosa Ziehau 30236c8d8eccSSepherosa Ziehau /* If this is a 1000baseX NIC, enable the TBI port. */ 30246c8d8eccSSepherosa Ziehau if (sc->bnx_flags & BNX_FLAG_TBI) { 30256c8d8eccSSepherosa Ziehau struct ifmedia *ifm = &sc->bnx_ifmedia; 30266c8d8eccSSepherosa Ziehau 30276c8d8eccSSepherosa Ziehau if (IFM_TYPE(ifm->ifm_media) != IFM_ETHER) 30286c8d8eccSSepherosa Ziehau return(EINVAL); 30296c8d8eccSSepherosa Ziehau 30306c8d8eccSSepherosa Ziehau switch(IFM_SUBTYPE(ifm->ifm_media)) { 30316c8d8eccSSepherosa Ziehau case IFM_AUTO: 30326c8d8eccSSepherosa Ziehau break; 30336c8d8eccSSepherosa Ziehau 30346c8d8eccSSepherosa Ziehau case IFM_1000_SX: 30356c8d8eccSSepherosa Ziehau if ((ifm->ifm_media & IFM_GMASK) == IFM_FDX) { 30366c8d8eccSSepherosa Ziehau BNX_CLRBIT(sc, BGE_MAC_MODE, 30376c8d8eccSSepherosa Ziehau BGE_MACMODE_HALF_DUPLEX); 30386c8d8eccSSepherosa Ziehau } else { 30396c8d8eccSSepherosa Ziehau BNX_SETBIT(sc, BGE_MAC_MODE, 30406c8d8eccSSepherosa Ziehau BGE_MACMODE_HALF_DUPLEX); 30416c8d8eccSSepherosa Ziehau } 30426c8d8eccSSepherosa Ziehau break; 30436c8d8eccSSepherosa Ziehau default: 30446c8d8eccSSepherosa Ziehau return(EINVAL); 30456c8d8eccSSepherosa Ziehau } 30466c8d8eccSSepherosa Ziehau } else { 30476c8d8eccSSepherosa Ziehau struct mii_data *mii = device_get_softc(sc->bnx_miibus); 30486c8d8eccSSepherosa Ziehau 30496c8d8eccSSepherosa Ziehau sc->bnx_link_evt++; 30506c8d8eccSSepherosa Ziehau sc->bnx_link = 0; 30516c8d8eccSSepherosa Ziehau if (mii->mii_instance) { 30526c8d8eccSSepherosa Ziehau struct mii_softc *miisc; 30536c8d8eccSSepherosa Ziehau 30546c8d8eccSSepherosa Ziehau LIST_FOREACH(miisc, &mii->mii_phys, mii_list) 30556c8d8eccSSepherosa Ziehau mii_phy_reset(miisc); 30566c8d8eccSSepherosa Ziehau } 30576c8d8eccSSepherosa Ziehau mii_mediachg(mii); 30586c8d8eccSSepherosa Ziehau 30596c8d8eccSSepherosa Ziehau /* 30606c8d8eccSSepherosa Ziehau * Force an interrupt so that we will call bnx_link_upd 30616c8d8eccSSepherosa Ziehau * if needed and clear any pending link state attention. 30626c8d8eccSSepherosa Ziehau * Without this we are not getting any further interrupts 30636c8d8eccSSepherosa Ziehau * for link state changes and thus will not UP the link and 30646c8d8eccSSepherosa Ziehau * not be able to send in bnx_start. The only way to get 30656c8d8eccSSepherosa Ziehau * things working was to receive a packet and get an RX 30666c8d8eccSSepherosa Ziehau * intr. 30676c8d8eccSSepherosa Ziehau * 30686c8d8eccSSepherosa Ziehau * bnx_tick should help for fiber cards and we might not 30696c8d8eccSSepherosa Ziehau * need to do this here if BNX_FLAG_TBI is set but as 30706c8d8eccSSepherosa Ziehau * we poll for fiber anyway it should not harm. 30716c8d8eccSSepherosa Ziehau */ 30726c8d8eccSSepherosa Ziehau BNX_SETBIT(sc, BGE_HCC_MODE, BGE_HCCMODE_COAL_NOW); 30736c8d8eccSSepherosa Ziehau } 30746c8d8eccSSepherosa Ziehau return(0); 30756c8d8eccSSepherosa Ziehau } 30766c8d8eccSSepherosa Ziehau 30776c8d8eccSSepherosa Ziehau /* 30786c8d8eccSSepherosa Ziehau * Report current media status. 30796c8d8eccSSepherosa Ziehau */ 30806c8d8eccSSepherosa Ziehau static void 30816c8d8eccSSepherosa Ziehau bnx_ifmedia_sts(struct ifnet *ifp, struct ifmediareq *ifmr) 30826c8d8eccSSepherosa Ziehau { 30836c8d8eccSSepherosa Ziehau struct bnx_softc *sc = ifp->if_softc; 30846c8d8eccSSepherosa Ziehau 30856c8d8eccSSepherosa Ziehau if (sc->bnx_flags & BNX_FLAG_TBI) { 30866c8d8eccSSepherosa Ziehau ifmr->ifm_status = IFM_AVALID; 30876c8d8eccSSepherosa Ziehau ifmr->ifm_active = IFM_ETHER; 30886c8d8eccSSepherosa Ziehau if (CSR_READ_4(sc, BGE_MAC_STS) & 30896c8d8eccSSepherosa Ziehau BGE_MACSTAT_TBI_PCS_SYNCHED) { 30906c8d8eccSSepherosa Ziehau ifmr->ifm_status |= IFM_ACTIVE; 30916c8d8eccSSepherosa Ziehau } else { 30926c8d8eccSSepherosa Ziehau ifmr->ifm_active |= IFM_NONE; 30936c8d8eccSSepherosa Ziehau return; 30946c8d8eccSSepherosa Ziehau } 30956c8d8eccSSepherosa Ziehau 30966c8d8eccSSepherosa Ziehau ifmr->ifm_active |= IFM_1000_SX; 30976c8d8eccSSepherosa Ziehau if (CSR_READ_4(sc, BGE_MAC_MODE) & BGE_MACMODE_HALF_DUPLEX) 30986c8d8eccSSepherosa Ziehau ifmr->ifm_active |= IFM_HDX; 30996c8d8eccSSepherosa Ziehau else 31006c8d8eccSSepherosa Ziehau ifmr->ifm_active |= IFM_FDX; 31016c8d8eccSSepherosa Ziehau } else { 31026c8d8eccSSepherosa Ziehau struct mii_data *mii = device_get_softc(sc->bnx_miibus); 31036c8d8eccSSepherosa Ziehau 31046c8d8eccSSepherosa Ziehau mii_pollstat(mii); 31056c8d8eccSSepherosa Ziehau ifmr->ifm_active = mii->mii_media_active; 31066c8d8eccSSepherosa Ziehau ifmr->ifm_status = mii->mii_media_status; 31076c8d8eccSSepherosa Ziehau } 31086c8d8eccSSepherosa Ziehau } 31096c8d8eccSSepherosa Ziehau 31106c8d8eccSSepherosa Ziehau static int 31116c8d8eccSSepherosa Ziehau bnx_ioctl(struct ifnet *ifp, u_long command, caddr_t data, struct ucred *cr) 31126c8d8eccSSepherosa Ziehau { 31136c8d8eccSSepherosa Ziehau struct bnx_softc *sc = ifp->if_softc; 31146c8d8eccSSepherosa Ziehau struct ifreq *ifr = (struct ifreq *)data; 31156c8d8eccSSepherosa Ziehau int mask, error = 0; 31166c8d8eccSSepherosa Ziehau 31176c8d8eccSSepherosa Ziehau ASSERT_SERIALIZED(ifp->if_serializer); 31186c8d8eccSSepherosa Ziehau 31196c8d8eccSSepherosa Ziehau switch (command) { 31206c8d8eccSSepherosa Ziehau case SIOCSIFMTU: 31216c8d8eccSSepherosa Ziehau if ((!BNX_IS_JUMBO_CAPABLE(sc) && ifr->ifr_mtu > ETHERMTU) || 31226c8d8eccSSepherosa Ziehau (BNX_IS_JUMBO_CAPABLE(sc) && 31236c8d8eccSSepherosa Ziehau ifr->ifr_mtu > BNX_JUMBO_MTU)) { 31246c8d8eccSSepherosa Ziehau error = EINVAL; 31256c8d8eccSSepherosa Ziehau } else if (ifp->if_mtu != ifr->ifr_mtu) { 31266c8d8eccSSepherosa Ziehau ifp->if_mtu = ifr->ifr_mtu; 31276c8d8eccSSepherosa Ziehau if (ifp->if_flags & IFF_RUNNING) 31286c8d8eccSSepherosa Ziehau bnx_init(sc); 31296c8d8eccSSepherosa Ziehau } 31306c8d8eccSSepherosa Ziehau break; 31316c8d8eccSSepherosa Ziehau case SIOCSIFFLAGS: 31326c8d8eccSSepherosa Ziehau if (ifp->if_flags & IFF_UP) { 31336c8d8eccSSepherosa Ziehau if (ifp->if_flags & IFF_RUNNING) { 31346c8d8eccSSepherosa Ziehau mask = ifp->if_flags ^ sc->bnx_if_flags; 31356c8d8eccSSepherosa Ziehau 31366c8d8eccSSepherosa Ziehau /* 31376c8d8eccSSepherosa Ziehau * If only the state of the PROMISC flag 31386c8d8eccSSepherosa Ziehau * changed, then just use the 'set promisc 31396c8d8eccSSepherosa Ziehau * mode' command instead of reinitializing 31406c8d8eccSSepherosa Ziehau * the entire NIC. Doing a full re-init 31416c8d8eccSSepherosa Ziehau * means reloading the firmware and waiting 31426c8d8eccSSepherosa Ziehau * for it to start up, which may take a 31436c8d8eccSSepherosa Ziehau * second or two. Similarly for ALLMULTI. 