1d3810ff9SJared McNeill /*- 2d3810ff9SJared McNeill * Copyright (c) 2016 Jared McNeill <jmcneill@invisible.ca> 3d3810ff9SJared McNeill * 4d3810ff9SJared McNeill * Redistribution and use in source and binary forms, with or without 5d3810ff9SJared McNeill * modification, are permitted provided that the following conditions 6d3810ff9SJared McNeill * are met: 7d3810ff9SJared McNeill * 1. Redistributions of source code must retain the above copyright 8d3810ff9SJared McNeill * notice, this list of conditions and the following disclaimer. 9d3810ff9SJared McNeill * 2. Redistributions in binary form must reproduce the above copyright 10d3810ff9SJared McNeill * notice, this list of conditions and the following disclaimer in the 11d3810ff9SJared McNeill * documentation and/or other materials provided with the distribution. 12d3810ff9SJared McNeill * 13d3810ff9SJared McNeill * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 14d3810ff9SJared McNeill * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 15d3810ff9SJared McNeill * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 16d3810ff9SJared McNeill * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 17d3810ff9SJared McNeill * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, 18d3810ff9SJared McNeill * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 19d3810ff9SJared McNeill * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 20d3810ff9SJared McNeill * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 21d3810ff9SJared McNeill * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 22d3810ff9SJared McNeill * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 23d3810ff9SJared McNeill * SUCH DAMAGE. 24d3810ff9SJared McNeill * 25d3810ff9SJared McNeill * $FreeBSD$ 26d3810ff9SJared McNeill */ 27d3810ff9SJared McNeill 28d3810ff9SJared McNeill /* 29d3810ff9SJared McNeill * Allwinner Gigabit Ethernet MAC (EMAC) controller 30d3810ff9SJared McNeill */ 31d3810ff9SJared McNeill 3216928528SJared McNeill #include "opt_device_polling.h" 3316928528SJared McNeill 34d3810ff9SJared McNeill #include <sys/cdefs.h> 35d3810ff9SJared McNeill __FBSDID("$FreeBSD$"); 36d3810ff9SJared McNeill 37d3810ff9SJared McNeill #include <sys/param.h> 38d3810ff9SJared McNeill #include <sys/systm.h> 39d3810ff9SJared McNeill #include <sys/bus.h> 40d3810ff9SJared McNeill #include <sys/rman.h> 41d3810ff9SJared McNeill #include <sys/kernel.h> 42d3810ff9SJared McNeill #include <sys/endian.h> 43d3810ff9SJared McNeill #include <sys/mbuf.h> 44d3810ff9SJared McNeill #include <sys/socket.h> 45d3810ff9SJared McNeill #include <sys/sockio.h> 46d3810ff9SJared McNeill #include <sys/module.h> 4701a469b8SJared McNeill #include <sys/gpio.h> 48d3810ff9SJared McNeill 49d3810ff9SJared McNeill #include <net/bpf.h> 50d3810ff9SJared McNeill #include <net/if.h> 51d3810ff9SJared McNeill #include <net/ethernet.h> 52d3810ff9SJared McNeill #include <net/if_dl.h> 53d3810ff9SJared McNeill #include <net/if_media.h> 54d3810ff9SJared McNeill #include <net/if_types.h> 55d3810ff9SJared McNeill #include <net/if_var.h> 56d3810ff9SJared McNeill 57d3810ff9SJared McNeill #include <machine/bus.h> 58d3810ff9SJared McNeill 59d3810ff9SJared McNeill #include <dev/ofw/ofw_bus.h> 60d3810ff9SJared McNeill #include <dev/ofw/ofw_bus_subr.h> 61d3810ff9SJared McNeill 62d3810ff9SJared McNeill #include <arm/allwinner/if_awgreg.h> 631403e695SJared McNeill #include <arm/allwinner/aw_sid.h> 64d3810ff9SJared McNeill #include <dev/mii/mii.h> 65d3810ff9SJared McNeill #include <dev/mii/miivar.h> 66d3810ff9SJared McNeill 67d3810ff9SJared McNeill #include <dev/extres/clk/clk.h> 68d3810ff9SJared McNeill #include <dev/extres/hwreset/hwreset.h> 69d3810ff9SJared McNeill #include <dev/extres/regulator/regulator.h> 702defb358SKyle Evans #include <dev/extres/syscon/syscon.h> 71d3810ff9SJared McNeill 722defb358SKyle Evans #include "syscon_if.h" 73d3810ff9SJared McNeill #include "miibus_if.h" 7401a469b8SJared McNeill #include "gpio_if.h" 75d3810ff9SJared McNeill 7601a469b8SJared McNeill #define RD4(sc, reg) bus_read_4((sc)->res[_RES_EMAC], (reg)) 7701a469b8SJared McNeill #define WR4(sc, reg, val) bus_write_4((sc)->res[_RES_EMAC], (reg), (val)) 78d3810ff9SJared McNeill 79d3810ff9SJared McNeill #define AWG_LOCK(sc) mtx_lock(&(sc)->mtx) 80d3810ff9SJared McNeill #define AWG_UNLOCK(sc) mtx_unlock(&(sc)->mtx); 81d3810ff9SJared McNeill #define AWG_ASSERT_LOCKED(sc) mtx_assert(&(sc)->mtx, MA_OWNED) 82d3810ff9SJared McNeill #define AWG_ASSERT_UNLOCKED(sc) mtx_assert(&(sc)->mtx, MA_NOTOWNED) 83d3810ff9SJared McNeill 84d3810ff9SJared McNeill #define DESC_ALIGN 4 8516928528SJared McNeill #define TX_DESC_COUNT 1024 86d3810ff9SJared McNeill #define TX_DESC_SIZE (sizeof(struct emac_desc) * TX_DESC_COUNT) 87d3810ff9SJared McNeill #define RX_DESC_COUNT 256 88d3810ff9SJared McNeill #define RX_DESC_SIZE (sizeof(struct emac_desc) * RX_DESC_COUNT) 89d3810ff9SJared McNeill 90d3810ff9SJared McNeill #define DESC_OFF(n) ((n) * sizeof(struct emac_desc)) 91d3810ff9SJared McNeill #define TX_NEXT(n) (((n) + 1) & (TX_DESC_COUNT - 1)) 92d3810ff9SJared McNeill #define TX_SKIP(n, o) (((n) + (o)) & (TX_DESC_COUNT - 1)) 93d3810ff9SJared McNeill #define RX_NEXT(n) (((n) + 1) & (RX_DESC_COUNT - 1)) 94d3810ff9SJared McNeill 95031d5777SOleksandr Tymoshenko #define TX_MAX_SEGS 20 96d3810ff9SJared McNeill 97d3810ff9SJared McNeill #define SOFT_RST_RETRY 1000 98d3810ff9SJared McNeill #define MII_BUSY_RETRY 1000 99d3810ff9SJared McNeill #define MDIO_FREQ 2500000 100d3810ff9SJared McNeill 101d3810ff9SJared McNeill #define BURST_LEN_DEFAULT 8 102d3810ff9SJared McNeill #define RX_TX_PRI_DEFAULT 0 103d3810ff9SJared McNeill #define PAUSE_TIME_DEFAULT 0x400 104d3810ff9SJared McNeill #define TX_INTERVAL_DEFAULT 64 10516928528SJared McNeill #define RX_BATCH_DEFAULT 64 106d3810ff9SJared McNeill 10701a469b8SJared McNeill /* syscon EMAC clock register */ 1082defb358SKyle Evans #define EMAC_CLK_REG 0x30 10901a469b8SJared McNeill #define EMAC_CLK_EPHY_ADDR (0x1f << 20) /* H3 */ 11001a469b8SJared McNeill #define EMAC_CLK_EPHY_ADDR_SHIFT 20 11101a469b8SJared McNeill #define EMAC_CLK_EPHY_LED_POL (1 << 17) /* H3 */ 11201a469b8SJared McNeill #define EMAC_CLK_EPHY_SHUTDOWN (1 << 16) /* H3 */ 11301a469b8SJared McNeill #define EMAC_CLK_EPHY_SELECT (1 << 15) /* H3 */ 11401a469b8SJared McNeill #define EMAC_CLK_RMII_EN (1 << 13) 11501a469b8SJared McNeill #define EMAC_CLK_ETXDC (0x7 << 10) 11601a469b8SJared McNeill #define EMAC_CLK_ETXDC_SHIFT 10 11701a469b8SJared McNeill #define EMAC_CLK_ERXDC (0x1f << 5) 11801a469b8SJared McNeill #define EMAC_CLK_ERXDC_SHIFT 5 11901a469b8SJared McNeill #define EMAC_CLK_PIT (0x1 << 2) 12001a469b8SJared McNeill #define EMAC_CLK_PIT_MII (0 << 2) 12101a469b8SJared McNeill #define EMAC_CLK_PIT_RGMII (1 << 2) 12201a469b8SJared McNeill #define EMAC_CLK_SRC (0x3 << 0) 12301a469b8SJared McNeill #define EMAC_CLK_SRC_MII (0 << 0) 12401a469b8SJared McNeill #define EMAC_CLK_SRC_EXT_RGMII (1 << 0) 12501a469b8SJared McNeill #define EMAC_CLK_SRC_RGMII (2 << 0) 12601a469b8SJared McNeill 127d3810ff9SJared McNeill /* Burst length of RX and TX DMA transfers */ 128d3810ff9SJared McNeill static int awg_burst_len = BURST_LEN_DEFAULT; 129d3810ff9SJared McNeill TUNABLE_INT("hw.awg.burst_len", &awg_burst_len); 130d3810ff9SJared McNeill 131d3810ff9SJared McNeill /* RX / TX DMA priority. If 1, RX DMA has priority over TX DMA. */ 132d3810ff9SJared McNeill static int awg_rx_tx_pri = RX_TX_PRI_DEFAULT; 133d3810ff9SJared McNeill TUNABLE_INT("hw.awg.rx_tx_pri", &awg_rx_tx_pri); 134d3810ff9SJared McNeill 135d3810ff9SJared McNeill /* Pause time field in the transmitted control frame */ 136d3810ff9SJared McNeill static int awg_pause_time = PAUSE_TIME_DEFAULT; 137d3810ff9SJared McNeill TUNABLE_INT("hw.awg.pause_time", &awg_pause_time); 138d3810ff9SJared McNeill 139d3810ff9SJared McNeill /* Request a TX interrupt every <n> descriptors */ 140d3810ff9SJared McNeill static int awg_tx_interval = TX_INTERVAL_DEFAULT; 141d3810ff9SJared McNeill TUNABLE_INT("hw.awg.tx_interval", &awg_tx_interval); 142d3810ff9SJared McNeill 14316928528SJared McNeill /* Maximum number of mbufs to send to if_input */ 14416928528SJared McNeill static int awg_rx_batch = RX_BATCH_DEFAULT; 14516928528SJared McNeill TUNABLE_INT("hw.awg.rx_batch", &awg_rx_batch); 14616928528SJared McNeill 14701a469b8SJared McNeill enum awg_type { 14801a469b8SJared McNeill EMAC_A83T = 1, 14901a469b8SJared McNeill EMAC_H3, 15050bb2d50SEmmanuel Vadot EMAC_A64, 15101a469b8SJared McNeill }; 15201a469b8SJared McNeill 153d3810ff9SJared McNeill static struct ofw_compat_data compat_data[] = { 15401a469b8SJared McNeill { "allwinner,sun8i-a83t-emac", EMAC_A83T }, 15501a469b8SJared McNeill { "allwinner,sun8i-h3-emac", EMAC_H3 }, 15650bb2d50SEmmanuel Vadot { "allwinner,sun50i-a64-emac", EMAC_A64 }, 157d3810ff9SJared McNeill { NULL, 0 } 158d3810ff9SJared McNeill }; 159d3810ff9SJared McNeill 160d3810ff9SJared McNeill struct awg_bufmap { 161d3810ff9SJared McNeill bus_dmamap_t map; 162d3810ff9SJared McNeill struct mbuf *mbuf; 163d3810ff9SJared McNeill }; 164d3810ff9SJared McNeill 165d3810ff9SJared McNeill struct awg_txring { 166d3810ff9SJared McNeill bus_dma_tag_t desc_tag; 167d3810ff9SJared McNeill bus_dmamap_t desc_map; 168d3810ff9SJared McNeill struct emac_desc *desc_ring; 169d3810ff9SJared McNeill bus_addr_t desc_ring_paddr; 170d3810ff9SJared McNeill bus_dma_tag_t buf_tag; 171d3810ff9SJared McNeill struct awg_bufmap buf_map[TX_DESC_COUNT]; 172d3810ff9SJared McNeill u_int cur, next, queued; 1731ee5a3d3SEmmanuel Vadot u_int segs; 174d3810ff9SJared McNeill }; 175d3810ff9SJared McNeill 176d3810ff9SJared McNeill struct awg_rxring { 177d3810ff9SJared McNeill bus_dma_tag_t desc_tag; 178d3810ff9SJared McNeill bus_dmamap_t desc_map; 179d3810ff9SJared McNeill struct emac_desc *desc_ring; 180d3810ff9SJared McNeill bus_addr_t desc_ring_paddr; 181d3810ff9SJared McNeill bus_dma_tag_t buf_tag; 182d3810ff9SJared McNeill struct awg_bufmap buf_map[RX_DESC_COUNT]; 183bd906329SEmmanuel Vadot bus_dmamap_t buf_spare_map; 184d3810ff9SJared McNeill u_int cur; 185d3810ff9SJared McNeill }; 186d3810ff9SJared McNeill 18701a469b8SJared McNeill enum { 18801a469b8SJared McNeill _RES_EMAC, 18901a469b8SJared McNeill _RES_IRQ, 19001a469b8SJared McNeill _RES_SYSCON, 19101a469b8SJared McNeill _RES_NITEMS 19201a469b8SJared McNeill }; 19301a469b8SJared McNeill 194d3810ff9SJared McNeill struct awg_softc { 19501a469b8SJared McNeill struct resource *res[_RES_NITEMS]; 196d3810ff9SJared McNeill struct mtx mtx; 197d3810ff9SJared McNeill if_t ifp; 198031d5777SOleksandr Tymoshenko device_t dev; 199d3810ff9SJared McNeill device_t miibus; 200d3810ff9SJared McNeill struct callout stat_ch; 201d3810ff9SJared McNeill void *ih; 202d3810ff9SJared McNeill u_int mdc_div_ratio_m; 203d3810ff9SJared McNeill int link; 204d3810ff9SJared McNeill int if_flags; 20501a469b8SJared McNeill enum awg_type type; 2062defb358SKyle Evans struct syscon *syscon; 207d3810ff9SJared McNeill 208d3810ff9SJared McNeill struct awg_txring tx; 209d3810ff9SJared McNeill struct awg_rxring rx; 210d3810ff9SJared McNeill }; 211d3810ff9SJared McNeill 212d3810ff9SJared McNeill static struct resource_spec awg_spec[] = { 213d3810ff9SJared McNeill { SYS_RES_MEMORY, 0, RF_ACTIVE }, 214d3810ff9SJared McNeill { SYS_RES_IRQ, 0, RF_ACTIVE }, 21501a469b8SJared McNeill { SYS_RES_MEMORY, 1, RF_ACTIVE | RF_OPTIONAL }, 216d3810ff9SJared McNeill { -1, 0 } 217d3810ff9SJared McNeill }; 218d3810ff9SJared McNeill 2193f9ade06SEmmanuel Vadot static void awg_txeof(struct awg_softc *sc); 2203f9ade06SEmmanuel Vadot 2219a77a643SKyle Evans static int awg_parse_delay(device_t dev, uint32_t *tx_delay, 2229a77a643SKyle Evans uint32_t *rx_delay); 2232defb358SKyle Evans static uint32_t syscon_read_emac_clk_reg(device_t dev); 2242defb358SKyle Evans static void syscon_write_emac_clk_reg(device_t dev, uint32_t val); 225767754e5SKyle Evans static phandle_t awg_get_phy_node(device_t dev); 226767754e5SKyle Evans static bool awg_has_internal_phy(device_t