skg.c revision 1.3.4.2
1 1.3.4.2 jruoho /* $NetBSD: skg.c,v 1.3.4.2 2011/06/06 09:06:36 jruoho Exp $ */ 2 1.3.4.2 jruoho 3 1.3.4.2 jruoho /*- 4 1.3.4.2 jruoho * Copyright (c) 2010 Frank Wille. 5 1.3.4.2 jruoho * All rights reserved. 6 1.3.4.2 jruoho * 7 1.3.4.2 jruoho * Written by Frank Wille for The NetBSD Project. 8 1.3.4.2 jruoho * 9 1.3.4.2 jruoho * Redistribution and use in source and binary forms, with or without 10 1.3.4.2 jruoho * modification, are permitted provided that the following conditions 11 1.3.4.2 jruoho * are met: 12 1.3.4.2 jruoho * 1. Redistributions of source code must retain the above copyright 13 1.3.4.2 jruoho * notice, this list of conditions and the following disclaimer. 14 1.3.4.2 jruoho * 2. Redistributions in binary form must reproduce the above copyright 15 1.3.4.2 jruoho * notice, this list of conditions and the following disclaimer in the 16 1.3.4.2 jruoho * documentation and/or other materials provided with the distribution. 17 1.3.4.2 jruoho * 18 1.3.4.2 jruoho * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS 19 1.3.4.2 jruoho * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED 20 1.3.4.2 jruoho * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 21 1.3.4.2 jruoho * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS 22 1.3.4.2 jruoho * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR 23 1.3.4.2 jruoho * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF 24 1.3.4.2 jruoho * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 25 1.3.4.2 jruoho * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN 26 1.3.4.2 jruoho * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) 27 1.3.4.2 jruoho * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE 28 1.3.4.2 jruoho * POSSIBILITY OF SUCH DAMAGE. 29 1.3.4.2 jruoho */ 30 1.3.4.2 jruoho 31 1.3.4.2 jruoho #include <sys/param.h> 32 1.3.4.2 jruoho 33 1.3.4.2 jruoho #include <netinet/in.h> 34 1.3.4.2 jruoho #include <netinet/in_systm.h> 35 1.3.4.2 jruoho 36 1.3.4.2 jruoho #include <lib/libsa/stand.h> 37 1.3.4.2 jruoho #include <lib/libsa/net.h> 38 1.3.4.2 jruoho 39 1.3.4.2 jruoho #include "globals.h" 40 1.3.4.2 jruoho 41 1.3.4.2 jruoho /* 42 1.3.4.2 jruoho * - reverse endian access every CSR. 43 1.3.4.2 jruoho * - no vtophys() translation, vaddr_t == paddr_t. 44 1.3.4.2 jruoho * - PIPT writeback cache aware. 45 1.3.4.2 jruoho */ 46 1.3.4.2 jruoho #define CSR_WRITE_1(l, r, v) *(volatile uint8_t *)((l)->csr+(r)) = (v) 47 1.3.4.2 jruoho #define CSR_READ_1(l, r) *(volatile uint8_t *)((l)->csr+(r)) 48 1.3.4.2 jruoho #define CSR_WRITE_2(l, r, v) out16rb((l)->csr+(r), (v)) 49 1.3.4.2 jruoho #define CSR_READ_2(l, r) in16rb((l)->csr+(r)) 50 1.3.4.2 jruoho #define CSR_WRITE_4(l, r, v) out32rb((l)->csr+(r), (v)) 51 1.3.4.2 jruoho #define CSR_READ_4(l, r) in32rb((l)->csr+(r)) 52 1.3.4.2 jruoho #define VTOPHYS(va) (uint32_t)(va) 53 1.3.4.2 jruoho #define DEVTOV(pa) (uint32_t)(pa) 54 1.3.4.2 jruoho #define wbinv(adr, siz) _wbinv(VTOPHYS(adr), (uint32_t)(siz)) 55 1.3.4.2 jruoho #define