if_smsc.c revision 1.50
1 1.50 skrll /* $NetBSD: if_smsc.c,v 1.50 2019/08/09 07:54:05 skrll Exp $ */ 2 1.1 skrll 3 1.1 skrll /* $OpenBSD: if_smsc.c,v 1.4 2012/09/27 12:38:11 jsg Exp $ */ 4 1.32 skrll /* $FreeBSD: src/sys/dev/usb/net/if_smsc.c,v 1.1 2012/08/15 04:03:55 gonzo Exp $ */ 5 1.1 skrll /*- 6 1.1 skrll * Copyright (c) 2012 7 1.1 skrll * Ben Gray <bgray (at) freebsd.org>. 8 1.1 skrll * All rights reserved. 9 1.1 skrll * 10 1.1 skrll * Redistribution and use in source and binary forms, with or without 11 1.1 skrll * modification, are permitted provided that the following conditions 12 1.1 skrll * are met: 13 1.1 skrll * 1. Redistributions of source code must retain the above copyright 14 1.1 skrll * notice, this list of conditions and the following disclaimer. 15 1.1 skrll * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 skrll * notice, this list of conditions and the following disclaimer in the 17 1.1 skrll * documentation and/or other materials provided with the distribution. 18 1.1 skrll * 19 1.1 skrll * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 20 1.1 skrll * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 21 1.1 skrll * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 22 1.1 skrll * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 23 1.1 skrll * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 24 1.1 skrll * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 25 1.1 skrll * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 26 1.1 skrll * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 27 1.1 skrll * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 28 1.1 skrll * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 29 1.1 skrll */ 30 1.1 skrll 31 1.1 skrll /* 32 1.1 skrll * SMSC LAN9xxx devices (http://www.smsc.com/) 33 1.1 skrll * 34 1.1 skrll * The LAN9500 & LAN9500A devices are stand-alone USB to Ethernet chips that 35 1.1 skrll * support USB 2.0 and 10/100 Mbps Ethernet. 36 1.1 skrll * 37 1.1 skrll * The LAN951x devices are an integrated USB hub and USB to Ethernet adapter. 38 1.1 skrll * The driver only covers the Ethernet part, the standard USB hub driver 39 1.1 skrll * supports the hub part. 40 1.1 skrll * 41 1.1 skrll * This driver is closely modelled on the Linux driver written and copyrighted 42 1.1 skrll * by SMSC. 43 1.1 skrll * 44 1.1 skrll * H/W TCP & UDP Checksum Offloading 45 1.1 skrll * --------------------------------- 46 1.1 skrll * The chip supports both tx and rx offloading of UDP & TCP checksums, this 47 1.1 skrll * feature can be dynamically enabled/disabled. 48 1.1 skrll * 49 1.1 skrll * RX checksuming is performed across bytes after the IPv4 header to the end of 50 1.1 skrll * the Ethernet frame, this means if the frame is padded with non-zero values 51 1.1 skrll * the H/W checksum will be incorrect, however the rx code compensates for this. 52 1.1 skrll * 53 1.1 skrll * TX checksuming is more complicated, the device requires a special header to 54 1.1 skrll * be prefixed onto the start of the frame which indicates the start and end 55 1.1 skrll * positions of the UDP or TCP frame. This requires the driver to manually 56 1.1 skrll * go through the packet data and decode the headers prior to sending. 57 1.1 skrll * On Linux they generally provide cues to the location of the csum and the 58 1.1 skrll * area to calculate it over, on FreeBSD we seem to have to do it all ourselves, 59 1.8 skrll * hence this is not as optimal and therefore h/w TX checksum is currently not 60 1.1 skrll * implemented. 