18890ab77SEd Maste /*- 28890ab77SEd Maste * SPDX-License-Identifier: BSD-2-Clause 38890ab77SEd Maste * 48890ab77SEd Maste * Copyright (c) 2019 The FreeBSD Foundation, Inc. 58890ab77SEd Maste * 68890ab77SEd Maste * This driver was written by Gerald ND Aryeetey <gndaryee@uwaterloo.ca> 78890ab77SEd Maste * under sponsorship from the FreeBSD Foundation. 88890ab77SEd Maste * 98890ab77SEd Maste * Redistribution and use in source and binary forms, with or without 108890ab77SEd Maste * modification, are permitted provided that the following conditions 118890ab77SEd Maste * are met: 128890ab77SEd Maste * 1. Redistributions of source code must retain the above copyright 138890ab77SEd Maste * notice, this list of conditions and the following disclaimer. 148890ab77SEd Maste * 2. Redistributions in binary form must reproduce the above copyright 158890ab77SEd Maste * notice, this list of conditions and the following disclaimer in the 168890ab77SEd Maste * documentation and/or other materials provided with the distribution. 178890ab77SEd Maste * 188890ab77SEd Maste * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND 198890ab77SEd Maste * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 208890ab77SEd Maste * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 218890ab77SEd Maste * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE 228890ab77SEd Maste * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 238890ab77SEd Maste * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 248890ab77SEd Maste * OR SERVICES; LOSS OF USE DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 258890ab77SEd Maste * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 268890ab77SEd Maste * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 278890ab77SEd Maste * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 288890ab77SEd Maste * SUCH DAMAGE. 298890ab77SEd Maste */ 308890ab77SEd Maste #include <sys/cdefs.h> 318890ab77SEd Maste __FBSDID("$FreeBSD$"); 328890ab77SEd Maste 338890ab77SEd Maste /* 348890ab77SEd Maste * Microchip LAN7430/LAN7431 PCIe to Gigabit Ethernet Controller driver. 358890ab77SEd Maste * 368890ab77SEd Maste * Product information: 376b25b4a7SEd Maste * LAN7430 https://www.microchip.com/en-us/product/LAN7430 388890ab77SEd Maste * - Integrated IEEE 802.3 compliant PHY 396b25b4a7SEd Maste * LAN7431 https://www.microchip.com/en-us/product/LAN7431 408890ab77SEd Maste * - RGMII Interface 418890ab77SEd Maste * 428890ab77SEd Maste * This driver uses the iflib interface and the default 'ukphy' PHY driver. 438890ab77SEd Maste * 448890ab77SEd Maste * UNIMPLEMENTED FEATURES 458890ab77SEd Maste * ---------------------- 468890ab77SEd Maste * A number of features supported by LAN743X device are not yet implemented in 478890ab77SEd Maste * this driver: 488890ab77SEd Maste * 498890ab77SEd Maste * - Multiple (up to 4) RX queues support 508890ab77SEd Maste * - Just needs to remove asserts and malloc multiple `rx_ring_data` 518890ab77SEd Maste * structs based on ncpus. 528890ab77SEd Maste * - RX/TX Checksum Offloading support 538890ab77SEd Maste * - VLAN support 54fcb71d3fSEd Maste * - Receive Packet Filtering (Multicast Perfect/Hash Address) support 558890ab77SEd Maste * - Wake on LAN (WoL) support 568890ab77SEd Maste * - TX LSO support 57fcb71d3fSEd Maste * - Receive Side Scaling (RSS) support 588890ab77SEd Maste * - Debugging Capabilities: 598890ab77SEd Maste * - Could include MAC statistics and 608890ab77SEd Maste * error status registers in sysctl. 618890ab77SEd Maste */ 628890ab77SEd Maste 638890ab77SEd Maste #include <sys/param.h> 648890ab77SEd Maste #include <sys/bus.h> 658890ab77SEd Maste #include <sys/endian.h> 668890ab77SEd Maste #include <sys/kdb.h> 678890ab77SEd Maste #include <sys/kernel.h> 688890ab77SEd Maste #include <sys/module.h> 698890ab77SEd Maste #include <sys/rman.h> 708890ab77SEd Maste #include <sys/socket.h> 718890ab77SEd Maste #include <sys/sockio.h> 728890ab77SEd Maste #include <machine/bus.h> 738890ab77SEd Maste #include <machine/resource.h> 748890ab77SEd Maste 758890ab77SEd Maste #include <net/ethernet.h> 768890ab77SEd Maste #include <net/if.h> 778890ab77SEd Maste #include <net/if_var.h> 788890ab77SEd Maste #include <net/if_types.h> 798890ab77SEd Maste #include <net/if_media.h> 808890ab77SEd Maste #include <net/iflib.h> 818890ab77SEd Maste 828890ab77SEd Maste #include <dev/mgb/if_mgb.h> 838890ab77SEd Maste #include <dev/mii/mii.h> 848890ab77SEd Maste #include <dev/mii/miivar.h> 858890ab77SEd Maste #include <dev/pci/pcireg.h> 868890ab77SEd Maste #include <dev/pci/pcivar.h> 878890ab77SEd Maste 888890ab77SEd Maste #include "ifdi_if.h" 898890ab77SEd Maste #include "miibus_if.h" 908890ab77SEd Maste 918890ab77SEd Maste static pci_vendor_info_t mgb_vendor_info_array[] = { 928890ab77SEd Maste PVID(MGB_MICROCHIP_VENDOR_ID, MGB_LAN7430_DEVICE_ID, 938890ab77SEd Maste "Microchip LAN7430 PCIe Gigabit Ethernet Controller"), 948890ab77SEd Maste PVID(MGB_MICROCHIP_VENDOR_ID, MGB_LAN7431_DEVICE_ID, 958890ab77SEd Maste "Microchip LAN7431 PCIe Gigabit Ethernet Controller"), 968890ab77SEd Maste PVID_END 978890ab77SEd Maste }; 988890ab77SEd Maste 998890ab77SEd Maste /* Device methods */ 1008890ab77SEd Maste static device_register_t mgb_register; 1018890ab77SEd Maste 1028890ab77SEd Maste /* IFLIB methods */ 1038890ab77SEd Maste static ifdi_attach_pre_t mgb_attach_pre; 1048890ab77SEd Maste static ifdi_attach_post_t mgb_attach_post; 1058890ab77SEd Maste static ifdi_detach_t mgb_detach; 1068890ab77SEd Maste 1078890ab77SEd Maste static ifdi_tx_queues_alloc_t mgb_tx_queues_alloc; 1088890ab77SEd Maste static ifdi_rx_queues_alloc_t mgb_rx_queues_alloc; 1098890ab77SEd Maste static ifdi_queues_free_t mgb_queues_free; 1108890ab77SEd Maste 1118890ab77SEd Maste static ifdi_init_t mgb_init; 1128890ab77SEd Maste static ifdi_stop_t mgb_stop; 1138890ab77SEd Maste 1148890ab77SEd Maste static ifdi_msix_intr_assign_t mgb_msix_intr_assign; 1158890ab77SEd Maste static ifdi_tx_queue_intr_enable_t mgb_tx_queue_intr_enable; 1168890ab77SEd Maste static ifdi_rx_queue_intr_enable_t mgb_rx_queue_intr_enable; 1178890ab77SEd Maste static ifdi_intr_enable_t mgb_intr_enable_all; 1188890ab77SEd Maste static ifdi_intr_disable_t mgb_intr_disable_all; 1198890ab77SEd Maste 1208890ab77SEd Maste /* IFLIB_TXRX methods */ 1218890ab77SEd Maste static int mgb_isc_txd_encap(void *, 1228890ab77SEd Maste if_pkt_info_t); 1238890ab77SEd Maste static void mgb_isc_txd_flush(void *, 1248890ab77SEd Maste uint16_t, qidx_t); 1258890ab77SEd Maste static int mgb_isc_txd_credits_update(void *, 1268890ab77SEd Maste uint16_t, bool); 1278890ab77SEd Maste static int mgb_isc_rxd_available(void *, 1288890ab77SEd Maste uint16_t, qidx_t, qidx_t); 1298890ab77SEd Maste static int mgb_isc_rxd_pkt_get(void *, 1308890ab77SEd Maste if_rxd_info_t); 1318890ab77SEd Maste static void mgb_isc_rxd_refill(void *, 1328890ab77SEd Maste if_rxd_update_t); 1338890ab77SEd Maste static void mgb_isc_rxd_flush(void *, 1348890ab77SEd Maste uint16_t, uint8_t, qidx_t); 1358890ab77SEd Maste 1368890ab77SEd Maste /* Interrupts */ 1378890ab77SEd Maste static driver_filter_t mgb_legacy_intr; 1388890ab77SEd Maste static driver_filter_t mgb_admin_intr; 1398890ab77SEd Maste static driver_filter_t mgb_rxq_intr; 1408890ab77SEd Maste static bool mgb_intr_test(struct mgb_softc *); 1418890ab77SEd Maste 1428890ab77SEd Maste /* MII methods */ 1438890ab77SEd Maste static miibus_readreg_t mgb_miibus_readreg; 1448890ab77SEd Maste static miibus_writereg_t mgb_miibus_writereg; 1458890ab77SEd Maste static miibus_linkchg_t mgb_miibus_linkchg; 1468890ab77SEd Maste static miibus_statchg_t mgb_miibus_statchg; 1478890ab77SEd Maste 1488890ab77SEd Maste static int mgb_media_change(if_t); 1498890ab77SEd Maste static void mgb_media_status(if_t, 1508890ab77SEd Maste struct ifmediareq *); 1518890ab77SEd Maste 1528890ab77SEd Maste /* Helper/Test functions */ 1538890ab77SEd Maste static int mgb_test_bar(struct mgb_softc *); 1548890ab77SEd Maste static int mgb_alloc_regs(struct mgb_softc *); 1558890ab77SEd Maste static int mgb_release_regs(struct mgb_softc *); 1568890ab77SEd Maste 1578890ab77SEd Maste static void mgb_get_ethaddr(struct mgb_softc *, 1588890ab77SEd Maste struct ether_addr *); 1598890ab77SEd Maste 1608890ab77SEd Maste static int mgb_wait_for_bits(struct mgb_softc *, 1618890ab77SEd Maste int, int, int); 1628890ab77SEd Maste 1638890ab77SEd Maste /* H/W init, reset and teardown helpers */ 1648890ab77SEd Maste static int mgb_hw_init(struct mgb_softc *); 1658890ab77SEd Maste static int mgb_hw_teardown(struct mgb_softc *); 1668890ab77SEd Maste static int mgb_hw_reset(struct mgb_softc *); 1678890ab77SEd Maste static int mgb_mac_init(struct mgb_softc *); 1688890ab77SEd Maste static int mgb_dmac_reset(struct mgb_softc *); 1698890ab77SEd Maste static int mgb_phy_reset(struct mgb_softc *); 1708890ab77SEd Maste 1718890ab77SEd Maste static int mgb_dma_init(struct mgb_softc *); 1728890ab77SEd Maste static int mgb_dma_tx_ring_init(struct mgb_softc *, 1738890ab77SEd Maste int); 1748890ab77SEd Maste static int mgb_dma_rx_ring_init(struct mgb_softc *, 1758890ab77SEd Maste int); 1768890ab77SEd Maste 1778890ab77SEd Maste static int mgb_dmac_control(struct mgb_softc *, 1788890ab77SEd Maste int, int, enum mgb_dmac_cmd); 1798890ab77SEd Maste static int mgb_fct_control(struct mgb_softc *, 1808890ab77SEd Maste int, int, enum mgb_fct_cmd); 1818890ab77SEd Maste 1828890ab77SEd Maste /********************************************************************* 1838890ab77SEd Maste * FreeBSD Device Interface Entry Points 1848890ab77SEd