31446c8d8eccSSepherosa Ziehau */ 31456c8d8eccSSepherosa Ziehau if (mask & IFF_PROMISC) 31466c8d8eccSSepherosa Ziehau bnx_setpromisc(sc); 31476c8d8eccSSepherosa Ziehau if (mask & IFF_ALLMULTI) 31486c8d8eccSSepherosa Ziehau bnx_setmulti(sc); 31496c8d8eccSSepherosa Ziehau } else { 31506c8d8eccSSepherosa Ziehau bnx_init(sc); 31516c8d8eccSSepherosa Ziehau } 31526c8d8eccSSepherosa Ziehau } else if (ifp->if_flags & IFF_RUNNING) { 31536c8d8eccSSepherosa Ziehau bnx_stop(sc); 31546c8d8eccSSepherosa Ziehau } 31556c8d8eccSSepherosa Ziehau sc->bnx_if_flags = ifp->if_flags; 31566c8d8eccSSepherosa Ziehau break; 31576c8d8eccSSepherosa Ziehau case SIOCADDMULTI: 31586c8d8eccSSepherosa Ziehau case SIOCDELMULTI: 31596c8d8eccSSepherosa Ziehau if (ifp->if_flags & IFF_RUNNING) 31606c8d8eccSSepherosa Ziehau bnx_setmulti(sc); 31616c8d8eccSSepherosa Ziehau break; 31626c8d8eccSSepherosa Ziehau case SIOCSIFMEDIA: 31636c8d8eccSSepherosa Ziehau case SIOCGIFMEDIA: 31646c8d8eccSSepherosa Ziehau if (sc->bnx_flags & BNX_FLAG_TBI) { 31656c8d8eccSSepherosa Ziehau error = ifmedia_ioctl(ifp, ifr, 31666c8d8eccSSepherosa Ziehau &sc->bnx_ifmedia, command); 31676c8d8eccSSepherosa Ziehau } else { 31686c8d8eccSSepherosa Ziehau struct mii_data *mii; 31696c8d8eccSSepherosa Ziehau 31706c8d8eccSSepherosa Ziehau mii = device_get_softc(sc->bnx_miibus); 31716c8d8eccSSepherosa Ziehau error = ifmedia_ioctl(ifp, ifr, 31726c8d8eccSSepherosa Ziehau &mii->mii_media, command); 31736c8d8eccSSepherosa Ziehau } 31746c8d8eccSSepherosa Ziehau break; 31756c8d8eccSSepherosa Ziehau case SIOCSIFCAP: 31766c8d8eccSSepherosa Ziehau mask = ifr->ifr_reqcap ^ ifp->if_capenable; 31776c8d8eccSSepherosa Ziehau if (mask & IFCAP_HWCSUM) { 31786c8d8eccSSepherosa Ziehau ifp->if_capenable ^= (mask & IFCAP_HWCSUM); 31796c8d8eccSSepherosa Ziehau if (IFCAP_HWCSUM & ifp->if_capenable) 31806c8d8eccSSepherosa Ziehau ifp->if_hwassist = BNX_CSUM_FEATURES; 31816c8d8eccSSepherosa Ziehau else 31826c8d8eccSSepherosa Ziehau ifp->if_hwassist = 0; 31836c8d8eccSSepherosa Ziehau } 31846c8d8eccSSepherosa Ziehau break; 31856c8d8eccSSepherosa Ziehau default: 31866c8d8eccSSepherosa Ziehau error = ether_ioctl(ifp, command, data); 31876c8d8eccSSepherosa Ziehau break; 31886c8d8eccSSepherosa Ziehau } 31896c8d8eccSSepherosa Ziehau return error; 31906c8d8eccSSepherosa Ziehau } 31916c8d8eccSSepherosa Ziehau 31926c8d8eccSSepherosa Ziehau static void 31936c8d8eccSSepherosa Ziehau bnx_watchdog(struct ifnet *ifp) 31946c8d8eccSSepherosa Ziehau { 31956c8d8eccSSepherosa Ziehau struct bnx_softc *sc = ifp->if_softc; 31966c8d8eccSSepherosa Ziehau 31976c8d8eccSSepherosa Ziehau if_printf(ifp, "watchdog timeout -- resetting\n"); 31986c8d8eccSSepherosa Ziehau 31996c8d8eccSSepherosa Ziehau bnx_init(sc); 32006c8d8eccSSepherosa Ziehau 32016c8d8eccSSepherosa Ziehau ifp->if_oerrors++; 32026c8d8eccSSepherosa Ziehau 32036c8d8eccSSepherosa Ziehau if (!ifq_is_empty(&ifp->if_snd)) 32046c8d8eccSSepherosa Ziehau if_devstart(ifp); 32056c8d8eccSSepherosa Ziehau } 32066c8d8eccSSepherosa Ziehau 32076c8d8eccSSepherosa Ziehau /* 32086c8d8eccSSepherosa Ziehau * Stop the adapter and free any mbufs allocated to the 32096c8d8eccSSepherosa Ziehau * RX and TX lists. 32106c8d8eccSSepherosa Ziehau */ 32116c8d8eccSSepherosa Ziehau static void 32126c8d8eccSSepherosa Ziehau bnx_stop(struct bnx_softc *sc) 32136c8d8eccSSepherosa Ziehau { 32146c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 32156c8d8eccSSepherosa Ziehau 32166c8d8eccSSepherosa Ziehau ASSERT_SERIALIZED(ifp->if_serializer); 32176c8d8eccSSepherosa Ziehau 32186c8d8eccSSepherosa Ziehau callout_stop(&sc->bnx_stat_timer); 32196c8d8eccSSepherosa Ziehau 32206c8d8eccSSepherosa Ziehau /* 32216c8d8eccSSepherosa Ziehau * Disable all of the receiver blocks 32226c8d8eccSSepherosa Ziehau */ 32236c8d8eccSSepherosa Ziehau bnx_stop_block(sc, BGE_RX_MODE, BGE_RXMODE_ENABLE); 32246c8d8eccSSepherosa Ziehau bnx_stop_block(sc, BGE_RBDI_MODE, BGE_RBDIMODE_ENABLE); 32256c8d8eccSSepherosa Ziehau bnx_stop_block(sc, BGE_RXLP_MODE, BGE_RXLPMODE_ENABLE); 32266c8d8eccSSepherosa Ziehau bnx_stop_block(sc, BGE_RDBDI_MODE, BGE_RBDIMODE_ENABLE); 32276c8d8eccSSepherosa Ziehau bnx_stop_block(sc, BGE_RDC_MODE, BGE_RDCMODE_ENABLE); 32286c8d8eccSSepherosa Ziehau bnx_stop_block(sc, BGE_RBDC_MODE, BGE_RBDCMODE_ENABLE); 32296c8d8eccSSepherosa Ziehau 32306c8d8eccSSepherosa Ziehau /* 32316c8d8eccSSepherosa Ziehau * Disable all of the transmit blocks 32326c8d8eccSSepherosa Ziehau */ 32336c8d8eccSSepherosa Ziehau bnx_stop_block(sc, BGE_SRS_MODE, BGE_SRSMODE_ENABLE); 32346c8d8eccSSepherosa Ziehau bnx_stop_block(sc, BGE_SBDI_MODE, BGE_SBDIMODE_ENABLE); 32356c8d8eccSSepherosa Ziehau bnx_stop_block(sc, BGE_SDI_MODE, BGE_SDIMODE_ENABLE); 32366c8d8eccSSepherosa Ziehau bnx_stop_block(sc, BGE_RDMA_MODE, BGE_RDMAMODE_ENABLE); 32376c8d8eccSSepherosa Ziehau bnx_stop_block(sc, BGE_SDC_MODE, BGE_SDCMODE_ENABLE); 32386c8d8eccSSepherosa Ziehau bnx_stop_block(sc, BGE_SBDC_MODE, BGE_SBDCMODE_ENABLE); 32396c8d8eccSSepherosa Ziehau 32406c8d8eccSSepherosa Ziehau /* 32416c8d8eccSSepherosa Ziehau * Shut down all of the memory managers and related 32426c8d8eccSSepherosa Ziehau * state machines. 32436c8d8eccSSepherosa Ziehau */ 32446c8d8eccSSepherosa Ziehau bnx_stop_block(sc, BGE_HCC_MODE, BGE_HCCMODE_ENABLE); 32456c8d8eccSSepherosa Ziehau bnx_stop_block(sc, BGE_WDMA_MODE, BGE_WDMAMODE_ENABLE); 32466c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_FTQ_RESET, 0xFFFFFFFF); 32476c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_FTQ_RESET, 0); 32486c8d8eccSSepherosa Ziehau 32496c8d8eccSSepherosa Ziehau /* Disable host interrupts. */ 32506c8d8eccSSepherosa Ziehau bnx_disable_intr(sc); 32516c8d8eccSSepherosa Ziehau 32526c8d8eccSSepherosa Ziehau /* 32536c8d8eccSSepherosa Ziehau * Tell firmware we're shutting down. 32546c8d8eccSSepherosa Ziehau */ 32556c8d8eccSSepherosa Ziehau BNX_CLRBIT(sc, BGE_MODE_CTL, BGE_MODECTL_STACKUP); 32566c8d8eccSSepherosa Ziehau 32576c8d8eccSSepherosa Ziehau /* Free the RX lists. */ 32586c8d8eccSSepherosa Ziehau bnx_free_rx_ring_std(sc); 32596c8d8eccSSepherosa Ziehau 32606c8d8eccSSepherosa Ziehau /* Free jumbo RX list. */ 32616c8d8eccSSepherosa Ziehau if (BNX_IS_JUMBO_CAPABLE(sc)) 32626c8d8eccSSepherosa Ziehau bnx_free_rx_ring_jumbo(sc); 32636c8d8eccSSepherosa Ziehau 32646c8d8eccSSepherosa Ziehau /* Free TX buffers. */ 32656c8d8eccSSepherosa Ziehau bnx_free_tx_ring(sc); 32666c8d8eccSSepherosa Ziehau 32676c8d8eccSSepherosa Ziehau sc->bnx_status_tag = 0; 32686c8d8eccSSepherosa Ziehau sc->bnx_link = 0; 32696c8d8eccSSepherosa Ziehau sc->bnx_coal_chg = 0; 32706c8d8eccSSepherosa Ziehau 32716c8d8eccSSepherosa Ziehau sc->bnx_tx_saved_considx = BNX_TXCONS_UNSET; 32726c8d8eccSSepherosa Ziehau 32736c8d8eccSSepherosa Ziehau ifp->if_flags &= ~(IFF_RUNNING | IFF_OACTIVE); 32746c8d8eccSSepherosa Ziehau ifp->if_timer = 0; 32756c8d8eccSSepherosa Ziehau } 32766c8d8eccSSepherosa Ziehau 32776c8d8eccSSepherosa Ziehau /* 32786c8d8eccSSepherosa Ziehau * Stop all chip I/O so that the kernel's probe routines don't 32796c8d8eccSSepherosa Ziehau * get confused by errant DMAs when rebooting. 