61 1.1 skrll */ 62 1.1 skrll 63 1.37 rin #include <sys/cdefs.h> 64 1.50 skrll __KERNEL_RCSID(0, "$NetBSD: if_smsc.c,v 1.50 2019/08/09 07:54:05 skrll Exp $"); 65 1.37 rin 66 1.12 skrll #ifdef _KERNEL_OPT 67 1.20 skrll #include "opt_usb.h" 68 1.12 skrll #endif 69 1.1 skrll 70 1.1 skrll #include <sys/param.h> 71 1.47 skrll #include <sys/module.h> 72 1.1 skrll 73 1.47 skrll #include <dev/usb/usbnet.h> 74 1.1 skrll 75 1.1 skrll #include <dev/usb/if_smscreg.h> 76 1.1 skrll 77 1.1 skrll #include "ioconf.h" 78 1.1 skrll 79 1.1 skrll #ifdef USB_DEBUG 80 1.1 skrll int smsc_debug = 0; 81 1.1 skrll #endif 82 1.1 skrll 83 1.47 skrll struct smsc_softc { 84 1.47 skrll struct usbnet smsc_un; 85 1.47 skrll 86 1.47 skrll /* 87 1.47 skrll * The following stores the settings in the mac control (MAC_CSR) 88 1.47 skrll * register 89 1.47 skrll */ 90 1.47 skrll uint32_t sc_mac_csr; 91 1.47 skrll uint32_t sc_rev_id; 92 1.47 skrll 93 1.47 skrll uint32_t sc_coe_ctrl; 94 1.47 skrll }; 95 1.47 skrll 96 1.47 skrll #define SMSC_MIN_BUFSZ 2048 97 1.47 skrll #define SMSC_MAX_BUFSZ 18944 98 1.47 skrll 99 1.1 skrll /* 100 1.1 skrll * Various supported device vendors/products. 101 1.1 skrll */ 102 1.1 skrll static const struct usb_devno smsc_devs[] = { 103 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_LAN89530 }, 104 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_LAN9530 }, 105 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_LAN9730 }, 106 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9500 }, 107 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9500A }, 108 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9500A_ALT }, 109 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9500A_HAL }, 110 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9500A_SAL10 }, 111 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9500_ALT }, 112 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9500_SAL10 }, 113 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9505 }, 114 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9505A }, 115 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9505A_HAL }, 116 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9505A_SAL10 }, 117 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9505_SAL10 }, 118 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9512_14 }, 119 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9512_14_ALT }, 120 1.2 jakllsch { USB_VENDOR_SMSC, USB_PRODUCT_SMSC_SMSC9512_14_SAL10 } 121 1.1 skrll }; 122 1.1 skrll 123 1.1 skrll #ifdef USB_DEBUG 124 1.47 skrll #define smsc_dbg_printf(un, fmt, args...) \ 125 1.1 skrll do { \ 126 1.1 skrll if (smsc_debug > 0) \ 127 1.1 skrll printf("debug: " fmt, ##args); \ 128 1.1 skrll } while(0) 129 1.1 skrll #else 130 1.47 skrll #define smsc_dbg_printf(un, fmt, args...) 131 1.1 skrll #endif 132 1.1 skrll 133 1.47 skrll #define smsc_warn_printf(un, fmt, args...) \ 134 1.47 skrll printf("%s: warning: " fmt, device_xname((un)->un_dev), ##args) 135 1.1 skrll 136 1.47 skrll #define smsc_err_printf(un, fmt, args...) \ 137 1.47 skrll printf("%s: error: " fmt, device_xname((un)->un_dev), ##args) 138 1.1 skrll 139 1.1 skrll /* Function declarations */ 140 1.1 skrll int smsc_match(device_t, cfdata_t, void *); 141 1.1 skrll void smsc_attach(device_t, device_t, void *); 142 1.47 skrll 143 1.47 skrll CFATTACH_DECL_NEW(usmsc, sizeof(struct smsc_softc), 144 1.47 skrll smsc_match, smsc_attach, usbnet_detach, usbnet_activate); 145 1.47 skrll 146 1.47 skrll int smsc_chip_init(struct usbnet *); 147 1.47 skrll int smsc_setmacaddress(struct usbnet *, const uint8_t *); 148 1.1 skrll 149 1.1 skrll int smsc_init(struct ifnet *); 150 1.38 mlelstv int smsc_init_locked(struct ifnet *); 151 1.1 skrll int smsc_ioctl(struct ifnet *, u_long, void *); 152 1.47 skrll void smsc_stop_cb(struct ifnet *, int); 153 1.1 skrll 154 1.1 skrll void smsc_reset(struct smsc_softc *); 155 1.1 skrll 156 1.47 skrll static void smsc_miibus_statchg(struct ifnet *); 157 1.47 skrll int smsc_readreg(struct usbnet *, uint32_t, uint32_t *); 158 1.47 skrll int smsc_writereg(struct usbnet *, uint32_t, uint32_t); 159 1.47 skrll int smsc_wait_for_bits(struct usbnet *, uint32_t, uint32_t); 160 1.47 skrll usbd_status smsc_miibus_readreg(struct usbnet *, int, int, uint16_t *); 161 1.47 skrll usbd_status smsc_miibus_writereg(struct usbnet *, int, int, uint16_t); 162 1.47 skrll 163 1.49 mrg static int smsc_ioctl_cb(struct ifnet *, u_long, void *); 164 1.47 skrll static unsigned smsc_tx_prepare(struct usbnet *, struct mbuf *, 165 1.47 skrll struct usbnet_chain *); 166 1.47 skrll static void smsc_rxeof_loop(struct usbnet *, struct usbd_xfer *, 167 1.47 skrll struct usbnet_chain *, uint32_t); 168 1.1 skrll 169 1.49 mrg static struct usbnet_ops smsc_ops = { 170 1.49 mrg .uno_stop = smsc_stop_cb, 171 1.49 mrg .uno_ioctl = smsc_ioctl_cb, 172 1.49 mrg .uno_read_reg = smsc_miibus_readreg, 173 1.49 mrg .uno_write_reg = smsc_miibus_writereg, 174 1.49 mrg .uno_statchg = smsc_miibus_statchg, 175 1.49 mrg .uno_tx_prepare = smsc_tx_prepare, 176 1.49 mrg .uno_rx_loop = smsc_rxeof_loop, 177 1.49 mrg .uno_init = smsc_init, 178 1.49 mrg }; 179 1.49 mrg 180 1.1 skrll int 181 1.47 skrll smsc_readreg(struct usbnet *un, uint32_t off, uint32_t *data) 182 1.1 skrll { 183 1.1 skrll usb_device_request_t req; 184 1.1 skrll uint32_t buf; 185 1.1 skrll usbd_status err; 186 1.1 skrll 187 1.47 skrll usbnet_isowned_mii(un); 188 1.47 skrll 189 1.49 mrg if (usbnet_isdying(un)) 190 1.47 skrll return 0; 191 1.47 skrll 192 1.1 skrll req.bmRequestType = UT_READ_VENDOR_DEVICE; 193 1.1 skrll req.bRequest = SMSC_UR_READ_REG; 194 1.1 skrll USETW(req.wValue, 0); 195 1.1 skrll USETW(req.wIndex, off); 196 1.1 skrll USETW(req.wLength, 4); 197 1.1 skrll 198 1.47 skrll err = usbd_do_request(un->un_udev, &req, &buf); 199 1.1 skrll if (err != 0) 200 1.47 skrll smsc_warn_printf(un, "Failed to read register 0x%0x\n", off); 201 1.1 skrll 202 1.1 skrll *data = le32toh(buf); 203 1.1 skrll 204 1.27 skrll return err; 205 1.1 skrll } 206 1.1 skrll 207 1.1 skrll int 208 1.47 skrll smsc_writereg(struct usbnet *un, uint32_t off, uint32_t data) 209 1.1 skrll { 210 1.1 skrll usb_device_request_t req; 211 1.1 skrll uint32_t buf; 212 1.1 skrll usbd_status err; 213 1.1 skrll 214 1.47 skrll usbnet_isowned_mii(un); 215 1.47 skrll 216 1.49 mrg if (usbnet_isdying(un)) 217 1.47 skrll return 0; 218 1.47 skrll 219 1.1 skrll buf = htole32(data); 220 1.1 skrll 221 1.1 skrll req.bmRequestType = UT_WRITE_VENDOR_DEVICE; 222 1.1 skrll req.bRequest = SMSC_UR_WRITE_REG; 223 1.1 skrll USETW(req.wValue, 0); 224 1.1 skrll USETW(req.wIndex, off); 225 1.1 skrll USETW(req.wLength, 4); 226 1.1 skrll 227 1.47 skrll err = usbd_do_request(un->un_udev, &req, &buf); 228 1.1 skrll if (err != 0) 229 1.47 skrll smsc_warn_printf(un, "Failed to write register 0x%0x\n", off); 230 1.1 skrll 231 1.27 skrll return err; 232 1.1 skrll } 233 1.1 skrll 234 1.1 skrll int 235 1.47 skrll smsc_wait_for_bits(struct usbnet *un, uint32_t reg, uint32_t bits) 236 1.1 skrll { 237 1.1 skrll uint32_t val; 238 1.1 skrll int err, i; 239 1.1 skrll 240 1.1 skrll for (i = 0; i < 100; i++) { 241 1.47 skrll if ((err = smsc_readreg(un, reg, &val)) != 0) 242 1.27 skrll return err; 243 1.1 skrll if (!