inv(adr, siz) _inv(VTOPHYS(adr), (uint32_t)(siz)) 56 1.3.4.2 jruoho #define DELAY(n) delay(n) 57 1.3.4.2 jruoho #define ALLOC(T,A) (T *)allocaligned(sizeof(T),(A)) 58 1.3.4.2 jruoho 59 1.3.4.2 jruoho struct desc { 60 1.3.4.2 jruoho uint32_t xd0, xd1, xd2, xd3, xd4; 61 1.3.4.2 jruoho uint32_t rsrvd[3]; 62 1.3.4.2 jruoho }; 63 1.3.4.2 jruoho #define CTL_LS 0x20000000 64 1.3.4.2 jruoho #define CTL_FS 0x40000000 65 1.3.4.2 jruoho #define CTL_OWN 0x80000000 66 1.3.4.2 jruoho #define CTL_DEFOPC 0x00550000 67 1.3.4.2 jruoho #define FRAMEMASK 0x0000ffff 68 1.3.4.2 jruoho #define RXSTAT_RXOK 0x00000100 69 1.3.4.2 jruoho 70 1.3.4.2 jruoho #define SK_CSR 0x0004 71 1.3.4.2 jruoho #define CSR_SW_RESET 0x0001 72 1.3.4.2 jruoho #define CSR_SW_UNRESET 0x0002 73 1.3.4.2 jruoho #define CSR_MASTER_RESET 0x0004 74 1.3.4.2 jruoho #define CSR_MASTER_UNRESET 0x0008 75 1.3.4.2 jruoho #define SK_IMR 0x000c 76 1.3.4.2 jruoho #define SK_BMU_RX_CSR0 0x0060 77 1.3.4.2 jruoho #define SK_BMU_TXS_CSR0 0x0068 78 1.3.4.2 jruoho #define SK_MAC0 0x0100 79 1.3.4.2 jruoho #define SK_MAC1 0x0108 80 1.3.4.2 jruoho #define SK_GPIO 0x015c 81 1.3.4.2 jruoho #define SK_RAMCTL 0x01a0 82 1.3.4.2 jruoho #define SK_TXAR1_COUNTERCTL 0x0210 83 1.3.4.2 jruoho #define TXARCTL_ON 0x02 84 1.3.4.2 jruoho #define TXARCTL_FSYNC_ON 0x80 85 1.3.4.2 jruoho #define SK_RXQ1_CURADDR_LO 0x0420 86 1.3.4.2 jruoho #define SK_RXQ1_CURADDR_HI 0x0424 87 1.3.4.2 jruoho #define SK_RXQ1_BMU_CSR 0x0434 88 1.3.4.2 jruoho #define RXBMU_CLR_IRQ_EOF 0x00000002 89 1.3.4.2 jruoho #define RXBMU_RX_START 0x00000010 90 1.3.4.2 jruoho #define RXBMU_RX_STOP 0x00000020 91 1.3.4.2 jruoho #define RXBMU_POLL_ON 0x00000080 92 1.3.4.2 jruoho #define RXBMU_TRANSFER_SM_UNRESET 0x00000200 93 1.3.4.2 jruoho #define RXBMU_DESCWR_SM_UNRESET 0x00000800 94 1.3.4.2 jruoho #define RXBMU_DESCRD_SM_UNRESET 0x00002000 95 1.3.4.2 jruoho #define RXBMU_SUPERVISOR_SM_UNRESET 0x00008000 96 1.3.4.2 jruoho #define RXBMU_PFI_SM_UNRESET 0x00020000 97 1.3.4.2 jruoho #define RXBMU_FIFO_UNRESET 0x00080000 98 1.3.4.2 jruoho #define RXBMU_DESC_UNRESET 0x00200000 99 1.3.4.2 jruoho #define SK_TXQS1_CURADDR_LO 0x0620 100 1.3.4.2 jruoho #define SK_TXQS1_CURADDR_HI 0x0624 101 1.3.4.2 jruoho #define SK_TXQS1_BMU_CSR 0x0634 102 1.3.4.2 jruoho #define TXBMU_CLR_IRQ_EOF 0x00000002 103 1.3.4.2 jruoho #define TXBMU_TX_START 0x00000010 104 1.3.4.2 jruoho #define TXBMU_TX_STOP 0x00000020 105 1.3.4.2 jruoho #define TXBMU_POLL_ON 0x00000080 106 1.3.4.2 jruoho #define TXBMU_TRANSFER_SM_UNRESET 0x00000200 107 1.3.4.2 jruoho #define TXBMU_DESCWR_SM_UNRESET 0x00000800 108 1.3.4.2 jruoho #define TXBMU_DESCRD_SM_UNRESET 0x00002000 109 1.3.4.2 jruoho #define TXBMU_SUPERVISOR_SM_UNRESET 0x00008000 110 1.3.4.2 jruoho #define TXBMU_PFI_SM_UNRESET 0x00020000 111 1.3.4.2 jruoho #define TXBMU_FIFO_UNRESET 0x00080000 112 1.3.4.2 jruoho #define TXBMU_DESC_UNRESET 0x00200000 113 1.3.4.2 jruoho #define SK_RXRB1_START 0x0800 114 1.3.4.2 jruoho #define SK_RXRB1_END 0x0804 115 1.3.4.2 jruoho #define SK_RXRB1_WR_PTR 