32806c8d8eccSSepherosa Ziehau */ 32816c8d8eccSSepherosa Ziehau static void 32826c8d8eccSSepherosa Ziehau bnx_shutdown(device_t dev) 32836c8d8eccSSepherosa Ziehau { 32846c8d8eccSSepherosa Ziehau struct bnx_softc *sc = device_get_softc(dev); 32856c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 32866c8d8eccSSepherosa Ziehau 32876c8d8eccSSepherosa Ziehau lwkt_serialize_enter(ifp->if_serializer); 32886c8d8eccSSepherosa Ziehau bnx_stop(sc); 32896c8d8eccSSepherosa Ziehau bnx_reset(sc); 32906c8d8eccSSepherosa Ziehau lwkt_serialize_exit(ifp->if_serializer); 32916c8d8eccSSepherosa Ziehau } 32926c8d8eccSSepherosa Ziehau 32936c8d8eccSSepherosa Ziehau static int 32946c8d8eccSSepherosa Ziehau bnx_suspend(device_t dev) 32956c8d8eccSSepherosa Ziehau { 32966c8d8eccSSepherosa Ziehau struct bnx_softc *sc = device_get_softc(dev); 32976c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 32986c8d8eccSSepherosa Ziehau 32996c8d8eccSSepherosa Ziehau lwkt_serialize_enter(ifp->if_serializer); 33006c8d8eccSSepherosa Ziehau bnx_stop(sc); 33016c8d8eccSSepherosa Ziehau lwkt_serialize_exit(ifp->if_serializer); 33026c8d8eccSSepherosa Ziehau 33036c8d8eccSSepherosa Ziehau return 0; 33046c8d8eccSSepherosa Ziehau } 33056c8d8eccSSepherosa Ziehau 33066c8d8eccSSepherosa Ziehau static int 33076c8d8eccSSepherosa Ziehau bnx_resume(device_t dev) 33086c8d8eccSSepherosa Ziehau { 33096c8d8eccSSepherosa Ziehau struct bnx_softc *sc = device_get_softc(dev); 33106c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 33116c8d8eccSSepherosa Ziehau 33126c8d8eccSSepherosa Ziehau lwkt_serialize_enter(ifp->if_serializer); 33136c8d8eccSSepherosa Ziehau 33146c8d8eccSSepherosa Ziehau if (ifp->if_flags & IFF_UP) { 33156c8d8eccSSepherosa Ziehau bnx_init(sc); 33166c8d8eccSSepherosa Ziehau 33176c8d8eccSSepherosa Ziehau if (!ifq_is_empty(&ifp->if_snd)) 33186c8d8eccSSepherosa Ziehau if_devstart(ifp); 33196c8d8eccSSepherosa Ziehau } 33206c8d8eccSSepherosa Ziehau 33216c8d8eccSSepherosa Ziehau lwkt_serialize_exit(ifp->if_serializer); 33226c8d8eccSSepherosa Ziehau 33236c8d8eccSSepherosa Ziehau return 0; 33246c8d8eccSSepherosa Ziehau } 33256c8d8eccSSepherosa Ziehau 33266c8d8eccSSepherosa Ziehau static void 33276c8d8eccSSepherosa Ziehau bnx_setpromisc(struct bnx_softc *sc) 33286c8d8eccSSepherosa Ziehau { 33296c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 33306c8d8eccSSepherosa Ziehau 33316c8d8eccSSepherosa Ziehau if (ifp->if_flags & IFF_PROMISC) 33326c8d8eccSSepherosa Ziehau BNX_SETBIT(sc, BGE_RX_MODE, BGE_RXMODE_RX_PROMISC); 33336c8d8eccSSepherosa Ziehau else 33346c8d8eccSSepherosa Ziehau BNX_CLRBIT(sc, BGE_RX_MODE, BGE_RXMODE_RX_PROMISC); 33356c8d8eccSSepherosa Ziehau } 33366c8d8eccSSepherosa Ziehau 33376c8d8eccSSepherosa Ziehau static void 33386c8d8eccSSepherosa Ziehau bnx_dma_free(struct bnx_softc *sc) 33396c8d8eccSSepherosa Ziehau { 33406c8d8eccSSepherosa Ziehau int i; 33416c8d8eccSSepherosa Ziehau 33426c8d8eccSSepherosa Ziehau /* Destroy RX mbuf DMA stuffs. */ 33436c8d8eccSSepherosa Ziehau if (sc->bnx_cdata.bnx_rx_mtag != NULL) { 33446c8d8eccSSepherosa Ziehau for (i = 0; i < BGE_STD_RX_RING_CNT; i++) { 33456c8d8eccSSepherosa Ziehau bus_dmamap_destroy(sc->bnx_cdata.bnx_rx_mtag, 33466c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_std_dmamap[i]); 33476c8d8eccSSepherosa Ziehau } 33486c8d8eccSSepherosa Ziehau bus_dmamap_destroy(sc->bnx_cdata.bnx_rx_mtag, 33496c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_tmpmap); 33506c8d8eccSSepherosa Ziehau bus_dma_tag_destroy(sc->bnx_cdata.bnx_rx_mtag); 33516c8d8eccSSepherosa Ziehau } 33526c8d8eccSSepherosa Ziehau 33536c8d8eccSSepherosa Ziehau /* Destroy TX mbuf DMA stuffs. */ 33546c8d8eccSSepherosa Ziehau if (sc->bnx_cdata.bnx_tx_mtag != NULL) { 33556c8d8eccSSepherosa Ziehau for (i = 0; i < BGE_TX_RING_CNT; i++) { 33566c8d8eccSSepherosa Ziehau bus_dmamap_destroy(sc->bnx_cdata.bnx_tx_mtag, 33576c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_tx_dmamap[i]); 33586c8d8eccSSepherosa Ziehau } 33596c8d8eccSSepherosa Ziehau bus_dma_tag_destroy(sc->bnx_cdata.bnx_tx_mtag); 33606c8d8eccSSepherosa Ziehau } 33616c8d8eccSSepherosa Ziehau 33626c8d8eccSSepherosa Ziehau /* Destroy standard RX ring */ 33636c8d8eccSSepherosa Ziehau bnx_dma_block_free(sc->bnx_cdata.bnx_rx_std_ring_tag, 33646c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_std_ring_map, 33656c8d8eccSSepherosa Ziehau sc->bnx_ldata.bnx_rx_std_ring); 33666c8d8eccSSepherosa Ziehau 33676c8d8eccSSepherosa Ziehau if (BNX_IS_JUMBO_CAPABLE(sc)) 33686c8d8eccSSepherosa Ziehau bnx_free_jumbo_mem(sc); 33696c8d8eccSSepherosa Ziehau 33706c8d8eccSSepherosa Ziehau /* Destroy RX return ring */ 33716c8d8eccSSepherosa Ziehau bnx_dma_block_free(sc->bnx_cdata.bnx_rx_return_ring_tag, 33726c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_return_ring_map, 33736c8d8eccSSepherosa Ziehau sc->bnx_ldata.bnx_rx_return_ring); 33746c8d8eccSSepherosa Ziehau 33756c8d8eccSSepherosa Ziehau /* Destroy TX ring */ 33766c8d8eccSSepherosa Ziehau bnx_dma_block_free(sc->bnx_cdata.bnx_tx_ring_tag, 33776c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_tx_ring_map, 33786c8d8eccSSepherosa Ziehau sc->bnx_ldata.bnx_tx_ring); 33796c8d8eccSSepherosa Ziehau 33806c8d8eccSSepherosa Ziehau /* Destroy status block */ 33816c8d8eccSSepherosa Ziehau bnx_dma_block_free(sc->bnx_cdata.bnx_status_tag, 33826c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_status_map, 33836c8d8eccSSepherosa Ziehau sc->bnx_ldata.bnx_status_block); 33846c8d8eccSSepherosa Ziehau 33856c8d8eccSSepherosa Ziehau /* Destroy the parent tag */ 33866c8d8eccSSepherosa Ziehau if (sc->bnx_cdata.bnx_parent_tag != NULL) 33876c8d8eccSSepherosa Ziehau bus_dma_tag_destroy(sc->bnx_cdata.bnx_parent_tag); 33886c8d8eccSSepherosa Ziehau } 33896c8d8eccSSepherosa Ziehau 33906c8d8eccSSepherosa Ziehau static int 33916c8d8eccSSepherosa Ziehau bnx_dma_alloc(struct bnx_softc *sc) 33926c8d8eccSSepherosa Ziehau { 33936c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 33946c8d8eccSSepherosa Ziehau int i, error; 33956c8d8eccSSepherosa Ziehau 33966c8d8eccSSepherosa Ziehau /* 33976c8d8eccSSepherosa Ziehau * Allocate the parent bus DMA tag appropriate for PCI. 33986c8d8eccSSepherosa Ziehau * 33996c8d8eccSSepherosa Ziehau * All of the NetExtreme/NetLink controllers have 4GB boundary 34006c8d8eccSSepherosa Ziehau * DMA bug. 34016c8d8eccSSepherosa Ziehau * Whenever an address crosses a multiple of the 4GB boundary 34026c8d8eccSSepherosa Ziehau * (including 4GB, 8Gb, 12Gb, etc.) and makes the transition 34036c8d8eccSSepherosa Ziehau * from 0xX_FFFF_FFFF to 0x(X+1)_0000_0000 an internal DMA 34046c8d8eccSSepherosa Ziehau * state machine will lockup and cause the device to hang. 34056c8d8eccSSepherosa Ziehau */ 34066c8d8eccSSepherosa Ziehau error = bus_dma_tag_create(NULL, 1, BGE_DMA_BOUNDARY_4G, 34076c8d8eccSSepherosa Ziehau BUS_SPACE_MAXADDR, BUS_SPACE_MAXADDR, 34086c8d8eccSSepherosa Ziehau NULL, NULL, 34096c8d8eccSSepherosa Ziehau BUS_SPACE_MAXSIZE_32BIT, 0, 34106c8d8eccSSepherosa Ziehau BUS_SPACE_MAXSIZE_32BIT, 34116c8d8eccSSepherosa Ziehau 0, &sc->bnx_cdata.bnx_parent_tag); 34126c8d8eccSSepherosa Ziehau if (error) { 34136c8d8eccSSepherosa Ziehau if_printf(ifp, "could not allocate parent dma tag\n"); 34146c8d8eccSSepherosa Ziehau return error; 34156c8d8eccSSepherosa Ziehau } 34166c8d8eccSSepherosa Ziehau 34176c8d8eccSSepherosa Ziehau /* 34186c8d8eccSSepherosa Ziehau * Create DMA tag and maps for RX mbufs. 