Maste *********************************************************************/ 1858890ab77SEd Maste 1868890ab77SEd Maste static device_method_t mgb_methods[] = { 1878890ab77SEd Maste /* Device interface */ 1888890ab77SEd Maste DEVMETHOD(device_register, mgb_register), 1898890ab77SEd Maste DEVMETHOD(device_probe, iflib_device_probe), 1908890ab77SEd Maste DEVMETHOD(device_attach, iflib_device_attach), 1918890ab77SEd Maste DEVMETHOD(device_detach, iflib_device_detach), 1928890ab77SEd Maste DEVMETHOD(device_shutdown, iflib_device_shutdown), 1938890ab77SEd Maste DEVMETHOD(device_suspend, iflib_device_suspend), 1948890ab77SEd Maste DEVMETHOD(device_resume, iflib_device_resume), 1958890ab77SEd Maste 1968890ab77SEd Maste /* MII Interface */ 1978890ab77SEd Maste DEVMETHOD(miibus_readreg, mgb_miibus_readreg), 1988890ab77SEd Maste DEVMETHOD(miibus_writereg, mgb_miibus_writereg), 1998890ab77SEd Maste DEVMETHOD(miibus_linkchg, mgb_miibus_linkchg), 2008890ab77SEd Maste DEVMETHOD(miibus_statchg, mgb_miibus_statchg), 2018890ab77SEd Maste 2028890ab77SEd Maste DEVMETHOD_END 2038890ab77SEd Maste }; 2048890ab77SEd Maste 2058890ab77SEd Maste static driver_t mgb_driver = { 2068890ab77SEd Maste "mgb", mgb_methods, sizeof(struct mgb_softc) 2078890ab77SEd Maste }; 2088890ab77SEd Maste 209c83ae596SEd Maste static devclass_t mgb_devclass; 2108890ab77SEd Maste DRIVER_MODULE(mgb, pci, mgb_driver, mgb_devclass, NULL, NULL); 2118890ab77SEd Maste IFLIB_PNP_INFO(pci, mgb, mgb_vendor_info_array); 2128890ab77SEd Maste MODULE_VERSION(mgb, 1); 2138890ab77SEd Maste 2148890ab77SEd Maste #if 0 /* MIIBUS_DEBUG */ 2158890ab77SEd Maste /* If MIIBUS debug stuff is in attach then order matters. Use below instead. */ 2168890ab77SEd Maste DRIVER_MODULE_ORDERED(miibus, mgb, miibus_driver, miibus_devclass, NULL, NULL, 2178890ab77SEd Maste SI_ORDER_ANY); 2188890ab77SEd Maste #endif /* MIIBUS_DEBUG */ 2198890ab77SEd Maste DRIVER_MODULE(miibus, mgb, miibus_driver, miibus_devclass, NULL, NULL); 2208890ab77SEd Maste 2218890ab77SEd Maste MODULE_DEPEND(mgb, pci, 1, 1, 1); 2228890ab77SEd Maste MODULE_DEPEND(mgb, ether, 1, 1, 1); 2238890ab77SEd Maste MODULE_DEPEND(mgb, miibus, 1, 1, 1); 2248890ab77SEd Maste MODULE_DEPEND(mgb, iflib, 1, 1, 1); 2258890ab77SEd Maste 2268890ab77SEd Maste static device_method_t mgb_iflib_methods[] = { 2278890ab77SEd Maste DEVMETHOD(ifdi_attach_pre, mgb_attach_pre), 2288890ab77SEd Maste DEVMETHOD(ifdi_attach_post, mgb_attach_post), 2298890ab77SEd Maste DEVMETHOD(ifdi_detach, mgb_detach), 2308890ab77SEd Maste 2318890ab77SEd Maste DEVMETHOD(ifdi_init, mgb_init), 2328890ab77SEd Maste DEVMETHOD(ifdi_stop, mgb_stop), 2338890ab77SEd Maste 2348890ab77SEd Maste DEVMETHOD(ifdi_tx_queues_alloc, mgb_tx_queues_alloc), 2358890ab77SEd Maste DEVMETHOD(ifdi_rx_queues_alloc, mgb_rx_queues_alloc), 2368890ab77SEd Maste DEVMETHOD(ifdi_queues_free, mgb_queues_free), 2378890ab77SEd Maste 2388890ab77SEd Maste DEVMETHOD(ifdi_msix_intr_assign, mgb_msix_intr_assign), 2398890ab77SEd Maste DEVMETHOD(ifdi_tx_queue_intr_enable, mgb_tx_queue_intr_enable), 2408890ab77SEd Maste DEVMETHOD(ifdi_rx_queue_intr_enable, mgb_rx_queue_intr_enable), 2418890ab77SEd Maste DEVMETHOD(ifdi_intr_enable, mgb_intr_enable_all), 2428890ab77SEd Maste DEVMETHOD(ifdi_intr_disable, mgb_intr_disable_all), 2438890ab77SEd Maste 2448890ab77SEd Maste #if 0 /* Not yet implemented IFLIB methods */ 2458890ab77SEd Maste /* 2468890ab77SEd Maste * Set multicast addresses, mtu and promiscuous mode 2478890ab77SEd Maste */ 2488890ab77SEd Maste DEVMETHOD(ifdi_multi_set, mgb_multi_set), 2498890ab77SEd Maste DEVMETHOD(ifdi_mtu_set, mgb_mtu_set), 2508890ab77SEd Maste DEVMETHOD(ifdi_promisc_set, mgb_promisc_set), 2518890ab77SEd Maste 2528890ab77SEd Maste /* 2538890ab77SEd Maste * Needed for VLAN support 2548890ab77SEd Maste */ 2558890ab77SEd Maste DEVMETHOD(ifdi_vlan_register, mgb_vlan_register), 2568890ab77SEd Maste DEVMETHOD(ifdi_vlan_unregister, mgb_vlan_unregister), 2578890ab77SEd Maste 2588890ab77SEd Maste /* 2598890ab77SEd Maste * Needed for WOL support 2608890ab77SEd Maste * at the very least. 2618890ab77SEd Maste */ 2628890ab77SEd Maste DEVMETHOD(ifdi_shutdown, mgb_shutdown), 2638890ab77SEd Maste DEVMETHOD(ifdi_suspend, mgb_suspend), 2648890ab77SEd Maste DEVMETHOD(ifdi_resume, mgb_resume), 2658890ab77SEd Maste #endif /* UNUSED_IFLIB_METHODS */ 2668890ab77SEd Maste DEVMETHOD_END 2678890ab77SEd Maste }; 2688890ab77SEd Maste 2698890ab77SEd Maste static driver_t mgb_iflib_driver = { 2708890ab77SEd Maste "mgb", mgb_iflib_methods, sizeof(struct mgb_softc) 2718890ab77SEd Maste }; 2728890ab77SEd Maste 273c83ae596SEd Maste static struct if_txrx mgb_txrx = { 2748890ab77SEd Maste .ift_txd_encap = mgb_isc_txd_encap, 2758890ab77SEd Maste .ift_txd_flush = mgb_isc_txd_flush, 2768890ab77SEd Maste .ift_txd_credits_update = mgb_isc_txd_credits_update, 2778890ab77SEd Maste .ift_rxd_available = mgb_isc_rxd_available, 2788890ab77SEd Maste .ift_rxd_pkt_get = mgb_isc_rxd_pkt_get, 2798890ab77SEd Maste .ift_rxd_refill = mgb_isc_rxd_refill, 2808890ab77SEd Maste .ift_rxd_flush = mgb_isc_rxd_flush, 2818890ab77SEd Maste 2828890ab77SEd Maste .ift_legacy_intr = mgb_legacy_intr 2838890ab77SEd Maste }; 2848890ab77SEd Maste 285c83ae596SEd Maste static struct if_shared_ctx mgb_sctx_init = { 2868890ab77SEd Maste .isc_magic = IFLIB_MAGIC, 2878890ab77SEd Maste 2888890ab77SEd Maste .isc_q_align = PAGE_SIZE, 2898890ab77SEd Maste .isc_admin_intrcnt = 1, 2908890ab77SEd Maste .isc_flags = IFLIB_DRIVER_MEDIA /* | IFLIB_HAS_RXCQ | IFLIB_HAS_TXCQ*/, 2918890ab77SEd Maste 2928890ab77SEd Maste .isc_vendor_info = mgb_vendor_info_array, 2938890ab77SEd Maste .isc_driver_version = "1", 2948890ab77SEd Maste .isc_driver = &mgb_iflib_driver, 2958890ab77SEd Maste /* 2 queues per set for TX and RX (ring queue, head writeback queue) */ 2968890ab77SEd Maste .isc_ntxqs = 2, 2978890ab77SEd Maste 2988890ab77SEd Maste .isc_tx_maxsize = MGB_DMA_MAXSEGS * MCLBYTES, 2998890ab77SEd Maste /* .isc_tx_nsegments = MGB_DMA_MAXSEGS, */ 3008890ab77SEd Maste .isc_tx_maxsegsize = MCLBYTES, 3018890ab77SEd Maste 3028890ab77SEd Maste .isc_ntxd_min = {1, 1}, /* Will want to make this bigger */ 3038890ab77SEd Maste .isc_ntxd_max = {MGB_DMA_RING_SIZE, 1}, 3048890ab77SEd Maste .isc_ntxd_default = {MGB_DMA_RING_SIZE, 1}, 3058890ab77SEd Maste 3068890ab77SEd Maste .isc_nrxqs = 2, 3078890ab77SEd Maste 3088890ab77SEd Maste .isc_rx_maxsize = MCLBYTES, 3098890ab77SEd Maste .isc_rx_nsegments = 1, 3108890ab77SEd Maste .isc_rx_maxsegsize = MCLBYTES, 3118890ab77SEd Maste 3128890ab77SEd Maste .isc_nrxd_min = {1, 1}, /* Will want to make this bigger */ 3138890ab77SEd Maste .isc_nrxd_max = {MGB_DMA_RING_SIZE, 1}, 3148890ab77SEd Maste .isc_nrxd_default = {MGB_DMA_RING_SIZE, 1}, 3158890ab77SEd Maste 3168890ab77SEd Maste .isc_nfl = 1, /*one free list since there is only one queue */ 3178890ab77SEd Maste #if 0 /* UNUSED_CTX */ 3188890ab77SEd Maste 3198890ab77SEd Maste .isc_tso_maxsize = MGB_TSO_MAXSIZE + sizeof(struct ether_vlan_header), 3208890ab77SEd Maste .isc_tso_maxsegsize = MGB_TX_MAXSEGSIZE, 3218890ab77SEd Maste #endif /* UNUSED_CTX */ 3228890ab77SEd Maste }; 3238890ab77SEd Maste 3248890ab77SEd Maste /*********************************************************************/ 3258890ab77SEd Maste 3268890ab77SEd Maste static void * 3278890ab77SEd Maste mgb_register(device_t dev) 3288890ab77SEd Maste { 3298890ab77SEd Maste 3308890ab77SEd Maste return (&mgb_sctx_init); 3318890ab77SEd Maste } 3328890ab77SEd Maste 3338890ab77SEd Maste static int 3348890ab77SEd Maste mgb_attach_pre(if_ctx_t ctx) 3358890ab77SEd Maste { 3368890ab77SEd Maste struct mgb_softc *sc; 3378890ab77SEd Maste if_softc_ctx_t scctx; 3388890ab77SEd Maste int error, phyaddr, rid; 3398890ab77SEd Maste struct ether_addr hwaddr; 3408890ab77SEd Maste struct mii_data *miid; 3418890ab77SEd Maste 3428890ab77SEd Maste sc = iflib_get_softc(ctx); 3438890ab77SEd Maste sc->ctx = ctx; 3448890ab77SEd Maste sc->dev = iflib_get_dev(ctx); 3458890ab77SEd Maste scctx = iflib_get_softc_ctx(ctx); 3468890ab77SEd Maste 3478890ab77SEd Maste /* IFLIB required setup */ 3488890ab77SEd Maste scctx->isc_txrx = &mgb_txrx; 3498890ab77SEd Maste scctx->isc_tx_nsegments = MGB_DMA_MAXSEGS; 3508890ab77SEd Maste /* Ring desc queues */ 3518890ab77SEd Maste scctx->isc_txqsizes[0] = sizeof(struct mgb_ring_desc) * 3528890ab77SEd Maste scctx->isc_ntxd[0]; 3538890ab77SEd Maste scctx->isc_rxqsizes[0] = sizeof(struct mgb_ring_desc) * 3548890ab77SEd Maste scctx->isc_nrxd[0]; 3558890ab77SEd Maste 3568890ab77SEd Maste /* Head WB queues */ 3578890ab77SEd Maste scctx->isc_txqsizes[1] = sizeof(uint32_t) * scctx->isc_ntxd[1]; 3588890ab77SEd Maste scctx->isc_rxqsizes[1] = sizeof(uint32_t) * scctx->isc_nrxd[1]; 3598890ab77SEd Maste 3608890ab77SEd Maste /* XXX: Must have 1 txqset, but can have up to 4 rxqsets */ 3618890ab77SEd Maste scctx->isc_nrxqsets = 1; 3628890ab77SEd Maste scctx->isc_ntxqsets = 1; 3638890ab77SEd Maste 3648890ab77SEd Maste /* scctx->isc_tx_csum_flags = (CSUM_TCP | CSUM_UDP) | 3658890ab77SEd Maste (CSUM_TCP_IPV6 | CSUM_UDP_IPV6) | CSUM_TSO */ 3668890ab77SEd Maste scctx->isc_tx_csum_flags = 0; 3678890ab77SEd Maste scctx->isc_capabilities = scctx->isc_capenable = 0; 3688890ab77SEd Maste #if 0 3698890ab77SEd Maste /* 3708890ab77SEd Maste * CSUM, TSO and VLAN support are TBD 3718890ab77SEd Maste */ 3728890ab77SEd Maste IFCAP_TXCSUM | IFCAP_TXCSUM_IPV6 | 3738890ab77SEd Maste IFCAP_TSO4 | IFCAP_TSO6 | 3748890ab77SEd Maste IFCAP_RXCSUM | IFCAP_RXCSUM_IPV6 | 3758890ab77SEd Maste IFCAP_VLAN_MTU | IFCAP_VLAN_HWTAGGING | 3768890ab77SEd Maste IFCAP_VLAN_HWCSUM | IFCAP_VLAN_HWTSO | 3778890ab77SEd Maste IFCAP_JUMBO_MTU; 3788890ab77SEd Maste scctx->isc_capabilities |= IFCAP_LRO | IFCAP_VLAN_HWFILTER; 3798890ab77SEd Maste #endif 3808890ab77SEd Maste 3818890ab77SEd Maste /* get the BAR */ 3828890ab77SEd Maste error = mgb_alloc_regs(sc); 3838890ab77SEd Maste if (error != 0) { 3848890ab77SEd Maste device_printf(sc->dev, 3858890ab77SEd Maste "Unable to allocate bus resource: registers.