0x0808 116 1.3.4.2 jruoho #define SK_RXRB1_RD_PTR 0x080c 117 1.3.4.2 jruoho #define SK_RXRB1_CTLTST 0x0828 118 1.3.4.2 jruoho #define RBCTL_UNRESET 0x02 119 1.3.4.2 jruoho #define RBCTL_ON 0x08 120 1.3.4.2 jruoho #define RBCTL_STORENFWD_ON 0x20 121 1.3.4.2 jruoho #define SK_TXRBS1_START 0x0a00 122 1.3.4.2 jruoho #define SK_TXRBS1_END 0x0a04 123 1.3.4.2 jruoho #define SK_TXRBS1_WR_PTR 0x0a08 124 1.3.4.2 jruoho #define SK_TXRBS1_RD_PTR 0x0a0c 125 1.3.4.2 jruoho #define SK_TXRBS1_CTLTST 0x0a28 126 1.3.4.2 jruoho #define SK_RXMF1_CTRL_TEST 0x0c48 127 1.3.4.2 jruoho #define RFCTL_OPERATION_ON 0x00000008 128 1.3.4.2 jruoho #define RFCTL_RESET_CLEAR 0x00000002 129 1.3.4.2 jruoho #define SK_TXMF1_CTRL_TEST 0x0D48 130 1.3.4.2 jruoho #define TFCTL_OPERATION_ON 0x00000008 131 1.3.4.2 jruoho #define TFCTL_RESET_CLEAR 0x00000002 132 1.3.4.2 jruoho #define SK_GMAC_CTRL 0x0f00 133 1.3.4.2 jruoho #define GMAC_LOOP_OFF 0x00000010 134 1.3.4.2 jruoho #define GMAC_PAUSE_ON 0x00000008 135 1.3.4.2 jruoho #define GMAC_RESET_CLEAR 0x00000002 136 1.3.4.2 jruoho #define GMAC_RESET_SET 0x00000001 137 1.3.4.2 jruoho #define SK_GPHY_CTRL 0x0f04 138 1.3.4.2 jruoho #define GPHY_INT_POL_HI 0x08000000 139 1.3.4.2 jruoho #define GPHY_DIS_FC 0x02000000 140 1.3.4.2 jruoho #define GPHY_DIS_SLEEP 0x01000000 141 1.3.4.2 jruoho #define GPHY_ENA_XC 0x00040000 142 1.3.4.2 jruoho #define GPHY_ENA_PAUSE 0x00002000 143 1.3.4.2 jruoho #define GPHY_RESET_CLEAR 0x00000002 144 1.3.4.2 jruoho #define GPHY_RESET_SET 0x00000001 145 1.3.4.2 jruoho #define GPHY_ANEG_ALL 0x0009c000 146 1.3.4.2 jruoho #define GPHY_COPPER 0x00f00000 147 1.3.4.2 jruoho #define SK_LINK_CTRL 0x0f10 148 1.3.4.2 jruoho #define LINK_RESET_CLEAR 0x0002 149 1.3.4.2 jruoho #define LINK_RESET_SET 0x0001 150 1.3.4.2 jruoho 151 1.3.4.2 jruoho #define YUKON_GPCR 0x2804 152 1.3.4.2 jruoho #define GPCR_TXEN 0x1000 153 1.3.4.2 jruoho #define GPCR_RXEN 0x0800 154 1.3.4.2 jruoho #define YUKON_SA1 0x281c 155 1.3.4.2 jruoho #define YUKON_SA2 0x2828 156 1.3.4.2 jruoho #define YUKON_SMICR 0x2880 157 1.3.4.2 jruoho #define SMICR_PHYAD(x) (((x) & 0x1f) << 11) 158 1.3.4.2 jruoho #define SMICR_REGAD(x) (((x) & 0x1f) << 6) 159 1.3.4.2 jruoho #define SMICR_OP_READ 0x0020 160 1.3.4.2 jruoho #define SMICR_OP_WRITE 0x0000 161 1.3.4.2 jruoho #define SMICR_READ_VALID 0x0010 162 1.3.4.2 jruoho #define SMICR_BUSY 0x0008 163 1.3.4.2 jruoho #define YUKON_SMIDR 0x2884 164 1.3.4.2 jruoho 165 1.3.4.2 jruoho #define MII_PSSR 0x11 /* MAKPHY status register */ 166 1.3.4.2 jruoho #define PSSR_DUPLEX 0x2000 /* FDX */ 167 1.3.4.2 jruoho #define PSSR_RESOLVED 0x0800 /* speed and duplex resolved */ 168 1.3.4.2 jruoho #define PSSR_LINK 0x0400 /* link indication */ 169 1.3.4.2 jruoho #define PSSR_SPEED(x) (((x) >> 14) & 0x3) 170 1.3.4.2 jruoho #define SPEED10 0 171 1.3.4.2 jruoho #define SPEED100 1 172 1.3.4.2 jruoho #define SPEED1000 2 173 1.3.4.2 jruoho 174 1.3.4.2 jruoho #define FRAMESIZE 1536 175 1.3.4.2 jruoho 176 1.3.4.2 jruoho struct local { 177 1.3.4.2 jruoho struct desc txd[2]; 