dev); 2272defb358SKyle Evans 228d3810ff9SJared McNeill static int 229d3810ff9SJared McNeill awg_miibus_readreg(device_t dev, int phy, int reg) 230d3810ff9SJared McNeill { 231d3810ff9SJared McNeill struct awg_softc *sc; 232d3810ff9SJared McNeill int retry, val; 233d3810ff9SJared McNeill 234d3810ff9SJared McNeill sc = device_get_softc(dev); 235d3810ff9SJared McNeill val = 0; 236d3810ff9SJared McNeill 237d3810ff9SJared McNeill WR4(sc, EMAC_MII_CMD, 238d3810ff9SJared McNeill (sc->mdc_div_ratio_m << MDC_DIV_RATIO_M_SHIFT) | 239d3810ff9SJared McNeill (phy << PHY_ADDR_SHIFT) | 240d3810ff9SJared McNeill (reg << PHY_REG_ADDR_SHIFT) | 241d3810ff9SJared McNeill MII_BUSY); 242d3810ff9SJared McNeill for (retry = MII_BUSY_RETRY; retry > 0; retry--) { 243d3810ff9SJared McNeill if ((RD4(sc, EMAC_MII_CMD) & MII_BUSY) == 0) { 244d3810ff9SJared McNeill val = RD4(sc, EMAC_MII_DATA); 245d3810ff9SJared McNeill break; 246d3810ff9SJared McNeill } 247d3810ff9SJared McNeill DELAY(10); 248d3810ff9SJared McNeill } 249d3810ff9SJared McNeill 250d3810ff9SJared McNeill if (retry == 0) 251d3810ff9SJared McNeill device_printf(dev, "phy read timeout, phy=%d reg=%d\n", 252d3810ff9SJared McNeill phy, reg); 253d3810ff9SJared McNeill 254d3810ff9SJared McNeill return (val); 255d3810ff9SJared McNeill } 256d3810ff9SJared McNeill 257d3810ff9SJared McNeill static int 258d3810ff9SJared McNeill awg_miibus_writereg(device_t dev, int phy, int reg, int val) 259d3810ff9SJared McNeill { 260d3810ff9SJared McNeill struct awg_softc *sc; 261d3810ff9SJared McNeill int retry; 262d3810ff9SJared McNeill 263d3810ff9SJared McNeill sc = device_get_softc(dev); 264d3810ff9SJared McNeill 265d3810ff9SJared McNeill WR4(sc, EMAC_MII_DATA, val); 266d3810ff9SJared McNeill WR4(sc, EMAC_MII_CMD, 267d3810ff9SJared McNeill (sc->mdc_div_ratio_m << MDC_DIV_RATIO_M_SHIFT) | 268d3810ff9SJared McNeill (phy << PHY_ADDR_SHIFT) | 269d3810ff9SJared McNeill (reg << PHY_REG_ADDR_SHIFT) | 270d3810ff9SJared McNeill MII_WR | MII_BUSY); 271d3810ff9SJared McNeill for (retry = MII_BUSY_RETRY; retry > 0; retry--) { 272d3810ff9SJared McNeill if ((RD4(sc, EMAC_MII_CMD) & MII_BUSY) == 0) 273d3810ff9SJared McNeill break; 274d3810ff9SJared McNeill DELAY(10); 275d3810ff9SJared McNeill } 276d3810ff9SJared McNeill 277d3810ff9SJared McNeill if (retry == 0) 278d3810ff9SJared McNeill device_printf(dev, "phy write timeout, phy=%d reg=%d\n", 279d3810ff9SJared McNeill phy, reg); 280d3810ff9SJared McNeill 281d3810ff9SJared McNeill return (0); 282d3810ff9SJared McNeill } 283d3810ff9SJared McNeill 284d3810ff9SJared McNeill static void 285e6579433SEmmanuel Vadot awg_miibus_statchg(device_t dev) 286d3810ff9SJared McNeill { 287e6579433SEmmanuel Vadot struct awg_softc *sc; 288d3810ff9SJared McNeill struct mii_data *mii; 289d3810ff9SJared McNeill uint32_t val; 290d3810ff9SJared McNeill 291e6579433SEmmanuel Vadot sc = device_get_softc(dev); 292e6579433SEmmanuel Vadot 293d3810ff9SJared McNeill AWG_ASSERT_LOCKED(sc); 294d3810ff9SJared McNeill 295d3810ff9SJared McNeill if ((if_getdrvflags(sc->ifp) & IFF_DRV_RUNNING) == 0) 296d3810ff9SJared McNeill return; 297d3810ff9SJared McNeill mii = device_get_softc(sc->miibus); 298d3810ff9SJared McNeill 299d3810ff9SJared McNeill if ((mii->mii_media_status & (IFM_ACTIVE | IFM_AVALID)) == 300d3810ff9SJared McNeill (IFM_ACTIVE | IFM_AVALID)) { 301d3810ff9SJared McNeill switch (IFM_SUBTYPE(mii->mii_media_active)) { 302d3810ff9SJared McNeill case IFM_1000_T: 303d3810ff9SJared McNeill case IFM_1000_SX: 304d3810ff9SJared McNeill case IFM_100_TX: 305d3810ff9SJared McNeill case IFM_10_T: 306d3810ff9SJared McNeill sc->link = 1; 307d3810ff9SJared McNeill break; 308d3810ff9SJared McNeill default: 309d3810ff9SJared McNeill sc->link = 0; 310d3810ff9SJared McNeill break; 311d3810ff9SJared McNeill } 312d3810ff9SJared McNeill } else 313d3810ff9SJared McNeill sc->link = 0; 314d3810ff9SJared McNeill 315d3810ff9SJared McNeill if (sc->link == 0) 316d3810ff9SJared McNeill return; 317d3810ff9SJared McNeill 318d3810ff9SJared McNeill val = RD4(sc, EMAC_BASIC_CTL_0); 319d3810ff9SJared McNeill val &= ~(BASIC_CTL_SPEED | BASIC_CTL_DUPLEX); 320d3810ff9SJared McNeill 321d3810ff9SJared McNeill if (IFM_SUBTYPE(mii->mii_media_active) == IFM_1000_T || 322d3810ff9SJared McNeill IFM_SUBTYPE(mii->mii_media_active) == IFM_1000_SX) 323d3810ff9SJared McNeill val |= BASIC_CTL_SPEED_1000 << BASIC_CTL_SPEED_SHIFT; 324d3810ff9SJared McNeill else if (IFM_SUBTYPE(mii->mii_media_active) == IFM_100_TX) 325d3810ff9SJared McNeill val |= BASIC_CTL_SPEED_100 << BASIC_CTL_SPEED_SHIFT; 326d3810ff9SJared McNeill else 327d3810ff9SJared McNeill val |= BASIC_CTL_SPEED_10 << BASIC_CTL_SPEED_SHIFT; 328d3810ff9SJared McNeill 329d3810ff9SJared McNeill if ((IFM_OPTIONS(mii->mii_media_active) & IFM_FDX) != 0) 330d3810ff9SJared McNeill val |= BASIC_CTL_DUPLEX; 331d3810ff9SJared McNeill 332d3810ff9SJared McNeill WR4(sc, EMAC_BASIC_CTL_0, val); 333d3810ff9SJared McNeill 334d3810ff9SJared McNeill val = RD4(sc, EMAC_RX_CTL_0); 335d3810ff9SJared McNeill val &= ~RX_FLOW_CTL_EN; 336d3810ff9SJared McNeill if ((IFM_OPTIONS(mii->mii_media_active) & IFM_ETH_RXPAUSE) != 0) 337d3810ff9SJared McNeill val |= RX_FLOW_CTL_EN; 338d3810ff9SJared McNeill WR4(sc, EMAC_RX_CTL_0, val); 339d3810ff9SJared McNeill 340d3810ff9SJared McNeill val = RD4(sc, EMAC_TX_FLOW_CTL); 341d3810ff9SJared McNeill val &= ~(PAUSE_TIME|TX_FLOW_CTL_EN); 342d3810ff9SJared McNeill if ((IFM_OPTIONS(mii->mii_media_active) & IFM_ETH_TXPAUSE) != 0) 343d3810ff9SJared McNeill val |= TX_FLOW_CTL_EN; 344d3810ff9SJared McNeill if ((IFM_OPTIONS(mii->mii_media_active) & IFM_FDX) != 0) 345d3810ff9SJared McNeill val |= awg_pause_time << PAUSE_TIME_SHIFT; 346d3810ff9SJared McNeill WR4(sc, EMAC_TX_FLOW_CTL, val); 347d3810ff9SJared McNeill } 348d3810ff9SJared McNeill 349d3810ff9SJared McNeill static void 350d3810ff9SJared McNeill awg_media_status(if_t ifp, struct ifmediareq *ifmr) 351d3810ff9SJared McNeill { 352d3810ff9SJared McNeill struct awg_softc *sc; 353d3810ff9SJared McNeill struct mii_data *mii; 354d3810ff9SJared McNeill 355d3810ff9SJared McNeill sc = if_getsoftc(ifp); 356d3810ff9SJared McNeill mii = device_get_softc(sc->miibus); 357d3810ff9SJared McNeill 358d3810ff9SJared McNeill AWG_LOCK(sc); 359d3810ff9SJared McNeill mii_pollstat(mii); 360d3810ff9SJared McNeill ifmr->ifm_active = mii->mii_media_active; 361d3810ff9SJared McNeill ifmr->ifm_status = mii->mii_media_status; 362d3810ff9SJared McNeill AWG_UNLOCK(sc); 363d3810ff9SJared McNeill } 364d3810ff9SJared McNeill 365d3810ff9SJared McNeill static int 366d3810ff9SJared McNeill awg_media_change(if_t ifp) 367d3810ff9SJared McNeill { 368d3810ff9SJared McNeill struct awg_softc *sc; 369d3810ff9SJared McNeill struct mii_data *mii; 370d3810ff9SJared McNeill int error; 371d3810ff9SJared McNeill 372d3810ff9SJared McNeill sc = if_getsoftc(ifp); 373d3810ff9SJared McNeill mii = device_get_softc(sc->miibus); 374d3810ff9SJared McNeill 375d3810ff9SJared McNeill AWG_LOCK(sc); 376d3810ff9SJared McNeill error = mii_mediachg(mii); 377d3810ff9SJared McNeill AWG_UNLOCK(sc); 378d3810ff9SJared McNeill 379d3810ff9SJared McNeill return (error); 380d3810ff9SJared McNeill } 381d3810ff9SJared McNeill 382d3810ff9SJared McNeill static int 383337c6940SEmmanuel Vadot awg_encap(struct awg_softc *sc, struct mbuf **mp) 384d3810ff9SJared McNeill { 385fce9d29fSEmmanuel Vadot bus_dmamap_t map; 386d3810ff9SJared McNeill bus_dma_segment_t segs[TX_MAX_SEGS]; 387fce9d29fSEmmanuel Vadot int error, nsegs, cur, first, last, i; 388d3810ff9SJared McNeill u_int csum_flags; 389c6110e75SEmmanuel Vadot uint32_t flags, status; 390d3810ff9SJared McNeill struct mbuf *m; 391d3810ff9SJared McNeill 392337c6940SEmmanuel Vadot cur = first = sc->tx.cur; 393fce9d29fSEmmanuel Vadot map = sc->tx.buf_map[first].map; 394c6110e75SEmmanuel Vadot 395d3810ff9SJared McNeill m = *mp; 396fce9d29fSEmmanuel Vadot error = bus_dmamap_load_mbuf_sg(sc->tx.buf_tag, map, m, segs, 397fce9d29fSEmmanuel Vadot &nsegs, BUS_DMA_NOWAIT); 398d3810ff9SJared McNeill if (error == EFBIG) { 399d3810ff9SJared McNeill m = m_collapse(m, M_NOWAIT, TX_MAX_SEGS); 400031d5777SOleksandr Tymoshenko if (m == NULL) { 401337c6940SEmmanuel Vadot device_printf(sc->dev, "awg_encap: m_collapse failed\n"); 402337c6940SEmmanuel Vadot m_freem(*mp); 403337c6940SEmmanuel Vadot *mp = NULL; 404337c6940SEmmanuel Vadot return (ENOMEM); 405031d5777SOleksandr Tymoshenko } 406d3810ff9SJared McNeill *mp = m; 407fce9d29fSEmmanuel Vadot error = bus_dmamap_load_mbuf_sg(sc->tx.buf_tag, map, m, 408fce9d29fSEmmanuel Vadot segs, &nsegs, BUS_DMA_NOWAIT); 409337c6940SEmmanuel Vadot if (error != 0) { 410337c6940SEmmanuel Vadot m_freem(*mp); 411337c6940SEmmanuel Vadot *mp = NULL; 412337c6940SEmmanuel Vadot } 413d3810ff9SJared McNeill } 414031d5777SOleksandr Tymoshenko if (error != 0) { 415337c6940SEmmanuel Vadot device_printf(sc->dev, "awg_encap: bus_dmamap_load_mbuf_sg failed\n"); 416337c6940SEmmanuel Vadot return (error); 417337c6940SEmmanuel Vadot } 418337c6940SEmmanuel Vadot if (nsegs == 0) { 419337c6940SEmmanuel Vadot m_freem(*mp); 420337c6940SEmmanuel Vadot *mp = NULL; 421337c6940SEmmanuel Vadot return (EIO); 422337c6940SEmmanuel Vadot } 423337c6940SEmmanuel Vadot 424337c6940SEmmanuel Vadot if (sc->tx.queued + nsegs > TX_DESC_COUNT) { 425337c6940SEmmanuel Vadot bus_dmamap_unload(sc->tx.buf_tag, map); 426337c6940SEmmanuel Vadot return (ENOBUFS); 427031d5777SOleksandr Tymoshenko } 428d3810ff9SJared McNeill 429fce9d29fSEmmanuel Vadot bus_dmamap_sync(sc->tx.buf_tag, map, BUS_DMASYNC_PREWRITE); 430d3810ff9SJared McNeill 431d3810ff9SJared McNeill flags = TX_FIR_DESC; 432c6110e75SEmmanuel Vadot status = 0; 433d3810ff9SJared McNeill if ((m->m_pkthdr.csum_flags & CSUM_IP) != 0) { 434d3810ff9SJared McNeill if ((m->m_pkthdr.csum_flags & (CSUM_TCP|CSUM_UDP)) != 0) 435d3810ff9SJared McNeill csum_flags = TX_CHECKSUM_CTL_FULL; 436d3810ff9SJared McNeill else 437d3810ff9SJared McNeill csum_flags = TX_CHECKSUM_CTL_IP; 438d3810ff9SJared McNeill flags |= (csum_flags << TX_CHECKSUM_CTL_SHIFT); 439d3810ff9SJared McNeill } 440d3810ff9SJared McNeill 441c6110e75SEmmanuel Vadot for (i = 0; i < nsegs; i++) { 4421ee5a3d3SEmmanuel Vadot sc->tx.segs++; 4431ee5a3d3SEmmanuel Vadot if (i == nsegs - 1) { 444d3810ff9SJared McNeill flags |= TX_LAST_DESC; 4451ee5a3d3SEmmanuel Vadot /* 4461ee5a3d3SEmmanuel Vadot * Can only request TX completion 4471ee5a3d3SEmmanuel Vadot * interrupt on last descriptor. 4481ee5a3d3SEmmanuel Vadot */ 4491ee5a3d3SEmmanuel Vadot if (sc->tx.segs >= awg_tx_interval) { 4501ee5a3d3SEmmanuel Vadot sc->tx.segs = 0; 4511ee5a3d3SEmmanuel Vadot flags |= TX_INT_CTL; 4521ee5a3d3SEmmanuel Vadot } 4531ee5a3d3SEmmanuel Vadot } 454c6110e75SEmmanuel Vadot 455c6110e75SEmmanuel Vadot sc->tx.desc_ring[cur].addr = htole32((uint32_t)segs[i].ds_addr); 456c6110e75SEmmanuel Vadot sc->tx.desc_ring[cur].size = htole32(flags | segs[i].ds_len); 457c6110e75SEmmanuel Vadot sc->tx.desc_ring[cur].status = htole32(status); 458c6110e75SEmmanuel Vadot 459d3810ff9SJared McNeill flags &= ~TX_FIR_DESC; 460c6110e75SEmmanuel Vadot /* 461c6110e75SEmmanuel Vadot * Setting of the valid bit in the first descriptor is 462c6110e75SEmmanuel Vadot * deferred until the whole chain is fully set up. 463c6110e75SEmmanuel Vadot */ 464c6110e75SEmmanuel Vadot status = TX_DESC_CTL; 465c6110e75SEmmanuel Vadot 466c6110e75SEmmanuel Vadot ++sc->tx.queued; 467d3810ff9SJared McNeill cur = TX_NEXT(cur); 468d3810ff9SJared McNeill } 469d3810ff9SJared McNeill 470337c6940SEmmanuel Vadot sc->tx.cur = cur; 471337c6940SEmmanuel Vadot 472fce9d29fSEmmanuel Vadot /* Store mapping and mbuf in the last segment */ 473fce9d29fSEmmanuel Vadot last = TX_SKIP(cur, TX_DESC_COUNT - 1); 474fce9d29fSEmmanuel Vadot sc->tx.buf_map[first].map = sc->tx.buf_map[last].map; 475fce9d29fSEmmanuel Vadot sc->tx.buf_map[last].map = map; 476fce9d29fSEmmanuel Vadot sc->tx.buf_map[last].mbuf = m; 477c6110e75SEmmanuel Vadot 478c6110e75SEmmanuel Vadot /* 479c6110e75SEmmanuel Vadot * The whole mbuf chain has been DMA mapped, 480c6110e75SEmmanuel Vadot * fix the first descriptor. 