\n"); 3868890ab77SEd Maste goto fail; 3878890ab77SEd Maste } 3888890ab77SEd Maste 3898890ab77SEd Maste error = mgb_test_bar(sc); 3908890ab77SEd Maste if (error != 0) 3918890ab77SEd Maste goto fail; 3928890ab77SEd Maste 3938890ab77SEd Maste error = mgb_hw_init(sc); 3948890ab77SEd Maste if (error != 0) { 3958890ab77SEd Maste device_printf(sc->dev, 3968890ab77SEd Maste "MGB device init failed. (err: %d)\n", error); 3978890ab77SEd Maste goto fail; 3988890ab77SEd Maste } 3998890ab77SEd Maste 400*820da582SEd Maste switch (pci_get_device(sc->dev)) { 4018890ab77SEd Maste case MGB_LAN7430_DEVICE_ID: 4028890ab77SEd Maste phyaddr = 1; 4038890ab77SEd Maste break; 4048890ab77SEd Maste case MGB_LAN7431_DEVICE_ID: 4058890ab77SEd Maste default: 4068890ab77SEd Maste phyaddr = MII_PHY_ANY; 4078890ab77SEd Maste break; 4088890ab77SEd Maste } 4098890ab77SEd Maste 4108890ab77SEd Maste /* XXX: Would be nice(r) if locked methods were here */ 4118890ab77SEd Maste error = mii_attach(sc->dev, &sc->miibus, iflib_get_ifp(ctx), 4128890ab77SEd Maste mgb_media_change, mgb_media_status, 4138890ab77SEd Maste BMSR_DEFCAPMASK, phyaddr, MII_OFFSET_ANY, MIIF_DOPAUSE); 4148890ab77SEd Maste if (error != 0) { 4158890ab77SEd Maste device_printf(sc->dev, "Failed to attach MII interface\n"); 4168890ab77SEd Maste goto fail; 4178890ab77SEd Maste } 4188890ab77SEd Maste 4198890ab77SEd Maste miid = device_get_softc(sc->miibus); 4208890ab77SEd Maste scctx->isc_media = &miid->mii_media; 4218890ab77SEd Maste 4228890ab77SEd Maste scctx->isc_msix_bar = pci_msix_table_bar(sc->dev); 4238890ab77SEd Maste /** Setup PBA BAR **/ 4248890ab77SEd Maste rid = pci_msix_pba_bar(sc->dev); 4258890ab77SEd Maste if (rid != scctx->isc_msix_bar) { 4268890ab77SEd Maste sc->pba = bus_alloc_resource_any(sc->dev, SYS_RES_MEMORY, 4278890ab77SEd Maste &rid, RF_ACTIVE); 4288890ab77SEd Maste if (sc->pba == NULL) { 4298890ab77SEd Maste error = ENXIO; 4308890ab77SEd Maste device_printf(sc->dev, "Failed to setup PBA BAR\n"); 4318890ab77SEd Maste goto fail; 4328890ab77SEd Maste } 4338890ab77SEd Maste } 4348890ab77SEd Maste 4358890ab77SEd Maste mgb_get_ethaddr(sc, &hwaddr); 4368890ab77SEd Maste if (ETHER_IS_BROADCAST(hwaddr.octet) || 4378890ab77SEd Maste ETHER_IS_MULTICAST(hwaddr.octet) || 4388890ab77SEd Maste ETHER_IS_ZERO(hwaddr.octet)) 4398890ab77SEd Maste ether_gen_addr(iflib_get_ifp(ctx), &hwaddr); 4408890ab77SEd Maste 4418890ab77SEd Maste /* 4428890ab77SEd Maste * XXX: if the MAC address was generated the linux driver 4438890ab77SEd Maste * writes it back to the device. 4448890ab77SEd Maste */ 4458890ab77SEd Maste iflib_set_mac(ctx, hwaddr.octet); 4468890ab77SEd Maste 4478890ab77SEd Maste /* Map all vectors to vector 0 (admin interrupts) by default. */ 4488890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_VEC_RX_MAP, 0); 4498890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_VEC_TX_MAP, 0); 4508890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_VEC_OTHER_MAP, 0); 4518890ab77SEd Maste 4528890ab77SEd Maste return (0); 4538890ab77SEd Maste 4548890ab77SEd Maste fail: 4558890ab77SEd Maste mgb_detach(ctx); 4568890ab77SEd Maste return (error); 4578890ab77SEd Maste } 4588890ab77SEd Maste 4598890ab77SEd Maste static int 4608890ab77SEd Maste mgb_attach_post(if_ctx_t ctx) 4618890ab77SEd Maste { 4628890ab77SEd Maste struct mgb_softc *sc; 4638890ab77SEd Maste 4648890ab77SEd Maste sc = iflib_get_softc(ctx); 4658890ab77SEd Maste 4668890ab77SEd Maste device_printf(sc->dev, "Interrupt test: %s\n", 4678890ab77SEd Maste (mgb_intr_test(sc) ? "PASS" : "FAIL")); 4688890ab77SEd Maste 4698890ab77SEd Maste return (0); 4708890ab77SEd Maste } 4718890ab77SEd Maste 4728890ab77SEd Maste static int 4738890ab77SEd Maste mgb_detach(if_ctx_t ctx) 4748890ab77SEd Maste { 4758890ab77SEd Maste struct mgb_softc *sc; 4768890ab77SEd Maste int error; 4778890ab77SEd Maste 4788890ab77SEd Maste sc = iflib_get_softc(ctx); 4798890ab77SEd Maste 4808890ab77SEd Maste /* XXX: Should report errors but still detach everything. */ 4818890ab77SEd Maste error = mgb_hw_teardown(sc); 4828890ab77SEd Maste 4838890ab77SEd Maste /* Release IRQs */ 4848890ab77SEd Maste iflib_irq_free(ctx, &sc->rx_irq); 4858890ab77SEd Maste iflib_irq_free(ctx, &sc->admin_irq); 4868890ab77SEd Maste 4878890ab77SEd Maste if (sc->miibus != NULL) 4888890ab77SEd Maste device_delete_child(sc->dev, sc->miibus); 4898890ab77SEd Maste 4908890ab77SEd Maste if (sc->pba != NULL) 4918890ab77SEd Maste error = bus_release_resource(sc->dev, SYS_RES_MEMORY, 4928890ab77SEd Maste rman_get_rid(sc->pba), sc->pba); 4938890ab77SEd Maste sc->pba = NULL; 4948890ab77SEd Maste 4958890ab77SEd Maste error = mgb_release_regs(sc); 4968890ab77SEd Maste 4978890ab77SEd Maste return (error); 4988890ab77SEd Maste } 4998890ab77SEd Maste 5008890ab77SEd Maste static int 5018890ab77SEd Maste mgb_media_change(if_t ifp) 5028890ab77SEd Maste { 5038890ab77SEd Maste struct mii_data *miid; 5048890ab77SEd Maste struct mii_softc *miisc; 5058890ab77SEd Maste struct mgb_softc *sc; 5068890ab77SEd Maste if_ctx_t ctx; 5078890ab77SEd Maste int needs_reset; 5088890ab77SEd Maste 5098890ab77SEd Maste ctx = if_getsoftc(ifp); 5108890ab77SEd Maste sc = iflib_get_softc(ctx); 5118890ab77SEd Maste miid = device_get_softc(sc->miibus); 5128890ab77SEd Maste LIST_FOREACH(miisc, &miid->mii_phys, mii_list) 5138890ab77SEd Maste PHY_RESET(miisc); 5148890ab77SEd Maste 5158890ab77SEd Maste needs_reset = mii_mediachg(miid); 5168890ab77SEd Maste if (needs_reset != 0) 5178890ab77SEd Maste ifp->if_init(ctx); 5188890ab77SEd Maste return (needs_reset); 5198890ab77SEd Maste } 5208890ab77SEd Maste 5218890ab77SEd Maste static void 5228890ab77SEd Maste mgb_media_status(if_t ifp, struct ifmediareq *ifmr) 5238890ab77SEd Maste { 5248890ab77SEd Maste struct mgb_softc *sc; 5258890ab77SEd Maste struct mii_data *miid; 5268890ab77SEd Maste 5278890ab77SEd Maste sc = iflib_get_softc(if_getsoftc(ifp)); 5288890ab77SEd Maste miid = device_get_softc(sc->miibus); 5298890ab77SEd Maste if ((if_getflags(ifp) & IFF_UP) == 0) 5308890ab77SEd Maste return; 5318890ab77SEd Maste 5328890ab77SEd Maste mii_pollstat(miid); 5338890ab77SEd Maste ifmr->ifm_active = miid->mii_media_active; 5348890ab77SEd Maste ifmr->ifm_status = miid->mii_media_status; 5358890ab77SEd Maste } 5368890ab77SEd Maste 5378890ab77SEd Maste static int 5388890ab77SEd Maste mgb_tx_queues_alloc(if_ctx_t ctx, caddr_t *vaddrs, uint64_t *paddrs, int ntxqs, 5398890ab77SEd Maste int ntxqsets) 5408890ab77SEd Maste { 5418890ab77SEd Maste struct mgb_softc *sc; 5428890ab77SEd Maste struct mgb_ring_data *rdata; 5438890ab77SEd Maste int q; 5448890ab77SEd Maste 5458890ab77SEd Maste sc = iflib_get_softc(ctx); 5468890ab77SEd Maste KASSERT(ntxqsets == 1, ("ntxqsets = %d", ntxqsets)); 5478890ab77SEd Maste rdata = &sc->tx_ring_data; 5488890ab77SEd Maste for (q = 0; q < ntxqsets; q++) { 5498890ab77SEd Maste KASSERT(ntxqs == 2, ("ntxqs = %d", ntxqs)); 5508890ab77SEd Maste /* Ring */ 5518890ab77SEd Maste rdata->ring = (struct mgb_ring_desc *) vaddrs[q * ntxqs + 0]; 5528890ab77SEd Maste rdata->ring_bus_addr = paddrs[q * ntxqs + 0]; 5538890ab77SEd Maste 5548890ab77SEd Maste /* Head WB */ 5558890ab77SEd Maste rdata->head_wb = (uint32_t *) vaddrs[q * ntxqs + 1]; 5568890ab77SEd Maste rdata->head_wb_bus_addr = paddrs[q * ntxqs + 1]; 5578890ab77SEd Maste } 558*820da582SEd Maste return (0); 5598890ab77SEd Maste } 5608890ab77SEd Maste 5618890ab77SEd Maste static int 5628890ab77SEd Maste mgb_rx_queues_alloc(if_ctx_t ctx, caddr_t *vaddrs, uint64_t *paddrs, int nrxqs, 5638890ab77SEd Maste int nrxqsets) 5648890ab77SEd Maste { 5658890ab77SEd Maste struct mgb_softc *sc; 5668890ab77SEd Maste struct mgb_ring_data *rdata; 5678890ab77SEd Maste int q; 5688890ab77SEd Maste 5698890ab77SEd Maste sc = iflib_get_softc(ctx); 5708890ab77SEd Maste KASSERT(nrxqsets == 1, ("nrxqsets = %d", nrxqsets)); 5718890ab77SEd Maste rdata = &sc->rx_ring_data; 5728890ab77SEd Maste for (q = 0; q < nrxqsets; q++) { 5738890ab77SEd Maste KASSERT(nrxqs == 2, ("nrxqs = %d", nrxqs)); 5748890ab77SEd Maste /* Ring */ 5758890ab77SEd Maste rdata->ring = (struct mgb_ring_desc *) vaddrs[q * nrxqs + 0]; 5768890ab77SEd Maste rdata->ring_bus_addr = paddrs[q * nrxqs + 0]; 5778890ab77SEd Maste 5788890ab77SEd Maste /* Head WB */ 5798890ab77SEd Maste rdata->head_wb = (uint32_t *) vaddrs[q * nrxqs + 1]; 5808890ab77SEd Maste rdata->head_wb_bus_addr = paddrs[q * nrxqs + 1]; 5818890ab77SEd Maste } 582*820da582SEd Maste return (0); 5838890ab77SEd Maste } 5848890ab77SEd Maste 5858890ab77SEd Maste static void 5868890ab77SEd Maste mgb_queues_free(if_ctx_t ctx) 5878890ab77SEd Maste { 5888890ab77SEd Maste struct mgb_softc *sc; 5898890ab77SEd Maste 5908890ab77SEd Maste sc = iflib_get_softc(ctx); 5918890ab77SEd Maste 5928890ab77SEd Maste memset(&sc->rx_ring_data, 0, sizeof(struct mgb_ring_data)); 5938890ab77SEd Maste memset(&sc->tx_ring_data, 0, sizeof(struct mgb_ring_data)); 5948890ab77SEd Maste } 5958890ab77SEd Maste 5968890ab77SEd Maste static void 5978890ab77SEd Maste mgb_init(if_ctx_t ctx) 5988890ab77SEd Maste { 5998890ab77SEd Maste struct mgb_softc *sc; 6008890ab77SEd Maste struct mii_data *miid; 6018890ab77SEd Maste int error; 6028890ab77SEd Maste 6038890ab77SEd Maste sc = iflib_get_softc(ctx); 6048890ab77SEd Maste miid = device_get_softc(sc->miibus); 6058890ab77SEd Maste device_printf(sc->dev, "running init ...