178 1.3.4.2 jruoho struct desc rxd[2]; 179 1.3.4.2 jruoho uint8_t rxstore[2][FRAMESIZE]; 180 1.3.4.2 jruoho unsigned csr, rx, tx, phy; 181 1.3.4.2 jruoho uint16_t pssr, anlpar; 182 1.3.4.2 jruoho }; 183 1.3.4.2 jruoho 184 1.3.4.2 jruoho static int mii_read(struct local *, int, int); 185 1.3.4.2 jruoho static void mii_write(struct local *, int, int, int); 186 1.3.4.2 jruoho static void mii_initphy(struct local *); 187 1.3.4.2 jruoho static void mii_dealan(struct local *, unsigned); 188 1.3.4.2 jruoho 189 1.3.4.2 jruoho int 190 1.3.4.2 jruoho skg_match(unsigned tag, void *data) 191 1.3.4.2 jruoho { 192 1.3.4.2 jruoho unsigned v; 193 1.3.4.2 jruoho 194 1.3.4.2 jruoho v = pcicfgread(tag, PCI_ID_REG); 195 1.3.4.2 jruoho switch (v) { 196 1.3.4.2 jruoho case PCI_DEVICE(0x11ab, 0x4320): 197 1.3.4.2 jruoho return 1; 198 1.3.4.2 jruoho } 199 1.3.4.2 jruoho return 0; 200 1.3.4.2 jruoho } 201 1.3.4.2 jruoho 202 1.3.4.2 jruoho void * 203 1.3.4.2 jruoho skg_init(unsigned tag, void *data) 204 1.3.4.2 jruoho { 205 1.3.4.2 jruoho struct local *l; 206 1.3.4.2 jruoho struct desc *txd, *rxd; 207 1.3.4.2 jruoho uint8_t *en; 208 1.3.4.2 jruoho unsigned i; 209 1.3.4.2 jruoho uint16_t reg; 210 1.3.4.2 jruoho 211 1.3.4.2 jruoho l = ALLOC(struct local, 32); /* desc alignment */ 212 1.3.4.2 jruoho memset(l, 0, sizeof(struct local)); 213 1.3.4.2 jruoho l->csr = DEVTOV(pcicfgread(tag, 0x10)); /* use mem space */ 214 1.3.4.2 jruoho 215 1.3.4.2 jruoho /* make sure the descriptor bytes are not reversed */ 216 1.3.4.2 jruoho i = pcicfgread(tag, 0x44); 217 1.3.4.2 jruoho pcicfgwrite(tag, 0x44, i & ~4); 218 1.3.4.2 jruoho 219 1.3.4.2 jruoho /* reset the chip */ 220 1.3.4.2 jruoho CSR_WRITE_2(l, SK_CSR, CSR_SW_RESET); 221 1.3.4.2 jruoho CSR_WRITE_2(l, SK_CSR, CSR_MASTER_RESET); 222 1.3.4.2 jruoho CSR_WRITE_2(l, SK_LINK_CTRL, LINK_RESET_SET); 223 1.3.4.2 jruoho DELAY(1000); 224 1.3.4.2 jruoho CSR_WRITE_2(l, SK_CSR, CSR_SW_UNRESET); 225 1.3.4.2 jruoho DELAY(2); 226 1.3.4.2 jruoho CSR_WRITE_2(l, SK_CSR, CSR_MASTER_UNRESET); 227 1.3.4.2 jruoho CSR_WRITE_2(l, SK_LINK_CTRL, LINK_RESET_CLEAR); 228 1.3.4.2 jruoho CSR_WRITE_4(l, SK_RAMCTL, 2); /* enable RAM interface */ 229 1.3.4.2 jruoho 230 1.3.4.2 jruoho mii_initphy(l); 231 1.3.4.2 jruoho 232 1.3.4.2 jruoho /* read ethernet address */ 233 1.3.4.2 jruoho en = data; 234 1.3.4.2 jruoho if (brdtype == BRD_SYNOLOGY) 235 1.3.4.2 jruoho read_mac_from_flash(en); 236 1.3.4.2 jruoho else 237 1.3.4.2 jruoho for (i = 0; i < 6; i++) 238 1.3.4.2 jruoho en[i] = CSR_READ_1(l, SK_MAC0 + i); 239 1.3.4.2 jruoho printf("MAC address %02x:%02x:%02x:%02x:%02x:%02x\n", 240 1.3.4.2 jruoho en[0], en[1], en[2], en[3], en[4], en[5]); 241 1.3.4.2 jruoho DPRINTF(("PHY %d (%04x.