481c6110e75SEmmanuel Vadot */ 482c6110e75SEmmanuel Vadot sc->tx.desc_ring[first].status = htole32(TX_DESC_CTL); 483c6110e75SEmmanuel Vadot 484337c6940SEmmanuel Vadot return (0); 485d3810ff9SJared McNeill } 486d3810ff9SJared McNeill 487d3810ff9SJared McNeill static void 488c6110e75SEmmanuel Vadot awg_clean_txbuf(struct awg_softc *sc, int index) 489c6110e75SEmmanuel Vadot { 490c6110e75SEmmanuel Vadot struct awg_bufmap *bmap; 491c6110e75SEmmanuel Vadot 492c6110e75SEmmanuel Vadot --sc->tx.queued; 493c6110e75SEmmanuel Vadot 494c6110e75SEmmanuel Vadot bmap = &sc->tx.buf_map[index]; 495c6110e75SEmmanuel Vadot if (bmap->mbuf != NULL) { 496c6110e75SEmmanuel Vadot bus_dmamap_sync(sc->tx.buf_tag, bmap->map, 497c6110e75SEmmanuel Vadot BUS_DMASYNC_POSTWRITE); 498c6110e75SEmmanuel Vadot bus_dmamap_unload(sc->tx.buf_tag, bmap->map); 499c6110e75SEmmanuel Vadot m_freem(bmap->mbuf); 500c6110e75SEmmanuel Vadot bmap->mbuf = NULL; 501c6110e75SEmmanuel Vadot } 502c6110e75SEmmanuel Vadot } 503c6110e75SEmmanuel Vadot 504c6110e75SEmmanuel Vadot static void 505d3810ff9SJared McNeill awg_setup_rxdesc(struct awg_softc *sc, int index, bus_addr_t paddr) 506d3810ff9SJared McNeill { 507d3810ff9SJared McNeill uint32_t status, size; 508d3810ff9SJared McNeill 509d3810ff9SJared McNeill status = RX_DESC_CTL; 510d3810ff9SJared McNeill size = MCLBYTES - 1; 511d3810ff9SJared McNeill 512d3810ff9SJared McNeill sc->rx.desc_ring[index].addr = htole32((uint32_t)paddr); 513d3810ff9SJared McNeill sc->rx.desc_ring[index].size = htole32(size); 514d3810ff9SJared McNeill sc->rx.desc_ring[index].status = htole32(status); 515d3810ff9SJared McNeill } 516d3810ff9SJared McNeill 517bd906329SEmmanuel Vadot static void 518bd906329SEmmanuel Vadot awg_reuse_rxdesc(struct awg_softc *sc, int index) 519d3810ff9SJared McNeill { 520d3810ff9SJared McNeill 521bd906329SEmmanuel Vadot sc->rx.desc_ring[index].status = htole32(RX_DESC_CTL); 522bd906329SEmmanuel Vadot } 523bd906329SEmmanuel Vadot 524bd906329SEmmanuel Vadot static int 525bd906329SEmmanuel Vadot awg_newbuf_rx(struct awg_softc *sc, int index) 526bd906329SEmmanuel Vadot { 527bd906329SEmmanuel Vadot struct mbuf *m; 528bd906329SEmmanuel Vadot bus_dma_segment_t seg; 529bd906329SEmmanuel Vadot bus_dmamap_t map; 530bd906329SEmmanuel Vadot int nsegs; 531bd906329SEmmanuel Vadot 532bd906329SEmmanuel Vadot m = m_getcl(M_NOWAIT, MT_DATA, M_PKTHDR); 533bd906329SEmmanuel Vadot if (m == NULL) 534bd906329SEmmanuel Vadot return (ENOBUFS); 535bd906329SEmmanuel Vadot 536bd906329SEmmanuel Vadot m->m_pkthdr.len = m->m_len = m->m_ext.ext_size; 537d3810ff9SJared McNeill m_adj(m, ETHER_ALIGN); 538d3810ff9SJared McNeill 539bd906329SEmmanuel Vadot if (bus_dmamap_load_mbuf_sg(sc->rx.buf_tag, sc->rx.buf_spare_map, 540bd906329SEmmanuel Vadot m, &seg, &nsegs, BUS_DMA_NOWAIT) != 0) { 541bd906329SEmmanuel Vadot m_freem(m); 542bd906329SEmmanuel Vadot return (ENOBUFS); 543bd906329SEmmanuel Vadot } 544d3810ff9SJared McNeill 545bd906329SEmmanuel Vadot if (sc->rx.buf_map[index].mbuf != NULL) { 546bd906329SEmmanuel Vadot bus_dmamap_sync(sc->rx.buf_tag, sc->rx.buf_map[index].map, 547bd906329SEmmanuel Vadot BUS_DMASYNC_POSTREAD); 548bd906329SEmmanuel Vadot bus_dmamap_unload(sc->rx.buf_tag, sc->rx.buf_map[index].map); 549bd906329SEmmanuel Vadot } 550bd906329SEmmanuel Vadot map = sc->rx.buf_map[index].map; 551bd906329SEmmanuel Vadot sc->rx.buf_map[index].map = sc->rx.buf_spare_map; 552bd906329SEmmanuel Vadot sc->rx.buf_spare_map = map; 553d3810ff9SJared McNeill bus_dmamap_sync(sc->rx.buf_tag, sc->rx.buf_map[index].map, 554d3810ff9SJared McNeill BUS_DMASYNC_PREREAD); 555d3810ff9SJared McNeill 556d3810ff9SJared McNeill sc->rx.buf_map[index].mbuf = m; 557d3810ff9SJared McNeill awg_setup_rxdesc(sc, index, seg.ds_addr); 558d3810ff9SJared McNeill 559d3810ff9SJared McNeill return (0); 560d3810ff9SJared McNeill } 561d3810ff9SJared McNeill 562d3810ff9SJared McNeill static void 563d3810ff9SJared McNeill awg_start_locked(struct awg_softc *sc) 564d3810ff9SJared McNeill { 565d3810ff9SJared McNeill struct mbuf *m; 566d3810ff9SJared McNeill uint32_t val; 567d3810ff9SJared McNeill if_t ifp; 568337c6940SEmmanuel Vadot int cnt, err; 569d3810ff9SJared McNeill 570d3810ff9SJared McNeill AWG_ASSERT_LOCKED(sc); 571d3810ff9SJared McNeill 572d3810ff9SJared McNeill if (!sc->link) 573d3810ff9SJared McNeill return; 574d3810ff9SJared McNeill 575d3810ff9SJared McNeill ifp = sc->ifp; 576d3810ff9SJared McNeill 577d3810ff9SJared McNeill if ((if_getdrvflags(ifp) & (IFF_DRV_RUNNING|IFF_DRV_OACTIVE)) != 578d3810ff9SJared McNeill IFF_DRV_RUNNING) 579d3810ff9SJared McNeill return; 580d3810ff9SJared McNeill 581d3810ff9SJared McNeill for (cnt = 0; ; cnt++) { 582d3810ff9SJared McNeill m = if_dequeue(ifp); 583d3810ff9SJared McNeill if (m == NULL) 584d3810ff9SJared McNeill break; 585d3810ff9SJared McNeill 586337c6940SEmmanuel Vadot err = awg_encap(sc, &m); 587337c6940SEmmanuel Vadot if (err != 0) { 588337c6940SEmmanuel Vadot if (err == ENOBUFS) 589337c6940SEmmanuel Vadot if_setdrvflagbits(ifp, IFF_DRV_OACTIVE, 0); 590337c6940SEmmanuel Vadot if (m != NULL) 591d3810ff9SJared McNeill if_sendq_prepend(ifp, m); 592d3810ff9SJared McNeill break; 593d3810ff9SJared McNeill } 594d3810ff9SJared McNeill if_bpfmtap(ifp, m); 595d3810ff9SJared McNeill } 596d3810ff9SJared McNeill 597d3810ff9SJared McNeill if (cnt != 0) { 598d3810ff9SJared McNeill bus_dmamap_sync(sc->tx.desc_tag, sc->tx.desc_map, 599d3810ff9SJared McNeill BUS_DMASYNC_PREREAD|BUS_DMASYNC_PREWRITE); 600d3810ff9SJared McNeill 601d3810ff9SJared McNeill /* Start and run TX DMA */ 602d3810ff9SJared McNeill val = RD4(sc, EMAC_TX_CTL_1); 603d3810ff9SJared McNeill WR4(sc, EMAC_TX_CTL_1, val | TX_DMA_START); 604d3810ff9SJared McNeill } 605d3810ff9SJared McNeill } 606d3810ff9SJared McNeill 607d3810ff9SJared McNeill static void 608d3810ff9SJared McNeill awg_start(if_t ifp) 609d3810ff9SJared McNeill { 610d3810ff9SJared McNeill struct awg_softc *sc; 611d3810ff9SJared McNeill 612d3810ff9SJared McNeill sc = if_getsoftc(ifp); 613d3810ff9SJared McNeill 614d3810ff9SJared McNeill AWG_LOCK(sc); 615d3810ff9SJared McNeill awg_start_locked(sc); 616d3810ff9SJared McNeill AWG_UNLOCK(sc); 617d3810ff9SJared McNeill } 618d3810ff9SJared McNeill 619d3810ff9SJared McNeill static void 620d3810ff9SJared McNeill awg_tick(void *softc) 621d3810ff9SJared McNeill { 622d3810ff9SJared McNeill struct awg_softc *sc; 623d3810ff9SJared McNeill struct mii_data *mii; 624d3810ff9SJared McNeill if_t ifp; 625d3810ff9SJared McNeill int link; 626d3810ff9SJared McNeill 627d3810ff9SJared McNeill sc = softc; 628d3810ff9SJared McNeill ifp = sc->ifp; 629d3810ff9SJared McNeill mii = device_get_softc(sc->miibus); 630d3810ff9SJared McNeill 631d3810ff9SJared McNeill AWG_ASSERT_LOCKED(sc); 632d3810ff9SJared McNeill 633d3810ff9SJared McNeill if ((if_getdrvflags(ifp) & IFF_DRV_RUNNING) == 0) 634d3810ff9SJared McNeill return; 635d3810ff9SJared McNeill 636d3810ff9SJared McNeill link = sc->link; 637d3810ff9SJared McNeill mii_tick(mii); 638d3810ff9SJared McNeill if (sc->link && !link) 639d3810ff9SJared McNeill awg_start_locked(sc); 640d3810ff9SJared McNeill 641d3810ff9SJared McNeill callout_reset(&sc->stat_ch, hz, awg_tick, sc); 642d3810ff9SJared McNeill } 643d3810ff9SJared McNeill 644d3810ff9SJared McNeill /* Bit Reversal - http://aggregate.org/MAGIC/#Bit%20Reversal */ 645d3810ff9SJared McNeill static uint32_t 646d3810ff9SJared McNeill bitrev32(uint32_t x) 647d3810ff9SJared McNeill { 648d3810ff9SJared McNeill x = (((x & 0xaaaaaaaa) >> 1) | ((x & 0x55555555) << 1)); 649d3810ff9SJared McNeill x = (((x & 0xcccccccc) >> 2) | ((x & 0x33333333) << 2)); 650d3810ff9SJared McNeill x = (((x & 0xf0f0f0f0) >> 4) | ((x & 0x0f0f0f0f) << 4)); 651d3810ff9SJared McNeill x = (((x & 0xff00ff00) >> 8) | ((x & 0x00ff00ff) << 8)); 652d3810ff9SJared McNeill 653d3810ff9SJared McNeill return (x >> 16) | (x << 16); 654d3810ff9SJared McNeill } 655d3810ff9SJared McNeill 65645193b43SGleb Smirnoff static u_int 65745193b43SGleb Smirnoff awg_hash_maddr(void *arg, struct sockaddr_dl *sdl, u_int cnt) 65845193b43SGleb Smirnoff { 65945193b43SGleb Smirnoff uint32_t crc, hashreg, hashbit, *hash = arg; 66045193b43SGleb Smirnoff 66145193b43SGleb Smirnoff crc = ether_crc32_le(LLADDR(sdl), ETHER_ADDR_LEN) & 0x7f; 66245193b43SGleb Smirnoff crc = bitrev32(~crc) >> 26; 66345193b43SGleb Smirnoff hashreg = (crc >> 5); 66445193b43SGleb Smirnoff hashbit = (crc & 0x1f); 66545193b43SGleb Smirnoff hash[hashreg] |= (1 << hashbit); 66645193b43SGleb Smirnoff 66745193b43SGleb Smirnoff return (1); 66845193b43SGleb Smirnoff } 66945193b43SGleb Smirnoff 670d3810ff9SJared McNeill static void 671d3810ff9SJared McNeill awg_setup_rxfilter(struct awg_softc *sc) 672d3810ff9SJared McNeill { 67345193b43SGleb Smirnoff uint32_t val, hash[2], machi, maclo; 67445193b43SGleb Smirnoff uint8_t *eaddr; 675d3810ff9SJared McNeill if_t ifp; 676d3810ff9SJared McNeill 677d3810ff9SJared McNeill AWG_ASSERT_LOCKED(sc); 678d3810ff9SJared McNeill 679d3810ff9SJared McNeill ifp = sc->ifp; 680d3810ff9SJared McNeill val = 0; 681d3810ff9SJared McNeill hash[0] = hash[1] = 0; 682d3810ff9SJared McNeill 683d3810ff9SJared McNeill if (if_getflags(ifp) & IFF_PROMISC) 684d3810ff9SJared McNeill val |= DIS_ADDR_FILTER; 685d3810ff9SJared McNeill else if (if_getflags(ifp) & IFF_ALLMULTI) { 686d3810ff9SJared McNeill val |= RX_ALL_MULTICAST; 687d3810ff9SJared McNeill hash[0] = hash[1] = ~0; 68845193b43SGleb Smirnoff } else if (if_foreach_llmaddr(ifp, awg_hash_maddr, hash) > 0) 689d3810ff9SJared McNeill val |= HASH_MULTICAST; 690d3810ff9SJared McNeill 691d3810ff9SJared McNeill /* Write our unicast address */ 692d3810ff9SJared McNeill eaddr = IF_LLADDR(ifp); 693d3810ff9SJared McNeill machi = (eaddr[5] << 8) | eaddr[4]; 694d3810ff9SJared McNeill maclo = (eaddr[3] << 24) | (eaddr[2] << 16) | (eaddr[1] << 8) | 695d3810ff9SJared McNeill (eaddr[0] << 0); 696d3810ff9SJared McNeill WR4(sc, EMAC_ADDR_HIGH(0), machi); 697d3810ff9SJared McNeill WR4(sc, EMAC_ADDR_LOW(0), maclo); 698d3810ff9SJared McNeill 699d3810ff9SJared McNeill /* Multicast hash filters */ 700d3810ff9SJared McNeill WR4(sc, EMAC_RX_HASH_0, hash[1]); 701d3810ff9SJared McNeill WR4(sc, EMAC_RX_HASH_1, hash[0]); 702d3810ff9SJared McNeill 703d3810ff9SJared McNeill /* RX frame filter config */ 704d3810ff9SJared McNeill WR4(sc, EMAC_RX_FRM_FLT, val); 705d3810ff9SJared McNeill } 706d3810ff9SJared McNeill 707d3810ff9SJared McNeill static void 708612a1b8dSEmmanuel Vadot awg_setup_core(struct awg_softc *sc) 709612a1b8dSEmmanuel Vadot { 710612a1b8dSEmmanuel Vadot uint32_t val; 711612a1b8dSEmmanuel Vadot 712612a1b8dSEmmanuel Vadot AWG_ASSERT_LOCKED(sc); 713612a1b8dSEmmanuel Vadot /* Configure DMA burst length and priorities */ 714612a1b8dSEmmanuel Vadot val = awg_burst_len << BASIC_CTL_BURST_LEN_SHIFT; 715612a1b8dSEmmanuel Vadot if (awg_rx_tx_pri) 716612a1b8dSEmmanuel Vadot val |= BASIC_CTL_RX_TX_PRI; 717612a1b8dSEmmanuel Vadot WR4(sc, EMAC_BASIC_CTL_1, val); 718612a1b8dSEmmanuel Vadot 719612a1b8dSEmmanuel Vadot } 720612a1b8dSEmmanuel Vadot 721612a1b8dSEmmanuel Vadot static void 722*16790d8fSEmmanuel Vadot awg_enable_mac(struct awg_softc *sc, bool enable) 723*16790d8fSEmmanuel Vadot { 724*16790d8fSEmmanuel Vadot uint32_t tx, rx; 725*16790d8fSEmmanuel Vadot 726*16790d8fSEmmanuel Vadot AWG_ASSERT_LOCKED(sc); 727*16790d8fSEmmanuel Vadot 728*16790d8fSEmmanuel Vadot tx = RD4(sc, EMAC_TX_CTL_0); 729*16790d8fSEmmanuel Vadot rx = RD4(sc, EMAC_RX_CTL_0); 730*16790d8fSEmmanuel Vadot if (enable) { 731*16790d8fSEmmanuel Vadot tx |= TX_EN; 732*16790d8fSEmmanuel Vadot rx |= RX_EN | CHECK_CRC; 733*16790d8fSEmmanuel Vadot } else { 734*16790d8fSEmmanuel Vadot tx &= ~TX_EN; 735*16790d8fSEmmanuel Vadot rx &= ~(RX_EN | CHECK_CRC); 736*16790d8fSEmmanuel Vadot } 737*16790d8fSEmmanuel Vadot 738*16790d8fSEmmanuel Vadot WR4(sc, EMAC_TX_CTL_0, tx); 739*16790d8fSEmmanuel Vadot WR4(sc, EMAC_RX_CTL_0, rx); 740*16790d8fSEmmanuel Vadot } 741*16790d8fSEmmanuel Vadot 