(val & bits)) 244 1.27 skrll return 0; 245 1.1 skrll DELAY(5); 246 1.1 skrll } 247 1.1 skrll 248 1.27 skrll return 1; 249 1.1 skrll } 250 1.1 skrll 251 1.47 skrll usbd_status 252 1.47 skrll smsc_miibus_readreg(struct usbnet *un, int phy, int reg, uint16_t *val) 253 1.1 skrll { 254 1.1 skrll uint32_t addr; 255 1.39 msaitoh uint32_t data = 0; 256 1.39 msaitoh int rv = 0; 257 1.1 skrll 258 1.47 skrll usbnet_isowned_mii(un); 259 1.47 skrll 260 1.47 skrll if (smsc_wait_for_bits(un, SMSC_MII_ADDR, SMSC_MII_BUSY) != 0) { 261 1.47 skrll smsc_warn_printf(un, "MII is busy\n"); 262 1.39 msaitoh rv = -1; 263 1.1 skrll goto done; 264 1.1 skrll } 265 1.1 skrll 266 1.1 skrll addr = (phy << 11) | (reg << 6) | SMSC_MII_READ; 267 1.47 skrll smsc_writereg(un, SMSC_MII_ADDR, addr); 268 1.1 skrll 269 1.47 skrll if (smsc_wait_for_bits(un, SMSC_MII_ADDR, SMSC_MII_BUSY) != 0) { 270 1.47 skrll smsc_warn_printf(un, "MII read timeout\n"); 271 1.39 msaitoh rv = ETIMEDOUT; 272 1.39 msaitoh } 273 1.1 skrll 274 1.47 skrll smsc_readreg(un, SMSC_MII_DATA, &data); 275 1.3 skrll 276 1.3 skrll done: 277 1.39 msaitoh *val = data & 0xffff; 278 1.39 msaitoh return rv; 279 1.1 skrll } 280 1.1 skrll 281 1.47 skrll usbd_status 282 1.47 skrll smsc_miibus_writereg(struct usbnet *un, int phy, int reg, uint16_t val) 283 1.1 skrll { 284 1.1 skrll uint32_t addr; 285 1.1 skrll 286 1.47 skrll usbnet_isowned_mii(un); 287 1.47 skrll 288 1.47 skrll if (un->un_phyno != phy) 289 1.39 msaitoh return -1; 290 1.1 skrll 291 1.47 skrll if (smsc_wait_for_bits(un, SMSC_MII_ADDR, SMSC_MII_BUSY) != 0) { 292 1.47 skrll smsc_warn_printf(un, "MII is busy\n"); 293 1.39 msaitoh return -1; 294 1.1 skrll } 295 1.1 skrll 296 1.47 skrll smsc_writereg(un, SMSC_MII_DATA, val); 297 1.1 skrll 298 1.1 skrll addr = (phy << 11) | (reg << 6) | SMSC_MII_WRITE; 299 1.47 skrll smsc_writereg(un, SMSC_MII_ADDR, addr); 300 1.1 skrll 301 1.47 skrll if (smsc_wait_for_bits(un, SMSC_MII_ADDR, SMSC_MII_BUSY) != 0) { 302 1.47 skrll smsc_warn_printf(un, "MII write timeout\n"); 303 1.39 msaitoh return ETIMEDOUT; 304 1.39 msaitoh } 305 1.39 msaitoh 306 1.39 msaitoh return 0; 307 1.1 skrll } 308 1.1 skrll 309 1.1 skrll void 310 1.1 skrll smsc_miibus_statchg(struct ifnet *ifp) 311 1.1 skrll { 312 1.47 skrll struct usbnet * const un = ifp->if_softc; 313 1.38 mlelstv 314 1.49 mrg if (usbnet_isdying(un)) 315 1.38 mlelstv return; 316 1.38 mlelstv 317 1.47 skrll struct smsc_softc * const sc = usbnet_softc(un); 318 1.47 skrll struct mii_data * const mii = usbnet_mii(un); 319 1.1 skrll uint32_t flow; 320 1.1 skrll uint32_t afc_cfg; 321 1.1 skrll 322 1.47 skrll un->un_link = false; 323 1.1 skrll if ((mii->mii_media_status & (IFM_ACTIVE | IFM_AVALID)) == 324 1.1 skrll (IFM_ACTIVE | IFM_AVALID)) { 325 1.1 skrll switch (IFM_SUBTYPE(mii->mii_media_active)) { 326 1.1 skrll case IFM_10_T: 327 1.1 skrll case IFM_100_TX: 328 1.47 skrll un->un_link = true; 329 1.1 skrll break; 330 1.1 skrll case IFM_1000_T: 331 1.1 skrll /* Gigabit ethernet not supported by chipset */ 332 1.1 skrll break; 333 1.1 skrll default: 334 1.1 skrll break; 335 1.1 skrll } 336 1.1 skrll } 337 1.1 skrll 338 1.1 skrll /* Lost link, do nothing. */ 339 1.47 skrll if (!un->un_link) 340 1.1 skrll return; 341 1.1 skrll 342 1.47 skrll usbnet_lock_mii(un); 343 1.47 skrll int err = smsc_readreg(un, SMSC_AFC_CFG, &afc_cfg); 344 1.47 skrll usbnet_unlock_mii(un); 345 1.1 skrll if (err) { 346 1.47 skrll smsc_warn_printf(un, "failed to read initial AFC_CFG, " 347 1.1 skrll "error %d\n", err); 348 1.1 skrll return; 349 1.1 skrll } 350 1.1 skrll 351 1.1 skrll /* Enable/disable full duplex operation and TX/RX pause */ 352 1.1 skrll if ((IFM_OPTIONS(mii->mii_media_active) & IFM_FDX) != 0) { 353 1.47 skrll smsc_dbg_printf(un, "full duplex operation\n"); 354 1.1 skrll sc->sc_mac_csr &= ~SMSC_MAC_CSR_RCVOWN; 355 1.1 skrll sc->sc_mac_csr |= SMSC_MAC_CSR_FDPX; 356 1.1 skrll 357 1.1 skrll if ((IFM_OPTIONS(mii->mii_media_active) & IFM_ETH_RXPAUSE) != 0) 358 1.1 skrll flow = 0xffff0002; 359 1.1 skrll else 360 1.1 skrll flow = 0; 361 1.1 skrll 362 1.1 skrll if ((IFM_OPTIONS(mii->mii_media_active) & IFM_ETH_TXPAUSE) != 0) 363 1.1 skrll afc_cfg |= 0xf; 364 1.1 skrll else 365 1.1 skrll afc_cfg &= ~0xf; 366 1.1 skrll } else { 367 1.47 skrll