34196c8d8eccSSepherosa Ziehau */ 34206c8d8eccSSepherosa Ziehau error = bus_dma_tag_create(sc->bnx_cdata.bnx_parent_tag, 1, 0, 34216c8d8eccSSepherosa Ziehau BUS_SPACE_MAXADDR, BUS_SPACE_MAXADDR, 34226c8d8eccSSepherosa Ziehau NULL, NULL, MCLBYTES, 1, MCLBYTES, 34236c8d8eccSSepherosa Ziehau BUS_DMA_ALLOCNOW | BUS_DMA_WAITOK, 34246c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_rx_mtag); 34256c8d8eccSSepherosa Ziehau if (error) { 34266c8d8eccSSepherosa Ziehau if_printf(ifp, "could not allocate RX mbuf dma tag\n"); 34276c8d8eccSSepherosa Ziehau return error; 34286c8d8eccSSepherosa Ziehau } 34296c8d8eccSSepherosa Ziehau 34306c8d8eccSSepherosa Ziehau error = bus_dmamap_create(sc->bnx_cdata.bnx_rx_mtag, 34316c8d8eccSSepherosa Ziehau BUS_DMA_WAITOK, &sc->bnx_cdata.bnx_rx_tmpmap); 34326c8d8eccSSepherosa Ziehau if (error) { 34336c8d8eccSSepherosa Ziehau bus_dma_tag_destroy(sc->bnx_cdata.bnx_rx_mtag); 34346c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_mtag = NULL; 34356c8d8eccSSepherosa Ziehau return error; 34366c8d8eccSSepherosa Ziehau } 34376c8d8eccSSepherosa Ziehau 34386c8d8eccSSepherosa Ziehau for (i = 0; i < BGE_STD_RX_RING_CNT; i++) { 34396c8d8eccSSepherosa Ziehau error = bus_dmamap_create(sc->bnx_cdata.bnx_rx_mtag, 34406c8d8eccSSepherosa Ziehau BUS_DMA_WAITOK, 34416c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_rx_std_dmamap[i]); 34426c8d8eccSSepherosa Ziehau if (error) { 34436c8d8eccSSepherosa Ziehau int j; 34446c8d8eccSSepherosa Ziehau 34456c8d8eccSSepherosa Ziehau for (j = 0; j < i; ++j) { 34466c8d8eccSSepherosa Ziehau bus_dmamap_destroy(sc->bnx_cdata.bnx_rx_mtag, 34476c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_std_dmamap[j]); 34486c8d8eccSSepherosa Ziehau } 34496c8d8eccSSepherosa Ziehau bus_dma_tag_destroy(sc->bnx_cdata.bnx_rx_mtag); 34506c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_rx_mtag = NULL; 34516c8d8eccSSepherosa Ziehau 34526c8d8eccSSepherosa Ziehau if_printf(ifp, "could not create DMA map for RX\n"); 34536c8d8eccSSepherosa Ziehau return error; 34546c8d8eccSSepherosa Ziehau } 34556c8d8eccSSepherosa Ziehau } 34566c8d8eccSSepherosa Ziehau 34576c8d8eccSSepherosa Ziehau /* 34586c8d8eccSSepherosa Ziehau * Create DMA tag and maps for TX mbufs. 34596c8d8eccSSepherosa Ziehau */ 34606c8d8eccSSepherosa Ziehau error = bus_dma_tag_create(sc->bnx_cdata.bnx_parent_tag, 1, 0, 34616c8d8eccSSepherosa Ziehau BUS_SPACE_MAXADDR, BUS_SPACE_MAXADDR, 34626c8d8eccSSepherosa Ziehau NULL, NULL, 34636c8d8eccSSepherosa Ziehau BNX_JUMBO_FRAMELEN, BNX_NSEG_NEW, MCLBYTES, 34646c8d8eccSSepherosa Ziehau BUS_DMA_ALLOCNOW | BUS_DMA_WAITOK | 34656c8d8eccSSepherosa Ziehau BUS_DMA_ONEBPAGE, 34666c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_tx_mtag); 34676c8d8eccSSepherosa Ziehau if (error) { 34686c8d8eccSSepherosa Ziehau if_printf(ifp, "could not allocate TX mbuf dma tag\n"); 34696c8d8eccSSepherosa Ziehau return error; 34706c8d8eccSSepherosa Ziehau } 34716c8d8eccSSepherosa Ziehau 34726c8d8eccSSepherosa Ziehau for (i = 0; i < BGE_TX_RING_CNT; i++) { 34736c8d8eccSSepherosa Ziehau error = bus_dmamap_create(sc->bnx_cdata.bnx_tx_mtag, 34746c8d8eccSSepherosa Ziehau BUS_DMA_WAITOK | BUS_DMA_ONEBPAGE, 34756c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_tx_dmamap[i]); 34766c8d8eccSSepherosa Ziehau if (error) { 34776c8d8eccSSepherosa Ziehau int j; 34786c8d8eccSSepherosa Ziehau 34796c8d8eccSSepherosa Ziehau for (j = 0; j < i; ++j) { 34806c8d8eccSSepherosa Ziehau bus_dmamap_destroy(sc->bnx_cdata.bnx_tx_mtag, 34816c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_tx_dmamap[j]); 34826c8d8eccSSepherosa Ziehau } 34836c8d8eccSSepherosa Ziehau bus_dma_tag_destroy(sc->bnx_cdata.bnx_tx_mtag); 34846c8d8eccSSepherosa Ziehau sc->bnx_cdata.bnx_tx_mtag = NULL; 34856c8d8eccSSepherosa Ziehau 34866c8d8eccSSepherosa Ziehau if_printf(ifp, "could not create DMA map for TX\n"); 34876c8d8eccSSepherosa Ziehau return error; 34886c8d8eccSSepherosa Ziehau } 34896c8d8eccSSepherosa Ziehau } 34906c8d8eccSSepherosa Ziehau 34916c8d8eccSSepherosa Ziehau /* 34926c8d8eccSSepherosa Ziehau * Create DMA stuffs for standard RX ring. 34936c8d8eccSSepherosa Ziehau */ 34946c8d8eccSSepherosa Ziehau error = bnx_dma_block_alloc(sc, BGE_STD_RX_RING_SZ, 34956c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_rx_std_ring_tag, 34966c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_rx_std_ring_map, 34976c8d8eccSSepherosa Ziehau (void *)&sc->bnx_ldata.bnx_rx_std_ring, 34986c8d8eccSSepherosa Ziehau &sc->bnx_ldata.bnx_rx_std_ring_paddr); 34996c8d8eccSSepherosa Ziehau if (error) { 35006c8d8eccSSepherosa Ziehau if_printf(ifp, "could not create std RX ring\n"); 35016c8d8eccSSepherosa Ziehau return error; 35026c8d8eccSSepherosa Ziehau } 35036c8d8eccSSepherosa Ziehau 35046c8d8eccSSepherosa Ziehau /* 35056c8d8eccSSepherosa Ziehau * Create jumbo buffer pool. 35066c8d8eccSSepherosa Ziehau */ 35076c8d8eccSSepherosa Ziehau if (BNX_IS_JUMBO_CAPABLE(sc)) { 35086c8d8eccSSepherosa Ziehau error = bnx_alloc_jumbo_mem(sc); 35096c8d8eccSSepherosa Ziehau if (error) { 35106c8d8eccSSepherosa Ziehau if_printf(ifp, "could not create jumbo buffer pool\n"); 35116c8d8eccSSepherosa Ziehau return error; 35126c8d8eccSSepherosa Ziehau } 35136c8d8eccSSepherosa Ziehau } 35146c8d8eccSSepherosa Ziehau 35156c8d8eccSSepherosa Ziehau /* 35166c8d8eccSSepherosa Ziehau * Create DMA stuffs for RX return ring. 35176c8d8eccSSepherosa Ziehau */ 35186c8d8eccSSepherosa Ziehau error = bnx_dma_block_alloc(sc, 35196c8d8eccSSepherosa Ziehau BGE_RX_RTN_RING_SZ(sc->bnx_return_ring_cnt), 35206c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_rx_return_ring_tag, 35216c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_rx_return_ring_map, 35226c8d8eccSSepherosa Ziehau (void *)&sc->bnx_ldata.bnx_rx_return_ring, 35236c8d8eccSSepherosa Ziehau &sc->bnx_ldata.bnx_rx_return_ring_paddr); 35246c8d8eccSSepherosa Ziehau if (error) { 35256c8d8eccSSepherosa Ziehau if_printf(ifp, "could not create RX ret ring\n"); 35266c8d8eccSSepherosa Ziehau return error; 35276c8d8eccSSepherosa Ziehau } 35286c8d8eccSSepherosa Ziehau 35296c8d8eccSSepherosa Ziehau /* 35306c8d8eccSSepherosa Ziehau * Create DMA stuffs for TX ring. 35316c8d8eccSSepherosa Ziehau */ 35326c8d8eccSSepherosa Ziehau error = bnx_dma_block_alloc(sc, BGE_TX_RING_SZ, 35336c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_tx_ring_tag, 35346c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_tx_ring_map, 35356c8d8eccSSepherosa Ziehau (void *)&sc->bnx_ldata.bnx_tx_ring, 35366c8d8eccSSepherosa Ziehau &sc->bnx_ldata.bnx_tx_ring_paddr); 35376c8d8eccSSepherosa Ziehau if (error) { 35386c8d8eccSSepherosa Ziehau if_printf(ifp, "could not create TX ring\n"); 35396c8d8eccSSepherosa Ziehau return error; 35406c8d8eccSSepherosa Ziehau } 35416c8d8eccSSepherosa Ziehau 35426c8d8eccSSepherosa Ziehau /* 35436c8d8eccSSepherosa Ziehau * Create DMA stuffs for status block. 