742*16790d8fSEmmanuel Vadot 743*16790d8fSEmmanuel Vadot static void 744612a1b8dSEmmanuel Vadot awg_enable_dma_intr(struct awg_softc *sc) 74516928528SJared McNeill { 74616928528SJared McNeill /* Enable interrupts */ 74716928528SJared McNeill WR4(sc, EMAC_INT_EN, RX_INT_EN | TX_INT_EN | TX_BUF_UA_INT_EN); 74816928528SJared McNeill } 74916928528SJared McNeill 75016928528SJared McNeill static void 751612a1b8dSEmmanuel Vadot awg_disable_dma_intr(struct awg_softc *sc) 75216928528SJared McNeill { 75316928528SJared McNeill /* Disable interrupts */ 75416928528SJared McNeill WR4(sc, EMAC_INT_EN, 0); 75516928528SJared McNeill } 75616928528SJared McNeill 75716928528SJared McNeill static void 758612a1b8dSEmmanuel Vadot awg_init_dma(struct awg_softc *sc) 759612a1b8dSEmmanuel Vadot { 760612a1b8dSEmmanuel Vadot uint32_t val; 761612a1b8dSEmmanuel Vadot 762612a1b8dSEmmanuel Vadot AWG_ASSERT_LOCKED(sc); 763612a1b8dSEmmanuel Vadot 764612a1b8dSEmmanuel Vadot /* Enable interrupts */ 765612a1b8dSEmmanuel Vadot #ifdef DEVICE_POLLING 766612a1b8dSEmmanuel Vadot if ((if_getcapenable(sc->ifp) & IFCAP_POLLING) == 0) 767612a1b8dSEmmanuel Vadot awg_enable_dma_intr(sc); 768612a1b8dSEmmanuel Vadot else 769612a1b8dSEmmanuel Vadot awg_disable_dma_intr(sc); 770612a1b8dSEmmanuel Vadot #else 771612a1b8dSEmmanuel Vadot awg_enable_dma_intr(sc); 772612a1b8dSEmmanuel Vadot #endif 773612a1b8dSEmmanuel Vadot 774612a1b8dSEmmanuel Vadot /* Enable transmit DMA */ 775612a1b8dSEmmanuel Vadot val = RD4(sc, EMAC_TX_CTL_1); 776612a1b8dSEmmanuel Vadot WR4(sc, EMAC_TX_CTL_1, val | TX_DMA_EN | TX_MD | TX_NEXT_FRAME); 777612a1b8dSEmmanuel Vadot 778612a1b8dSEmmanuel Vadot /* Enable receive DMA */ 779612a1b8dSEmmanuel Vadot val = RD4(sc, EMAC_RX_CTL_1); 780612a1b8dSEmmanuel Vadot WR4(sc, EMAC_RX_CTL_1, val | RX_DMA_EN | RX_MD); 781612a1b8dSEmmanuel Vadot } 782612a1b8dSEmmanuel Vadot 783612a1b8dSEmmanuel Vadot static void 784d3810ff9SJared McNeill awg_init_locked(struct awg_softc *sc) 785d3810ff9SJared McNeill { 786d3810ff9SJared McNeill struct mii_data *mii; 787d3810ff9SJared McNeill if_t ifp; 788d3810ff9SJared McNeill 789d3810ff9SJared McNeill mii = device_get_softc(sc->miibus); 790d3810ff9SJared McNeill ifp = sc->ifp; 791d3810ff9SJared McNeill 792d3810ff9SJared McNeill AWG_ASSERT_LOCKED(sc); 793d3810ff9SJared McNeill 794d3810ff9SJared McNeill if (if_getdrvflags(ifp) & IFF_DRV_RUNNING) 795d3810ff9SJared McNeill return; 796d3810ff9SJared McNeill 797d3810ff9SJared McNeill awg_setup_rxfilter(sc); 798612a1b8dSEmmanuel Vadot awg_setup_core(sc); 799*16790d8fSEmmanuel Vadot awg_enable_mac(sc, true); 800612a1b8dSEmmanuel Vadot awg_init_dma(sc); 801d3810ff9SJared McNeill 802d3810ff9SJared McNeill if_setdrvflagbits(ifp, IFF_DRV_RUNNING, IFF_DRV_OACTIVE); 803d3810ff9SJared McNeill 804d3810ff9SJared McNeill mii_mediachg(mii); 805d3810ff9SJared McNeill callout_reset(&sc->stat_ch, hz, awg_tick, sc); 806d3810ff9SJared McNeill } 807d3810ff9SJared McNeill 808d3810ff9SJared McNeill static void 809d3810ff9SJared McNeill awg_init(void *softc) 810d3810ff9SJared McNeill { 811d3810ff9SJared McNeill struct awg_softc *sc; 812d3810ff9SJared McNeill 813d3810ff9SJared McNeill sc = softc; 814d3810ff9SJared McNeill 815d3810ff9SJared McNeill AWG_LOCK(sc); 816d3810ff9SJared McNeill awg_init_locked(sc); 817d3810ff9SJared McNeill AWG_UNLOCK(sc); 818d3810ff9SJared McNeill } 819d3810ff9SJared McNeill 820d3810ff9SJared McNeill static void 821d3810ff9SJared McNeill awg_stop(struct awg_softc *sc) 822d3810ff9SJared McNeill { 823d3810ff9SJared McNeill if_t ifp; 824d3810ff9SJared McNeill uint32_t val; 8253f9ade06SEmmanuel Vadot int i; 826d3810ff9SJared McNeill 827d3810ff9SJared McNeill AWG_ASSERT_LOCKED(sc); 828d3810ff9SJared McNeill 829d3810ff9SJared McNeill ifp = sc->ifp; 830d3810ff9SJared McNeill 831d3810ff9SJared McNeill callout_stop(&sc->stat_ch); 832d3810ff9SJared McNeill 833d3810ff9SJared McNeill /* Stop transmit DMA and flush data in the TX FIFO */ 834d3810ff9SJared McNeill val = RD4(sc, EMAC_TX_CTL_1); 835d3810ff9SJared McNeill val &= ~TX_DMA_EN; 836d3810ff9SJared McNeill val |= FLUSH_TX_FIFO; 837d3810ff9SJared McNeill WR4(sc, EMAC_TX_CTL_1, val); 838d3810ff9SJared McNeill 839*16790d8fSEmmanuel Vadot awg_enable_mac(sc, false); 840d3810ff9SJared McNeill 841d3810ff9SJared McNeill /* Disable interrupts */ 842612a1b8dSEmmanuel Vadot awg_disable_dma_intr(sc); 843d3810ff9SJared McNeill 844d3810ff9SJared McNeill /* Disable transmit DMA */ 845d3810ff9SJared McNeill val = RD4(sc, EMAC_TX_CTL_1); 846d3810ff9SJared McNeill WR4(sc, EMAC_TX_CTL_1, val & ~TX_DMA_EN); 847d3810ff9SJared McNeill 848d3810ff9SJared McNeill /* Disable receive DMA */ 849d3810ff9SJared McNeill val = RD4(sc, EMAC_RX_CTL_1); 850d3810ff9SJared McNeill WR4(sc, EMAC_RX_CTL_1, val & ~RX_DMA_EN); 851d3810ff9SJared McNeill 852d3810ff9SJared McNeill sc->link = 0; 853d3810ff9SJared McNeill 8543f9ade06SEmmanuel Vadot /* Finish handling transmitted buffers */ 8553f9ade06SEmmanuel Vadot awg_txeof(sc); 8563f9ade06SEmmanuel Vadot 8573f9ade06SEmmanuel Vadot /* Release any untransmitted buffers. */ 8583f9ade06SEmmanuel Vadot for (i = sc->tx.next; sc->tx.queued > 0; i = TX_NEXT(i)) { 8593f9ade06SEmmanuel Vadot val = le32toh(sc->tx.desc_ring[i].status); 8603f9ade06SEmmanuel Vadot if ((val & TX_DESC_CTL) != 0) 8613f9ade06SEmmanuel Vadot break; 8623f9ade06SEmmanuel Vadot awg_clean_txbuf(sc, i); 8633f9ade06SEmmanuel Vadot } 8643f9ade06SEmmanuel Vadot sc->tx.next = i; 8653f9ade06SEmmanuel Vadot for (; sc->tx.queued > 0; i = TX_NEXT(i)) { 8663f9ade06SEmmanuel Vadot sc->tx.desc_ring[i].status = 0; 8673f9ade06SEmmanuel Vadot awg_clean_txbuf(sc, i); 8683f9ade06SEmmanuel Vadot } 8693f9ade06SEmmanuel Vadot sc->tx.cur = sc->tx.next; 8703f9ade06SEmmanuel Vadot bus_dmamap_sync(sc->tx.desc_tag, sc->tx.desc_map, 8713f9ade06SEmmanuel Vadot BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); 8723f9ade06SEmmanuel Vadot 8733f9ade06SEmmanuel Vadot /* Setup RX buffers for reuse */ 8743f9ade06SEmmanuel Vadot bus_dmamap_sync(sc->rx.desc_tag, sc->rx.desc_map, 8753f9ade06SEmmanuel Vadot BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE); 8763f9ade06SEmmanuel Vadot 8773f9ade06SEmmanuel Vadot for (i = sc->rx.cur; ; i = RX_NEXT(i)) { 8783f9ade06SEmmanuel Vadot val = le32toh(sc->rx.desc_ring[i].status); 8793f9ade06SEmmanuel Vadot if ((val & RX_DESC_CTL) != 0) 8803f9ade06SEmmanuel Vadot break; 8813f9ade06SEmmanuel Vadot awg_reuse_rxdesc(sc, i); 8823f9ade06SEmmanuel Vadot } 8833f9ade06SEmmanuel Vadot sc->rx.cur = i; 8843f9ade06SEmmanuel Vadot bus_dmamap_sync(sc->rx.desc_tag, sc->rx.desc_map, 8853f9ade06SEmmanuel Vadot BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); 8863f9ade06SEmmanuel Vadot 887d3810ff9SJared McNeill if_setdrvflagbits(ifp, 0, IFF_DRV_RUNNING | IFF_DRV_OACTIVE); 888d3810ff9SJared McNeill } 889d3810ff9SJared McNeill 89016928528SJared McNeill static int 891d3810ff9SJared McNeill awg_rxintr(struct awg_softc *sc) 892d3810ff9SJared McNeill { 893d3810ff9SJared McNeill if_t ifp; 894bd906329SEmmanuel Vadot struct mbuf *m, *mh, *mt; 89516928528SJared McNeill int error, index, len, cnt, npkt; 896d3810ff9SJared McNeill uint32_t status; 897d3810ff9SJared McNeill 898d3810ff9SJared McNeill ifp = sc->ifp; 89916928528SJared McNeill mh = mt = NULL; 90016928528SJared McNeill cnt = 0; 90116928528SJared McNeill npkt = 0; 902d3810ff9SJared McNeill 903d3810ff9SJared McNeill bus_dmamap_sync(sc->rx.desc_tag, sc->rx.desc_map, 904d3810ff9SJared McNeill BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE); 905d3810ff9SJared McNeill 906d3810ff9SJared McNeill for (index = sc->rx.cur; ; index = RX_NEXT(index)) { 907d3810ff9SJared McNeill status = le32toh(sc->rx.desc_ring[index].status); 908d3810ff9SJared McNeill if ((status & RX_DESC_CTL) != 0) 909d3810ff9SJared McNeill break; 910d3810ff9SJared McNeill 911d3810ff9SJared McNeill len = (status & RX_FRM_LEN) >> RX_FRM_LEN_SHIFT; 912bd906329SEmmanuel Vadot 913bd906329SEmmanuel Vadot if (len == 0) { 914bd906329SEmmanuel Vadot if ((status & (RX_NO_ENOUGH_BUF_ERR | RX_OVERFLOW_ERR)) != 0) 915bd906329SEmmanuel Vadot if_inc_counter(ifp, IFCOUNTER_IERRORS, 1); 916bd906329SEmmanuel Vadot awg_reuse_rxdesc(sc, index); 917bd906329SEmmanuel Vadot continue; 918bd906329SEmmanuel Vadot } 919bd906329SEmmanuel Vadot 920d3810ff9SJared McNeill m = sc->rx.buf_map[index].mbuf; 921bd906329SEmmanuel Vadot 922bd906329SEmmanuel Vadot error = awg_newbuf_rx(sc, index); 923bd906329SEmmanuel Vadot if (error != 0) { 924bd906329SEmmanuel Vadot if_inc_counter(ifp, IFCOUNTER_IQDROPS, 1); 925bd906329SEmmanuel Vadot awg_reuse_rxdesc(sc, index); 926bd906329SEmmanuel Vadot continue; 927bd906329SEmmanuel Vadot } 928bd906329SEmmanuel Vadot 929d3810ff9SJared McNeill m->m_pkthdr.rcvif = ifp; 930d3810ff9SJared McNeill m->m_pkthdr.len = len; 931d3810ff9SJared McNeill m->m_len = len; 932d3810ff9SJared McNeill if_inc_counter(ifp, IFCOUNTER_IPACKETS, 1); 933d3810ff9SJared McNeill 934d3810ff9SJared McNeill if ((if_getcapenable(ifp) & IFCAP_RXCSUM) != 0 && 935d3810ff9SJared McNeill (status & RX_FRM_TYPE) != 0) { 936d3810ff9SJared McNeill m->m_pkthdr.csum_flags = CSUM_IP_CHECKED; 937d3810ff9SJared McNeill if ((status & RX_HEADER_ERR) == 0) 938d3810ff9SJared McNeill m->m_pkthdr.csum_flags |= CSUM_IP_VALID; 939d3810ff9SJared McNeill if ((status & RX_PAYLOAD_ERR) == 0) { 940d3810ff9SJared McNeill m->m_pkthdr.csum_flags |= 941d3810ff9SJared McNeill CSUM_DATA_VALID | CSUM_PSEUDO_HDR; 942d3810ff9SJared McNeill m->m_pkthdr.csum_data = 0xffff; 943d3810ff9SJared McNeill } 944d3810ff9SJared McNeill } 945d3810ff9SJared McNeill 94616928528SJared McNeill m->m_nextpkt = NULL; 94716928528SJared McNeill if (mh == NULL) 94816928528SJared McNeill mh = m; 94916928528SJared McNeill else 95016928528SJared McNeill mt->m_nextpkt = m; 95116928528SJared McNeill mt = m; 95216928528SJared McNeill ++cnt; 95316928528SJared McNeill ++npkt; 95416928528SJared McNeill 95516928528SJared McNeill if (cnt == awg_rx_batch) { 956d3810ff9SJared McNeill AWG_UNLOCK(sc); 95716928528SJared McNeill if_input(ifp, mh); 958d3810ff9SJared McNeill AWG_LOCK(sc); 95916928528SJared McNeill mh = mt = NULL; 96016928528SJared McNeill cnt = 0; 96116928528SJared McNeill } 962d3810ff9SJared McNeill } 963d3810ff9SJared McNeill 964d3810ff9SJared McNeill if (index != sc->rx.cur) { 965d3810ff9SJared McNeill bus_dmamap_sync(sc->rx.desc_tag, sc->rx.desc_map, 966bd906329SEmmanuel Vadot BUS_DMASYNC_PREREAD | BUS_DMASYNC_PREWRITE); 967d3810ff9SJared McNeill } 968d3810ff9SJared McNeill 96916928528SJared McNeill if (mh != NULL) { 97016928528SJared McNeill AWG_UNLOCK(sc); 97116928528SJared McNeill if_input(ifp, mh); 97216928528SJared McNeill AWG_LOCK(sc); 97316928528SJared McNeill } 97416928528SJared McNeill 975d3810ff9SJared McNeill sc->rx.cur = index; 97616928528SJared McNeill 97716928528SJared McNeill return (npkt); 978d3810ff9SJared McNeill } 979d3810ff9SJared McNeill 980d3810ff9SJared McNeill static void 981337c6940SEmmanuel Vadot awg_txeof(struct awg_softc *sc) 982d3810ff9SJared McNeill { 983d3810ff9SJared McNeill struct emac_desc *desc; 98409e2285cSEmmanuel Vadot uint32_t status, size; 985d3810ff9SJared McNeill if_t ifp; 986f179ed05SEmmanuel Vadot int i, prog; 987d3810ff9SJared McNeill 988d3810ff9SJared McNeill AWG_ASSERT_LOCKED(sc); 989d3810ff9SJared McNeill 990d3810ff9SJared McNeill bus_dmamap_sync(sc->tx.desc_tag, sc->tx.desc_map, 991d3810ff9SJared McNeill BUS_DMASYNC_POSTREAD | BUS_DMASYNC_POSTWRITE); 992d3810ff9SJared McNeill 993d3810ff9SJared McNeill ifp = sc->ifp; 994f179ed05SEmmanuel Vadot 995f179ed05SEmmanuel Vadot prog = 0; 996d3810ff9SJared McNeill for (i = sc->tx.next; sc->tx.queued > 0; i = TX_NEXT(i)) { 997d3810ff9SJared McNeill desc = &sc->tx.desc_ring[i]; 998d3810ff9SJared McNeill status = le32toh(desc->status); 999d3810ff9SJared McNeill if ((status & TX_DESC_CTL) != 0) 1000d3810ff9SJared McNeill break; 100109e2285cSEmmanuel Vadot size = le32toh(desc->size); 100209e2285cSEmmanuel Vadot if (size & TX_LAST_DESC) { 100309e2285cSEmmanuel Vadot if ((status & (TX_HEADER_ERR | TX_PAYLOAD_ERR)) != 0) 100409e2285cSEmmanuel Vadot if_inc_counter(ifp, IFCOUNTER_OERRORS, 1); 100509e2285cSEmmanuel Vadot else 100609e2285cSEmmanuel Vadot if_inc_counter(ifp, IFCOUNTER_OPACKETS, 1); 100709e2285cSEmmanuel Vadot } 1008f179ed05SEmmanuel Vadot prog++; 1009c6110e75SEmmanuel Vadot awg_clean_txbuf(sc, i); 1010d3810ff9SJared McNeill } 1011d3810ff9SJared McNeill 1012f179ed05SEmmanuel Vadot if (prog > 0) { 1013d3810ff9SJared McNeill sc->tx.next = i; 1014f179ed05SEmmanuel Vadot if_setdrvflagbits(ifp, 0, IFF_DRV_OACTIVE); 1015f179ed05SEmmanuel Vadot } 1016d3810ff9SJared McNeill } 1017d3810ff9SJared McNeill 1018d3810ff9SJared McNeill static void 1019d3810ff9SJared McNeill awg_intr(void *arg) 1020d3810ff9SJared McNeill { 1021d3810ff9SJared McNeill struct awg_softc *sc; 1022d3810ff9SJared McNeill uint32_t val; 1023d3810ff9SJared McNeill 1024d3810ff9SJared McNeill sc = arg; 1025d3810ff9SJared McNeill 1026d3810ff9SJared McNeill AWG_LOCK(sc); 1027d3810ff9SJared McNeill val = RD4(sc, EMAC_INT_STA); 1028d3810ff9SJared McNeill WR4(sc, EMAC_INT_STA, val); 1029d3810ff9SJared McNeill 1030d3810ff9SJared McNeill if (val & RX_INT) 1031d3810ff9SJared McNeill awg_rxintr(sc); 1032d3810ff9SJared McNeill 10330d2abe1eSEmmanuel Vadot if (val & TX_INT) 1034337c6940SEmmanuel Vadot awg_txeof(sc); 10350d2abe1eSEmmanuel Vadot 10360d2abe1eSEmmanuel Vadot if (val & (TX_INT | TX_BUF_UA_INT)) { 1037d3810ff9SJared McNeill if (!if_sendq_empty(sc->ifp)) 1038d3810ff9SJared McNeill awg_start_locked(sc); 1039d3810ff9SJared McNeill } 1040d3810ff9SJared McNeill 1041d3810ff9SJared McNeill AWG_UNLOCK(sc); 1042d3810ff9SJared McNeill } 1043d3810ff9SJared McNeill 104416928528SJared McNeill #ifdef DEVICE_POLLING 104516928528SJared McNeill static int 104616928528SJared McNeill awg_poll(if_t ifp, enum poll_cmd cmd, int count) 104716928528SJared McNeill { 104816928528SJared McNeill struct awg_softc *sc; 104916928528SJared McNeill uint32_t val; 105016928528SJared McNeill int rx_npkts; 105116928528SJared McNeill 105216928528SJared McNeill sc = if_getsoftc(ifp); 105316928528SJared McNeill rx_npkts = 0; 105416928528SJared McNeill 105516928528SJared McNeill AWG_LOCK(sc); 105616928528SJared McNeill 105716928528SJared McNeill if ((if_getdrvflags(ifp) & IFF_DRV_RUNNING) == 0) { 105816928528SJared McNeill AWG_UNLOCK(sc); 105916928528SJared McNeill return (0); 106016928528SJared McNeill } 106116928528SJared McNeill 106216928528SJared McNeill rx_npkts = awg_rxintr(sc); 1063337c6940SEmmanuel Vadot awg_txeof(sc); 106416928528SJared McNeill if (!if_sendq_empty(ifp)) 106516928528SJared McNeill awg_start_locked(sc); 106616928528SJared McNeill 106716928528SJared McNeill if (cmd == POLL_AND_CHECK_STATUS) { 106816928528SJared McNeill val = RD4(sc, EMAC_INT_STA); 106916928528SJared McNeill if (val != 0) 107016928528SJared McNeill WR4(sc, EMAC_INT_STA, val); 107116928528SJared McNeill } 107216928528SJared McNeill 107316928528SJared McNeill AWG_UNLOCK(sc); 107416928528SJared McNeill 107516928528SJared McNeill return (rx_npkts); 107616928528SJared McNeill } 107716928528SJared McNeill #endif 107816928528SJared McNeill 1079d3810ff9SJared McNeill static int 1080d3810ff9SJared McNeill awg_ioctl(if_t ifp, u_long cmd, caddr_t data) 1081d3810ff9SJared McNeill { 1082d3810ff9SJared McNeill struct awg_softc *sc; 1083d3810ff9SJared McNeill struct mii_data *mii; 1084d3810ff9SJared McNeill struct ifreq *ifr; 1085d3810ff9SJared McNeill int flags, mask, error; 1086d3810ff9SJared McNeill 1087d3810ff9SJared McNeill sc = if_getsoftc(ifp); 1088d3810ff9SJared McNeill mii = device_get_softc(sc->miibus); 1089d3810ff9SJared McNeill ifr = (struct ifreq *)data; 1090d3810ff9SJared McNeill error = 0; 1091d3810ff9SJared McNeill 1092d3810ff9SJared McNeill switch (cmd) { 1093d3810ff9SJared McNeill case SIOCSIFFLAGS: 1094d3810ff9SJared McNeill AWG_LOCK(sc); 1095d3810ff9SJared McNeill if (if_getflags(ifp) & IFF_UP) { 1096d3810ff9SJared McNeill if (if_getdrvflags(ifp) & IFF_DRV_RUNNING) { 1097d3810ff9SJared McNeill flags = if_getflags(ifp) ^ sc->if_flags; 1098d3810ff9SJared McNeill if ((flags & (IFF_PROMISC|IFF_ALLMULTI)) != 0) 1099d3810ff9SJared McNeill awg_setup_rxfilter(sc); 1100d3810ff9SJared McNeill } else 1101d3810ff9SJared McNeill awg_init_locked(sc); 1102d3810ff9SJared McNeill } else { 1103d3810ff9SJared McNeill if (if_getdrvflags(ifp) & IFF_DRV_RUNNING) 1104d3810ff9SJared McNeill awg_stop(sc); 1105d3810ff9SJared McNeill } 1106d3810ff9SJared McNeill sc->if_flags = if_getflags(ifp); 1107d3810ff9SJared McNeill AWG_UNLOCK(sc); 1108d3810ff9SJared McNeill break; 1109d3810ff9SJared McNeill case SIOCADDMULTI: 1110d3810ff9SJared McNeill case SIOCDELMULTI: 1111d3810ff9SJared McNeill if (if_getdrvflags(ifp) & IFF_DRV_RUNNING) { 1112d3810ff9SJared McNeill AWG_LOCK(sc); 1113d3810ff9SJared McNeill awg_setup_rxfilter(sc); 1114d3810ff9SJared McNeill AWG_UNLOCK(sc); 1115d3810ff9SJared McNeill } 1116d3810ff9SJared McNeill break; 1117d3810ff9SJared McNeill case SIOCSIFMEDIA: 1118d3810ff9SJared McNeill case SIOCGIFMEDIA: 1119d3810ff9SJared McNeill error = ifmedia_ioctl(ifp, ifr, &mii->mii_media, cmd); 1120d3810ff9SJared McNeill break; 1121d3810ff9SJared McNeill case SIOCSIFCAP: 1122d3810ff9SJared McNeill mask = ifr->ifr_reqcap ^ if_getcapenable(ifp); 112316928528SJared McNeill #ifdef DEVICE_POLLING 112416928528SJared McNeill if (mask & IFCAP_POLLING) { 112516928528SJared McNeill if ((ifr->ifr_reqcap & IFCAP_POLLING) != 0) { 112616928528SJared McNeill error = ether_poll_register(awg_poll, ifp); 112716928528SJared McNeill if (error != 0) 112816928528SJared McNeill break; 112916928528SJared McNeill AWG_LOCK(sc); 1130612a1b8dSEmmanuel Vadot awg_disable_dma_intr(sc); 113116928528SJared McNeill if_setcapenablebit(ifp, IFCAP_POLLING, 0); 113216928528SJared McNeill AWG_UNLOCK(sc); 113316928528SJared McNeill } else { 113416928528SJared McNeill error = ether_poll_deregister(ifp); 113516928528SJared McNeill AWG_LOCK(sc); 1136612a1b8dSEmmanuel Vadot awg_enable_dma_intr(sc); 113716928528SJared McNeill if_setcapenablebit(ifp, 0, IFCAP_POLLING); 113816928528SJared McNeill AWG_UNLOCK(sc); 113916928528SJared McNeill } 114016928528SJared McNeill } 114116928528SJared McNeill #endif 1142d3810ff9SJared McNeill if (mask & IFCAP_VLAN_MTU) 1143d3810ff9SJared McNeill if_togglecapenable(ifp, IFCAP_VLAN_MTU); 1144d3810ff9SJared McNeill if (mask & IFCAP_RXCSUM) 1145d3810ff9SJared McNeill if_togglecapenable(ifp, IFCAP_RXCSUM); 1146d3810ff9SJared McNeill if (mask & IFCAP_TXCSUM) 1147d3810ff9SJared McNeill if_togglecapenable(ifp, IFCAP_TXCSUM); 11482a811fc0SJared McNeill if ((if_getcapenable(ifp) & IFCAP_TXCSUM) != 0) 11492a811fc0SJared McNeill if_sethwassistbits(ifp, CSUM_IP | CSUM_UDP | CSUM_TCP, 0); 1150d3810ff9SJared McNeill else 11512a811fc0SJared McNeill if_sethwassistbits(ifp, 0, CSUM_IP | CSUM_UDP | CSUM_TCP); 1152d3810ff9SJared McNeill break; 1153d3810ff9SJared McNeill default: 1154d3810ff9SJared McNeill error = ether_ioctl(ifp, cmd, data); 1155d3810ff9SJared McNeill break; 1156d3810ff9SJared McNeill } 1157d3810ff9SJared McNeill 1158d3810ff9SJared McNeill return (error); 1159d3810ff9SJared McNeill } 1160d3810ff9SJared McNeill 11612defb358SKyle Evans static uint32_t 11622defb358SKyle Evans syscon_read_emac_clk_reg(device_t dev) 11632defb358SKyle Evans { 11642defb358SKyle Evans struct awg_softc *sc; 11652defb358SKyle Evans 11662defb358SKyle Evans sc = device_get_softc(dev); 11672defb358SKyle Evans if (sc->syscon != NULL) 11682defb358SKyle Evans return (SYSCON_READ_4(sc->syscon, EMAC_CLK_REG)); 11692defb358SKyle Evans else if (sc->res[_RES_SYSCON] != NULL) 11702defb358SKyle Evans return (bus_read_4(sc->res[_RES_SYSCON], 0)); 11712defb358SKyle Evans 11722defb358SKyle Evans return (0); 11732defb358SKyle Evans } 11742defb358SKyle Evans 11752defb358SKyle Evans static void 11762defb358SKyle Evans syscon_write_emac_clk_reg(device_t dev, uint32_t val) 11772defb358SKyle Evans { 11782defb358SKyle Evans struct awg_softc *sc; 11792defb358SKyle Evans 11802defb358SKyle Evans sc = device_get_softc(dev); 11812defb358SKyle Evans if (sc->syscon != NULL) 11822defb358SKyle Evans SYSCON_WRITE_4(sc->syscon, EMAC_CLK_REG, val); 11832defb358SKyle Evans else if (sc->res[_RES_SYSCON] != NULL) 11842defb358SKyle Evans bus_write_4(sc->res[_RES_SYSCON], 0, val); 11852defb358SKyle Evans } 11862defb358SKyle Evans 1187767754e5SKyle Evans static phandle_t 1188767754e5SKyle Evans awg_get_phy_node(device_t dev) 1189767754e5SKyle Evans { 1190767754e5SKyle Evans phandle_t node; 1191767754e5SKyle Evans pcell_t phy_handle; 1192767754e5SKyle Evans 1193767754e5SKyle Evans node = ofw_bus_get_node(dev); 1194767754e5SKyle Evans if (OF_getencprop(node, "phy-handle", (void *)&phy_handle, 1195767754e5SKyle Evans sizeof(phy_handle)) <= 0) 1196767754e5SKyle Evans return (0); 1197767754e5SKyle Evans 1198767754e5SKyle Evans return (OF_node_from_xref(phy_handle)); 1199767754e5SKyle Evans } 1200767754e5SKyle Evans 1201767754e5SKyle Evans static bool 1202767754e5SKyle Evans awg_has_internal_phy(device_t dev) 1203767754e5SKyle Evans { 1204767754e5SKyle Evans phandle_t node, phy_node; 1205767754e5SKyle Evans 1206767754e5SKyle Evans node = ofw_bus_get_node(dev); 1207767754e5SKyle Evans /* Legacy binding */ 1208767754e5SKyle Evans if (OF_hasprop(node, "allwinner,use-internal-phy")) 1209767754e5SKyle Evans return (true); 1210767754e5SKyle Evans 1211767754e5SKyle Evans phy_node = awg_get_phy_node(dev); 1212767754e5SKyle Evans return (phy_node != 0 && ofw_bus_node_is_compatible(OF_parent(phy_node), 1213767754e5SKyle Evans "allwinner,sun8i-h3-mdio-internal") != 0); 1214767754e5SKyle Evans } 1215767754e5SKyle Evans 1216d3810ff9SJared McNeill static int 12179a77a643SKyle Evans awg_parse_delay(device_t dev, uint32_t *tx_delay, uint32_t *rx_delay) 12189a77a643SKyle Evans { 12199a77a643SKyle Evans phandle_t node; 12209a77a643SKyle Evans uint32_t delay; 12219a77a643SKyle Evans 12229a77a643SKyle Evans if (tx_delay == NULL || rx_delay == NULL) 12239a77a643SKyle Evans return (EINVAL); 12249a77a643SKyle Evans *tx_delay = *rx_delay = 0; 12259a77a643SKyle Evans node = ofw_bus_get_node(dev); 12269a77a643SKyle Evans 12279a77a643SKyle Evans if (OF_getencprop(node, "tx-delay", &delay, sizeof(delay)) >= 0) 12289a77a643SKyle Evans *tx_delay = delay; 12299a77a643SKyle Evans else if (OF_getencprop(node, "allwinner,tx-delay-ps", &delay, 12309a77a643SKyle Evans sizeof(delay)) >= 0) { 12319a77a643SKyle Evans if ((delay % 100) != 0) { 12329a77a643SKyle Evans device_printf(dev, "tx-delay-ps is not a multiple of 100\n"); 12339a77a643SKyle Evans return (EDOM); 12349a77a643SKyle Evans } 12359a77a643SKyle Evans *tx_delay = delay / 100; 12369a77a643SKyle Evans } 12379a77a643SKyle Evans if (*tx_delay > 7) { 12389a77a643SKyle Evans device_printf(dev, "tx-delay out of range\n"); 12399a77a643SKyle Evans return (ERANGE); 12409a77a643SKyle Evans } 12419a77a643SKyle Evans 12429a77a643SKyle Evans if (OF_getencprop(node, "rx-delay", &delay, sizeof(delay)) >= 0) 12439a77a643SKyle Evans *rx_delay = delay; 12449a77a643SKyle Evans else if (OF_getencprop(node, "allwinner,rx-delay-ps", &delay, 12459a77a643SKyle Evans sizeof(delay)) >= 0) { 12469a77a643SKyle Evans if ((delay % 100) != 0) { 12479a77a643SKyle Evans device_printf(dev, "rx-delay-ps is not within documented domain\n"); 12489a77a643SKyle Evans return (EDOM); 12499a77a643SKyle Evans } 12509a77a643SKyle Evans *rx_delay = delay / 100; 12519a77a643SKyle Evans } 12529a77a643SKyle Evans if (*rx_delay > 31) { 12539a77a643SKyle Evans device_printf(dev, "rx-delay out of range\n"); 12549a77a643SKyle Evans return (ERANGE); 12559a77a643SKyle Evans } 12569a77a643SKyle Evans 12579a77a643SKyle Evans return (0); 12589a77a643SKyle Evans } 12599a77a643SKyle Evans 12609a77a643SKyle Evans static int 126101a469b8SJared McNeill awg_setup_phy(device_t dev) 1262d3810ff9SJared McNeill { 1263d3810ff9SJared McNeill struct awg_softc *sc; 126401a469b8SJared McNeill clk_t clk_tx, clk_tx_parent; 1265d3810ff9SJared McNeill const char *tx_parent_name; 1266d3810ff9SJared McNeill char *phy_type; 1267d3810ff9SJared McNeill phandle_t node; 126801a469b8SJared McNeill uint32_t reg, tx_delay, rx_delay; 126901a469b8SJared McNeill int error; 12702defb358SKyle Evans bool use_syscon; 1271d3810ff9SJared McNeill 1272d3810ff9SJared McNeill sc = device_get_softc(dev); 1273d3810ff9SJared McNeill node = ofw_bus_get_node(dev); 12742defb358SKyle Evans use_syscon = false; 1275d3810ff9SJared McNeill 1276217d17bcSOleksandr Tymoshenko if (OF_getprop_alloc(node, "phy-mode", (void **)&phy_type) == 0) 127701a469b8SJared McNeill return (0); 1278d3810ff9SJared McNeill 12792defb358SKyle Evans if (sc->syscon != NULL || sc->res[_RES_SYSCON] != NULL) 12802defb358SKyle Evans use_syscon = true; 12812defb358SKyle Evans 1282d3810ff9SJared McNeill if (bootverbose) 128301a469b8SJared McNeill device_printf(dev, "PHY type: %s, conf mode: %s\n", phy_type, 12842defb358SKyle Evans use_syscon ? "reg" : "clk"); 1285d3810ff9SJared McNeill 12862defb358SKyle Evans if (use_syscon) { 12872defb358SKyle Evans /* 12882defb358SKyle Evans * Abstract away writing to syscon for devices like the pine64. 