%04x)\n", l->phy, 242 1.3.4.2 jruoho mii_read(l, l->phy, 2), mii_read(l, l->phy, 3))); 243 1.3.4.2 jruoho 244 1.3.4.2 jruoho /* set station address */ 245 1.3.4.2 jruoho for (i = 0; i < 3; i++) 246 1.3.4.2 jruoho CSR_WRITE_2(l, YUKON_SA1 + i * 4, 247 1.3.4.2 jruoho (en[i * 2] << 8) | en[i * 2 + 1]); 248 1.3.4.2 jruoho 249 1.3.4.2 jruoho /* configure RX and TX MAC FIFO */ 250 1.3.4.2 jruoho CSR_WRITE_1(l, SK_RXMF1_CTRL_TEST, RFCTL_RESET_CLEAR); 251 1.3.4.2 jruoho CSR_WRITE_4(l, SK_RXMF1_CTRL_TEST, RFCTL_OPERATION_ON); 252 1.3.4.2 jruoho CSR_WRITE_1(l, SK_TXMF1_CTRL_TEST, TFCTL_RESET_CLEAR); 253 1.3.4.2 jruoho CSR_WRITE_4(l, SK_TXMF1_CTRL_TEST, TFCTL_OPERATION_ON); 254 1.3.4.2 jruoho 255 1.3.4.2 jruoho mii_dealan(l, 5); 256 1.3.4.2 jruoho 257 1.3.4.2 jruoho switch (PSSR_SPEED(l->pssr)) { 258 1.3.4.2 jruoho case SPEED1000: 259 1.3.4.2 jruoho printf("1000Mbps"); 260 1.3.4.2 jruoho break; 261 1.3.4.2 jruoho case SPEED100: 262 1.3.4.2 jruoho printf("100Mbps"); 263 1.3.4.2 jruoho break; 264 1.3.4.2 jruoho case SPEED10: 265 1.3.4.2 jruoho printf("10Mbps"); 266 1.3.4.2 jruoho break; 267 1.3.4.2 jruoho } 268 1.3.4.2 jruoho if (l->pssr & PSSR_DUPLEX) 269 1.3.4.2 jruoho printf("-FDX"); 270 1.3.4.2 jruoho printf("\n"); 271 1.3.4.2 jruoho 272 1.3.4.2 jruoho /* configure RAM buffers, assuming 64k RAM */ 273 1.3.4.2 jruoho CSR_WRITE_4(l, SK_RXRB1_CTLTST, RBCTL_UNRESET); 274 1.3.4.2 jruoho CSR_WRITE_4(l, SK_RXRB1_START, 0); 275 1.3.4.2 jruoho CSR_WRITE_4(l, SK_RXRB1_WR_PTR, 0); 276 1.3.4.2 jruoho CSR_WRITE_4(l, SK_RXRB1_RD_PTR, 0); 277 1.3.4.2 jruoho CSR_WRITE_4(l, SK_RXRB1_END, 0xfff); 278 1.3.4.2 jruoho CSR_WRITE_4(l, SK_RXRB1_CTLTST, RBCTL_ON); 279 1.3.4.2 jruoho CSR_WRITE_4(l, SK_TXRBS1_CTLTST, RBCTL_UNRESET); 280 1.3.4.2 jruoho CSR_WRITE_4(l, SK_TXRBS1_CTLTST, RBCTL_STORENFWD_ON); 281 1.3.4.2 jruoho CSR_WRITE_4(l, SK_TXRBS1_START, 0x1000); 282 1.3.4.2 jruoho CSR_WRITE_4(l, SK_TXRBS1_WR_PTR, 0x1000); 283 1.3.4.2 jruoho CSR_WRITE_4(l, SK_TXRBS1_RD_PTR, 0x1000); 284 1.3.4.2 jruoho CSR_WRITE_4(l, SK_TXRBS1_END, 0x1fff); 285 1.3.4.2 jruoho CSR_WRITE_4(l, SK_TXRBS1_CTLTST, RBCTL_ON); 286 1.3.4.2 jruoho 287 1.3.4.2 jruoho /* setup descriptors and BMU */ 288 1.3.4.2 jruoho CSR_WRITE_1(l, SK_TXAR1_COUNTERCTL, TXARCTL_ON|TXARCTL_FSYNC_ON); 289 1.3.4.2 jruoho 290 1.3.4.2 jruoho txd = &l->txd[0]; 291 1.3.4.2 jruoho txd[0].xd1 = htole32(VTOPHYS(&txd[1])); 292 1.3.4.2 jruoho txd[1].xd1 = htole32(VTOPHYS(&txd[0])); 293 1.3.4.2 jruoho rxd = &l->rxd[0]; 294 1.3.4.2 jruoho rxd[0].xd0 = htole32(FRAMESIZE|CTL_DEFOPC|CTL_LS|CTL_FS|CTL_OWN); 295 1.3.4.2 jruoho rxd[0].xd1 = htole32(VTOPHYS(&rxd[1])); 296 1.3.4.2 jruoho rxd[0].xd2 = htole32(VTOPHYS(l->rxstore[0])); 297 1.3.4.2 jruoho rxd[1].xd0 = htole32(FRAMESIZE|CTL_DEFOPC|CTL_LS|CTL_FS|CTL_OWN); 298 1.3.4.2 jruoho rxd[1].xd1 = htole32(VTOPHYS(&rxd[0])); 299 1.3.4.2 jruoho rxd[1].xd2 = htole32(VTOPHYS(l->rxstore[1])); 300 1.3.4.2 jruoho wbinv(l, sizeof(struct local)); 301 1.3.4.2 jruoho 302 1.3.4.2 jruoho CSR_WRITE_4(l, SK_RXQ1_BMU_CSR, 303 1.3.4.2 jruoho RXBMU_TRANSFER_SM_UNRESET|RXBMU_DESCWR_SM_UNRESET| 304 1.3.4.2 jruoho RXBMU_DESCRD_SM_UNRESET|RXBMU_SUPERVISOR_SM_UNRESET| 305 1.3.4.2 jruoho RXBMU_PFI_SM_UNRESET|RXBMU_FIFO_UNRESET| 306 1.3.4.2 jruoho RXBMU_DESC_UNRESET); 307 1.3.4.2 jruoho CSR_WRITE_4(l, SK_RXQ1_CURADDR_LO, VTOPHYS(rxd)); 308 1.3.4.2 