smsc_dbg_printf(un, "half duplex operation\n"); 368 1.1 skrll sc->sc_mac_csr &= ~SMSC_MAC_CSR_FDPX; 369 1.1 skrll sc->sc_mac_csr |= SMSC_MAC_CSR_RCVOWN; 370 1.1 skrll 371 1.1 skrll flow = 0; 372 1.1 skrll afc_cfg |= 0xf; 373 1.1 skrll } 374 1.1 skrll 375 1.47 skrll usbnet_lock_mii(un); 376 1.47 skrll err = smsc_writereg(un, SMSC_MAC_CSR, sc->sc_mac_csr); 377 1.47 skrll err += smsc_writereg(un, SMSC_FLOW, flow); 378 1.47 skrll err += smsc_writereg(un, SMSC_AFC_CFG, afc_cfg); 379 1.47 skrll usbnet_unlock_mii(un); 380 1.47 skrll 381 1.1 skrll if (err) 382 1.47 skrll smsc_warn_printf(un, "media change failed, error %d\n", err); 383 1.1 skrll } 384 1.1 skrll 385 1.1 skrll static inline uint32_t 386 1.1 skrll smsc_hash(uint8_t addr[ETHER_ADDR_LEN]) 387 1.1 skrll { 388 1.32 skrll 389 1.1 skrll return (ether_crc32_be(addr, ETHER_ADDR_LEN) >> 26) & 0x3f; 390 1.1 skrll } 391 1.1 skrll 392 1.47 skrll static void 393 1.47 skrll smsc_setiff_locked(struct usbnet *un) 394 1.1 skrll { 395 1.47 skrll struct smsc_softc * const sc = usbnet_softc(un); 396 1.47 skrll struct ifnet * const ifp = usbnet_ifp(un); 397 1.47 skrll struct ethercom *ec = usbnet_ec(un); 398 1.38 mlelstv struct ether_multi *enm; 399 1.38 mlelstv struct ether_multistep step; 400 1.38 mlelstv uint32_t hashtbl[2] = { 0, 0 }; 401 1.38 mlelstv uint32_t hash; 402 1.38 mlelstv 403 1.47 skrll usbnet_isowned_mii(un); 404 1.1 skrll 405 1.49 mrg if (usbnet_isdying(un)) 406 1.1 skrll return; 407 1.1 skrll 408 1.1 skrll if (ifp->if_flags & (IFF_ALLMULTI | IFF_PROMISC)) { 409 1.1 skrll allmulti: 410 1.47 skrll smsc_dbg_printf(un, "receive all multicast enabled\n"); 411 1.1 skrll sc->sc_mac_csr |= SMSC_MAC_CSR_MCPAS; 412 1.1 skrll sc->sc_mac_csr &= ~SMSC_MAC_CSR_HPFILT; 413 1.47 skrll smsc_writereg(un, SMSC_MAC_CSR, sc->sc_mac_csr); 414 1.1 skrll return; 415 1.1 skrll } else { 416 1.1 skrll sc->sc_mac_csr |= SMSC_MAC_CSR_HPFILT; 417 1.1 skrll sc->sc_mac_csr &= ~(SMSC_MAC_CSR_PRMS | SMSC_MAC_CSR_MCPAS); 418 1.1 skrll } 419 1.1 skrll 420 1.44 msaitoh ETHER_LOCK(ec); 421 1.44 msaitoh ETHER_FIRST_MULTI(step, ec, enm); 422 1.1 skrll while (enm != NULL) { 423 1.38 mlelstv if (memcmp(enm->enm_addrlo, enm->enm_addrhi, ETHER_ADDR_LEN)) { 424 1.44 msaitoh ETHER_UNLOCK(ec); 425 1.1 skrll goto allmulti; 426 1.38 mlelstv } 427 1.1 skrll 428 1.1 skrll hash = smsc_hash(enm->enm_addrlo); 429 1.1 skrll hashtbl[hash >> 5] |= 1 << (hash & 0x1F); 430 1.1 skrll ETHER_NEXT_MULTI(step, enm); 431 1.1 skrll } 432 1.44 msaitoh ETHER_UNLOCK(ec); 433 1.1 skrll 434 1.1 skrll /* Debug */ 435 1.1 skrll if (sc->sc_mac_csr & SMSC_MAC_CSR_HPFILT) { 436 1.47 skrll smsc_dbg_printf(un, "receive select group of macs\n"); 437 1.1 skrll } else { 438 1.47 skrll smsc_dbg_printf(un, "receive own packets only\n"); 439 1.1 skrll } 440 1.1 skrll 441 1.1 skrll /* Write the hash table and mac control registers */ 442 1.47 skrll 443 1.47 skrll //XXX should we be doing this? 444 1.1 skrll ifp->if_flags &= ~IFF_ALLMULTI; 445 1.47 skrll smsc_writereg(un, SMSC_HASHH, hashtbl[1]); 446 1.47 skrll smsc_writereg(un, SMSC_HASHL, hashtbl[0]); 447 1.47 skrll smsc_writereg(un, SMSC_MAC_CSR, sc->sc_mac_csr); 448 1.1 skrll } 449 1.1 skrll 450 1.47 skrll static void 451 1.47 skrll smsc_setiff(struct usbnet *un) 452 1.47 skrll { 453 1.47 skrll usbnet_lock_mii(un); 454 1.47 skrll smsc_setiff_locked(un); 455 1.47 skrll usbnet_unlock_mii(un); 456 1.47 skrll } 457 1.47 skrll 458 1.47 skrll static int 459 1.47 skrll smsc_setoe_locked(struct usbnet *un) 460 1.1 skrll { 461 1.47 skrll struct smsc_softc * const sc = usbnet_softc(un); 462 1.47 skrll struct ifnet * const ifp = usbnet_ifp(un); 463 1.1 skrll uint32_t val; 464 1.1 skrll int err; 465 1.1 skrll 466 1.47 skrll usbnet_isowned_mii(un); 467 1.47 skrll 468 1.47 skrll err = smsc_readreg(un, SMSC_COE_CTRL, &val); 469 1.1 skrll if (err != 0) { 470 1.47 skrll smsc_warn_printf(un, "failed to read SMSC_COE_CTRL (err=%d)\n", 471 1.1 skrll err); 472 1.27 skrll return err; 473 1.1 skrll } 474 1.1 skrll 475 1.1 skrll /* Enable/disable the Rx checksum */ 476 1.44 msaitoh if (ifp->if_capenable & (IFCAP_CSUM_TCPv4_Rx | IFCAP_CSUM_UDPv4_Rx)) 477 1.13 mlelstv val |= (SMSC_COE_CTRL_RX_EN | SMSC_COE_CTRL_RX_MODE); 478 1.1 skrll else 479 1.13 mlelstv val &= ~(SMSC_COE_CTRL_RX_EN | SMSC_COE_CTRL_RX_MODE); 480 1.1 skrll 481 1.1 skrll /* Enable/disable the Tx checksum (currently not supported) */ 482 1.44 msaitoh if (ifp->if_capenable & (IFCAP_CSUM_TCPv4_Tx | IFCAP_CSUM_UDPv4_Tx)) 483 1.1 skrll val |= SMSC_COE_CTRL_TX_EN; 484 1.1 skrll else 485 1.1 skrll val &= ~SMSC_COE_CTRL_TX_EN; 486 1.1 skrll 487 1.13 mlelstv sc->sc_coe_ctrl = val; 488 1.13 mlelstv 489 1.47 skrll err = smsc_writereg(un, SMSC_COE_CTRL, val); 490 1.1 skrll if (err != 0) { 491 1.47 skrll smsc_warn_printf(un, "failed to write SMSC_COE_CTRL (err=%d)\n", 492 1.1 skrll err); 493 1.27 skrll return err; 494 1.1 skrll } 495 1.1 skrll 496 1.27 skrll return 0; 497 1.1 skrll } 498 1.1 skrll 499 1.47 skrll static void 500 1.47 skrll smsc_setoe(struct usbnet *un) 501 1.47 skrll { 502 1.47 skrll 503 1.47 skrll usbnet_lock_mii(un); 504 1.47 skrll smsc_setoe_locked(un); 505 1.47 skrll usbnet_unlock_mii(un); 506 1.47 skrll } 507 1.47 skrll 508 1.47 skrll 509 1.1 skrll int 510 1.47 skrll smsc_setmacaddress(struct usbnet *un, const uint8_t *addr) 511 1.1 skrll { 512 1.1 skrll int err; 513 1.1 skrll uint32_t val; 514 1.1 skrll 515 1.47 skrll smsc_dbg_printf(un, "setting mac address to " 516 1.1 skrll "%02x:%02x:%02x:%02x:%02x:%02x\n", 517 1.1 skrll addr[0], addr[1], addr[2], addr[3], addr[4], addr[5]); 518 1.1 skrll 519 1.1 skrll val = (addr[3] << 24) | (addr[2] << 16) | (addr[1] << 8) | addr[0]; 520 1.47 skrll if ((err = smsc_writereg(un, SMSC_MAC_ADDRL, val)) != 0) 521 1.1 skrll goto done; 522 1.1 skrll 523 1.1 skrll val = (addr[5] << 8) | addr[4]; 524 1.47 skrll err = smsc_writereg(un, SMSC_MAC_ADDRH, val); 525 1.1 skrll 526 1.1 skrll done: 527 1.27 skrll return err; 528 1.1 skrll } 529 1.1 skrll 530 1.1 skrll void 531 1.1 skrll smsc_reset(struct smsc_softc *sc) 532 1.1 skrll { 533 1.47 skrll struct usbnet * const un = &sc->smsc_un; 534 1.47 skrll 535 1.47 skrll usbnet_isowned(un); 536 1.49 mrg if (usbnet_isdying(un)) 537 1.1 skrll return; 538 1.1 skrll 539 1.1 skrll /* Wait a little while for the chip to get its brains in order. */ 540 1.1 skrll DELAY(1000); 541 1.1 skrll 542 1.1 skrll /* Reinitialize controller to achieve full reset. */ 543 1.47 skrll smsc_chip_init(un); 544 1.1 skrll } 545 1.1 skrll 546 1.1 skrll int 547 1.1 skrll smsc_init(struct ifnet *ifp) 548 1.1 skrll { 549 1.47 skrll struct usbnet * const un = ifp->if_softc; 550 1.38 mlelstv 551 1.47 skrll usbnet_lock(un); 552 1.38 mlelstv int ret = smsc_init_locked(ifp); 553 1.47 skrll usbnet_unlock(un); 554 1.38 mlelstv 555 1.38 mlelstv return ret; 556 1.38 mlelstv } 557 1.38 mlelstv 558 1.38 mlelstv int 559 1.38 mlelstv smsc_init_locked(struct ifnet *ifp) 560 1.38 mlelstv { 561 1.47 skrll struct usbnet * const un = ifp->if_softc; 562 1.47 skrll struct smsc_softc * const sc = usbnet_softc(un); 563 1.1 skrll 564 1.49 mrg if (usbnet_isdying(un)) 565 1.1 skrll return EIO; 566 1.1 skrll 567 1.1 skrll /* Cancel pending I/O */ 568 1.47 skrll usbnet_stop(un, ifp, 1); 569 1.1 skrll 570 1.1 skrll /* Reset the ethernet interface. */ 571 1.1 skrll smsc_reset(sc); 572 1.1 skrll 573 1.47 skrll usbnet_lock_mii_un_locked(un); 574 1.47 skrll 575 1.1 skrll /* Load the multicast filter. */ 576 1.47 skrll smsc_setiff_locked(un); 577 1.9 christos 578 1.13 mlelstv /* TCP/UDP checksum