12892defb358SKyle Evans * For the pine64, we get dtb from U-Boot and it still uses the 12902defb358SKyle Evans * legacy setup of specifying syscon register in emac node 12912defb358SKyle Evans * rather than as its own node and using an xref in emac. 12922defb358SKyle Evans * These abstractions can go away once U-Boot dts is up-to-date. 12932defb358SKyle Evans */ 12942defb358SKyle Evans reg = syscon_read_emac_clk_reg(dev); 129501a469b8SJared McNeill reg &= ~(EMAC_CLK_PIT | EMAC_CLK_SRC | EMAC_CLK_RMII_EN); 1296858f2466SKyle Evans if (strncmp(phy_type, "rgmii", 5) == 0) 129701a469b8SJared McNeill reg |= EMAC_CLK_PIT_RGMII | EMAC_CLK_SRC_RGMII; 129801a469b8SJared McNeill else if (strcmp(phy_type, "rmii") == 0) 129901a469b8SJared McNeill reg |= EMAC_CLK_RMII_EN; 130001a469b8SJared McNeill else 130101a469b8SJared McNeill reg |= EMAC_CLK_PIT_MII | EMAC_CLK_SRC_MII; 130201a469b8SJared McNeill 13039a77a643SKyle Evans /* 13049a77a643SKyle Evans * Fail attach if we fail to parse either of the delay 13059a77a643SKyle Evans * parameters. If we don't have the proper delay to write to 13069a77a643SKyle Evans * syscon, then awg likely won't function properly anyways. 13079a77a643SKyle Evans * Lack of delay is not an error! 13089a77a643SKyle Evans */ 13099a77a643SKyle Evans error = awg_parse_delay(dev, &tx_delay, &rx_delay); 13109a77a643SKyle Evans if (error != 0) 13119a77a643SKyle Evans goto fail; 13129a77a643SKyle Evans 13139a77a643SKyle Evans /* Default to 0 and we'll increase it if we need to. */ 13149a77a643SKyle Evans reg &= ~(EMAC_CLK_ETXDC | EMAC_CLK_ERXDC); 13159a77a643SKyle Evans if (tx_delay > 0) 131601a469b8SJared McNeill reg |= (tx_delay << EMAC_CLK_ETXDC_SHIFT); 13179a77a643SKyle Evans if (rx_delay > 0) 131801a469b8SJared McNeill reg |= (rx_delay << EMAC_CLK_ERXDC_SHIFT); 131901a469b8SJared McNeill 132001a469b8SJared McNeill if (sc->type == EMAC_H3) { 1321767754e5SKyle Evans if (awg_has_internal_phy(dev)) { 132201a469b8SJared McNeill reg |= EMAC_CLK_EPHY_SELECT; 132301a469b8SJared McNeill reg &= ~EMAC_CLK_EPHY_SHUTDOWN; 132401a469b8SJared McNeill if (OF_hasprop(node, 132501a469b8SJared McNeill "allwinner,leds-active-low")) 132601a469b8SJared McNeill reg |= EMAC_CLK_EPHY_LED_POL; 132701a469b8SJared McNeill else 132801a469b8SJared McNeill reg &= ~EMAC_CLK_EPHY_LED_POL; 132901a469b8SJared McNeill 133001a469b8SJared McNeill /* Set internal PHY addr to 1 */ 133101a469b8SJared McNeill reg &= ~EMAC_CLK_EPHY_ADDR; 133201a469b8SJared McNeill reg |= (1 << EMAC_CLK_EPHY_ADDR_SHIFT); 133301a469b8SJared McNeill } else { 133401a469b8SJared McNeill reg &= ~EMAC_CLK_EPHY_SELECT; 133501a469b8SJared McNeill } 133601a469b8SJared McNeill } 133701a469b8SJared McNeill 133801a469b8SJared McNeill if (bootverbose) 133901a469b8SJared McNeill device_printf(dev, "EMAC clock: 0x%08x\n", reg); 13402defb358SKyle Evans syscon_write_emac_clk_reg(dev, reg); 134101a469b8SJared McNeill } else { 1342858f2466SKyle Evans if (strncmp(phy_type, "rgmii", 5) == 0) 1343d3810ff9SJared McNeill tx_parent_name = "emac_int_tx"; 1344d3810ff9SJared McNeill else 1345d3810ff9SJared McNeill tx_parent_name = "mii_phy_tx"; 1346d3810ff9SJared McNeill 1347d3810ff9SJared McNeill /* Get the TX clock */ 1348dac93553SMichal Meloun error = clk_get_by_ofw_name(dev, 0, "tx", &clk_tx); 1349d3810ff9SJared McNeill if (error != 0) { 1350d3810ff9SJared McNeill device_printf(dev, "cannot get tx clock\n"); 1351d3810ff9SJared McNeill goto fail; 1352d3810ff9SJared McNeill } 1353d3810ff9SJared McNeill 1354d3810ff9SJared McNeill /* Find the desired parent clock based on phy-mode property */ 1355d3810ff9SJared McNeill error = clk_get_by_name(dev, tx_parent_name, &clk_tx_parent); 1356d3810ff9SJared McNeill if (error != 0) { 1357d3810ff9SJared McNeill device_printf(dev, "cannot get clock '%s'\n", 1358d3810ff9SJared McNeill tx_parent_name); 1359d3810ff9SJared McNeill goto fail; 1360d3810ff9SJared McNeill } 1361d3810ff9SJared McNeill 1362d3810ff9SJared McNeill /* Set TX clock parent */ 1363d3810ff9SJared McNeill error = clk_set_parent_by_clk(clk_tx, clk_tx_parent); 1364d3810ff9SJared McNeill if (error != 0) { 1365d3810ff9SJared McNeill device_printf(dev, "cannot set tx clock parent\n"); 1366d3810ff9SJared McNeill goto fail; 1367d3810ff9SJared McNeill } 1368d3810ff9SJared McNeill 1369d3810ff9SJared McNeill /* Enable TX clock */ 1370d3810ff9SJared McNeill error = clk_enable(clk_tx); 1371d3810ff9SJared McNeill if (error != 0) { 1372d3810ff9SJared McNeill device_printf(dev, "cannot enable tx clock\n"); 1373d3810ff9SJared McNeill goto fail; 1374d3810ff9SJared McNeill } 1375d3810ff9SJared McNeill } 1376d3810ff9SJared McNeill 137701a469b8SJared McNeill error = 0; 137801a469b8SJared McNeill 137901a469b8SJared McNeill fail: 138001a469b8SJared McNeill OF_prop_free(phy_type); 138101a469b8SJared McNeill return (error); 138201a469b8SJared McNeill } 138301a469b8SJared McNeill 138401a469b8SJared McNeill static int 138501a469b8SJared McNeill awg_setup_extres(device_t dev) 138601a469b8SJared McNeill { 138701a469b8SJared McNeill struct awg_softc *sc; 1388767754e5SKyle Evans phandle_t node, phy_node; 138901a469b8SJared McNeill hwreset_t rst_ahb, rst_ephy; 139001a469b8SJared McNeill clk_t clk_ahb, clk_ephy; 139101a469b8SJared McNeill regulator_t reg; 139201a469b8SJared McNeill uint64_t freq; 139301a469b8SJared McNeill int error, div; 139401a469b8SJared McNeill 139501a469b8SJared McNeill sc = device_get_softc(dev); 139601a469b8SJared McNeill rst_ahb = rst_ephy = NULL; 139701a469b8SJared McNeill clk_ahb = clk_ephy = NULL; 139801a469b8SJared McNeill reg = NULL; 13992defb358SKyle Evans node = ofw_bus_get_node(dev); 1400767754e5SKyle Evans phy_node = awg_get_phy_node(dev); 1401767754e5SKyle Evans 1402767754e5SKyle Evans if (phy_node == 0 && OF_hasprop(node, "phy-handle")) { 1403767754e5SKyle Evans error = ENXIO; 1404767754e5SKyle Evans device_printf(dev, "cannot get phy handle\n"); 1405767754e5SKyle Evans goto fail; 1406767754e5SKyle Evans } 140701a469b8SJared McNeill 140801a469b8SJared McNeill /* Get AHB clock and reset resources */ 1409767754e5SKyle Evans error = hwreset_get_by_ofw_name(dev, 0, "stmmaceth", &rst_ahb); 1410767754e5SKyle Evans if (error != 0) 141101a469b8SJared McNeill error = hwreset_get_by_ofw_name(dev, 0, "ahb", &rst_ahb); 141201a469b8SJared McNeill if (error != 0) { 141301a469b8SJared McNeill device_printf(dev, "cannot get ahb reset\n"); 141401a469b8SJared McNeill goto fail; 141501a469b8SJared McNeill } 141601a469b8SJared McNeill if (hwreset_get_by_ofw_name(dev, 0, "ephy", &rst_ephy) != 0) 1417767754e5SKyle Evans if (phy_node == 0 || hwreset_get_by_ofw_idx(dev, phy_node, 0, 1418767754e5SKyle Evans &rst_ephy) != 0) 141901a469b8SJared McNeill rst_ephy = NULL; 1420767754e5SKyle Evans error = clk_get_by_ofw_name(dev, 0, "stmmaceth", &clk_ahb); 1421767754e5SKyle Evans if (error != 0) 142201a469b8SJared McNeill error = clk_get_by_ofw_name(dev, 0, "ahb", &clk_ahb); 142301a469b8SJared McNeill if (error != 0) { 142401a469b8SJared McNeill device_printf(dev, "cannot get ahb clock\n"); 142501a469b8SJared McNeill goto fail; 142601a469b8SJared McNeill } 142701a469b8SJared McNeill if (clk_get_by_ofw_name(dev, 0, "ephy", &clk_ephy) != 0) 1428767754e5SKyle Evans if (phy_node == 0 || clk_get_by_ofw_index(dev, phy_node, 0, 1429767754e5SKyle Evans &clk_ephy) != 0) 143001a469b8SJared McNeill clk_ephy = NULL; 143101a469b8SJared McNeill 14322defb358SKyle Evans if (OF_hasprop(node, "syscon") && syscon_get_by_ofw_property(dev, node, 14332defb358SKyle Evans "syscon", &sc->syscon) != 0) { 14342defb358SKyle Evans device_printf(dev, "cannot get syscon driver handle\n"); 14352defb358SKyle Evans goto fail; 14362defb358SKyle Evans } 14372defb358SKyle Evans 143801a469b8SJared McNeill /* Configure PHY for MII or RGMII mode */ 143901a469b8SJared McNeill if (awg_setup_phy(dev) != 0) 144001a469b8SJared McNeill goto fail; 144101a469b8SJared McNeill 144201a469b8SJared McNeill /* Enable clocks */ 1443d3810ff9SJared McNeill error = clk_enable(clk_ahb); 1444d3810ff9SJared McNeill if (error != 0) { 1445d3810ff9SJared McNeill device_printf(dev, "cannot enable ahb clock\n"); 1446d3810ff9SJared McNeill goto fail; 1447d3810ff9SJared McNeill } 144801a469b8SJared McNeill if (clk_ephy != NULL) { 144901a469b8SJared McNeill error = clk_enable(clk_ephy); 145001a469b8SJared McNeill if (error != 0) { 145101a469b8SJared McNeill device_printf(dev, "cannot enable ephy clock\n"); 145201a469b8SJared McNeill goto fail; 145301a469b8SJared McNeill } 145401a469b8SJared McNeill } 1455d3810ff9SJared McNeill 1456d3810ff9SJared McNeill /* De-assert reset */ 1457d3810ff9SJared McNeill error = hwreset_deassert(rst_ahb); 1458d3810ff9SJared McNeill if (error != 0) { 1459d3810ff9SJared McNeill device_printf(dev, "cannot de-assert ahb reset\n"); 1460d3810ff9SJared McNeill goto fail; 1461d3810ff9SJared McNeill } 146201a469b8SJared McNeill if (rst_ephy != NULL) { 1463649a5cd5SKyle Evans /* 1464649a5cd5SKyle Evans * The ephy reset is left de-asserted by U-Boot. Assert it 1465649a5cd5SKyle Evans * here to make sure that we're in a known good state going 1466649a5cd5SKyle Evans * into the PHY reset. 