jruoho CSR_WRITE_4(l, SK_RXQ1_CURADDR_HI, 0); 309 1.3.4.2 jruoho 310 1.3.4.2 jruoho CSR_WRITE_4(l, SK_TXQS1_BMU_CSR, 311 1.3.4.2 jruoho TXBMU_TRANSFER_SM_UNRESET|TXBMU_DESCWR_SM_UNRESET| 312 1.3.4.2 jruoho TXBMU_DESCRD_SM_UNRESET|TXBMU_SUPERVISOR_SM_UNRESET| 313 1.3.4.2 jruoho TXBMU_PFI_SM_UNRESET|TXBMU_FIFO_UNRESET| 314 1.3.4.2 jruoho TXBMU_DESC_UNRESET|TXBMU_POLL_ON); 315 1.3.4.2 jruoho CSR_WRITE_4(l, SK_TXQS1_CURADDR_LO, VTOPHYS(txd)); 316 1.3.4.2 jruoho CSR_WRITE_4(l, SK_TXQS1_CURADDR_HI, 0); 317 1.3.4.2 jruoho 318 1.3.4.2 jruoho CSR_WRITE_4(l, SK_IMR, 0); 319 1.3.4.2 jruoho CSR_WRITE_4(l, SK_RXQ1_BMU_CSR, RXBMU_RX_START); 320 1.3.4.2 jruoho reg = CSR_READ_2(l, YUKON_GPCR); 321 1.3.4.2 jruoho reg |= GPCR_TXEN | GPCR_RXEN; 322 1.3.4.2 jruoho CSR_WRITE_2(l, YUKON_GPCR, reg); 323 1.3.4.2 jruoho 324 1.3.4.2 jruoho return l; 325 1.3.4.2 jruoho } 326 1.3.4.2 jruoho 327 1.3.4.2 jruoho int 328 1.3.4.2 jruoho skg_send(void *dev, char *buf, unsigned len) 329 1.3.4.2 jruoho { 330 1.3.4.2 jruoho struct local *l = dev; 331 1.3.4.2 jruoho volatile struct desc *txd; 332 1.3.4.2 jruoho unsigned loop; 333 1.3.4.2 jruoho 334 1.3.4.2 jruoho wbinv(buf, len); 335 1.3.4.2 jruoho txd = &l->txd[l->tx]; 336 1.3.4.2 jruoho txd->xd2 = htole32(VTOPHYS(buf)); 337 1.3.4.2 jruoho txd->xd0 = htole32((len & FRAMEMASK)|CTL_DEFOPC|CTL_FS|CTL_LS|CTL_OWN); 338 1.3.4.2 jruoho wbinv(txd, sizeof(struct desc)); 339 1.3.4.2 jruoho CSR_WRITE_4(l, SK_BMU_TXS_CSR0, TXBMU_TX_START); 340 1.3.4.2 jruoho loop = 100; 341 1.3.4.2 jruoho do { 342 1.3.4.2 jruoho if ((le32toh(txd->xd0) & CTL_OWN) == 0) 343 1.3.4.2 jruoho goto done; 344 1.3.4.2 jruoho DELAY(10); 345 1.3.4.2 jruoho inv(txd, sizeof(struct desc)); 346 1.3.4.2 jruoho } while (--loop > 0); 347 1.3.4.2 jruoho printf("xmit failed\n"); 348 1.3.4.2 jruoho return -1; 349 1.3.4.2 jruoho done: 350 1.3.4.2 jruoho l->tx ^= 1; 351 1.3.4.2 jruoho return len; 352 1.3.4.2 jruoho } 353 1.3.4.2 jruoho 354 1.3.4.2 jruoho int 355 1.3.4.2 jruoho skg_recv(void *dev, char *buf, unsigned maxlen, unsigned timo) 356 1.3.4.2 jruoho { 357 1.3.4.2 jruoho struct local *l = dev; 358 1.3.4.2 jruoho volatile struct desc *rxd; 359 1.3.4.2 jruoho unsigned bound, ctl, rxstat, len; 360 1.3.4.2 jruoho uint8_t *ptr; 361 1.3.4.2 jruoho 362 1.3.4.2 jruoho bound = 1000 * timo; 363 1.3.4.2 jruoho #if 0 364 1.3.4.2 jruoho printf("recving with %u sec. timeout\n", timo); 365 1.3.4.2 jruoho #endif 366 1.3.4.2 jruoho again: 367 1.3.4.2 jruoho rxd = &l->rxd[l->rx]; 368 1.3.4.2 jruoho do { 369 1.3.4.2 jruoho inv(rxd, sizeof(struct desc)); 370 1.3.4.2 jruoho ctl = le32toh(rxd->xd0); 371 1.3.4.2 jruoho if ((ctl & CTL_OWN) == 0) 372 1.3.4.2 jruoho goto gotone; 373 1.3.4.2 jruoho DELAY(1000); /* 1 milli second */ 374 1.3.4.2 jruoho } while (--bound > 0); 375 1.3.4.2 jruoho errno = 0; 376 1.3.4.2 jruoho return -1; 377 1.3.4.2 jruoho gotone: 378 1.3.4.2 jruoho rxstat = le32toh(rxd->xd4); 379 1.3.4.2 jruoho if ((rxstat & RXSTAT_RXOK) == 0) { 380 1.3.4.2 jruoho rxd->xd0 = htole32(FRAMESIZE|CTL_DEFOPC|CTL_LS|CTL_FS|CTL_OWN); 