offload engines. */ 579 1.47 skrll smsc_setoe_locked(un); 580 1.13 mlelstv 581 1.47 skrll usbnet_unlock_mii_un_locked(un); 582 1.1 skrll 583 1.49 mrg return usbnet_init_rx_tx(un); 584 1.1 skrll } 585 1.1 skrll 586 1.1 skrll void 587 1.47 skrll smsc_stop_cb(struct ifnet *ifp, int disable) 588 1.1 skrll { 589 1.47 skrll struct usbnet * const un = ifp->if_softc; 590 1.47 skrll struct smsc_softc * const sc = usbnet_softc(un); 591 1.38 mlelstv 592 1.47 skrll // XXXNH didn't do this before 593 1.47 skrll smsc_reset(sc); 594 1.1 skrll } 595 1.1 skrll 596 1.1 skrll int 597 1.47 skrll smsc_chip_init(struct usbnet *un) 598 1.1 skrll { 599 1.47 skrll struct smsc_softc * const sc = usbnet_softc(un); 600 1.1 skrll uint32_t reg_val; 601 1.1 skrll int burst_cap; 602 1.47 skrll int err; 603 1.47 skrll 604 1.47 skrll usbnet_lock_mii_un_locked(un); 605 1.1 skrll 606 1.1 skrll /* Enter H/W config mode */ 607 1.47 skrll smsc_writereg(un, SMSC_HW_CFG, SMSC_HW_CFG_LRST); 608 1.1 skrll 609 1.47 skrll if ((err = smsc_wait_for_bits(un, SMSC_HW_CFG, 610 1.1 skrll SMSC_HW_CFG_LRST)) != 0) { 611 1.47 skrll smsc_warn_printf(un, "timed-out waiting for reset to " 612 1.1 skrll "complete\n"); 613 1.1 skrll goto init_failed; 614 1.1 skrll } 615 1.1 skrll 616 1.1 skrll /* Reset the PHY */ 617 1.47 skrll smsc_writereg(un, SMSC_PM_CTRL, SMSC_PM_CTRL_PHY_RST); 618 1.1 skrll 619 1.47 skrll if ((err = smsc_wait_for_bits(un, SMSC_PM_CTRL, 620 1.26 skrll SMSC_PM_CTRL_PHY_RST)) != 0) { 621 1.47 skrll smsc_warn_printf(un, "timed-out waiting for phy reset to " 622 1.1 skrll "complete\n"); 623 1.1 skrll goto init_failed; 624 1.1 skrll } 625 1.47 skrll usbd_delay_ms(un->un_udev, 40); 626 1.1 skrll 627 1.1 skrll /* Set the mac address */ 628 1.47 skrll struct ifnet * const ifp = usbnet_ifp(un); 629 1.11 skrll const char *eaddr = CLLADDR(ifp->if_sadl); 630 1.47 skrll if ((err = smsc_setmacaddress(un, eaddr)) != 0) { 631 1.47 skrll smsc_warn_printf(un, "failed to set the MAC address\n"); 632 1.1 skrll goto init_failed; 633 1.1 skrll } 634 1.1 skrll 635 1.1 skrll /* 636 1.1 skrll * Don't know what the HW_CFG_BIR bit is, but following the reset 637 1.1 skrll * sequence as used in the Linux driver. 638 1.1 skrll */ 639 1.47 skrll if ((err = smsc_readreg(un, SMSC_HW_CFG, ®_val)) != 0) { 640 1.47 skrll smsc_warn_printf(un, "failed to read HW_CFG: %d\n", err); 641 1.1 skrll goto init_failed; 642 1.1 skrll } 643 1.1 skrll reg_val |= SMSC_HW_CFG_BIR; 644 1.47 skrll smsc_writereg(un, SMSC_HW_CFG, reg_val); 645 1.1 skrll 646 1.1 skrll /* 647 1.1 skrll * There is a so called 'turbo mode' that the linux driver supports, it 648 1.1 skrll * seems to allow you to jam multiple frames per Rx transaction. 649 1.1 skrll * By default this driver supports that and therefore allows multiple 650 1.8 skrll * frames per USB transfer. 651 1.1 skrll * 652 1.1 skrll * The xfer buffer size needs to reflect this as well, therefore based 653 1.1 skrll * on the calculations in the Linux driver the RX bufsize is set to 654 1.1 skrll * 18944, 655 1.1 skrll * bufsz = (16 * 1024 + 5 * 512) 656 1.1 skrll * 657 1.1 skrll * Burst capability is the number of URBs that can be in a burst of 658 1.1 skrll * data/ethernet frames. 659 1.1 skrll */ 660 1.13 mlelstv 661 1.47 skrll if (un->un_udev->ud_speed == USB_SPEED_HIGH) 662 1.1 skrll burst_cap = 37; 663 1.1 skrll else 664 1.1 skrll burst_cap = 128; 665 1.1 skrll 666 1.47 skrll smsc_writereg(un, SMSC_BURST_CAP, burst_cap); 667 1.1 skrll 668 1.1 skrll /* Set the default bulk in delay (magic value from Linux driver) */ 669 1.47 skrll smsc_writereg(un, SMSC_BULK_IN_DLY, 0x00002000); 670 1.1 skrll 671 1.1 skrll /* 672 1.1 skrll * Initialise the RX interface 673 1.1 skrll */ 674 1.47 skrll if ((err = smsc_readreg(un, SMSC_HW_CFG, ®_val)) < 0) { 675 1.47 skrll smsc_warn_printf(un, "failed to read HW_CFG: (err = %d)\n", 676 1.1 skrll err); 677 1.1 skrll goto init_failed; 678 1.1 skrll } 679 1.1 skrll 680 1.1 skrll /* 681 1.8 skrll * The following settings are used for 'turbo mode', a.k.a multiple 682 1.1 skrll * frames per Rx transaction (again info taken form Linux driver). 