35446c8d8eccSSepherosa Ziehau */ 35456c8d8eccSSepherosa Ziehau error = bnx_dma_block_alloc(sc, BGE_STATUS_BLK_SZ, 35466c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_status_tag, 35476c8d8eccSSepherosa Ziehau &sc->bnx_cdata.bnx_status_map, 35486c8d8eccSSepherosa Ziehau (void *)&sc->bnx_ldata.bnx_status_block, 35496c8d8eccSSepherosa Ziehau &sc->bnx_ldata.bnx_status_block_paddr); 35506c8d8eccSSepherosa Ziehau if (error) { 35516c8d8eccSSepherosa Ziehau if_printf(ifp, "could not create status block\n"); 35526c8d8eccSSepherosa Ziehau return error; 35536c8d8eccSSepherosa Ziehau } 35546c8d8eccSSepherosa Ziehau 35556c8d8eccSSepherosa Ziehau return 0; 35566c8d8eccSSepherosa Ziehau } 35576c8d8eccSSepherosa Ziehau 35586c8d8eccSSepherosa Ziehau static int 35596c8d8eccSSepherosa Ziehau bnx_dma_block_alloc(struct bnx_softc *sc, bus_size_t size, bus_dma_tag_t *tag, 35606c8d8eccSSepherosa Ziehau bus_dmamap_t *map, void **addr, bus_addr_t *paddr) 35616c8d8eccSSepherosa Ziehau { 35626c8d8eccSSepherosa Ziehau bus_dmamem_t dmem; 35636c8d8eccSSepherosa Ziehau int error; 35646c8d8eccSSepherosa Ziehau 35656c8d8eccSSepherosa Ziehau error = bus_dmamem_coherent(sc->bnx_cdata.bnx_parent_tag, PAGE_SIZE, 0, 35666c8d8eccSSepherosa Ziehau BUS_SPACE_MAXADDR, BUS_SPACE_MAXADDR, 35676c8d8eccSSepherosa Ziehau size, BUS_DMA_WAITOK | BUS_DMA_ZERO, &dmem); 35686c8d8eccSSepherosa Ziehau if (error) 35696c8d8eccSSepherosa Ziehau return error; 35706c8d8eccSSepherosa Ziehau 35716c8d8eccSSepherosa Ziehau *tag = dmem.dmem_tag; 35726c8d8eccSSepherosa Ziehau *map = dmem.dmem_map; 35736c8d8eccSSepherosa Ziehau *addr = dmem.dmem_addr; 35746c8d8eccSSepherosa Ziehau *paddr = dmem.dmem_busaddr; 35756c8d8eccSSepherosa Ziehau 35766c8d8eccSSepherosa Ziehau return 0; 35776c8d8eccSSepherosa Ziehau } 35786c8d8eccSSepherosa Ziehau 35796c8d8eccSSepherosa Ziehau static void 35806c8d8eccSSepherosa Ziehau bnx_dma_block_free(bus_dma_tag_t tag, bus_dmamap_t map, void *addr) 35816c8d8eccSSepherosa Ziehau { 35826c8d8eccSSepherosa Ziehau if (tag != NULL) { 35836c8d8eccSSepherosa Ziehau bus_dmamap_unload(tag, map); 35846c8d8eccSSepherosa Ziehau bus_dmamem_free(tag, addr, map); 35856c8d8eccSSepherosa Ziehau bus_dma_tag_destroy(tag); 35866c8d8eccSSepherosa Ziehau } 35876c8d8eccSSepherosa Ziehau } 35886c8d8eccSSepherosa Ziehau 35896c8d8eccSSepherosa Ziehau static void 35906c8d8eccSSepherosa Ziehau bnx_tbi_link_upd(struct bnx_softc *sc, uint32_t status) 35916c8d8eccSSepherosa Ziehau { 35926c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 35936c8d8eccSSepherosa Ziehau 35946c8d8eccSSepherosa Ziehau #define PCS_ENCODE_ERR (BGE_MACSTAT_PORT_DECODE_ERROR|BGE_MACSTAT_MI_COMPLETE) 35956c8d8eccSSepherosa Ziehau 35966c8d8eccSSepherosa Ziehau /* 35976c8d8eccSSepherosa Ziehau * Sometimes PCS encoding errors are detected in 35986c8d8eccSSepherosa Ziehau * TBI mode (on fiber NICs), and for some reason 35996c8d8eccSSepherosa Ziehau * the chip will signal them as link changes. 36006c8d8eccSSepherosa Ziehau * If we get a link change event, but the 'PCS 36016c8d8eccSSepherosa Ziehau * encoding error' bit in the MAC status register 36026c8d8eccSSepherosa Ziehau * is set, don't bother doing a link check. 36036c8d8eccSSepherosa Ziehau * This avoids spurious "gigabit link up" messages 36046c8d8eccSSepherosa Ziehau * that sometimes appear on fiber NICs during 36056c8d8eccSSepherosa Ziehau * periods of heavy traffic. 36066c8d8eccSSepherosa Ziehau */ 36076c8d8eccSSepherosa Ziehau if (status & BGE_MACSTAT_TBI_PCS_SYNCHED) { 36086c8d8eccSSepherosa Ziehau if (!sc->bnx_link) { 36096c8d8eccSSepherosa Ziehau sc->bnx_link++; 36106c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5704) { 36116c8d8eccSSepherosa Ziehau BNX_CLRBIT(sc, BGE_MAC_MODE, 36126c8d8eccSSepherosa Ziehau BGE_MACMODE_TBI_SEND_CFGS); 36136c8d8eccSSepherosa Ziehau } 36146c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAC_STS, 0xFFFFFFFF); 36156c8d8eccSSepherosa Ziehau 36166c8d8eccSSepherosa Ziehau if (bootverbose) 36176c8d8eccSSepherosa Ziehau if_printf(ifp, "link UP\n"); 36186c8d8eccSSepherosa Ziehau 36196c8d8eccSSepherosa Ziehau ifp->if_link_state = LINK_STATE_UP; 36206c8d8eccSSepherosa Ziehau if_link_state_change(ifp); 36216c8d8eccSSepherosa Ziehau } 36226c8d8eccSSepherosa Ziehau } else if ((status & PCS_ENCODE_ERR) != PCS_ENCODE_ERR) { 36236c8d8eccSSepherosa Ziehau if (sc->bnx_link) { 36246c8d8eccSSepherosa Ziehau sc->bnx_link = 0; 36256c8d8eccSSepherosa Ziehau 36266c8d8eccSSepherosa Ziehau if (bootverbose) 36276c8d8eccSSepherosa Ziehau if_printf(ifp, "link DOWN\n"); 36286c8d8eccSSepherosa Ziehau 36296c8d8eccSSepherosa Ziehau ifp->if_link_state = LINK_STATE_DOWN; 36306c8d8eccSSepherosa Ziehau if_link_state_change(ifp); 36316c8d8eccSSepherosa Ziehau } 36326c8d8eccSSepherosa Ziehau } 36336c8d8eccSSepherosa Ziehau 36346c8d8eccSSepherosa Ziehau #undef PCS_ENCODE_ERR 36356c8d8eccSSepherosa Ziehau 36366c8d8eccSSepherosa Ziehau /* Clear the attention. */ 36376c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAC_STS, BGE_MACSTAT_SYNC_CHANGED | 36386c8d8eccSSepherosa Ziehau BGE_MACSTAT_CFG_CHANGED | BGE_MACSTAT_MI_COMPLETE | 36396c8d8eccSSepherosa Ziehau BGE_MACSTAT_LINK_CHANGED); 36406c8d8eccSSepherosa Ziehau } 36416c8d8eccSSepherosa Ziehau 36426c8d8eccSSepherosa Ziehau static void 36436c8d8eccSSepherosa Ziehau bnx_copper_link_upd(struct bnx_softc *sc, uint32_t status __unused) 36446c8d8eccSSepherosa Ziehau { 36456c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 36466c8d8eccSSepherosa Ziehau struct mii_data *mii = device_get_softc(sc->bnx_miibus); 36476c8d8eccSSepherosa Ziehau 36486c8d8eccSSepherosa Ziehau mii_pollstat(mii); 36496c8d8eccSSepherosa Ziehau bnx_miibus_statchg(sc->bnx_dev); 36506c8d8eccSSepherosa Ziehau 36516c8d8eccSSepherosa Ziehau if (bootverbose) { 36526c8d8eccSSepherosa Ziehau if (sc->bnx_link) 36536c8d8eccSSepherosa Ziehau if_printf(ifp, "link UP\n"); 36546c8d8eccSSepherosa Ziehau else 36556c8d8eccSSepherosa Ziehau if_printf(ifp, "link DOWN\n"); 36566c8d8eccSSepherosa Ziehau } 36576c8d8eccSSepherosa Ziehau 36586c8d8eccSSepherosa Ziehau /* Clear the attention. */ 36596c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAC_STS, BGE_MACSTAT_SYNC_CHANGED | 36606c8d8eccSSepherosa Ziehau BGE_MACSTAT_CFG_CHANGED | BGE_MACSTAT_MI_COMPLETE | 36616c8d8eccSSepherosa Ziehau BGE_MACSTAT_LINK_CHANGED); 36626c8d8eccSSepherosa Ziehau } 36636c8d8eccSSepherosa Ziehau 36646c8d8eccSSepherosa Ziehau static void 36656c8d8eccSSepherosa Ziehau bnx_autopoll_link_upd(struct bnx_softc *sc, uint32_t status __unused) 36666c8d8eccSSepherosa Ziehau { 36676c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 36686c8d8eccSSepherosa Ziehau struct mii_data *mii = device_get_softc(sc->bnx_miibus); 36696c8d8eccSSepherosa Ziehau 36706c8d8eccSSepherosa Ziehau mii_pollstat(mii); 36716c8d8eccSSepherosa Ziehau 36726c8d8eccSSepherosa Ziehau if (!sc->bnx_link && 36736c8d8eccSSepherosa Ziehau (mii->mii_media_status & IFM_ACTIVE) && 36746c8d8eccSSepherosa Ziehau IFM_SUBTYPE(mii->mii_media_active) != IFM_NONE) { 36756c8d8eccSSepherosa Ziehau sc->bnx_link++; 36766c8d8eccSSepherosa Ziehau if (bootverbose) 36776c8d8eccSSepherosa Ziehau if_printf(ifp, "link UP\n"); 36786c8d8eccSSepherosa Ziehau } else if (sc->bnx_link && 36796c8d8eccSSepherosa Ziehau (!