381 1.3.4.2 jruoho wbinv(rxd, sizeof(struct desc)); 382 1.3.4.2 jruoho l->rx ^= 1; 383 1.3.4.2 jruoho goto again; 384 1.3.4.2 jruoho } 385 1.3.4.2 jruoho len = ctl & FRAMEMASK; 386 1.3.4.2 jruoho if (len > maxlen) 387 1.3.4.2 jruoho len = maxlen; 388 1.3.4.2 jruoho ptr = l->rxstore[l->rx]; 389 1.3.4.2 jruoho inv(ptr, len); 390 1.3.4.2 jruoho memcpy(buf, ptr, len); 391 1.3.4.2 jruoho rxd->xd0 = htole32(FRAMESIZE|CTL_DEFOPC|CTL_LS|CTL_FS|CTL_OWN); 392 1.3.4.2 jruoho wbinv(rxd, sizeof(struct desc)); 393 1.3.4.2 jruoho l->rx ^= 1; 394 1.3.4.2 jruoho return len; 395 1.3.4.2 jruoho } 396 1.3.4.2 jruoho 397 1.3.4.2 jruoho static int 398 1.3.4.2 jruoho mii_read(struct local *l, int phy, int reg) 399 1.3.4.2 jruoho { 400 1.3.4.2 jruoho unsigned loop, v; 401 1.3.4.2 jruoho 402 1.3.4.2 jruoho CSR_WRITE_2(l, YUKON_SMICR, SMICR_PHYAD(phy) | SMICR_REGAD(reg) | 403 1.3.4.2 jruoho SMICR_OP_READ); 404 1.3.4.2 jruoho loop = 1000; 405 1.3.4.2 jruoho do { 406 1.3.4.2 jruoho DELAY(1); 407 1.3.4.2 jruoho v = CSR_READ_2(l, YUKON_SMICR); 408 1.3.4.2 jruoho } while ((v & SMICR_READ_VALID) == 0 && --loop); 409 1.3.4.2 jruoho if (loop == 0) { 410 1.3.4.2 jruoho printf("mii_read timeout!\n"); 411 1.3.4.2 jruoho return 0; 412 1.3.4.2 jruoho } 413 1.3.4.2 jruoho return CSR_READ_2(l, YUKON_SMIDR); 414 1.3.4.2 jruoho } 415 1.3.4.2 jruoho 416 1.3.4.2 jruoho static void 417 1.3.4.2 jruoho mii_write(struct local *l, int phy, int reg, int data) 418 1.3.4.2 jruoho { 419 1.3.4.2 jruoho unsigned loop, v; 420 1.3.4.2 jruoho 421 1.3.4.2 jruoho CSR_WRITE_2(l, YUKON_SMIDR, data); 422 1.3.4.2 jruoho CSR_WRITE_2(l, YUKON_SMICR, SMICR_PHYAD(phy) | SMICR_REGAD(reg) | 423 1.3.4.2 jruoho SMICR_OP_WRITE); 424 1.3.4.2 jruoho loop = 1000; 425 1.3.4.2 jruoho do { 426 1.3.4.2 jruoho DELAY(1); 427 1.3.4.2 jruoho v = CSR_READ_2(l, YUKON_SMICR); 428 1.3.4.2 jruoho } while ((v & SMICR_BUSY) != 0 && --loop); 429 1.3.4.2 jruoho if (loop == 0) 430 1.3.4.2 jruoho printf("mii_write timeout!\n"); 431 1.3.4.2 jruoho } 432 1.3.4.2 jruoho 433 1.3.4.2 jruoho #define MII_BMCR 0x00 /* Basic mode control register (rw) */ 434 1.3.4.2 jruoho #define BMCR_AUTOEN 0x1000 /* autonegotiation enable */ 435 1.3.4.2 jruoho #define BMCR_STARTNEG 0x0200 /* restart autonegotiation */ 436 1.3.4.2 jruoho #define MII_BMSR 0x01 /* Basic mode status register (ro) */ 437 1.3.4.2 jruoho #define BMSR_ACOMP 0x0020 /* Autonegotiation complete */ 438 1.3.4.2 jruoho #define BMSR_LINK 0x0004 /* Link status */ 439 1.3.4.2 jruoho #define MII_ANAR 0x04 /* Autonegotiation advertisement (rw) */ 440 1.3.4.2 jruoho #define ANAR_FC 0x0400 /* local device supports PAUSE */ 441 1.3.4.2 jruoho #define ANAR_TX_FD 0x0100 /* local device supports 100bTx FD */ 442 1.3.4.2 jruoho #define ANAR_TX 0x0080 /* local device supports 100bTx */ 443 1.3.4.2 jruoho #define ANAR_10_FD 0x0040 /* local device supports 10bT FD */ 444 1.3.4.2 jruoho #define ANAR_10 0x0020 /* local device supports 10bT */ 445 1.3.4.2 jruoho #define ANAR_CSMA 0x0001 /* protocol selector CSMA/CD */ 446 1.3.4.2 jruoho #define MII_ANLPAR 0x05 /* Autonegotiation lnk partner abilities (rw) */ 447 1.3.4.2 jruoho #define MII_GTCR 0x09 /* 1000baseT control */ 448 1.3.4.2 jruoho #define GANA_1000TFDX 0x0200 /* advertise 1000baseT FDX */ 449 1.3.4.2 jruoho #define GANA_1000THDX 0x0100 /* advertise 1000baseT HDX */ 450 1.3.4.2 jruoho #define MII_GTSR 0x0a /* 1000baseT status */ 451 1.3.4.2 jruoho #define GLPA_1000TFDX 0x0800 /* link partner 1000baseT FDX capable */ 452 1.3.4.2 jruoho #define GLPA_1000THDX 0x0400 /* link partner 1000baseT HDX capable */ 453 1.3.4.2 jruoho 454 1.3.4.2 jruoho static void 455 1.3.4.2 jruoho mii_initphy(struct local *l) 456 1.3.4.2 jruoho { 457 1.3.4.2 jruoho unsigned val; 458 1.3.4.2 jruoho 459 1.3.4.2 jruoho l->phy = 0; 460 1.3.4.2 jruoho 461 1.3.4.2 jruoho /* take PHY out of reset */ 462 1.3.4.2 jruoho val = CSR_READ_4(l, SK_GPIO); 463 1.3.4.2 jruoho CSR_WRITE_4(l, SK_GPIO, (val | 0x2000000) & ~0x200); 464 1.3.4.2 jruoho 465 1.3.4.2 jruoho /* GMAC and GPHY reset */ 466 1.3.4.2 jruoho CSR_WRITE_4(l, SK_GPHY_CTRL, GPHY_RESET_SET); 467 1.3.4.2 jruoho CSR_WRITE_4(l, SK_GMAC_CTRL, GMAC_RESET_SET); 468 1.3.4.2 jruoho DELAY(1000); 469 1.3.4.2 jruoho CSR_WRITE_4(l, SK_GMAC_CTRL, GMAC_RESET_CLEAR); 470 1.3.4.2 jruoho CSR_WRITE_4(l, SK_GMAC_CTRL, GMAC_RESET_SET); 471 1.3.4.2 jruoho DELAY(1000); 472 1.3.4.2 jruoho 473 1.3.4.2 jruoho val = GPHY_INT_POL_HI | GPHY_DIS_FC | GPHY_DIS_SLEEP | GPHY_ENA_XC | 474 1.3.4.2 jruoho GPHY_ANEG_ALL | GPHY_ENA_PAUSE | GPHY_COPPER; 475 1.3.4.2 jruoho CSR_WRITE_4(l, SK_GPHY_CTRL, val | GPHY_RESET_SET); 476 1.3.4.2 jruoho DELAY(1000); 477 1.3.4.2 jruoho CSR_WRITE_4(l, SK_GPHY_CTRL, val | GPHY_RESET_CLEAR); 478 1.3.4.2 jruoho CSR_WRITE_4(l, SK_GMAC_CTRL, GMAC_LOOP_OFF | GMAC_PAUSE_ON | 479 1.3.4.2 jruoho GMAC_RESET_CLEAR); 480 1.3.4.2 jruoho } 481 1.3.4.2 jruoho 482 1.3.4.2 jruoho static void 483 1.3.4.2 jruoho mii_dealan(struct local *l, unsigned timo) 484 1.3.4.2 jruoho { 485 1.3.4.2 jruoho unsigned bmsr, bound; 486 1.3.4.2 jruoho 487 1.3.4.2 jruoho mii_write(l, l->phy, MII_ANAR, ANAR_TX_FD | ANAR_TX | ANAR_10_FD | 488 1.3.4.2 jruoho ANAR_10 | ANAR_CSMA | ANAR_FC); 489 1.3.4.2 jruoho mii_write(l, l->phy, MII_GTCR, GANA_1000TFDX | GANA_1000THDX); 490 1.3.4.2 jruoho mii_write(l, l->phy, MII_BMCR, BMCR_AUTOEN | BMCR_STARTNEG); 491 1.3.4.2 jruoho l->anlpar = 0; 492 1.3.4.2 jruoho bound = getsecs() + timo; 493 1.3.4.2 jruoho do { 494 1.3.4.2 jruoho bmsr = mii_read(l, l->phy, MII_BMSR) | 495 1.3.4.2 jruoho mii_read(l, l->phy, MII_BMSR); /* read twice */ 496 1.3.4.2 jruoho if ((bmsr & BMSR_LINK) && (bmsr & BMSR_ACOMP)) { 497 1.3.4.2 jruoho l->pssr = mii_read(l, l->phy, MII_PSSR); 498 1.3.4.2 jruoho l->anlpar = mii_read(l, l->phy, MII_ANLPAR); 499 1.3.4.2 jruoho if ((l->pssr & PSSR_RESOLVED) == 0) 500 1.3.4.2 jruoho continue; 501 1.3.4.2 jruoho break; 502 1.3.4.2 jruoho } 503 1.3.4.2 jruoho DELAY(10 * 1000); 504 1.3.4.2 jruoho } while (getsecs() < bound); 505 1.3.4.2 jruoho } 506
Indexes created Tue Oct 28 07:09:57 GMT 2025