1467649a5cd5SKyle Evans */ 1468649a5cd5SKyle Evans hwreset_assert(rst_ephy); 146901a469b8SJared McNeill error = hwreset_deassert(rst_ephy); 147001a469b8SJared McNeill if (error != 0) { 147101a469b8SJared McNeill device_printf(dev, "cannot de-assert ephy reset\n"); 147201a469b8SJared McNeill goto fail; 147301a469b8SJared McNeill } 147401a469b8SJared McNeill } 1475d3810ff9SJared McNeill 1476d3810ff9SJared McNeill /* Enable PHY regulator if applicable */ 1477dac93553SMichal Meloun if (regulator_get_by_ofw_property(dev, 0, "phy-supply", ®) == 0) { 1478d3810ff9SJared McNeill error = regulator_enable(reg); 1479d3810ff9SJared McNeill if (error != 0) { 1480d3810ff9SJared McNeill device_printf(dev, "cannot enable PHY regulator\n"); 1481d3810ff9SJared McNeill goto fail; 1482d3810ff9SJared McNeill } 1483d3810ff9SJared McNeill } 1484d3810ff9SJared McNeill 1485d3810ff9SJared McNeill /* Determine MDC clock divide ratio based on AHB clock */ 1486d3810ff9SJared McNeill error = clk_get_freq(clk_ahb, &freq); 1487d3810ff9SJared McNeill if (error != 0) { 1488d3810ff9SJared McNeill device_printf(dev, "cannot get AHB clock frequency\n"); 1489d3810ff9SJared McNeill goto fail; 1490d3810ff9SJared McNeill } 1491d3810ff9SJared McNeill div = freq / MDIO_FREQ; 1492d3810ff9SJared McNeill if (div <= 16) 1493d3810ff9SJared McNeill sc->mdc_div_ratio_m = MDC_DIV_RATIO_M_16; 1494d3810ff9SJared McNeill else if (div <= 32) 1495d3810ff9SJared McNeill sc->mdc_div_ratio_m = MDC_DIV_RATIO_M_32; 1496d3810ff9SJared McNeill else if (div <= 64) 1497d3810ff9SJared McNeill sc->mdc_div_ratio_m = MDC_DIV_RATIO_M_64; 1498d3810ff9SJared McNeill else if (div <= 128) 1499d3810ff9SJared McNeill sc->mdc_div_ratio_m = MDC_DIV_RATIO_M_128; 1500d3810ff9SJared McNeill else { 1501d3810ff9SJared McNeill device_printf(dev, "cannot determine MDC clock divide ratio\n"); 1502d3810ff9SJared McNeill error = ENXIO; 1503d3810ff9SJared McNeill goto fail; 1504d3810ff9SJared McNeill } 1505d3810ff9SJared McNeill 1506d3810ff9SJared McNeill if (bootverbose) 150701a469b8SJared McNeill device_printf(dev, "AHB frequency %ju Hz, MDC div: 0x%x\n", 150801a469b8SJared McNeill (uintmax_t)freq, sc->mdc_div_ratio_m); 1509d3810ff9SJared McNeill 1510d3810ff9SJared McNeill return (0); 1511d3810ff9SJared McNeill 1512d3810ff9SJared McNeill fail: 1513d3810ff9SJared McNeill if (reg != NULL) 1514d3810ff9SJared McNeill regulator_release(reg); 151501a469b8SJared McNeill if (clk_ephy != NULL) 151601a469b8SJared McNeill clk_release(clk_ephy); 1517d3810ff9SJared McNeill if (clk_ahb != NULL) 1518d3810ff9SJared McNeill clk_release(clk_ahb); 151901a469b8SJared McNeill if (rst_ephy != NULL) 152001a469b8SJared McNeill hwreset_release(rst_ephy); 1521d3810ff9SJared McNeill if (rst_ahb != NULL) 1522d3810ff9SJared McNeill hwreset_release(rst_ahb); 1523d3810ff9SJared McNeill return (error); 1524d3810ff9SJared McNeill } 1525d3810ff9SJared McNeill 1526d3810ff9SJared McNeill static void 1527d3810ff9SJared McNeill awg_get_eaddr(device_t dev, uint8_t *eaddr) 1528d3810ff9SJared McNeill { 1529d3810ff9SJared McNeill struct awg_softc *sc; 1530d3810ff9SJared McNeill uint32_t maclo, machi, rnd; 15311403e695SJared McNeill u_char rootkey[16]; 153297eb836fSEmmanuel Vadot uint32_t rootkey_size; 1533d3810ff9SJared McNeill 1534d3810ff9SJared McNeill sc = device_get_softc(dev); 1535d3810ff9SJared McNeill 1536d3810ff9SJared McNeill machi = RD4(sc, EMAC_ADDR_HIGH(0)) & 0xffff; 1537d3810ff9SJared McNeill maclo = RD4(sc, EMAC_ADDR_LOW(0)); 1538d3810ff9SJared McNeill 153997eb836fSEmmanuel Vadot rootkey_size = sizeof(rootkey); 1540d3810ff9SJared McNeill if (maclo == 0xffffffff && machi == 0xffff) { 1541d3810ff9SJared McNeill /* MAC address in hardware is invalid, create one */ 154297eb836fSEmmanuel Vadot if (aw_sid_get_fuse(AW_SID_FUSE_ROOTKEY, rootkey, 154397eb836fSEmmanuel Vadot &rootkey_size) == 0 && 15441403e695SJared McNeill (rootkey[3] | rootkey[12] | rootkey[13] | rootkey[14] | 15451403e695SJared McNeill rootkey[15]) != 0) { 15461403e695SJared McNeill /* MAC address is derived from the root key in SID */ 15471403e695SJared McNeill maclo = (rootkey[13] << 24) | (rootkey[12] << 16) | 15481403e695SJared McNeill (rootkey[3] << 8) | 0x02; 15491403e695SJared McNeill machi = (rootkey[15] << 8) | rootkey[14]; 15501403e695SJared McNeill } else { 15511403e695SJared McNeill /* Create one */ 1552d3810ff9SJared McNeill rnd = arc4random(); 1553d3810ff9SJared McNeill maclo = 0x00f2 | (rnd & 0xffff0000); 1554d3810ff9SJared McNeill machi = rnd & 0xffff; 1555d3810ff9SJared McNeill } 15561403e695SJared McNeill } 1557d3810ff9SJared McNeill 1558d3810ff9SJared McNeill eaddr[0] = maclo & 0xff; 1559d3810ff9SJared McNeill eaddr[1] = (maclo >> 8) & 0xff; 1560d3810ff9SJared McNeill eaddr[2] = (maclo >> 16) & 0xff; 1561d3810ff9SJared McNeill eaddr[3] = (maclo >> 24) & 0xff; 1562d3810ff9SJared McNeill eaddr[4] = machi & 0xff; 1563d3810ff9SJared McNeill eaddr[5] = (machi >> 8) & 0xff; 1564d3810ff9SJared McNeill } 1565d3810ff9SJared McNeill 1566d3810ff9SJared McNeill #ifdef AWG_DEBUG 1567d3810ff9SJared McNeill static void 1568d3810ff9SJared McNeill awg_dump_regs(device_t dev) 1569d3810ff9SJared McNeill { 1570d3810ff9SJared McNeill static const struct { 1571d3810ff9SJared McNeill const char *name; 1572d3810ff9SJared McNeill u_int reg; 1573d3810ff9SJared McNeill } regs[] = { 1574d3810ff9SJared McNeill { "BASIC_CTL_0", EMAC_BASIC_CTL_0 }, 1575d3810ff9SJared McNeill { "BASIC_CTL_1", EMAC_BASIC_CTL_1 }, 1576d3810ff9SJared McNeill { "INT_STA", EMAC_INT_STA }, 1577d3810ff9SJared McNeill { "INT_EN", EMAC_INT_EN }, 1578d3810ff9SJared McNeill { "TX_CTL_0", EMAC_TX_CTL_0 }, 1579d3810ff9SJared McNeill { "TX_CTL_1", EMAC_TX_CTL_1 }, 1580d3810ff9SJared McNeill { "TX_FLOW_CTL", EMAC_TX_FLOW_CTL }, 1581d3810ff9SJared McNeill { "TX_DMA_LIST", EMAC_TX_DMA_LIST }, 1582d3810ff9SJared McNeill { "RX_CTL_0", EMAC_RX_CTL_0 }, 1583d3810ff9SJared McNeill { "RX_CTL_1", EMAC_RX_CTL_1 }, 1584d3810ff9SJared McNeill { "RX_DMA_LIST", EMAC_RX_DMA_LIST }, 1585d3810ff9SJared McNeill { "RX_FRM_FLT", EMAC_RX_FRM_FLT }, 1586d3810ff9SJared McNeill { "RX_HASH_0", EMAC_RX_HASH_0 }, 1587d3810ff9SJared McNeill { "RX_HASH_1", EMAC_RX_HASH_1 }, 1588d3810ff9SJared McNeill { "MII_CMD", EMAC_MII_CMD }, 1589d3810ff9SJared McNeill { "ADDR_HIGH0", EMAC_ADDR_HIGH(0) }, 1590d3810ff9SJared McNeill { "ADDR_LOW0", EMAC_ADDR_LOW(0) }, 1591d3810ff9SJared McNeill { "TX_DMA_STA", EMAC_TX_DMA_STA }, 1592d3810ff9SJared McNeill { "TX_DMA_CUR_DESC", EMAC_TX_DMA_CUR_DESC }, 1593d3810ff9SJared McNeill { "TX_DMA_CUR_BUF", EMAC_TX_DMA_CUR_BUF }, 1594d3810ff9SJared McNeill { "RX_DMA_STA", EMAC_RX_DMA_STA }, 1595d3810ff9SJared McNeill { "RX_DMA_CUR_DESC", EMAC_RX_DMA_CUR_DESC }, 1596d3810ff9SJared McNeill { "RX_DMA_CUR_BUF", EMAC_RX_DMA_CUR_BUF }, 1597d3810ff9SJared McNeill { "RGMII_STA", EMAC_RGMII_STA }, 1598d3810ff9SJared McNeill }; 1599d3810ff9SJared McNeill struct awg_softc *sc; 1600d3810ff9SJared McNeill unsigned int n; 1601d3810ff9SJared McNeill 1602d3810ff9SJared McNeill sc = device_get_softc(dev); 1603d3810ff9SJared McNeill 1604d3810ff9SJared McNeill for (n = 0; n < nitems(regs); n++) 1605d3810ff9SJared McNeill device_printf(dev, " %-20s %08x\n", regs[n].name, 1606d3810ff9SJared McNeill RD4(sc, regs[n].reg)); 1607d3810ff9SJared McNeill } 1608d3810ff9SJared McNeill #endif 1609d3810ff9SJared McNeill 161001a469b8SJared McNeill #define GPIO_ACTIVE_LOW 1 161101a469b8SJared McNeill 161201a469b8SJared McNeill static int 161301a469b8SJared McNeill awg_phy_reset(device_t dev) 161401a469b8SJared McNeill { 161501a469b8SJared McNeill pcell_t gpio_prop[4], delay_prop[3]; 161601a469b8SJared McNeill phandle_t node, gpio_node; 161701a469b8SJared McNeill device_t gpio; 161801a469b8SJared McNeill uint32_t pin, flags; 161901a469b8SJared McNeill uint32_t pin_value; 162001a469b8SJared McNeill 162101a469b8SJared McNeill node = ofw_bus_get_node(dev); 162201a469b8SJared McNeill if (OF_getencprop(node, "allwinner,reset-gpio", gpio_prop, 162301a469b8SJared McNeill sizeof(gpio_prop)) <= 0) 162401a469b8SJared McNeill return (0); 162501a469b8SJared McNeill 162601a469b8SJared McNeill if (OF_getencprop(node, "allwinner,reset-delays-us", delay_prop, 162701a469b8SJared McNeill sizeof(delay_prop)) <= 0) 162801a469b8SJared McNeill return (ENXIO); 162901a469b8SJared McNeill 163001a469b8SJared McNeill gpio_node = OF_node_from_xref(gpio_prop[0]); 163101a469b8SJared McNeill if ((gpio = OF_device_from_xref(gpio_prop[0])) == NULL) 163201a469b8SJared McNeill return (ENXIO); 163301a469b8SJared McNeill 163401a469b8SJared McNeill if (GPIO_MAP_GPIOS(gpio, node, gpio_node, nitems(gpio_prop) - 1, 163501a469b8SJared McNeill gpio_prop + 1, &pin, &flags) != 0) 163601a469b8SJared McNeill return (ENXIO); 163701a469b8SJared McNeill 163801a469b8SJared McNeill pin_value = GPIO_PIN_LOW; 163901a469b8SJared McNeill if (OF_hasprop(node, "allwinner,reset-active-low")) 164001a469b8SJared McNeill pin_value = GPIO_PIN_HIGH; 164101a469b8SJared McNeill 164201a469b8SJared McNeill if (flags & GPIO_ACTIVE_LOW) 164301a469b8SJared McNeill pin_value = !pin_value; 164401a469b8SJared McNeill 164501a469b8SJared McNeill GPIO_PIN_SETFLAGS(gpio, pin, GPIO_PIN_OUTPUT); 164601a469b8SJared McNeill GPIO_PIN_SET(gpio, pin, pin_value); 164701a469b8SJared McNeill DELAY(delay_prop[0]); 164801a469b8SJared McNeill GPIO_PIN_SET(gpio, pin, !pin_value); 164901a469b8SJared McNeill DELAY(delay_prop[1]); 165001a469b8SJared McNeill GPIO_PIN_SET(gpio, pin, pin_value); 165101a469b8SJared McNeill DELAY(delay_prop[2]); 165201a469b8SJared McNeill 165301a469b8SJared McNeill return (0); 165401a469b8SJared McNeill } 165501a469b8SJared McNeill 1656a3a7d2a4SKyle Evans static int 1657a3a7d2a4SKyle Evans awg_reset(device_t dev) 1658a3a7d2a4SKyle Evans { 1659a3a7d2a4SKyle Evans struct awg_softc *sc; 1660a3a7d2a4SKyle Evans int retry; 1661a3a7d2a4SKyle Evans 1662a3a7d2a4SKyle Evans sc = device_get_softc(dev); 1663a3a7d2a4SKyle Evans 1664a3a7d2a4SKyle Evans /* Reset PHY if necessary */ 1665a3a7d2a4SKyle Evans if (awg_phy_reset(dev) != 0) { 1666a3a7d2a4SKyle Evans device_printf(dev, "failed to reset PHY\n"); 1667a3a7d2a4SKyle Evans return (ENXIO); 1668a3a7d2a4SKyle Evans } 1669a3a7d2a4SKyle Evans 1670a3a7d2a4SKyle Evans /* Soft reset all registers and logic */ 1671a3a7d2a4SKyle Evans WR4(sc, EMAC_BASIC_CTL_1, BASIC_CTL_SOFT_RST); 1672a3a7d2a4SKyle Evans 1673a3a7d2a4SKyle Evans /* Wait for soft reset bit to self-clear */ 1674a3a7d2a4SKyle Evans for (retry = SOFT_RST_RETRY; retry > 0; retry--) { 1675a3a7d2a4SKyle Evans if ((RD4(sc, EMAC_BASIC_CTL_1) & BASIC_CTL_SOFT_RST) == 0) 1676a3a7d2a4SKyle Evans break; 1677a3a7d2a4SKyle Evans DELAY(10); 1678a3a7d2a4SKyle Evans } 1679a3a7d2a4SKyle Evans if (retry == 0) { 1680a3a7d2a4SKyle Evans device_printf(dev, "soft reset timed out\n"); 1681a3a7d2a4SKyle Evans #ifdef AWG_DEBUG 1682a3a7d2a4SKyle Evans awg_dump_regs(dev); 1683a3a7d2a4SKyle Evans #endif 1684a3a7d2a4SKyle Evans return (ETIMEDOUT); 1685a3a7d2a4SKyle Evans } 1686a3a7d2a4SKyle Evans 1687a3a7d2a4SKyle Evans return (0); 1688a3a7d2a4SKyle Evans } 1689a3a7d2a4SKyle Evans 1690d3810ff9SJared McNeill static void 1691d3810ff9SJared McNeill awg_dmamap_cb(void *arg, bus_dma_segment_t *segs, int nseg, int error) 1692d3810ff9SJared McNeill { 1693d3810ff9SJared McNeill if (error != 0) 1694d3810ff9SJared McNeill return; 1695d3810ff9SJared McNeill *(bus_addr_t *)arg = segs[0].ds_addr; 1696d3810ff9SJared McNeill } 1697d3810ff9SJared McNeill 1698d3810ff9SJared McNeill static int 1699d3810ff9SJared McNeill awg_setup_dma(device_t dev) 1700d3810ff9SJared McNeill { 1701d3810ff9SJared McNeill struct awg_softc *sc; 1702d3810ff9SJared McNeill int error, i; 1703d3810ff9SJared McNeill 1704d3810ff9SJared McNeill sc = device_get_softc(dev); 1705d3810ff9SJared McNeill 1706d3810ff9SJared McNeill /* Setup TX ring */ 1707d3810ff9SJared McNeill error = bus_dma_tag_create( 1708d3810ff9SJared McNeill bus_get_dma_tag(dev), /* Parent tag */ 1709d3810ff9SJared McNeill DESC_ALIGN, 0, /* alignment, boundary */ 1710d3810ff9SJared McNeill BUS_SPACE_MAXADDR_32BIT, /* lowaddr */ 1711d3810ff9SJared McNeill BUS_SPACE_MAXADDR, /* highaddr */ 1712d3810ff9SJared McNeill NULL, NULL, /* filter, filterarg */ 1713d3810ff9SJared McNeill TX_DESC_SIZE, 1, /* maxsize, nsegs */ 1714d3810ff9SJared McNeill TX_DESC_SIZE, /* maxsegsize */ 1715d3810ff9SJared McNeill 0, /* flags */ 1716d3810ff9SJared McNeill NULL, NULL, /* lockfunc, lockarg */ 1717d3810ff9SJared McNeill &sc->tx.desc_tag); 1718d3810ff9SJared McNeill if (error != 0) { 1719d3810ff9SJared McNeill device_printf(dev, "cannot create TX descriptor ring tag\n"); 1720d3810ff9SJared McNeill return (error); 1721d3810ff9SJared McNeill } 1722d3810ff9SJared McNeill 1723d3810ff9SJared McNeill error = bus_dmamem_alloc(sc->tx.desc_tag, (void **)&sc->tx.desc_ring, 1724d3810ff9SJared McNeill BUS_DMA_COHERENT | BUS_DMA_WAITOK | BUS_DMA_ZERO, &sc->tx.desc_map); 1725d3810ff9SJared McNeill if (error != 0) { 1726d3810ff9SJared McNeill device_printf(dev, "cannot allocate TX descriptor ring\n"); 1727d3810ff9SJared McNeill return (error); 1728d3810ff9SJared McNeill } 1729d3810ff9SJared McNeill 1730d3810ff9SJared McNeill error = bus_dmamap_load(sc->tx.desc_tag, sc->tx.desc_map, 1731d3810ff9SJared McNeill sc->tx.desc_ring, TX_DESC_SIZE, awg_dmamap_cb, 1732d3810ff9SJared McNeill &sc->tx.desc_ring_paddr, 0); 1733d3810ff9SJared McNeill if (error != 0) { 1734d3810ff9SJared McNeill device_printf(dev, "cannot load TX descriptor ring\n"); 1735d3810ff9SJared McNeill return (error); 1736d3810ff9SJared McNeill } 1737d3810ff9SJared McNeill 1738d3810ff9SJared McNeill for (i = 0; i < TX_DESC_COUNT; i++) 1739d3810ff9SJared McNeill sc->tx.desc_ring[i].next = 1740d3810ff9SJared McNeill