(mii->mii_media_status & IFM_ACTIVE) || 36806c8d8eccSSepherosa Ziehau IFM_SUBTYPE(mii->mii_media_active) == IFM_NONE)) { 36816c8d8eccSSepherosa Ziehau sc->bnx_link = 0; 36826c8d8eccSSepherosa Ziehau if (bootverbose) 36836c8d8eccSSepherosa Ziehau if_printf(ifp, "link DOWN\n"); 36846c8d8eccSSepherosa Ziehau } 36856c8d8eccSSepherosa Ziehau 36866c8d8eccSSepherosa Ziehau /* Clear the attention. */ 36876c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MAC_STS, BGE_MACSTAT_SYNC_CHANGED | 36886c8d8eccSSepherosa Ziehau BGE_MACSTAT_CFG_CHANGED | BGE_MACSTAT_MI_COMPLETE | 36896c8d8eccSSepherosa Ziehau BGE_MACSTAT_LINK_CHANGED); 36906c8d8eccSSepherosa Ziehau } 36916c8d8eccSSepherosa Ziehau 36926c8d8eccSSepherosa Ziehau static int 36936c8d8eccSSepherosa Ziehau bnx_sysctl_rx_coal_ticks(SYSCTL_HANDLER_ARGS) 36946c8d8eccSSepherosa Ziehau { 36956c8d8eccSSepherosa Ziehau struct bnx_softc *sc = arg1; 36966c8d8eccSSepherosa Ziehau 36976c8d8eccSSepherosa Ziehau return bnx_sysctl_coal_chg(oidp, arg1, arg2, req, 36986c8d8eccSSepherosa Ziehau &sc->bnx_rx_coal_ticks, 36996c8d8eccSSepherosa Ziehau BNX_RX_COAL_TICKS_MIN, BNX_RX_COAL_TICKS_MAX, 37006c8d8eccSSepherosa Ziehau BNX_RX_COAL_TICKS_CHG); 37016c8d8eccSSepherosa Ziehau } 37026c8d8eccSSepherosa Ziehau 37036c8d8eccSSepherosa Ziehau static int 37046c8d8eccSSepherosa Ziehau bnx_sysctl_tx_coal_ticks(SYSCTL_HANDLER_ARGS) 37056c8d8eccSSepherosa Ziehau { 37066c8d8eccSSepherosa Ziehau struct bnx_softc *sc = arg1; 37076c8d8eccSSepherosa Ziehau 37086c8d8eccSSepherosa Ziehau return bnx_sysctl_coal_chg(oidp, arg1, arg2, req, 37096c8d8eccSSepherosa Ziehau &sc->bnx_tx_coal_ticks, 37106c8d8eccSSepherosa Ziehau BNX_TX_COAL_TICKS_MIN, BNX_TX_COAL_TICKS_MAX, 37116c8d8eccSSepherosa Ziehau BNX_TX_COAL_TICKS_CHG); 37126c8d8eccSSepherosa Ziehau } 37136c8d8eccSSepherosa Ziehau 37146c8d8eccSSepherosa Ziehau static int 37156c8d8eccSSepherosa Ziehau bnx_sysctl_rx_coal_bds(SYSCTL_HANDLER_ARGS) 37166c8d8eccSSepherosa Ziehau { 37176c8d8eccSSepherosa Ziehau struct bnx_softc *sc = arg1; 37186c8d8eccSSepherosa Ziehau 37196c8d8eccSSepherosa Ziehau return bnx_sysctl_coal_chg(oidp, arg1, arg2, req, 37206c8d8eccSSepherosa Ziehau &sc->bnx_rx_coal_bds, 37216c8d8eccSSepherosa Ziehau BNX_RX_COAL_BDS_MIN, BNX_RX_COAL_BDS_MAX, 37226c8d8eccSSepherosa Ziehau BNX_RX_COAL_BDS_CHG); 37236c8d8eccSSepherosa Ziehau } 37246c8d8eccSSepherosa Ziehau 37256c8d8eccSSepherosa Ziehau static int 37266c8d8eccSSepherosa Ziehau bnx_sysctl_tx_coal_bds(SYSCTL_HANDLER_ARGS) 37276c8d8eccSSepherosa Ziehau { 37286c8d8eccSSepherosa Ziehau struct bnx_softc *sc = arg1; 37296c8d8eccSSepherosa Ziehau 37306c8d8eccSSepherosa Ziehau return bnx_sysctl_coal_chg(oidp, arg1, arg2, req, 37316c8d8eccSSepherosa Ziehau &sc->bnx_tx_coal_bds, 37326c8d8eccSSepherosa Ziehau BNX_TX_COAL_BDS_MIN, BNX_TX_COAL_BDS_MAX, 37336c8d8eccSSepherosa Ziehau BNX_TX_COAL_BDS_CHG); 37346c8d8eccSSepherosa Ziehau } 37356c8d8eccSSepherosa Ziehau 37366c8d8eccSSepherosa Ziehau static int 37376c8d8eccSSepherosa Ziehau bnx_sysctl_rx_coal_bds_int(SYSCTL_HANDLER_ARGS) 37386c8d8eccSSepherosa Ziehau { 37396c8d8eccSSepherosa Ziehau struct bnx_softc *sc = arg1; 37406c8d8eccSSepherosa Ziehau 37416c8d8eccSSepherosa Ziehau return bnx_sysctl_coal_chg(oidp, arg1, arg2, req, 37426c8d8eccSSepherosa Ziehau &sc->bnx_rx_coal_bds_int, 37436c8d8eccSSepherosa Ziehau BNX_RX_COAL_BDS_MIN, BNX_RX_COAL_BDS_MAX, 37446c8d8eccSSepherosa Ziehau BNX_RX_COAL_BDS_INT_CHG); 37456c8d8eccSSepherosa Ziehau } 37466c8d8eccSSepherosa Ziehau 37476c8d8eccSSepherosa Ziehau static int 37486c8d8eccSSepherosa Ziehau bnx_sysctl_tx_coal_bds_int(SYSCTL_HANDLER_ARGS) 37496c8d8eccSSepherosa Ziehau { 37506c8d8eccSSepherosa Ziehau struct bnx_softc *sc = arg1; 37516c8d8eccSSepherosa Ziehau 37526c8d8eccSSepherosa Ziehau return bnx_sysctl_coal_chg(oidp, arg1, arg2, req, 37536c8d8eccSSepherosa Ziehau &sc->bnx_tx_coal_bds_int, 37546c8d8eccSSepherosa Ziehau BNX_TX_COAL_BDS_MIN, BNX_TX_COAL_BDS_MAX, 37556c8d8eccSSepherosa Ziehau BNX_TX_COAL_BDS_INT_CHG); 37566c8d8eccSSepherosa Ziehau } 37576c8d8eccSSepherosa Ziehau 37586c8d8eccSSepherosa Ziehau static int 37596c8d8eccSSepherosa Ziehau bnx_sysctl_coal_chg(SYSCTL_HANDLER_ARGS, uint32_t *coal, 37606c8d8eccSSepherosa Ziehau int coal_min, int coal_max, uint32_t coal_chg_mask) 37616c8d8eccSSepherosa Ziehau { 37626c8d8eccSSepherosa Ziehau struct bnx_softc *sc = arg1; 37636c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 37646c8d8eccSSepherosa Ziehau int error = 0, v; 37656c8d8eccSSepherosa Ziehau 37666c8d8eccSSepherosa Ziehau lwkt_serialize_enter(ifp->if_serializer); 37676c8d8eccSSepherosa Ziehau 37686c8d8eccSSepherosa Ziehau v = *coal; 37696c8d8eccSSepherosa Ziehau error = sysctl_handle_int(oidp, &v, 0, req); 37706c8d8eccSSepherosa Ziehau if (!error && req->newptr != NULL) { 37716c8d8eccSSepherosa Ziehau if (v < coal_min || v > coal_max) { 37726c8d8eccSSepherosa Ziehau error = EINVAL; 37736c8d8eccSSepherosa Ziehau } else { 37746c8d8eccSSepherosa Ziehau *coal = v; 37756c8d8eccSSepherosa Ziehau sc->bnx_coal_chg |= coal_chg_mask; 37766c8d8eccSSepherosa Ziehau } 37776c8d8eccSSepherosa Ziehau } 37786c8d8eccSSepherosa Ziehau 37796c8d8eccSSepherosa Ziehau lwkt_serialize_exit(ifp->if_serializer); 37806c8d8eccSSepherosa Ziehau return error; 37816c8d8eccSSepherosa Ziehau } 37826c8d8eccSSepherosa Ziehau 37836c8d8eccSSepherosa Ziehau static void 37846c8d8eccSSepherosa Ziehau bnx_coal_change(struct bnx_softc *sc) 37856c8d8eccSSepherosa Ziehau { 37866c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 37876c8d8eccSSepherosa Ziehau uint32_t val; 37886c8d8eccSSepherosa Ziehau 37896c8d8eccSSepherosa Ziehau ASSERT_SERIALIZED(ifp->if_serializer); 37906c8d8eccSSepherosa Ziehau 37916c8d8eccSSepherosa Ziehau if (sc->bnx_coal_chg & BNX_RX_COAL_TICKS_CHG) { 37926c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_RX_COAL_TICKS, 37936c8d8eccSSepherosa Ziehau sc->bnx_rx_coal_ticks); 37946c8d8eccSSepherosa Ziehau DELAY(10); 37956c8d8eccSSepherosa Ziehau val = CSR_READ_4(sc, BGE_HCC_RX_COAL_TICKS); 37966c8d8eccSSepherosa Ziehau 37976c8d8eccSSepherosa Ziehau if (bootverbose) { 37986c8d8eccSSepherosa Ziehau if_printf(ifp, "rx_coal_ticks -> %u\n", 37996c8d8eccSSepherosa Ziehau sc->bnx_rx_coal_ticks); 38006c8d8eccSSepherosa Ziehau } 38016c8d8eccSSepherosa Ziehau } 38026c8d8eccSSepherosa Ziehau 38036c8d8eccSSepherosa Ziehau if (sc->bnx_coal_chg & BNX_TX_COAL_TICKS_CHG) { 38046c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_TX_COAL_TICKS, 38056c8d8eccSSepherosa Ziehau sc->bnx_tx_coal_ticks); 38066c8d8eccSSepherosa Ziehau DELAY(10); 