\n"); 6068890ab77SEd Maste 6078890ab77SEd Maste mgb_dma_init(sc); 6088890ab77SEd Maste 6098890ab77SEd Maste /* XXX: Turn off perfect filtering, turn on (broad|multi|uni)cast rx */ 6108890ab77SEd Maste CSR_CLEAR_REG(sc, MGB_RFE_CTL, MGB_RFE_ALLOW_PERFECT_FILTER); 6118890ab77SEd Maste CSR_UPDATE_REG(sc, MGB_RFE_CTL, 6128890ab77SEd Maste MGB_RFE_ALLOW_BROADCAST | 613ecac5c29SEd Maste MGB_RFE_ALLOW_MULTICAST | 6148890ab77SEd Maste MGB_RFE_ALLOW_UNICAST); 6158890ab77SEd Maste 6168890ab77SEd Maste error = mii_mediachg(miid); 6178b889b89SEd Maste /* Not much we can do if this fails. */ 6188b889b89SEd Maste if (error) 6198b889b89SEd Maste device_printf(sc->dev, "%s: mii_mediachg returned %d", __func__, 6208b889b89SEd Maste error); 6218890ab77SEd Maste } 6228890ab77SEd Maste 6238890ab77SEd Maste #ifdef DEBUG 6248890ab77SEd Maste static void 6258890ab77SEd Maste mgb_dump_some_stats(struct mgb_softc *sc) 6268890ab77SEd Maste { 6278890ab77SEd Maste int i; 6288890ab77SEd Maste int first_stat = 0x1200; 6298890ab77SEd Maste int last_stat = 0x12FC; 6308890ab77SEd Maste 6318890ab77SEd Maste for (i = first_stat; i <= last_stat; i += 4) 6328890ab77SEd Maste if (CSR_READ_REG(sc, i) != 0) 6338890ab77SEd Maste device_printf(sc->dev, "0x%04x: 0x%08x\n", i, 6348890ab77SEd Maste CSR_READ_REG(sc, i)); 6358890ab77SEd Maste char *stat_names[] = { 6368890ab77SEd Maste "MAC_ERR_STS ", 6378890ab77SEd Maste "FCT_INT_STS ", 6388890ab77SEd Maste "DMAC_CFG ", 6398890ab77SEd Maste "DMAC_CMD ", 6408890ab77SEd Maste "DMAC_INT_STS ", 6418890ab77SEd Maste "DMAC_INT_EN ", 6428890ab77SEd Maste "DMAC_RX_ERR_STS0 ", 6438890ab77SEd Maste "DMAC_RX_ERR_STS1 ", 6448890ab77SEd Maste "DMAC_RX_ERR_STS2 ", 6458890ab77SEd Maste "DMAC_RX_ERR_STS3 ", 6468890ab77SEd Maste "INT_STS ", 6478890ab77SEd Maste "INT_EN ", 6488890ab77SEd Maste "INT_VEC_EN ", 6498890ab77SEd Maste "INT_VEC_MAP0 ", 6508890ab77SEd Maste "INT_VEC_MAP1 ", 6518890ab77SEd Maste "INT_VEC_MAP2 ", 6528890ab77SEd Maste "TX_HEAD0", 6538890ab77SEd Maste "TX_TAIL0", 6548890ab77SEd Maste "DMAC_TX_ERR_STS0 ", 6558890ab77SEd Maste NULL 6568890ab77SEd Maste }; 6578890ab77SEd Maste int stats[] = { 6588890ab77SEd Maste 0x114, 6598890ab77SEd Maste 0xA0, 6608890ab77SEd Maste 0xC00, 6618890ab77SEd Maste 0xC0C, 6628890ab77SEd Maste 0xC10, 6638890ab77SEd Maste 0xC14, 6648890ab77SEd Maste 0xC60, 6658890ab77SEd Maste 0xCA0, 6668890ab77SEd Maste 0xCE0, 6678890ab77SEd Maste 0xD20, 6688890ab77SEd Maste 0x780, 6698890ab77SEd Maste 0x788, 6708890ab77SEd Maste 0x794, 6718890ab77SEd Maste 0x7A0, 6728890ab77SEd Maste 0x7A4, 6738890ab77SEd Maste 0x780, 6748890ab77SEd Maste 0xD58, 6758890ab77SEd Maste 0xD5C, 6768890ab77SEd Maste 0xD60, 6778890ab77SEd Maste 0x0 6788890ab77SEd Maste }; 6798890ab77SEd Maste i = 0; 6808890ab77SEd Maste printf("==============================\n"); 6818890ab77SEd Maste while (stats[i++]) 6828890ab77SEd Maste device_printf(sc->dev, "%s at offset 0x%04x = 0x%08x\n", 6838890ab77SEd Maste stat_names[i - 1], stats[i - 1], 6848890ab77SEd Maste CSR_READ_REG(sc, stats[i - 1])); 6858890ab77SEd Maste printf("==== TX RING DESCS ====\n"); 6868890ab77SEd Maste for (i = 0; i < MGB_DMA_RING_SIZE; i++) 6878890ab77SEd Maste device_printf(sc->dev, "ring[%d].data0=0x%08x\n" 6888890ab77SEd Maste "ring[%d].data1=0x%08x\n" 6898890ab77SEd Maste "ring[%d].data2=0x%08x\n" 6908890ab77SEd Maste "ring[%d].data3=0x%08x\n", 6918890ab77SEd Maste i, sc->tx_ring_data.ring[i].ctl, 6928890ab77SEd Maste i, sc->tx_ring_data.ring[i].addr.low, 6938890ab77SEd Maste i, sc->tx_ring_data.ring[i].addr.high, 6948890ab77SEd Maste i, sc->tx_ring_data.ring[i].sts); 6958890ab77SEd Maste device_printf(sc->dev, "==== DUMP_TX_DMA_RAM ====\n"); 6968890ab77SEd Maste int i; 6978890ab77SEd Maste CSR_WRITE_REG(sc, 0x24, 0xF); // DP_SEL & TX_RAM_0 6988890ab77SEd Maste for (i = 0; i < 128; i++) { 6998890ab77SEd Maste CSR_WRITE_REG(sc, 0x2C, i); // DP_ADDR 7008890ab77SEd Maste 7018890ab77SEd Maste CSR_WRITE_REG(sc, 0x28, 0); // DP_CMD 7028890ab77SEd Maste 7038890ab77SEd Maste while ((CSR_READ_REG(sc, 0x24) & 0x80000000) == 0) // DP_SEL & READY 7048890ab77SEd Maste DELAY(1000); 7058890ab77SEd Maste 7068890ab77SEd Maste device_printf(sc->dev, "DMAC_TX_RAM_0[%u]=%08x\n", i, 7078890ab77SEd Maste CSR_READ_REG(sc, 0x30)); // DP_DATA 7088890ab77SEd Maste } 7098890ab77SEd Maste } 7108890ab77SEd Maste #endif 7118890ab77SEd Maste 7128890ab77SEd Maste static void 7138890ab77SEd Maste mgb_stop(if_ctx_t ctx) 7148890ab77SEd Maste { 7158890ab77SEd Maste struct mgb_softc *sc ; 7168890ab77SEd Maste if_softc_ctx_t scctx; 7178890ab77SEd Maste int i; 7188890ab77SEd Maste 7198890ab77SEd Maste sc = iflib_get_softc(ctx); 7208890ab77SEd Maste scctx = iflib_get_softc_ctx(ctx); 7218890ab77SEd Maste 7228890ab77SEd Maste /* XXX: Could potentially timeout */ 7238890ab77SEd Maste for (i = 0; i < scctx->isc_nrxqsets; i++) { 7248890ab77SEd Maste mgb_dmac_control(sc, MGB_DMAC_RX_START, 0, DMAC_STOP); 7258890ab77SEd Maste mgb_fct_control(sc, MGB_FCT_RX_CTL, 0, FCT_DISABLE); 7268890ab77SEd Maste } 7278890ab77SEd Maste for (i = 0; i < scctx->isc_ntxqsets; i++) { 7288890ab77SEd Maste mgb_dmac_control(sc, MGB_DMAC_TX_START, 0, DMAC_STOP); 7298890ab77SEd Maste mgb_fct_control(sc, MGB_FCT_TX_CTL, 0, FCT_DISABLE); 7308890ab77SEd Maste } 7318890ab77SEd Maste } 7328890ab77SEd Maste 7338890ab77SEd Maste static int 7348890ab77SEd Maste mgb_legacy_intr(void *xsc) 7358890ab77SEd Maste { 7368890ab77SEd Maste struct mgb_softc *sc; 7378890ab77SEd Maste 7388890ab77SEd Maste sc = xsc; 7398890ab77SEd Maste iflib_admin_intr_deferred(sc->ctx); 7408890ab77SEd Maste return (FILTER_HANDLED); 7418890ab77SEd Maste } 7428890ab77SEd Maste 7438890ab77SEd Maste static int 7448890ab77SEd Maste mgb_rxq_intr(void *xsc) 7458890ab77SEd Maste { 7468890ab77SEd Maste struct mgb_softc *sc; 7478890ab77SEd Maste if_softc_ctx_t scctx; 7488890ab77SEd Maste uint32_t intr_sts, intr_en; 7498890ab77SEd Maste int qidx; 7508890ab77SEd Maste 7518890ab77SEd Maste sc = xsc; 7528890ab77SEd Maste scctx = iflib_get_softc_ctx(sc->ctx); 7538890ab77SEd Maste 7548890ab77SEd Maste intr_sts = CSR_READ_REG(sc, MGB_INTR_STS); 7558890ab77SEd Maste intr_en = CSR_READ_REG(sc, MGB_INTR_ENBL_SET); 7568890ab77SEd Maste intr_sts &= intr_en; 7578890ab77SEd Maste 7588890ab77SEd Maste for (qidx = 0; qidx < scctx->isc_nrxqsets; qidx++) { 7598890ab77SEd Maste if ((intr_sts & MGB_INTR_STS_RX(qidx))){ 7608890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_ENBL_CLR, 7618890ab77SEd Maste MGB_INTR_STS_RX(qidx)); 7628890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_STS, MGB_INTR_STS_RX(qidx)); 7638890ab77SEd Maste } 7648890ab77SEd Maste } 7658890ab77SEd Maste return (FILTER_SCHEDULE_THREAD); 7668890ab77SEd Maste } 7678890ab77SEd Maste 7688890ab77SEd Maste static int 7698890ab77SEd Maste mgb_admin_intr(void *xsc) 7708890ab77SEd Maste { 7718890ab77SEd Maste struct mgb_softc *sc; 7728890ab77SEd Maste if_softc_ctx_t scctx; 7738890ab77SEd Maste uint32_t intr_sts, intr_en; 7748890ab77SEd Maste int qidx; 7758890ab77SEd Maste 7768890ab77SEd Maste sc = xsc; 7778890ab77SEd Maste scctx = iflib_get_softc_ctx(sc->ctx); 7788890ab77SEd Maste 7798890ab77SEd Maste intr_sts = CSR_READ_REG(sc, MGB_INTR_STS); 7808890ab77SEd Maste intr_en = CSR_READ_REG(sc, MGB_INTR_ENBL_SET); 7818890ab77SEd Maste intr_sts &= intr_en; 7828890ab77SEd Maste 7838890ab77SEd Maste /* 7848890ab77SEd Maste * NOTE: Debugging printfs here 7858890ab77SEd Maste * will likely cause interrupt test failure. 7868890ab77SEd Maste */ 7878890ab77SEd Maste 7888890ab77SEd Maste /* TODO: shouldn't continue if suspended */ 789*820da582SEd Maste if ((intr_sts & MGB_INTR_STS_ANY) == 0) { 7908890ab77SEd Maste device_printf(sc->dev, "non-mgb interrupt triggered.\n"); 7918890ab77SEd Maste return (FILTER_SCHEDULE_THREAD); 7928890ab77SEd Maste } 793*820da582SEd Maste if ((intr_sts & MGB_INTR_STS_TEST) != 0) { 7948890ab77SEd Maste sc->isr_test_flag = true; 7958890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_STS, MGB_INTR_STS_TEST); 7968890ab77SEd Maste return (FILTER_HANDLED); 7978890ab77SEd Maste } 798*820da582SEd Maste if ((intr_sts & MGB_INTR_STS_RX_ANY) != 0) { 7998890ab77SEd Maste for (qidx = 0; qidx < scctx->isc_nrxqsets; qidx++) { 8008890ab77SEd Maste if ((intr_sts & MGB_INTR_STS_RX(qidx))){ 8018890ab77SEd Maste iflib_rx_intr_deferred(sc->ctx, qidx); 8028890ab77SEd Maste } 8038890ab77SEd Maste } 8048890ab77SEd Maste return (FILTER_HANDLED); 8058890ab77SEd Maste } 8068890ab77SEd Maste /* XXX: TX interrupts should not occur */ 807*820da582SEd Maste if ((intr_sts & MGB_INTR_STS_TX_ANY) != 0) { 8088890ab77SEd Maste for (qidx = 0; qidx < scctx->isc_ntxqsets; qidx++) { 8098890ab77SEd Maste if ((intr_sts & MGB_INTR_STS_RX(qidx))) { 8108890ab77SEd Maste /* clear the interrupt sts and run handler */ 8118890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_ENBL_CLR, 8128890ab77SEd Maste MGB_INTR_STS_TX(qidx)); 8138890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_STS, 8148890ab77SEd Maste MGB_INTR_STS_TX(qidx)); 8158890ab77SEd Maste iflib_tx_intr_deferred(sc->ctx, qidx); 8168890ab77SEd Maste } 8178890ab77SEd Maste } 8188890ab77SEd Maste return (FILTER_HANDLED); 8198890ab77SEd Maste } 8208890ab77SEd Maste 8218890ab77SEd Maste return (FILTER_SCHEDULE_THREAD); 8228890ab77SEd Maste } 8238890ab77SEd Maste 8248890ab77SEd Maste static int 8258890ab77SEd Maste mgb_msix_intr_assign(if_ctx_t ctx, int msix) 8268890ab77SEd Maste { 8278890ab77SEd Maste struct mgb_softc *sc; 8288890ab77SEd Maste if_softc_ctx_t scctx; 8298890ab77SEd Maste int error, i, vectorid; 8308890ab77SEd Maste char irq_name[16]; 8318890ab77SEd Maste 8328890ab77SEd Maste sc = iflib_get_softc(ctx); 8338890ab77SEd Maste scctx = iflib_get_softc_ctx(ctx); 8348890ab77SEd Maste 8358890ab77SEd Maste KASSERT(scctx->isc_nrxqsets == 1 && scctx->isc_ntxqsets == 1, 8368890ab77SEd Maste ("num rxqsets/txqsets != 1 ")); 8378890ab77SEd Maste 8388890ab77SEd Maste /* 8398890ab77SEd Maste * First vector should be admin interrupts, others vectors are TX/RX 8408890ab77SEd Maste * 8418890ab77SEd Maste * RIDs start at 1, and vector ids start at 0. 