htole32(sc->tx.desc_ring_paddr + DESC_OFF(TX_NEXT(i))); 1741d3810ff9SJared McNeill 1742d3810ff9SJared McNeill error = bus_dma_tag_create( 1743d3810ff9SJared McNeill bus_get_dma_tag(dev), /* Parent tag */ 1744d3810ff9SJared McNeill 1, 0, /* alignment, boundary */ 1745d3810ff9SJared McNeill BUS_SPACE_MAXADDR_32BIT, /* lowaddr */ 1746d3810ff9SJared McNeill BUS_SPACE_MAXADDR, /* highaddr */ 1747d3810ff9SJared McNeill NULL, NULL, /* filter, filterarg */ 1748d3810ff9SJared McNeill MCLBYTES, TX_MAX_SEGS, /* maxsize, nsegs */ 1749d3810ff9SJared McNeill MCLBYTES, /* maxsegsize */ 1750d3810ff9SJared McNeill 0, /* flags */ 1751d3810ff9SJared McNeill NULL, NULL, /* lockfunc, lockarg */ 1752d3810ff9SJared McNeill &sc->tx.buf_tag); 1753d3810ff9SJared McNeill if (error != 0) { 1754d3810ff9SJared McNeill device_printf(dev, "cannot create TX buffer tag\n"); 1755d3810ff9SJared McNeill return (error); 1756d3810ff9SJared McNeill } 1757d3810ff9SJared McNeill 1758c6110e75SEmmanuel Vadot sc->tx.queued = 0; 1759d3810ff9SJared McNeill for (i = 0; i < TX_DESC_COUNT; i++) { 1760d3810ff9SJared McNeill error = bus_dmamap_create(sc->tx.buf_tag, 0, 1761d3810ff9SJared McNeill &sc->tx.buf_map[i].map); 1762d3810ff9SJared McNeill if (error != 0) { 1763d3810ff9SJared McNeill device_printf(dev, "cannot create TX buffer map\n"); 1764d3810ff9SJared McNeill return (error); 1765d3810ff9SJared McNeill } 1766d3810ff9SJared McNeill } 1767d3810ff9SJared McNeill 1768d3810ff9SJared McNeill /* Setup RX ring */ 1769d3810ff9SJared McNeill error = bus_dma_tag_create( 1770d3810ff9SJared McNeill bus_get_dma_tag(dev), /* Parent tag */ 1771d3810ff9SJared McNeill DESC_ALIGN, 0, /* alignment, boundary */ 1772d3810ff9SJared McNeill BUS_SPACE_MAXADDR_32BIT, /* lowaddr */ 1773d3810ff9SJared McNeill BUS_SPACE_MAXADDR, /* highaddr */ 1774d3810ff9SJared McNeill NULL, NULL, /* filter, filterarg */ 1775d3810ff9SJared McNeill RX_DESC_SIZE, 1, /* maxsize, nsegs */ 1776d3810ff9SJared McNeill RX_DESC_SIZE, /* maxsegsize */ 1777d3810ff9SJared McNeill 0, /* flags */ 1778d3810ff9SJared McNeill NULL, NULL, /* lockfunc, lockarg */ 1779d3810ff9SJared McNeill &sc->rx.desc_tag); 1780d3810ff9SJared McNeill if (error != 0) { 1781d3810ff9SJared McNeill device_printf(dev, "cannot create RX descriptor ring tag\n"); 1782d3810ff9SJared McNeill return (error); 1783d3810ff9SJared McNeill } 1784d3810ff9SJared McNeill 1785d3810ff9SJared McNeill error = bus_dmamem_alloc(sc->rx.desc_tag, (void **)&sc->rx.desc_ring, 1786d3810ff9SJared McNeill BUS_DMA_COHERENT | BUS_DMA_WAITOK | BUS_DMA_ZERO, &sc->rx.desc_map); 1787d3810ff9SJared McNeill if (error != 0) { 1788d3810ff9SJared McNeill device_printf(dev, "cannot allocate RX descriptor ring\n"); 1789d3810ff9SJared McNeill return (error); 1790d3810ff9SJared McNeill } 1791d3810ff9SJared McNeill 1792d3810ff9SJared McNeill error = bus_dmamap_load(sc->rx.desc_tag, sc->rx.desc_map, 1793d3810ff9SJared McNeill sc->rx.desc_ring, RX_DESC_SIZE, awg_dmamap_cb, 1794d3810ff9SJared McNeill &sc->rx.desc_ring_paddr, 0); 1795d3810ff9SJared McNeill if (error != 0) { 1796d3810ff9SJared McNeill device_printf(dev, "cannot load RX descriptor ring\n"); 1797d3810ff9SJared McNeill return (error); 1798d3810ff9SJared McNeill } 1799d3810ff9SJared McNeill 1800d3810ff9SJared McNeill error = bus_dma_tag_create( 1801d3810ff9SJared McNeill bus_get_dma_tag(dev), /* Parent tag */ 1802d3810ff9SJared McNeill 1, 0, /* alignment, boundary */ 1803d3810ff9SJared McNeill BUS_SPACE_MAXADDR_32BIT, /* lowaddr */ 1804d3810ff9SJared McNeill BUS_SPACE_MAXADDR, /* highaddr */ 1805d3810ff9SJared McNeill NULL, NULL, /* filter, filterarg */ 1806d3810ff9SJared McNeill MCLBYTES, 1, /* maxsize, nsegs */ 1807d3810ff9SJared McNeill MCLBYTES, /* maxsegsize */ 1808d3810ff9SJared McNeill 0, /* flags */ 1809d3810ff9SJared McNeill NULL, NULL, /* lockfunc, lockarg */ 1810d3810ff9SJared McNeill &sc->rx.buf_tag); 1811d3810ff9SJared McNeill if (error != 0) { 1812d3810ff9SJared McNeill device_printf(dev, "cannot create RX buffer tag\n"); 1813d3810ff9SJared McNeill return (error); 1814d3810ff9SJared McNeill } 1815d3810ff9SJared McNeill 1816bd906329SEmmanuel Vadot error = bus_dmamap_create(sc->rx.buf_tag, 0, &sc->rx.buf_spare_map); 1817bd906329SEmmanuel Vadot if (error != 0) { 1818bd906329SEmmanuel Vadot device_printf(dev, 1819bd906329SEmmanuel Vadot "cannot create RX buffer spare map\n"); 1820bd906329SEmmanuel Vadot return (error); 1821bd906329SEmmanuel Vadot } 1822bd906329SEmmanuel Vadot 1823d3810ff9SJared McNeill for (i = 0; i < RX_DESC_COUNT; i++) { 1824bd906329SEmmanuel Vadot sc->rx.desc_ring[i].next = 1825bd906329SEmmanuel Vadot htole32(sc->rx.desc_ring_paddr + DESC_OFF(RX_NEXT(i))); 1826bd906329SEmmanuel Vadot 1827d3810ff9SJared McNeill error = bus_dmamap_create(sc->rx.buf_tag, 0, 1828d3810ff9SJared McNeill &sc->rx.buf_map[i].map); 1829d3810ff9SJared McNeill if (error != 0) { 1830d3810ff9SJared McNeill device_printf(dev, "cannot create RX buffer map\n"); 1831d3810ff9SJared McNeill return (error); 1832d3810ff9SJared McNeill } 1833bd906329SEmmanuel Vadot sc->rx.buf_map[i].mbuf = NULL; 1834bd906329SEmmanuel Vadot error = awg_newbuf_rx(sc, i); 1835d3810ff9SJared McNeill if (error != 0) { 1836d3810ff9SJared McNeill device_printf(dev, "cannot create RX buffer\n"); 1837d3810ff9SJared McNeill return (error); 1838d3810ff9SJared McNeill } 1839d3810ff9SJared McNeill } 1840d3810ff9SJared McNeill bus_dmamap_sync(sc->rx.desc_tag, sc->rx.desc_map, 1841d3810ff9SJared McNeill BUS_DMASYNC_PREWRITE); 1842d3810ff9SJared McNeill 1843a3a7d2a4SKyle Evans /* Write transmit and receive descriptor base address registers */ 1844a3a7d2a4SKyle Evans WR4(sc, EMAC_TX_DMA_LIST, sc->tx.desc_ring_paddr); 1845a3a7d2a4SKyle Evans WR4(sc, EMAC_RX_DMA_LIST, sc->rx.desc_ring_paddr); 1846a3a7d2a4SKyle Evans 1847d3810ff9SJared McNeill return (0); 1848d3810ff9SJared McNeill } 1849d3810ff9SJared McNeill 1850d3810ff9SJared McNeill static int 1851d3810ff9SJared McNeill awg_probe(device_t dev) 1852d3810ff9SJared McNeill { 1853d3810ff9SJared McNeill if (!ofw_bus_status_okay(dev)) 1854d3810ff9SJared McNeill return (ENXIO); 1855d3810ff9SJared McNeill 1856d3810ff9SJared McNeill if (ofw_bus_search_compatible(dev, compat_data)->ocd_data == 0) 1857d3810ff9SJared McNeill return (ENXIO); 1858d3810ff9SJared McNeill 1859d3810ff9SJared McNeill device_set_desc(dev, "Allwinner Gigabit Ethernet"); 1860d3810ff9SJared McNeill return (BUS_PROBE_DEFAULT); 1861d3810ff9SJared McNeill } 1862d3810ff9SJared McNeill 1863d3810ff9SJared McNeill static int 1864d3810ff9SJared McNeill awg_attach(device_t dev) 1865d3810ff9SJared McNeill { 1866d3810ff9SJared McNeill uint8_t eaddr[ETHER_ADDR_LEN]; 1867d3810ff9SJared McNeill struct awg_softc *sc; 1868d3810ff9SJared McNeill int error; 1869d3810ff9SJared McNeill 1870d3810ff9SJared McNeill sc = device_get_softc(dev); 1871031d5777SOleksandr Tymoshenko sc->dev = dev; 187201a469b8SJared McNeill sc->type = ofw_bus_search_compatible(dev, compat_data)->ocd_data; 1873d3810ff9SJared McNeill 1874d3810ff9SJared McNeill if (bus_alloc_resources(dev, awg_spec, sc->res) != 0) { 1875d3810ff9SJared McNeill device_printf(dev, "cannot allocate resources for device\n"); 1876d3810ff9SJared McNeill return (ENXIO); 1877d3810ff9SJared McNeill } 1878d3810ff9SJared McNeill 1879d3810ff9SJared McNeill mtx_init(&sc->mtx, device_get_nameunit(dev), MTX_NETWORK_LOCK, MTX_DEF); 1880d3810ff9SJared McNeill callout_init_mtx(&sc->stat_ch, &sc->mtx, 0); 1881d3810ff9SJared McNeill 1882d3810ff9SJared McNeill /* Setup clocks and regulators */ 1883d3810ff9SJared McNeill error = awg_setup_extres(dev); 1884d3810ff9SJared McNeill if (error != 0) 1885d3810ff9SJared McNeill return (error); 1886d3810ff9SJared McNeill 1887d3810ff9SJared McNeill /* Read MAC address before resetting the chip */ 1888d3810ff9SJared McNeill awg_get_eaddr(dev, eaddr); 1889d3810ff9SJared McNeill 1890a3a7d2a4SKyle Evans /* Soft reset EMAC core */ 1891a3a7d2a4SKyle Evans error = awg_reset(dev); 1892a3a7d2a4SKyle Evans if (error != 0) 1893d3810ff9SJared McNeill return (error); 1894d3810ff9SJared McNeill 1895d3810ff9SJared McNeill /* Setup DMA descriptors */ 1896d3810ff9SJared McNeill error = awg_setup_dma(dev); 1897d3810ff9SJared McNeill if (error != 0) 1898d3810ff9SJared McNeill return (error); 1899d3810ff9SJared McNeill 1900d3810ff9SJared McNeill /* Install interrupt handler */ 190101a469b8SJared McNeill error = bus_setup_intr(dev, sc->res[_RES_IRQ], 190201a469b8SJared McNeill INTR_TYPE_NET | INTR_MPSAFE, NULL, awg_intr, sc, &sc->ih); 1903d3810ff9SJared McNeill if (error != 0) { 1904d3810ff9SJared McNeill device_printf(dev, "cannot setup interrupt handler\n"); 1905d3810ff9SJared McNeill return (error); 1906d3810ff9SJared McNeill } 1907d3810ff9SJared McNeill 1908d3810ff9SJared McNeill /* Setup ethernet interface */ 1909d3810ff9SJared McNeill sc->ifp = if_alloc(IFT_ETHER); 1910d3810ff9SJared McNeill if_setsoftc(sc->ifp, sc); 1911d3810ff9SJared McNeill if_initname(sc->ifp, device_get_name(dev), device_get_unit(dev)); 1912d3810ff9SJared McNeill if_setflags(sc->ifp, IFF_BROADCAST | IFF_SIMPLEX | IFF_MULTICAST); 1913d3810ff9SJared McNeill if_setstartfn(sc->ifp, awg_start); 1914d3810ff9SJared McNeill if_setioctlfn(sc->ifp, awg_ioctl); 1915d3810ff9SJared McNeill if_setinitfn(sc->ifp, awg_init); 1916d3810ff9SJared McNeill if_setsendqlen(sc->ifp, TX_DESC_COUNT - 1); 1917d3810ff9SJared McNeill if_setsendqready(sc->ifp); 1918d3810ff9SJared McNeill if_sethwassist(sc->ifp, CSUM_IP | CSUM_UDP | CSUM_TCP); 1919d3810ff9SJared McNeill if_setcapabilities(sc->ifp, IFCAP_VLAN_MTU | IFCAP_HWCSUM); 1920d3810ff9SJared McNeill if_setcapenable(sc->ifp, if_getcapabilities(sc->ifp)); 192116928528SJared McNeill #ifdef DEVICE_POLLING 192216928528SJared McNeill if_setcapabilitiesbit(sc->ifp, IFCAP_POLLING, 0); 192316928528SJared McNeill #endif 1924d3810ff9SJared McNeill 1925d3810ff9SJared McNeill /* Attach MII driver */ 1926d3810ff9SJared McNeill error = mii_attach(dev, &sc->miibus, sc->ifp, awg_media_change, 1927d3810ff9SJared McNeill awg_media_status, BMSR_DEFCAPMASK, MII_PHY_ANY, MII_OFFSET_ANY, 1928d3810ff9SJared McNeill MIIF_DOPAUSE); 1929d3810ff9SJared McNeill if (error != 0) { 1930d3810ff9SJared McNeill device_printf(dev, "cannot attach PHY\n"); 1931d3810ff9SJared McNeill return (error); 1932d3810ff9SJared McNeill } 1933d3810ff9SJared McNeill 1934d3810ff9SJared McNeill /* Attach ethernet interface */ 1935d3810ff9SJared McNeill ether_ifattach(sc->ifp, eaddr); 1936d3810ff9SJared McNeill 1937d3810ff9SJared McNeill return (0); 1938d3810ff9SJared McNeill } 1939d3810ff9SJared McNeill 1940d3810ff9SJared McNeill static device_method_t awg_methods[] = { 1941d3810ff9SJared McNeill /* Device interface */ 1942d3810ff9SJared McNeill DEVMETHOD(device_probe, awg_probe), 1943d3810ff9SJared McNeill DEVMETHOD(device_attach, awg_attach), 1944d3810ff9SJared McNeill 1945d3810ff9SJared McNeill /* MII interface */ 1946d3810ff9SJared McNeill DEVMETHOD(miibus_readreg, awg_miibus_readreg), 1947d3810ff9SJared McNeill DEVMETHOD(miibus_writereg, awg_miibus_writereg), 1948d3810ff9SJared McNeill DEVMETHOD(miibus_statchg, awg_miibus_statchg), 1949d3810ff9SJared McNeill 1950d3810ff9SJared McNeill DEVMETHOD_END 1951d3810ff9SJared McNeill }; 1952d3810ff9SJared McNeill 1953d3810ff9SJared McNeill static driver_t awg_driver = { 1954d3810ff9SJared McNeill "awg", 1955d3810ff9SJared McNeill awg_methods, 1956d3810ff9SJared McNeill sizeof(struct awg_softc), 1957d3810ff9SJared McNeill }; 1958d3810ff9SJared McNeill 1959d3810ff9SJared McNeill static devclass_t awg_devclass; 1960d3810ff9SJared McNeill 1961d3810ff9SJared McNeill DRIVER_MODULE(awg, simplebus, awg_driver, awg_devclass, 0, 0); 1962d3810ff9SJared McNeill DRIVER_MODULE(miibus, awg, miibus_driver, miibus_devclass, 0, 0); 1963d3810ff9SJared McNeill MODULE_DEPEND(awg, ether, 1, 1, 1); 1964d3810ff9SJared McNeill MODULE_DEPEND(awg, miibus, 1, 1, 1); 196556c37d89SEmmanuel Vadot MODULE_DEPEND(awg, aw_sid, 1, 1, 1); 196656c37d89SEmmanuel Vadot SIMPLEBUS_PNP_INFO(compat_data); 1967