38076c8d8eccSSepherosa Ziehau val = CSR_READ_4(sc, BGE_HCC_TX_COAL_TICKS); 38086c8d8eccSSepherosa Ziehau 38096c8d8eccSSepherosa Ziehau if (bootverbose) { 38106c8d8eccSSepherosa Ziehau if_printf(ifp, "tx_coal_ticks -> %u\n", 38116c8d8eccSSepherosa Ziehau sc->bnx_tx_coal_ticks); 38126c8d8eccSSepherosa Ziehau } 38136c8d8eccSSepherosa Ziehau } 38146c8d8eccSSepherosa Ziehau 38156c8d8eccSSepherosa Ziehau if (sc->bnx_coal_chg & BNX_RX_COAL_BDS_CHG) { 38166c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_RX_MAX_COAL_BDS, 38176c8d8eccSSepherosa Ziehau sc->bnx_rx_coal_bds); 38186c8d8eccSSepherosa Ziehau DELAY(10); 38196c8d8eccSSepherosa Ziehau val = CSR_READ_4(sc, BGE_HCC_RX_MAX_COAL_BDS); 38206c8d8eccSSepherosa Ziehau 38216c8d8eccSSepherosa Ziehau if (bootverbose) { 38226c8d8eccSSepherosa Ziehau if_printf(ifp, "rx_coal_bds -> %u\n", 38236c8d8eccSSepherosa Ziehau sc->bnx_rx_coal_bds); 38246c8d8eccSSepherosa Ziehau } 38256c8d8eccSSepherosa Ziehau } 38266c8d8eccSSepherosa Ziehau 38276c8d8eccSSepherosa Ziehau if (sc->bnx_coal_chg & BNX_TX_COAL_BDS_CHG) { 38286c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_TX_MAX_COAL_BDS, 38296c8d8eccSSepherosa Ziehau sc->bnx_tx_coal_bds); 38306c8d8eccSSepherosa Ziehau DELAY(10); 38316c8d8eccSSepherosa Ziehau val = CSR_READ_4(sc, BGE_HCC_TX_MAX_COAL_BDS); 38326c8d8eccSSepherosa Ziehau 38336c8d8eccSSepherosa Ziehau if (bootverbose) { 38346c8d8eccSSepherosa Ziehau if_printf(ifp, "tx_max_coal_bds -> %u\n", 38356c8d8eccSSepherosa Ziehau sc->bnx_tx_coal_bds); 38366c8d8eccSSepherosa Ziehau } 38376c8d8eccSSepherosa Ziehau } 38386c8d8eccSSepherosa Ziehau 38396c8d8eccSSepherosa Ziehau if (sc->bnx_coal_chg & BNX_RX_COAL_BDS_INT_CHG) { 38406c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_RX_MAX_COAL_BDS_INT, 38416c8d8eccSSepherosa Ziehau sc->bnx_rx_coal_bds_int); 38426c8d8eccSSepherosa Ziehau DELAY(10); 38436c8d8eccSSepherosa Ziehau val = CSR_READ_4(sc, BGE_HCC_RX_MAX_COAL_BDS_INT); 38446c8d8eccSSepherosa Ziehau 38456c8d8eccSSepherosa Ziehau if (bootverbose) { 38466c8d8eccSSepherosa Ziehau if_printf(ifp, "rx_coal_bds_int -> %u\n", 38476c8d8eccSSepherosa Ziehau sc->bnx_rx_coal_bds_int); 38486c8d8eccSSepherosa Ziehau } 38496c8d8eccSSepherosa Ziehau } 38506c8d8eccSSepherosa Ziehau 38516c8d8eccSSepherosa Ziehau if (sc->bnx_coal_chg & BNX_TX_COAL_BDS_INT_CHG) { 38526c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_HCC_TX_MAX_COAL_BDS_INT, 38536c8d8eccSSepherosa Ziehau sc->bnx_tx_coal_bds_int); 38546c8d8eccSSepherosa Ziehau DELAY(10); 38556c8d8eccSSepherosa Ziehau val = CSR_READ_4(sc, BGE_HCC_TX_MAX_COAL_BDS_INT); 38566c8d8eccSSepherosa Ziehau 38576c8d8eccSSepherosa Ziehau if (bootverbose) { 38586c8d8eccSSepherosa Ziehau if_printf(ifp, "tx_coal_bds_int -> %u\n", 38596c8d8eccSSepherosa Ziehau sc->bnx_tx_coal_bds_int); 38606c8d8eccSSepherosa Ziehau } 38616c8d8eccSSepherosa Ziehau } 38626c8d8eccSSepherosa Ziehau 38636c8d8eccSSepherosa Ziehau sc->bnx_coal_chg = 0; 38646c8d8eccSSepherosa Ziehau } 38656c8d8eccSSepherosa Ziehau 38666c8d8eccSSepherosa Ziehau static void 38676c8d8eccSSepherosa Ziehau bnx_enable_intr(struct bnx_softc *sc) 38686c8d8eccSSepherosa Ziehau { 38696c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 38706c8d8eccSSepherosa Ziehau 38716c8d8eccSSepherosa Ziehau lwkt_serialize_handler_enable(ifp->if_serializer); 38726c8d8eccSSepherosa Ziehau 38736c8d8eccSSepherosa Ziehau /* 38746c8d8eccSSepherosa Ziehau * Enable interrupt. 38756c8d8eccSSepherosa Ziehau */ 38766c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_IRQ0_LO, sc->bnx_status_tag << 24); 38776c8d8eccSSepherosa Ziehau if (sc->bnx_flags & BNX_FLAG_ONESHOT_MSI) { 38786c8d8eccSSepherosa Ziehau /* XXX Linux driver */ 38796c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_IRQ0_LO, sc->bnx_status_tag << 24); 38806c8d8eccSSepherosa Ziehau } 38816c8d8eccSSepherosa Ziehau 38826c8d8eccSSepherosa Ziehau /* 38836c8d8eccSSepherosa Ziehau * Unmask the interrupt when we stop polling. 38846c8d8eccSSepherosa Ziehau */ 38856c8d8eccSSepherosa Ziehau PCI_CLRBIT(sc->bnx_dev, BGE_PCI_MISC_CTL, 38866c8d8eccSSepherosa Ziehau BGE_PCIMISCCTL_MASK_PCI_INTR, 4); 38876c8d8eccSSepherosa Ziehau 38886c8d8eccSSepherosa Ziehau /* 38896c8d8eccSSepherosa Ziehau * Trigger another interrupt, since above writing 38906c8d8eccSSepherosa Ziehau * to interrupt mailbox0 may acknowledge pending 38916c8d8eccSSepherosa Ziehau * interrupt. 38926c8d8eccSSepherosa Ziehau */ 38936c8d8eccSSepherosa Ziehau BNX_SETBIT(sc, BGE_MISC_LOCAL_CTL, BGE_MLC_INTR_SET); 38946c8d8eccSSepherosa Ziehau } 38956c8d8eccSSepherosa Ziehau 38966c8d8eccSSepherosa Ziehau static void 38976c8d8eccSSepherosa Ziehau bnx_disable_intr(struct bnx_softc *sc) 38986c8d8eccSSepherosa Ziehau { 38996c8d8eccSSepherosa Ziehau struct ifnet *ifp = &sc->arpcom.ac_if; 39006c8d8eccSSepherosa Ziehau 39016c8d8eccSSepherosa Ziehau /* 39026c8d8eccSSepherosa Ziehau * Mask the interrupt when we start polling. 39036c8d8eccSSepherosa Ziehau */ 39046c8d8eccSSepherosa Ziehau PCI_SETBIT(sc->bnx_dev, BGE_PCI_MISC_CTL, 39056c8d8eccSSepherosa Ziehau BGE_PCIMISCCTL_MASK_PCI_INTR, 4); 39066c8d8eccSSepherosa Ziehau 39076c8d8eccSSepherosa Ziehau /* 39086c8d8eccSSepherosa Ziehau * Acknowledge possible asserted interrupt. 39096c8d8eccSSepherosa Ziehau */ 39106c8d8eccSSepherosa Ziehau bnx_writembx(sc, BGE_MBX_IRQ0_LO, 1); 39116c8d8eccSSepherosa Ziehau 39126c8d8eccSSepherosa Ziehau lwkt_serialize_handler_disable(ifp->if_serializer); 39136c8d8eccSSepherosa Ziehau } 39146c8d8eccSSepherosa Ziehau 39156c8d8eccSSepherosa Ziehau static int 39166c8d8eccSSepherosa Ziehau bnx_get_eaddr_mem(struct bnx_softc *sc, uint8_t ether_addr[]) 39176c8d8eccSSepherosa Ziehau { 39186c8d8eccSSepherosa Ziehau uint32_t mac_addr; 39196c8d8eccSSepherosa Ziehau int ret = 1; 39206c8d8eccSSepherosa Ziehau 39216c8d8eccSSepherosa Ziehau mac_addr = bnx_readmem_ind(sc, 0x0c14); 39226c8d8eccSSepherosa Ziehau if ((mac_addr >> 16) == 0x484b) { 39236c8d8eccSSepherosa Ziehau ether_addr[0] = (uint8_t)(mac_addr >> 8); 39246c8d8eccSSepherosa Ziehau ether_addr[1] = (uint8_t)mac_addr; 39256c8d8eccSSepherosa Ziehau mac_addr = bnx_readmem_ind(sc, 0x0c18); 39266c8d8eccSSepherosa Ziehau ether_addr[2] = (uint8_t)(mac_addr >> 24); 39276c8d8eccSSepherosa Ziehau ether_addr[3] = (uint8_t)(mac_addr >> 16); 39286c8d8eccSSepherosa Ziehau ether_addr[4] = (uint8_t)(mac_addr >> 8); 39296c8d8eccSSepherosa Ziehau ether_addr[5] = (uint8_t)mac_addr; 39306c8d8eccSSepherosa Ziehau ret = 0; 39316c8d8eccSSepherosa Ziehau } 39326c8d8eccSSepherosa Ziehau return ret; 39336c8d8eccSSepherosa Ziehau } 39346c8d8eccSSepherosa Ziehau 39356c8d8eccSSepherosa Ziehau static int 39366c8d8eccSSepherosa Ziehau bnx_get_eaddr_nvram(struct bnx_softc *sc, uint8_t ether_addr[]) 39376c8d8eccSSepherosa Ziehau { 39386c8d8eccSSepherosa Ziehau int mac_offset = BGE_EE_MAC_OFFSET; 39396c8d8eccSSepherosa Ziehau 394080969639SSepherosa Ziehau if (BNX_IS_5717_PLUS(sc)) { 394180969639SSepherosa Ziehau int f; 394280969639SSepherosa