8428890ab77SEd Maste */ 8438890ab77SEd Maste vectorid = 0; 8448890ab77SEd Maste error = iflib_irq_alloc_generic(ctx, &sc->admin_irq, vectorid + 1, 8458890ab77SEd Maste IFLIB_INTR_ADMIN, mgb_admin_intr, sc, 0, "admin"); 8468890ab77SEd Maste if (error) { 8478890ab77SEd Maste device_printf(sc->dev, 8488890ab77SEd Maste "Failed to register admin interrupt handler\n"); 8498890ab77SEd Maste return (error); 8508890ab77SEd Maste } 8518890ab77SEd Maste 8528890ab77SEd Maste for (i = 0; i < scctx->isc_nrxqsets; i++) { 8538890ab77SEd Maste vectorid++; 8548890ab77SEd Maste snprintf(irq_name, sizeof(irq_name), "rxq%d", i); 8558890ab77SEd Maste error = iflib_irq_alloc_generic(ctx, &sc->rx_irq, vectorid + 1, 85681be6552SMatt Macy IFLIB_INTR_RXTX, mgb_rxq_intr, sc, i, irq_name); 8578890ab77SEd Maste if (error) { 8588890ab77SEd Maste device_printf(sc->dev, 8598890ab77SEd Maste "Failed to register rxq %d interrupt handler\n", i); 8608890ab77SEd Maste return (error); 8618890ab77SEd Maste } 8628890ab77SEd Maste CSR_UPDATE_REG(sc, MGB_INTR_VEC_RX_MAP, 8638890ab77SEd Maste MGB_INTR_VEC_MAP(vectorid, i)); 8648890ab77SEd Maste } 8658890ab77SEd Maste 8668890ab77SEd Maste /* Not actually mapping hw TX interrupts ... */ 8678890ab77SEd Maste for (i = 0; i < scctx->isc_ntxqsets; i++) { 8688890ab77SEd Maste snprintf(irq_name, sizeof(irq_name), "txq%d", i); 8698890ab77SEd Maste iflib_softirq_alloc_generic(ctx, NULL, IFLIB_INTR_TX, NULL, i, 8708890ab77SEd Maste irq_name); 8718890ab77SEd Maste } 8728890ab77SEd Maste 8738890ab77SEd Maste return (0); 8748890ab77SEd Maste } 8758890ab77SEd Maste 8768890ab77SEd Maste static void 8778890ab77SEd Maste mgb_intr_enable_all(if_ctx_t ctx) 8788890ab77SEd Maste { 8798890ab77SEd Maste struct mgb_softc *sc; 8808890ab77SEd Maste if_softc_ctx_t scctx; 8818890ab77SEd Maste int i, dmac_enable = 0, intr_sts = 0, vec_en = 0; 8828890ab77SEd Maste 8838890ab77SEd Maste sc = iflib_get_softc(ctx); 8848890ab77SEd Maste scctx = iflib_get_softc_ctx(ctx); 8858890ab77SEd Maste intr_sts |= MGB_INTR_STS_ANY; 8868890ab77SEd Maste vec_en |= MGB_INTR_STS_ANY; 8878890ab77SEd Maste 8888890ab77SEd Maste for (i = 0; i < scctx->isc_nrxqsets; i++) { 8898890ab77SEd Maste intr_sts |= MGB_INTR_STS_RX(i); 8908890ab77SEd Maste dmac_enable |= MGB_DMAC_RX_INTR_ENBL(i); 8918890ab77SEd Maste vec_en |= MGB_INTR_RX_VEC_STS(i); 8928890ab77SEd Maste } 8938890ab77SEd Maste 8948890ab77SEd Maste /* TX interrupts aren't needed ... */ 8958890ab77SEd Maste 8968890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_ENBL_SET, intr_sts); 8978890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_VEC_ENBL_SET, vec_en); 8988890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMAC_INTR_STS, dmac_enable); 8998890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMAC_INTR_ENBL_SET, dmac_enable); 9008890ab77SEd Maste } 9018890ab77SEd Maste 9028890ab77SEd Maste static void 9038890ab77SEd Maste mgb_intr_disable_all(if_ctx_t ctx) 9048890ab77SEd Maste { 9058890ab77SEd Maste struct mgb_softc *sc; 9068890ab77SEd Maste 9078890ab77SEd Maste sc = iflib_get_softc(ctx); 9088890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_ENBL_CLR, UINT32_MAX); 9098890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_VEC_ENBL_CLR, UINT32_MAX); 9108890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_STS, UINT32_MAX); 9118890ab77SEd Maste 9128890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMAC_INTR_ENBL_CLR, UINT32_MAX); 9138890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMAC_INTR_STS, UINT32_MAX); 9148890ab77SEd Maste } 9158890ab77SEd Maste 9168890ab77SEd Maste static int 9178890ab77SEd Maste mgb_rx_queue_intr_enable(if_ctx_t ctx, uint16_t qid) 9188890ab77SEd Maste { 9198890ab77SEd Maste /* called after successful rx isr */ 9208890ab77SEd Maste struct mgb_softc *sc; 9218890ab77SEd Maste 9228890ab77SEd Maste sc = iflib_get_softc(ctx); 9238890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_VEC_ENBL_SET, MGB_INTR_RX_VEC_STS(qid)); 9248890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_ENBL_SET, MGB_INTR_STS_RX(qid)); 9258890ab77SEd Maste 9268890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMAC_INTR_STS, MGB_DMAC_RX_INTR_ENBL(qid)); 9278890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMAC_INTR_ENBL_SET, MGB_DMAC_RX_INTR_ENBL(qid)); 9288890ab77SEd Maste return (0); 9298890ab77SEd Maste } 9308890ab77SEd Maste 9318890ab77SEd Maste static int 9328890ab77SEd Maste mgb_tx_queue_intr_enable(if_ctx_t ctx, uint16_t qid) 9338890ab77SEd Maste { 9348890ab77SEd Maste /* XXX: not called (since tx interrupts not used) */ 9358890ab77SEd Maste struct mgb_softc *sc; 9368890ab77SEd Maste 9378890ab77SEd Maste sc = iflib_get_softc(ctx); 9388890ab77SEd Maste 9398890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_ENBL_SET, MGB_INTR_STS_TX(qid)); 9408890ab77SEd Maste 9418890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMAC_INTR_STS, MGB_DMAC_TX_INTR_ENBL(qid)); 9428890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMAC_INTR_ENBL_SET, MGB_DMAC_TX_INTR_ENBL(qid)); 9438890ab77SEd Maste return (0); 9448890ab77SEd Maste } 9458890ab77SEd Maste 9468890ab77SEd Maste static bool 9478890ab77SEd Maste mgb_intr_test(struct mgb_softc *sc) 9488890ab77SEd Maste { 9498890ab77SEd Maste int i; 9508890ab77SEd Maste 9518890ab77SEd Maste sc->isr_test_flag = false; 9528890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_STS, MGB_INTR_STS_TEST); 9538890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_VEC_ENBL_SET, MGB_INTR_STS_ANY); 9548890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_ENBL_SET, 9558890ab77SEd Maste MGB_INTR_STS_ANY | MGB_INTR_STS_TEST); 9568890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_SET, MGB_INTR_STS_TEST); 9578890ab77SEd Maste if (sc->isr_test_flag) 958*820da582SEd Maste return (true); 9598890ab77SEd Maste for (i = 0; i < MGB_TIMEOUT; i++) { 9608890ab77SEd Maste DELAY(10); 9618890ab77SEd Maste if (sc->isr_test_flag) 9628890ab77SEd Maste break; 9638890ab77SEd Maste } 9648890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_ENBL_CLR, MGB_INTR_STS_TEST); 9658890ab77SEd Maste CSR_WRITE_REG(sc, MGB_INTR_STS, MGB_INTR_STS_TEST); 966*820da582SEd Maste return (sc->isr_test_flag); 9678890ab77SEd Maste } 9688890ab77SEd Maste 9698890ab77SEd Maste static int 9708890ab77SEd Maste mgb_isc_txd_encap(void *xsc , if_pkt_info_t ipi) 9718890ab77SEd Maste { 9728890ab77SEd Maste struct mgb_softc *sc; 9738890ab77SEd Maste if_softc_ctx_t scctx; 9748890ab77SEd Maste struct mgb_ring_data *rdata; 9758890ab77SEd Maste struct mgb_ring_desc *txd; 9768890ab77SEd Maste bus_dma_segment_t *segs; 9778890ab77SEd Maste qidx_t pidx, nsegs; 9788890ab77SEd Maste int i; 9798890ab77SEd Maste 9808890ab77SEd Maste KASSERT(ipi->ipi_qsidx == 0, 9818890ab77SEd Maste ("tried to refill TX Channel %d.\n", ipi->ipi_qsidx)); 9828890ab77SEd Maste sc = xsc; 9838890ab77SEd Maste scctx = iflib_get_softc_ctx(sc->ctx); 9848890ab77SEd Maste rdata = &sc->tx_ring_data; 9858890ab77SEd Maste 9868890ab77SEd Maste pidx = ipi->ipi_pidx; 9878890ab77SEd Maste segs = ipi->ipi_segs; 9888890ab77SEd Maste nsegs = ipi->ipi_nsegs; 9898890ab77SEd Maste 9908890ab77SEd Maste /* For each seg, create a descriptor */ 9918890ab77SEd Maste for (i = 0; i < nsegs; ++i) { 9928890ab77SEd Maste KASSERT(nsegs == 1, ("Multisegment packet !!!!!\n")); 9938890ab77SEd Maste txd = &rdata->ring[pidx]; 9948890ab77SEd Maste txd->ctl = htole32( 9958890ab77SEd Maste (segs[i].ds_len & MGB_DESC_CTL_BUFLEN_MASK ) | 9968890ab77SEd Maste /* 9978890ab77SEd Maste * XXX: This will be wrong in the multipacket case 9988890ab77SEd Maste * I suspect FS should be for the first packet and 9998890ab77SEd Maste * LS should be for the last packet 10008890ab77SEd Maste */ 10018890ab77SEd Maste MGB_TX_DESC_CTL_FS | MGB_TX_DESC_CTL_LS | 10028890ab77SEd Maste MGB_DESC_CTL_FCS); 10038890ab77SEd Maste txd->addr.low = htole32(CSR_TRANSLATE_ADDR_LOW32( 10048890ab77SEd Maste segs[i].ds_addr)); 10058890ab77SEd Maste txd->addr.high = htole32(CSR_TRANSLATE_ADDR_HIGH32( 10068890ab77SEd Maste segs[i].ds_addr)); 10078890ab77SEd Maste txd->sts = htole32( 10088890ab77SEd Maste (segs[i].ds_len << 16) & MGB_DESC_FRAME_LEN_MASK); 10098890ab77SEd Maste pidx = MGB_NEXT_RING_IDX(pidx); 10108890ab77SEd Maste } 10118890ab77SEd Maste ipi->ipi_new_pidx = pidx; 10128890ab77SEd Maste return (0); 10138890ab77SEd Maste } 10148890ab77SEd Maste 10158890ab77SEd Maste static void 10168890ab77SEd Maste mgb_isc_txd_flush(void *xsc, uint16_t txqid, qidx_t pidx) 10178890ab77SEd Maste { 10188890ab77SEd Maste struct mgb_softc *sc; 10198890ab77SEd Maste struct mgb_ring_data *rdata; 10208890ab77SEd Maste 10218890ab77SEd Maste KASSERT(txqid == 0, ("tried to flush TX Channel %d.\n", txqid)); 10228890ab77SEd Maste sc = xsc; 10238890ab77SEd Maste rdata = &sc->tx_ring_data; 10248890ab77SEd Maste 10258890ab77SEd Maste if (rdata->last_tail != pidx) { 10268890ab77SEd Maste rdata->last_tail = pidx; 10278890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_TX_TAIL(txqid), rdata->last_tail); 10288890ab77SEd Maste } 10298890ab77SEd Maste } 10308890ab77SEd Maste 10318890ab77SEd Maste static int 10328890ab77SEd Maste mgb_isc_txd_credits_update(void *xsc, uint16_t txqid, bool clear) 10338890ab77SEd Maste { 10348890ab77SEd Maste struct mgb_softc *sc; 10358890ab77SEd Maste struct mgb_ring_desc *txd; 10368890ab77SEd Maste struct mgb_ring_data *rdata; 10378890ab77SEd Maste int processed = 0; 10388890ab77SEd Maste 10398890ab77SEd Maste /* 10408890ab77SEd Maste * > If clear is true, we need to report the number of TX command ring 10418890ab77SEd Maste * > descriptors that have been processed by the device. If clear is 10428890ab77SEd Maste * > false, we just need to report whether or not at least one TX 10438890ab77SEd Maste * > command ring descriptor has been processed by the device. 10448890ab77SEd Maste * - vmx driver 10458890ab77SEd Maste */ 10468890ab77SEd Maste KASSERT(txqid == 0, ("tried to credits_update TX Channel %d.\n", 10478890ab77SEd Maste txqid)); 10488890ab77SEd Maste sc = xsc; 10498890ab77SEd Maste rdata = &sc->tx_ring_data; 10508890ab77SEd Maste 10518890ab77SEd Maste while (*(rdata->head_wb) != rdata->last_head) { 10528890ab77SEd Maste if (!clear) 1053*820da582SEd Maste return (1); 10548890ab77SEd Maste 10558890ab77SEd Maste txd = &rdata->ring[rdata->last_head]; 10568890ab77SEd Maste memset(txd, 0, sizeof(struct mgb_ring_desc)); 10578890ab77SEd Maste rdata->last_head = MGB_NEXT_RING_IDX(rdata->last_head); 10588890ab77SEd Maste processed++; 10598890ab77SEd Maste } 10608890ab77SEd Maste 10618890ab77SEd Maste return (processed); 10628890ab77SEd Maste } 10638890ab77SEd Maste 10648890ab77SEd Maste static int 10658890ab77SEd Maste mgb_isc_rxd_available(void *xsc, uint16_t rxqid, qidx_t idx, qidx_t budget) 10668890ab77SEd Maste { 10678890ab77SEd Maste struct mgb_softc *sc; 10688890ab77SEd Maste if_softc_ctx_t scctx; 10698890ab77SEd Maste struct mgb_ring_data *rdata; 10708890ab77SEd Maste int avail = 0; 10718890ab77SEd Maste 10728890ab77SEd Maste sc = xsc; 10738890ab77SEd Maste KASSERT(rxqid == 0, ("tried to check availability in RX Channel %d.\n", 10748890ab77SEd Maste rxqid)); 10758890ab77SEd Maste 10768890ab77SEd Maste rdata = &sc->rx_ring_data; 10778890ab77SEd Maste scctx = iflib_get_softc_ctx(sc->ctx); 1078*820da582SEd Maste for (; idx != *(rdata->head_wb); idx = MGB_NEXT_RING_IDX(idx)) { 10798890ab77SEd Maste avail++; 10808890ab77SEd Maste /* XXX: Could verify desc is device owned here */ 10818890ab77SEd Maste if (avail == budget) 10828890ab77SEd Maste break; 10838890ab77SEd Maste } 10848890ab77SEd Maste return (avail); 10858890ab77SEd Maste } 10868890ab77SEd Maste 10878890ab77SEd Maste static int 10888890ab77SEd Maste mgb_isc_rxd_pkt_get(void *xsc, if_rxd_info_t ri) 10898890ab77SEd Maste { 10908890ab77SEd Maste struct mgb_softc *sc; 10918890ab77SEd Maste struct mgb_ring_data *rdata; 10928890ab77SEd Maste struct mgb_ring_desc rxd; 10938890ab77SEd Maste int total_len; 10948890ab77SEd Maste 10958890ab77SEd Maste KASSERT(ri->iri_qsidx == 0, 10968890ab77SEd Maste ("tried to check availability in RX Channel %d\n", ri->iri_qsidx)); 10978890ab77SEd Maste sc = xsc; 10988890ab77SEd Maste total_len = 0; 10998890ab77SEd Maste rdata = &sc->rx_ring_data; 11008890ab77SEd Maste 11018890ab77SEd Maste while (*(rdata->head_wb) != rdata->last_head) { 11028890ab77SEd Maste /* copy ring desc and do swapping */ 11038890ab77SEd Maste rxd = rdata->ring[rdata->last_head]; 11048890ab77SEd Maste rxd.ctl = le32toh(rxd.ctl); 11058890ab77SEd Maste rxd.addr.low = le32toh(rxd.ctl); 11068890ab77SEd Maste rxd.addr.high = le32toh(rxd.ctl); 11078890ab77SEd Maste rxd.sts = le32toh(rxd.ctl); 11088890ab77SEd Maste 11098890ab77SEd Maste if ((rxd.ctl & MGB_DESC_CTL_OWN) != 0) { 11108890ab77SEd Maste device_printf(sc->dev, 11118890ab77SEd Maste "Tried to read descriptor ... " 11128890ab77SEd Maste "found that it's owned by the driver\n"); 1113*820da582SEd Maste return (EINVAL); 11148890ab77SEd Maste } 11158890ab77SEd Maste if ((rxd.ctl & MGB_RX_DESC_CTL_FS) == 0) { 11168890ab77SEd Maste device_printf(sc->dev, 11178890ab77SEd Maste "Tried to read descriptor ... " 11188890ab77SEd Maste "found that FS is not set.\n"); 11198890ab77SEd Maste device_printf(sc->dev, "Tried to read descriptor ... that it FS is not set.\n"); 1120*820da582SEd Maste return (EINVAL); 11218890ab77SEd Maste } 11228890ab77SEd Maste /* XXX: Multi-packet support */ 11238890ab77SEd Maste if ((rxd.ctl & MGB_RX_DESC_CTL_LS) == 0) { 11248890ab77SEd Maste device_printf(sc->dev, 11258890ab77SEd Maste "Tried to read descriptor ... " 11268890ab77SEd Maste "found that LS is not set. (Multi-buffer packets not yet supported)\n"); 1127*820da582SEd Maste return (EINVAL); 11288890ab77SEd Maste } 11298890ab77SEd Maste ri->iri_frags[0].irf_flid = 0; 11308890ab77SEd Maste ri->iri_frags[0].irf_idx = rdata->last_head; 11318890ab77SEd Maste ri->iri_frags[0].irf_len = MGB_DESC_GET_FRAME_LEN(&rxd); 11328890ab77SEd Maste total_len += ri->iri_frags[0].irf_len; 11338890ab77SEd Maste 11348890ab77SEd Maste rdata->last_head = MGB_NEXT_RING_IDX(rdata->last_head); 11358890ab77SEd Maste break; 11368890ab77SEd Maste } 11378890ab77SEd Maste ri->iri_nfrags = 1; 11388890ab77SEd Maste ri->iri_len = total_len; 11398890ab77SEd Maste 11408890ab77SEd Maste return (0); 11418890ab77SEd Maste } 11428890ab77SEd Maste 11438890ab77SEd Maste static void 11448890ab77SEd Maste mgb_isc_rxd_refill(void *xsc, if_rxd_update_t iru) 11458890ab77SEd Maste { 11468890ab77SEd Maste if_softc_ctx_t scctx; 11478890ab77SEd Maste struct mgb_softc *sc; 11488890ab77SEd Maste struct mgb_ring_data *rdata; 11498890ab77SEd Maste struct mgb_ring_desc *rxd; 11508890ab77SEd Maste uint64_t *paddrs; 11518890ab77SEd Maste qidx_t *idxs; 11528890ab77SEd Maste qidx_t idx; 11538890ab77SEd Maste int count, len; 11548890ab77SEd Maste 11558890ab77SEd Maste count = iru->iru_count; 11568890ab77SEd Maste len = iru->iru_buf_size; 11578890ab77SEd Maste idxs = iru->iru_idxs; 11588890ab77SEd Maste paddrs = iru->iru_paddrs; 11598890ab77SEd Maste KASSERT(iru->iru_qsidx == 0, 11608890ab77SEd Maste ("tried to refill RX Channel %d.\n", iru->iru_qsidx)); 11618890ab77SEd Maste 11628890ab77SEd Maste sc = xsc; 11638890ab77SEd Maste scctx = iflib_get_softc_ctx(sc->ctx); 11648890ab77SEd Maste rdata = &sc->rx_ring_data; 11658890ab77SEd Maste 11668890ab77SEd Maste while (count > 0) { 11678890ab77SEd Maste idx = idxs[--count]; 11688890ab77SEd Maste rxd = &rdata->ring[idx]; 11698890ab77SEd Maste 11708890ab77SEd Maste rxd->sts = 0; 11718890ab77SEd Maste rxd->addr.low = 11728890ab77SEd Maste htole32(CSR_TRANSLATE_ADDR_LOW32(paddrs[count])); 11738890ab77SEd Maste rxd->addr.high = 11748890ab77SEd Maste htole32(CSR_TRANSLATE_ADDR_HIGH32(paddrs[count])); 11758890ab77SEd Maste rxd->ctl = htole32(MGB_DESC_CTL_OWN | 11768890ab77SEd Maste (len & MGB_DESC_CTL_BUFLEN_MASK)); 11778890ab77SEd Maste } 11788890ab77SEd Maste return; 11798890ab77SEd Maste } 11808890ab77SEd Maste 11818890ab77SEd Maste static void 11828890ab77SEd Maste mgb_isc_rxd_flush(void *xsc, uint16_t rxqid, uint8_t flid, qidx_t pidx) 11838890ab77SEd Maste { 11848890ab77SEd Maste struct mgb_softc *sc; 11858890ab77SEd Maste 11868890ab77SEd Maste sc = xsc; 11878890ab77SEd Maste 11888890ab77SEd Maste KASSERT(rxqid == 0, ("tried to flush RX Channel %d.\n", rxqid)); 118935d8a463SVincenzo Maffione /* 119035d8a463SVincenzo Maffione * According to the programming guide, last_tail must be set to 119135d8a463SVincenzo Maffione * the last valid RX descriptor, rather than to the one past that. 119235d8a463SVincenzo Maffione * Note that this is not true for the TX ring! 119335d8a463SVincenzo Maffione */ 119435d8a463SVincenzo Maffione sc->rx_ring_data.last_tail = MGB_PREV_RING_IDX(pidx); 11958890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_RX_TAIL(rxqid), sc->rx_ring_data.last_tail); 11968890ab77SEd Maste return; 11978890ab77SEd Maste } 11988890ab77SEd Maste 11998890ab77SEd Maste static int 12008890ab77SEd Maste mgb_test_bar(struct mgb_softc *sc) 12018890ab77SEd Maste { 12028890ab77SEd Maste uint32_t id_rev, dev_id, rev; 12038890ab77SEd Maste 12048890ab77SEd Maste id_rev = CSR_READ_REG(sc, 0); 12058890ab77SEd Maste dev_id = id_rev >> 16; 12068890ab77SEd Maste rev = id_rev & 0xFFFF; 12078890ab77SEd Maste if (dev_id == MGB_LAN7430_DEVICE_ID || 12088890ab77SEd Maste dev_id == MGB_LAN7431_DEVICE_ID) { 1209*820da582SEd Maste return (0); 12108890ab77SEd Maste } else { 12118890ab77SEd Maste device_printf(sc->dev, "ID check failed.