Ziehau 394380969639SSepherosa Ziehau f = pci_get_function(sc->bnx_dev); 394480969639SSepherosa Ziehau if (f & 1) 394580969639SSepherosa Ziehau mac_offset = BGE_EE_MAC_OFFSET_5717; 394680969639SSepherosa Ziehau if (f > 1) 394780969639SSepherosa Ziehau mac_offset += BGE_EE_MAC_OFFSET_5717_OFF; 394880969639SSepherosa Ziehau } else if (sc->bnx_asicrev == BGE_ASICREV_BCM5906) { 39496c8d8eccSSepherosa Ziehau mac_offset = BGE_EE_MAC_OFFSET_5906; 395080969639SSepherosa Ziehau } 39516c8d8eccSSepherosa Ziehau 39526c8d8eccSSepherosa Ziehau return bnx_read_nvram(sc, ether_addr, mac_offset + 2, ETHER_ADDR_LEN); 39536c8d8eccSSepherosa Ziehau } 39546c8d8eccSSepherosa Ziehau 39556c8d8eccSSepherosa Ziehau static int 39566c8d8eccSSepherosa Ziehau bnx_get_eaddr_eeprom(struct bnx_softc *sc, uint8_t ether_addr[]) 39576c8d8eccSSepherosa Ziehau { 39586c8d8eccSSepherosa Ziehau if (sc->bnx_flags & BNX_FLAG_NO_EEPROM) 39596c8d8eccSSepherosa Ziehau return 1; 39606c8d8eccSSepherosa Ziehau 39616c8d8eccSSepherosa Ziehau return bnx_read_eeprom(sc, ether_addr, BGE_EE_MAC_OFFSET + 2, 39626c8d8eccSSepherosa Ziehau ETHER_ADDR_LEN); 39636c8d8eccSSepherosa Ziehau } 39646c8d8eccSSepherosa Ziehau 39656c8d8eccSSepherosa Ziehau static int 39666c8d8eccSSepherosa Ziehau bnx_get_eaddr(struct bnx_softc *sc, uint8_t eaddr[]) 39676c8d8eccSSepherosa Ziehau { 39686c8d8eccSSepherosa Ziehau static const bnx_eaddr_fcn_t bnx_eaddr_funcs[] = { 39696c8d8eccSSepherosa Ziehau /* NOTE: Order is critical */ 39706c8d8eccSSepherosa Ziehau bnx_get_eaddr_mem, 39716c8d8eccSSepherosa Ziehau bnx_get_eaddr_nvram, 39726c8d8eccSSepherosa Ziehau bnx_get_eaddr_eeprom, 39736c8d8eccSSepherosa Ziehau NULL 39746c8d8eccSSepherosa Ziehau }; 39756c8d8eccSSepherosa Ziehau const bnx_eaddr_fcn_t *func; 39766c8d8eccSSepherosa Ziehau 39776c8d8eccSSepherosa Ziehau for (func = bnx_eaddr_funcs; *func != NULL; ++func) { 39786c8d8eccSSepherosa Ziehau if ((*func)(sc, eaddr) == 0) 39796c8d8eccSSepherosa Ziehau break; 39806c8d8eccSSepherosa Ziehau } 39816c8d8eccSSepherosa Ziehau return (*func == NULL ? ENXIO : 0); 39826c8d8eccSSepherosa Ziehau } 39836c8d8eccSSepherosa Ziehau 39846c8d8eccSSepherosa Ziehau /* 39856c8d8eccSSepherosa Ziehau * NOTE: 'm' is not freed upon failure 39866c8d8eccSSepherosa Ziehau */ 39876c8d8eccSSepherosa Ziehau struct mbuf * 39886c8d8eccSSepherosa Ziehau bnx_defrag_shortdma(struct mbuf *m) 39896c8d8eccSSepherosa Ziehau { 39906c8d8eccSSepherosa Ziehau struct mbuf *n; 39916c8d8eccSSepherosa Ziehau int found; 39926c8d8eccSSepherosa Ziehau 39936c8d8eccSSepherosa Ziehau /* 39946c8d8eccSSepherosa Ziehau * If device receive two back-to-back send BDs with less than 39956c8d8eccSSepherosa Ziehau * or equal to 8 total bytes then the device may hang. The two 39966c8d8eccSSepherosa Ziehau * back-to-back send BDs must in the same frame for this failure 39976c8d8eccSSepherosa Ziehau * to occur. Scan mbuf chains and see whether two back-to-back 39986c8d8eccSSepherosa Ziehau * send BDs are there. If this is the case, allocate new mbuf 39996c8d8eccSSepherosa Ziehau * and copy the frame to workaround the silicon bug. 40006c8d8eccSSepherosa Ziehau */ 40016c8d8eccSSepherosa Ziehau for (n = m, found = 0; n != NULL; n = n->m_next) { 40026c8d8eccSSepherosa Ziehau if (n->m_len < 8) { 40036c8d8eccSSepherosa Ziehau found++; 40046c8d8eccSSepherosa Ziehau if (found > 1) 40056c8d8eccSSepherosa Ziehau break; 40066c8d8eccSSepherosa Ziehau continue; 40076c8d8eccSSepherosa Ziehau } 40086c8d8eccSSepherosa Ziehau found = 0; 40096c8d8eccSSepherosa Ziehau } 40106c8d8eccSSepherosa Ziehau 40116c8d8eccSSepherosa Ziehau if (found > 1) 40126c8d8eccSSepherosa Ziehau n = m_defrag(m, MB_DONTWAIT); 40136c8d8eccSSepherosa Ziehau else 40146c8d8eccSSepherosa Ziehau n = m; 40156c8d8eccSSepherosa Ziehau return n; 40166c8d8eccSSepherosa Ziehau } 40176c8d8eccSSepherosa Ziehau 40186c8d8eccSSepherosa Ziehau static void 40196c8d8eccSSepherosa Ziehau bnx_stop_block(struct bnx_softc *sc, bus_size_t reg, uint32_t bit) 40206c8d8eccSSepherosa Ziehau { 40216c8d8eccSSepherosa Ziehau int i; 40226c8d8eccSSepherosa Ziehau 40236c8d8eccSSepherosa Ziehau BNX_CLRBIT(sc, reg, bit); 40246c8d8eccSSepherosa Ziehau for (i = 0; i < BNX_TIMEOUT; i++) { 40256c8d8eccSSepherosa Ziehau if ((CSR_READ_4(sc, reg) & bit) == 0) 40266c8d8eccSSepherosa Ziehau return; 40276c8d8eccSSepherosa Ziehau DELAY(100); 40286c8d8eccSSepherosa Ziehau } 40296c8d8eccSSepherosa Ziehau } 40306c8d8eccSSepherosa Ziehau 40316c8d8eccSSepherosa Ziehau static void 40326c8d8eccSSepherosa Ziehau bnx_link_poll(struct bnx_softc *sc) 40336c8d8eccSSepherosa Ziehau { 40346c8d8eccSSepherosa Ziehau uint32_t status; 40356c8d8eccSSepherosa Ziehau 40366c8d8eccSSepherosa Ziehau status = CSR_READ_4(sc, BGE_MAC_STS); 40376c8d8eccSSepherosa Ziehau if ((status & sc->bnx_link_chg) || sc->bnx_link_evt) { 40386c8d8eccSSepherosa Ziehau sc->bnx_link_evt = 0; 40396c8d8eccSSepherosa Ziehau sc->bnx_link_upd(sc, status); 40406c8d8eccSSepherosa Ziehau } 40416c8d8eccSSepherosa Ziehau } 40426c8d8eccSSepherosa Ziehau 40436c8d8eccSSepherosa Ziehau static void 40446c8d8eccSSepherosa Ziehau bnx_enable_msi(struct bnx_softc *sc) 40456c8d8eccSSepherosa Ziehau { 40466c8d8eccSSepherosa Ziehau uint32_t msi_mode; 40476c8d8eccSSepherosa Ziehau 40486c8d8eccSSepherosa Ziehau msi_mode = CSR_READ_4(sc, BGE_MSI_MODE); 40496c8d8eccSSepherosa Ziehau msi_mode |= BGE_MSIMODE_ENABLE; 40506c8d8eccSSepherosa Ziehau if (sc->bnx_flags & BNX_FLAG_ONESHOT_MSI) { 40516c8d8eccSSepherosa Ziehau /* 40526c8d8eccSSepherosa Ziehau * NOTE: 40536c8d8eccSSepherosa Ziehau * 5718-PG105-R says that "one shot" mode 40546c8d8eccSSepherosa Ziehau * does not work if MSI is used, however, 40556c8d8eccSSepherosa Ziehau * it obviously works. 40566c8d8eccSSepherosa Ziehau */ 40576c8d8eccSSepherosa Ziehau msi_mode &= ~BGE_MSIMODE_ONESHOT_DISABLE; 40586c8d8eccSSepherosa Ziehau } 40596c8d8eccSSepherosa Ziehau CSR_WRITE_4(sc, BGE_MSI_MODE, msi_mode); 40606c8d8eccSSepherosa Ziehau } 40616c8d8eccSSepherosa Ziehau 40626c8d8eccSSepherosa Ziehau static uint32_t 40636c8d8eccSSepherosa Ziehau bnx_dma_swap_options(struct bnx_softc *sc) 40646c8d8eccSSepherosa Ziehau { 40656c8d8eccSSepherosa Ziehau uint32_t dma_options; 40666c8d8eccSSepherosa Ziehau 40676c8d8eccSSepherosa Ziehau dma_options = BGE_MODECTL_WORDSWAP_NONFRAME | 40686c8d8eccSSepherosa Ziehau BGE_MODECTL_BYTESWAP_DATA | BGE_MODECTL_WORDSWAP_DATA; 40696c8d8eccSSepherosa Ziehau #if BYTE_ORDER == BIG_ENDIAN 40706c8d8eccSSepherosa Ziehau dma_options |= BGE_MODECTL_BYTESWAP_NONFRAME; 40716c8d8eccSSepherosa Ziehau #endif 40726c8d8eccSSepherosa Ziehau if (sc->bnx_asicrev == BGE_ASICREV_BCM5720) { 40736c8d8eccSSepherosa Ziehau dma_options |= BGE_MODECTL_BYTESWAP_B2HRX_DATA | 40746c8d8eccSSepherosa Ziehau BGE_MODECTL_WORDSWAP_B2HRX_DATA | BGE_MODECTL_B2HRX_ENABLE | 40756c8d8eccSSepherosa Ziehau BGE_MODECTL_HTX2B_ENABLE; 40766c8d8eccSSepherosa Ziehau } 40776c8d8eccSSepherosa Ziehau return dma_options; 40786c8d8eccSSepherosa Ziehau } 4079