\n"); 1212*820da582SEd Maste return (ENXIO); 12138890ab77SEd Maste } 12148890ab77SEd Maste } 12158890ab77SEd Maste 12168890ab77SEd Maste static int 12178890ab77SEd Maste mgb_alloc_regs(struct mgb_softc *sc) 12188890ab77SEd Maste { 12198890ab77SEd Maste int rid; 12208890ab77SEd Maste 12218890ab77SEd Maste rid = PCIR_BAR(MGB_BAR); 12228890ab77SEd Maste pci_enable_busmaster(sc->dev); 12238890ab77SEd Maste sc->regs = bus_alloc_resource_any(sc->dev, SYS_RES_MEMORY, 12248890ab77SEd Maste &rid, RF_ACTIVE); 12258890ab77SEd Maste if (sc->regs == NULL) 1226*820da582SEd Maste return (ENXIO); 12278890ab77SEd Maste 12288890ab77SEd Maste return (0); 12298890ab77SEd Maste } 12308890ab77SEd Maste 12318890ab77SEd Maste static int 12328890ab77SEd Maste mgb_release_regs(struct mgb_softc *sc) 12338890ab77SEd Maste { 12348890ab77SEd Maste int error = 0; 12358890ab77SEd Maste 12368890ab77SEd Maste if (sc->regs != NULL) 12378890ab77SEd Maste error = bus_release_resource(sc->dev, SYS_RES_MEMORY, 12388890ab77SEd Maste rman_get_rid(sc->regs), sc->regs); 12398890ab77SEd Maste sc->regs = NULL; 12408890ab77SEd Maste pci_disable_busmaster(sc->dev); 1241*820da582SEd Maste return (error); 12428890ab77SEd Maste } 12438890ab77SEd Maste 12448890ab77SEd Maste static int 12458890ab77SEd Maste mgb_dma_init(struct mgb_softc *sc) 12468890ab77SEd Maste { 12478890ab77SEd Maste if_softc_ctx_t scctx; 12488890ab77SEd Maste int ch, error = 0; 12498890ab77SEd Maste 12508890ab77SEd Maste scctx = iflib_get_softc_ctx(sc->ctx); 12518890ab77SEd Maste 12528890ab77SEd Maste for (ch = 0; ch < scctx->isc_nrxqsets; ch++) 12538890ab77SEd Maste if ((error = mgb_dma_rx_ring_init(sc, ch))) 12548890ab77SEd Maste goto fail; 12558890ab77SEd Maste 12568890ab77SEd Maste for (ch = 0; ch < scctx->isc_nrxqsets; ch++) 12578890ab77SEd Maste if ((error = mgb_dma_tx_ring_init(sc, ch))) 12588890ab77SEd Maste goto fail; 12598890ab77SEd Maste 12608890ab77SEd Maste fail: 1261*820da582SEd Maste return (error); 12628890ab77SEd Maste } 12638890ab77SEd Maste 12648890ab77SEd Maste static int 12658890ab77SEd Maste mgb_dma_rx_ring_init(struct mgb_softc *sc, int channel) 12668890ab77SEd Maste { 12678890ab77SEd Maste struct mgb_ring_data *rdata; 12688890ab77SEd Maste int ring_config, error = 0; 12698890ab77SEd Maste 12708890ab77SEd Maste rdata = &sc->rx_ring_data; 12718890ab77SEd Maste mgb_dmac_control(sc, MGB_DMAC_RX_START, 0, DMAC_RESET); 12728890ab77SEd Maste KASSERT(MGB_DMAC_STATE_IS_INITIAL(sc, MGB_DMAC_RX_START, channel), 12738890ab77SEd Maste ("Trying to init channels when not in init state\n")); 12748890ab77SEd Maste 12758890ab77SEd Maste /* write ring address */ 12768890ab77SEd Maste if (rdata->ring_bus_addr == 0) { 12778890ab77SEd Maste device_printf(sc->dev, "Invalid ring bus addr.\n"); 12788890ab77SEd Maste goto fail; 12798890ab77SEd Maste } 12808890ab77SEd Maste 12818890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_RX_BASE_H(channel), 12828890ab77SEd Maste CSR_TRANSLATE_ADDR_HIGH32(rdata->ring_bus_addr)); 12838890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_RX_BASE_L(channel), 12848890ab77SEd Maste CSR_TRANSLATE_ADDR_LOW32(rdata->ring_bus_addr)); 12858890ab77SEd Maste 12868890ab77SEd Maste /* write head pointer writeback address */ 12878890ab77SEd Maste if (rdata->head_wb_bus_addr == 0) { 12888890ab77SEd Maste device_printf(sc->dev, "Invalid head wb bus addr.\n"); 12898890ab77SEd Maste goto fail; 12908890ab77SEd Maste } 12918890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_RX_HEAD_WB_H(channel), 12928890ab77SEd Maste CSR_TRANSLATE_ADDR_HIGH32(rdata->head_wb_bus_addr)); 12938890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_RX_HEAD_WB_L(channel), 12948890ab77SEd Maste CSR_TRANSLATE_ADDR_LOW32(rdata->head_wb_bus_addr)); 12958890ab77SEd Maste 12968890ab77SEd Maste /* Enable head pointer writeback */ 12978890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_RX_CONFIG0(channel), MGB_DMA_HEAD_WB_ENBL); 12988890ab77SEd Maste 12998890ab77SEd Maste ring_config = CSR_READ_REG(sc, MGB_DMA_RX_CONFIG1(channel)); 13008890ab77SEd Maste /* ring size */ 13018890ab77SEd Maste ring_config &= ~MGB_DMA_RING_LEN_MASK; 13028890ab77SEd Maste ring_config |= (MGB_DMA_RING_SIZE & MGB_DMA_RING_LEN_MASK); 13038890ab77SEd Maste /* packet padding (PAD_2 is better for IP header alignment ...) */ 13048890ab77SEd Maste ring_config &= ~MGB_DMA_RING_PAD_MASK; 13058890ab77SEd Maste ring_config |= (MGB_DMA_RING_PAD_0 & MGB_DMA_RING_PAD_MASK); 13068890ab77SEd Maste 13078890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_RX_CONFIG1(channel), ring_config); 13088890ab77SEd Maste 13098890ab77SEd Maste rdata->last_head = CSR_READ_REG(sc, MGB_DMA_RX_HEAD(channel)); 13108890ab77SEd Maste 13118890ab77SEd Maste mgb_fct_control(sc, MGB_FCT_RX_CTL, channel, FCT_RESET); 13128890ab77SEd Maste if (error != 0) { 13138890ab77SEd Maste device_printf(sc->dev, "Failed to reset RX FCT.\n"); 13148890ab77SEd Maste goto fail; 13158890ab77SEd Maste } 13168890ab77SEd Maste mgb_fct_control(sc, MGB_FCT_RX_CTL, channel, FCT_ENABLE); 13178890ab77SEd Maste if (error != 0) { 13188890ab77SEd Maste device_printf(sc->dev, "Failed to enable RX FCT.\n"); 13198890ab77SEd Maste goto fail; 13208890ab77SEd Maste } 13218890ab77SEd Maste mgb_dmac_control(sc, MGB_DMAC_RX_START, channel, DMAC_START); 13228890ab77SEd Maste if (error != 0) 13238890ab77SEd Maste device_printf(sc->dev, "Failed to start RX DMAC.\n"); 13248890ab77SEd Maste fail: 13258890ab77SEd Maste return (error); 13268890ab77SEd Maste } 13278890ab77SEd Maste 13288890ab77SEd Maste static int 13298890ab77SEd Maste mgb_dma_tx_ring_init(struct mgb_softc *sc, int channel) 13308890ab77SEd Maste { 13318890ab77SEd Maste struct mgb_ring_data *rdata; 13328890ab77SEd Maste int ring_config, error = 0; 13338890ab77SEd Maste 13348890ab77SEd Maste rdata = &sc->tx_ring_data; 13358890ab77SEd Maste if ((error = mgb_fct_control(sc, MGB_FCT_TX_CTL, channel, FCT_RESET))) { 13368890ab77SEd Maste device_printf(sc->dev, "Failed to reset TX FCT.\n"); 13378890ab77SEd Maste goto fail; 13388890ab77SEd Maste } 13398890ab77SEd Maste if ((error = mgb_fct_control(sc, MGB_FCT_TX_CTL, channel, 13408890ab77SEd Maste FCT_ENABLE))) { 13418890ab77SEd Maste device_printf(sc->dev, "Failed to enable TX FCT.\n"); 13428890ab77SEd Maste goto fail; 13438890ab77SEd Maste } 13448890ab77SEd Maste if ((error = mgb_dmac_control(sc, MGB_DMAC_TX_START, channel, 13458890ab77SEd Maste DMAC_RESET))) { 13468890ab77SEd Maste device_printf(sc->dev, "Failed to reset TX DMAC.\n"); 13478890ab77SEd Maste goto fail; 13488890ab77SEd Maste } 13498890ab77SEd Maste KASSERT(MGB_DMAC_STATE_IS_INITIAL(sc, MGB_DMAC_TX_START, channel), 13508890ab77SEd Maste ("Trying to init channels in not init state\n")); 13518890ab77SEd Maste 13528890ab77SEd Maste /* write ring address */ 13538890ab77SEd Maste if (rdata->ring_bus_addr == 0) { 13548890ab77SEd Maste device_printf(sc->dev, "Invalid ring bus addr.\n"); 13558890ab77SEd Maste goto fail; 13568890ab77SEd Maste } 13578890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_TX_BASE_H(channel), 13588890ab77SEd Maste CSR_TRANSLATE_ADDR_HIGH32(rdata->ring_bus_addr)); 13598890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_TX_BASE_L(channel), 13608890ab77SEd Maste CSR_TRANSLATE_ADDR_LOW32(rdata->ring_bus_addr)); 13618890ab77SEd Maste 13628890ab77SEd Maste /* write ring size */ 13638890ab77SEd Maste ring_config = CSR_READ_REG(sc, MGB_DMA_TX_CONFIG1(channel)); 13648890ab77SEd Maste ring_config &= ~MGB_DMA_RING_LEN_MASK; 13658890ab77SEd Maste ring_config |= (MGB_DMA_RING_SIZE & MGB_DMA_RING_LEN_MASK); 13668890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_TX_CONFIG1(channel), ring_config); 13678890ab77SEd Maste 13688890ab77SEd Maste /* Enable interrupt on completion and head pointer writeback */ 13698890ab77SEd Maste ring_config = (MGB_DMA_HEAD_WB_LS_ENBL | MGB_DMA_HEAD_WB_ENBL); 13708890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_TX_CONFIG0(channel), ring_config); 13718890ab77SEd Maste 13728890ab77SEd Maste /* write head pointer writeback address */ 13738890ab77SEd Maste if (rdata->head_wb_bus_addr == 0) { 13748890ab77SEd Maste device_printf(sc->dev, "Invalid head wb bus addr.\n"); 13758890ab77SEd Maste goto fail; 13768890ab77SEd Maste } 13778890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_TX_HEAD_WB_H(channel), 13788890ab77SEd Maste CSR_TRANSLATE_ADDR_HIGH32(rdata->head_wb_bus_addr)); 13798890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_TX_HEAD_WB_L(channel), 13808890ab77SEd Maste CSR_TRANSLATE_ADDR_LOW32(rdata->head_wb_bus_addr)); 13818890ab77SEd Maste 13828890ab77SEd Maste rdata->last_head = CSR_READ_REG(sc, MGB_DMA_TX_HEAD(channel)); 13838890ab77SEd Maste KASSERT(rdata->last_head == 0, ("MGB_DMA_TX_HEAD was not reset.\n")); 13848890ab77SEd Maste rdata->last_tail = 0; 13858890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMA_TX_TAIL(channel), rdata->last_tail); 13868890ab77SEd Maste 13878890ab77SEd Maste if ((error = mgb_dmac_control(sc, MGB_DMAC_TX_START, channel, 13888890ab77SEd Maste DMAC_START))) 13898890ab77SEd Maste device_printf(sc->dev, "Failed to start TX DMAC.\n"); 13908890ab77SEd Maste fail: 1391*820da582SEd Maste return (error); 13928890ab77SEd Maste } 13938890ab77SEd Maste 13948890ab77SEd Maste static int 13958890ab77SEd Maste mgb_dmac_control(struct mgb_softc *sc, int start, int channel, 13968890ab77SEd Maste enum mgb_dmac_cmd cmd) 13978890ab77SEd Maste { 13988890ab77SEd Maste int error = 0; 13998890ab77SEd Maste 14008890ab77SEd Maste switch (cmd) { 14018890ab77SEd Maste case DMAC_RESET: 14028890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMAC_CMD, 14038890ab77SEd Maste MGB_DMAC_CMD_RESET(start, channel)); 14048890ab77SEd Maste error = mgb_wait_for_bits(sc, MGB_DMAC_CMD, 0, 14058890ab77SEd Maste MGB_DMAC_CMD_RESET(start, channel)); 14068890ab77SEd Maste break; 14078890ab77SEd Maste 14088890ab77SEd Maste case DMAC_START: 14098890ab77SEd Maste /* 14108890ab77SEd Maste * NOTE: this simplifies the logic, since it will never 14118890ab77SEd Maste * try to start in STOP_PENDING, but it also increases work. 14128890ab77SEd Maste */ 14138890ab77SEd Maste error = mgb_dmac_control(sc, start, channel, DMAC_STOP); 14148890ab77SEd Maste if (error != 0) 1415*820da582SEd Maste return (error); 14168890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMAC_CMD, 14178890ab77SEd Maste MGB_DMAC_CMD_START(start, channel)); 14188890ab77SEd Maste break; 14198890ab77SEd Maste 14208890ab77SEd Maste case DMAC_STOP: 14218890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMAC_CMD, 14228890ab77SEd Maste MGB_DMAC_CMD_STOP(start, channel)); 14238890ab77SEd Maste error = mgb_wait_for_bits(sc, MGB_DMAC_CMD, 14248890ab77SEd Maste MGB_DMAC_CMD_STOP(start, channel), 14258890ab77SEd Maste MGB_DMAC_CMD_START(start, channel)); 14268890ab77SEd Maste break; 14278890ab77SEd Maste } 1428*820da582SEd Maste return (error); 14298890ab77SEd Maste } 14308890ab77SEd Maste 14318890ab77SEd Maste static int 14328890ab77SEd Maste mgb_fct_control(struct mgb_softc *sc, int reg, int channel, 14338890ab77SEd Maste enum mgb_fct_cmd cmd) 14348890ab77SEd Maste { 14358890ab77SEd Maste 14368890ab77SEd Maste switch (cmd) { 14378890ab77SEd Maste case FCT_RESET: 14388890ab77SEd Maste CSR_WRITE_REG(sc, reg, MGB_FCT_RESET(channel)); 1439*820da582SEd Maste return (mgb_wait_for_bits(sc, reg, 0, MGB_FCT_RESET(channel))); 14408890ab77SEd Maste case FCT_ENABLE: 14418890ab77SEd Maste CSR_WRITE_REG(sc, reg, MGB_FCT_ENBL(channel)); 14428890ab77SEd Maste return (0); 14438890ab77SEd Maste case FCT_DISABLE: 14448890ab77SEd Maste CSR_WRITE_REG(sc, reg, MGB_FCT_DSBL(channel)); 1445*820da582SEd Maste return (mgb_wait_for_bits(sc, reg, 0, MGB_FCT_ENBL(channel))); 14468890ab77SEd Maste } 14478890ab77SEd Maste } 14488890ab77SEd Maste 14498890ab77SEd Maste static int 14508890ab77SEd Maste mgb_hw_teardown(struct mgb_softc *sc) 14518890ab77SEd Maste { 14528890ab77SEd Maste int err = 0; 14538890ab77SEd Maste 14548890ab77SEd Maste /* Stop MAC */ 14558890ab77SEd Maste CSR_CLEAR_REG(sc, MGB_MAC_RX, MGB_MAC_ENBL); 14568890ab77SEd Maste CSR_WRITE_REG(sc, MGB_MAC_TX, MGB_MAC_ENBL); 14578890ab77SEd Maste if ((err = mgb_wait_for_bits(sc, MGB_MAC_RX, MGB_MAC_DSBL, 0))) 14588890ab77SEd Maste return (err); 14598890ab77SEd Maste if ((err = mgb_wait_for_bits(sc, MGB_MAC_TX, MGB_MAC_DSBL, 0))) 14608890ab77SEd Maste return (err); 14618890ab77SEd Maste return (err); 14628890ab77SEd Maste } 14638890ab77SEd Maste 14648890ab77SEd Maste static int 14658890ab77SEd Maste mgb_hw_init(struct mgb_softc *sc) 14668890ab77SEd Maste { 14678890ab77SEd Maste int error = 0; 14688890ab77SEd Maste 14698890ab77SEd Maste error = mgb_hw_reset(sc); 14708890ab77SEd Maste if (error != 0) 14718890ab77SEd Maste goto fail; 14728890ab77SEd Maste 14738890ab77SEd Maste mgb_mac_init(sc); 14748890ab77SEd Maste 14758890ab77SEd Maste error = mgb_phy_reset(sc); 14768890ab77SEd Maste if (error != 0) 14778890ab77SEd Maste goto fail; 14788890ab77SEd Maste 14798890ab77SEd Maste error = mgb_dmac_reset(sc); 14808890ab77SEd Maste if (error != 0) 14818890ab77SEd Maste goto fail; 14828890ab77SEd Maste 14838890ab77SEd Maste fail: 1484*820da582SEd Maste return (error); 14858890ab77SEd Maste } 14868890ab77SEd Maste 14878890ab77SEd Maste static int 14888890ab77SEd Maste mgb_hw_reset(struct mgb_softc *sc) 14898890ab77SEd Maste { 14908890ab77SEd Maste 14918890ab77SEd Maste CSR_UPDATE_REG(sc, MGB_HW_CFG, MGB_LITE_RESET); 14928890ab77SEd Maste return (mgb_wait_for_bits(sc, MGB_HW_CFG, 0, MGB_LITE_RESET)); 14938890ab77SEd Maste } 14948890ab77SEd Maste 14958890ab77SEd Maste static int 14968890ab77SEd Maste mgb_mac_init(struct mgb_softc *sc) 14978890ab77SEd Maste { 14988890ab77SEd Maste 14998890ab77SEd Maste /** 15008890ab77SEd Maste * enable automatic duplex detection and 15018890ab77SEd Maste * automatic speed detection 15028890ab77SEd Maste */ 15038890ab77SEd Maste CSR_UPDATE_REG(sc, MGB_MAC_CR, MGB_MAC_ADD_ENBL | MGB_MAC_ASD_ENBL); 15048890ab77SEd Maste CSR_UPDATE_REG(sc, MGB_MAC_TX, MGB_MAC_ENBL); 15058890ab77SEd Maste CSR_UPDATE_REG(sc, MGB_MAC_RX, MGB_MAC_ENBL); 15068890ab77SEd Maste 1507*820da582SEd Maste return (MGB_STS_OK); 15088890ab77SEd Maste } 15098890ab77SEd Maste 15108890ab77SEd Maste static int 15118890ab77SEd Maste mgb_phy_reset(struct mgb_softc *sc) 15128890ab77SEd Maste { 15138890ab77SEd Maste 15148890ab77SEd Maste CSR_UPDATE_BYTE(sc, MGB_PMT_CTL, MGB_PHY_RESET); 15158890ab77SEd Maste if (mgb_wait_for_bits(sc, MGB_PMT_CTL, 0, MGB_PHY_RESET) == 15168890ab77SEd Maste MGB_STS_TIMEOUT) 1517*820da582SEd Maste return (MGB_STS_TIMEOUT); 15188890ab77SEd Maste return (mgb_wait_for_bits(sc, MGB_PMT_CTL, MGB_PHY_READY, 0)); 15198890ab77SEd Maste } 15208890ab77SEd Maste 15218890ab77SEd Maste static int 15228890ab77SEd Maste mgb_dmac_reset(struct mgb_softc *sc) 15238890ab77SEd Maste { 15248890ab77SEd Maste 15258890ab77SEd Maste CSR_WRITE_REG(sc, MGB_DMAC_CMD, MGB_DMAC_RESET); 15268890ab77SEd Maste return (mgb_wait_for_bits(sc, MGB_DMAC_CMD, 0, MGB_DMAC_RESET)); 15278890ab77SEd Maste } 15288890ab77SEd Maste 15298890ab77SEd Maste static int 15308890ab77SEd Maste mgb_wait_for_bits(struct mgb_softc *sc, int reg, int set_bits, int clear_bits) 15318890ab77SEd Maste { 15328890ab77SEd Maste int i, val; 15338890ab77SEd Maste 15348890ab77SEd Maste i = 0; 15358890ab77SEd Maste do { 15368890ab77SEd Maste /* 15378890ab77SEd Maste * XXX: Datasheets states delay should be > 5 microseconds 15388890ab77SEd Maste * for device reset. 15398890ab77SEd Maste */ 15408890ab77SEd Maste DELAY(100); 15418890ab77SEd Maste val = CSR_READ_REG(sc, reg); 1542*820da582SEd Maste if ((val & set_bits) == set_bits && (val & clear_bits) == 0) 1543*820da582SEd Maste return (MGB_STS_OK); 15448890ab77SEd Maste } while (i++ < MGB_TIMEOUT); 15458890ab77SEd Maste 1546*820da582SEd Maste return (MGB_STS_TIMEOUT); 15478890ab77SEd Maste } 15488890ab77SEd Maste 15498890ab77SEd Maste static void 15508890ab77SEd Maste mgb_get_ethaddr(struct mgb_softc *sc, struct ether_addr *dest) 15518890ab77SEd Maste { 15528890ab77SEd Maste 15538890ab77SEd Maste CSR_READ_REG_BYTES(sc, MGB_MAC_ADDR_BASE_L, &dest->octet[0], 4); 15548890ab77SEd Maste CSR_READ_REG_BYTES(sc, MGB_MAC_ADDR_BASE_H, &dest->octet[4], 2); 15558890ab77SEd Maste } 15568890ab77SEd Maste 15578890ab77SEd Maste static int 15588890ab77SEd Maste mgb_miibus_readreg(device_t dev, int phy, int reg) 15598890ab77SEd Maste { 15608890ab77SEd Maste struct mgb_softc *sc; 15618890ab77SEd Maste int mii_access; 15628890ab77SEd Maste 15638890ab77SEd Maste sc = iflib_get_softc(device_get_softc(dev)); 15648890ab77SEd Maste 15658890ab77SEd Maste if (mgb_wait_for_bits(sc, MGB_MII_ACCESS, 0, MGB_MII_BUSY) == 15668890ab77SEd Maste MGB_STS_TIMEOUT) 1567*820da582SEd Maste return (EIO); 15688890ab77SEd Maste mii_access = (phy & MGB_MII_PHY_ADDR_MASK) << MGB_MII_PHY_ADDR_SHIFT; 15698890ab77SEd Maste mii_access |= (reg & MGB_MII_REG_ADDR_MASK) << MGB_MII_REG_ADDR_SHIFT; 15708890ab77SEd Maste mii_access |= MGB_MII_BUSY | MGB_MII_READ; 15718890ab77SEd Maste CSR_WRITE_REG(sc, MGB_MII_ACCESS, mii_access); 15728890ab77SEd Maste if (mgb_wait_for_bits(sc, MGB_MII_ACCESS, 0, MGB_MII_BUSY) == 15738890ab77SEd Maste MGB_STS_TIMEOUT) 1574*820da582SEd Maste return (EIO); 15758890ab77SEd Maste return (CSR_READ_2_BYTES(sc, MGB_MII_DATA)); 15768890ab77SEd Maste } 15778890ab77SEd Maste 15788890ab77SEd Maste static int 15798890ab77SEd Maste mgb_miibus_writereg(device_t dev, int phy, int reg, int data) 15808890ab77SEd Maste { 15818890ab77SEd Maste struct mgb_softc *sc; 15828890ab77SEd Maste int mii_access; 15838890ab77SEd Maste 15848890ab77SEd Maste sc = iflib_get_softc(device_get_softc(dev)); 15858890ab77SEd Maste 1586*820da582SEd Maste if (mgb_wait_for_bits(sc, MGB_MII_ACCESS, 0, MGB_MII_BUSY) == 1587*820da582SEd Maste MGB_STS_TIMEOUT) 1588*820da582SEd Maste return (EIO); 15898890ab77SEd Maste mii_access = (phy & MGB_MII_PHY_ADDR_MASK) << MGB_MII_PHY_ADDR_SHIFT; 15908890ab77SEd Maste mii_access |= (reg & MGB_MII_REG_ADDR_MASK) << MGB_MII_REG_ADDR_SHIFT; 15918890ab77SEd Maste mii_access |= MGB_MII_BUSY | MGB_MII_WRITE; 15928890ab77SEd Maste CSR_WRITE_REG(sc, MGB_MII_DATA, data); 15938890ab77SEd Maste CSR_WRITE_REG(sc, MGB_MII_ACCESS, mii_access); 15948890ab77SEd Maste if (mgb_wait_for_bits(sc, MGB_MII_ACCESS, 0, MGB_MII_BUSY) == 15958890ab77SEd Maste MGB_STS_TIMEOUT) 1596*820da582SEd Maste return (EIO); 1597*820da582SEd Maste return (0); 15988890ab77SEd Maste } 15998890ab77SEd Maste 16008890ab77SEd Maste /* XXX: May need to lock these up */ 16018890ab77SEd Maste static void 16028890ab77SEd Maste mgb_miibus_statchg(device_t dev) 16038890ab77SEd Maste { 16048890ab77SEd Maste struct mgb_softc *sc; 16058890ab77SEd Maste struct mii_data *miid; 16068890ab77SEd Maste 16078890ab77SEd Maste sc = iflib_get_softc(device_get_softc(dev)); 16088890ab77SEd Maste miid = device_get_softc(sc->miibus); 16098890ab77SEd Maste /* Update baudrate in iflib */ 16108890ab77SEd Maste sc->baudrate = ifmedia_baudrate(miid->mii_media_active); 16118890ab77SEd Maste iflib_link_state_change(sc->ctx, sc->link_state, sc->baudrate); 16128890ab77SEd Maste } 16138890ab77SEd Maste 16148890ab77SEd Maste static void 16158890ab77SEd Maste mgb_miibus_linkchg(device_t dev) 16168890ab77SEd Maste { 16178890ab77SEd Maste struct mgb_softc *sc; 16188890ab77SEd Maste struct mii_data *miid; 16198890ab77SEd Maste int link_state; 16208890ab77SEd Maste 16218890ab77SEd Maste sc = iflib_get_softc(device_get_softc(dev)); 16228890ab77SEd Maste miid = device_get_softc(sc->miibus); 16238890ab77SEd Maste /* XXX: copied from miibus_linkchg **/ 16248890ab77SEd Maste if (miid->mii_media_status & IFM_AVALID) { 16258890ab77SEd Maste if (miid->mii_media_status & IFM_ACTIVE) 16268890ab77SEd Maste link_state = LINK_STATE_UP; 16278890ab77SEd Maste else 16288890ab77SEd Maste link_state = LINK_STATE_DOWN; 16298890ab77SEd Maste } else 16308890ab77SEd Maste link_state = LINK_STATE_UNKNOWN; 16318890ab77SEd Maste sc->link_state = link_state; 16328890ab77SEd Maste iflib_link_state_change(sc->ctx, sc->link_state, sc->baudrate); 16338890ab77SEd Maste } 1634