683 1.1 skrll */ 684 1.14 skrll reg_val |= (SMSC_HW_CFG_MEF | SMSC_HW_CFG_BCE); 685 1.13 mlelstv 686 1.18 skrll /* 687 1.13 mlelstv * set Rx data offset to ETHER_ALIGN which will make the IP header 688 1.13 mlelstv * align on a word boundary. 689 1.18 skrll */ 690 1.13 mlelstv reg_val |= ETHER_ALIGN << SMSC_HW_CFG_RXDOFF_SHIFT; 691 1.1 skrll 692 1.47 skrll smsc_writereg(un, SMSC_HW_CFG, reg_val); 693 1.1 skrll 694 1.1 skrll /* Clear the status register ? */ 695 1.47 skrll smsc_writereg(un, SMSC_INTR_STATUS, 0xffffffff); 696 1.1 skrll 697 1.1 skrll /* Read and display the revision register */ 698 1.47 skrll if ((err = smsc_readreg(un, SMSC_ID_REV, &sc->sc_rev_id)) < 0) { 699 1.47 skrll smsc_warn_printf(un, "failed to read ID_REV (err = %d)\n", err); 700 1.1 skrll goto init_failed; 701 1.1 skrll } 702 1.1 skrll 703 1.1 skrll /* GPIO/LED setup */ 704 1.1 skrll reg_val = SMSC_LED_GPIO_CFG_SPD_LED | SMSC_LED_GPIO_CFG_LNK_LED | 705 1.1 skrll SMSC_LED_GPIO_CFG_FDX_LED; 706 1.47 skrll smsc_writereg(un, SMSC_LED_GPIO_CFG, reg_val); 707 1.1 skrll 708 1.1 skrll /* 709 1.1 skrll * Initialise the TX interface 710 1.1 skrll */ 711 1.47 skrll smsc_writereg(un, SMSC_FLOW, 0); 712 1.1 skrll 713 1.47 skrll smsc_writereg(un, SMSC_AFC_CFG, AFC_CFG_DEFAULT); 714 1.1 skrll 715 1.1 skrll /* Read the current MAC configuration */ 716 1.47 skrll if ((err = smsc_readreg(un, SMSC_MAC_CSR, &sc->sc_mac_csr)) < 0) { 717 1.47 skrll smsc_warn_printf(un, "failed to read MAC_CSR (err=%d)\n", err); 718 1.1 skrll goto init_failed; 719 1.1 skrll } 720 1.1 skrll 721 1.13 mlelstv /* disable pad stripping, collides with checksum offload */ 722 1.13 mlelstv sc->sc_mac_csr &= ~SMSC_MAC_CSR_PADSTR; 723 1.13 mlelstv 724 1.1 skrll /* Vlan */ 725 1.47 skrll smsc_writereg(un, SMSC_VLAN1, (uint32_t)ETHERTYPE_VLAN); 726 1.1 skrll 727 1.1 skrll /* 728 1.1 skrll * Start TX 729 1.1 skrll */ 730 1.1 skrll sc->sc_mac_csr |= SMSC_MAC_CSR_TXEN; 731 1.47 skrll smsc_writereg(un, SMSC_MAC_CSR, sc->sc_mac_csr); 732 1.47 skrll smsc_writereg(un, SMSC_TX_CFG, SMSC_TX_CFG_ON); 733 1.1 skrll 734 1.1 skrll /* 735 1.1 skrll * Start RX 736 1.1 skrll */ 737 1.1 skrll sc->sc_mac_csr |= SMSC_MAC_CSR_RXEN; 738 1.47 skrll smsc_writereg(un, SMSC_MAC_CSR, sc->sc_mac_csr); 739 1.47 skrll usbnet_unlock_mii_un_locked(un); 740 1.1 skrll 741 1.27 skrll return 0; 742 1.1 skrll 743 1.1 skrll init_failed: 744 1.47 skrll usbnet_unlock_mii_un_locked(un); 745 1.47 skrll smsc_err_printf(un, "smsc_chip_init failed (err=%d)\n", err); 746 1.27 skrll return err; 747 1.1 skrll } 748 1.1 skrll 749 1.38 mlelstv static int 750 1.47 skrll smsc_ioctl_cb(struct ifnet *ifp, u_long cmd, void *data) 751 1.1 skrll { 752 1.47 skrll struct usbnet * const un = ifp->if_softc; 753 1.1 skrll 754 1.47 skrll switch (cmd) { 755 1.47 skrll case SIOCSIFFLAGS: 756 1.47 skrll case SIOCSETHERCAP: 757 1.47 skrll case SIOCADDMULTI: 758 1.47 skrll case SIOCDELMULTI: 759 1.47 skrll smsc_setiff(un); 760 1.47 skrll break; 761 1.47 skrll case SIOCSIFCAP: 762 1.47 skrll smsc_setoe(un); 763 1.47 skrll break; 764 1.47 skrll default: 765 1.47 skrll break; 766 1.38 mlelstv } 767 1.1 skrll 768 1.38 mlelstv return 0; 769 1.38 mlelstv } 770 1.1 skrll 771 1.1 skrll int 772 1.1 skrll smsc_match(device_t parent, cfdata_t match, void *aux) 773 1.1 skrll { 774 1.1 skrll struct usb_attach_arg *uaa = aux; 775 1.1 skrll 776 1.27 skrll return (usb_lookup(smsc_devs, uaa->uaa_vendor, uaa->uaa_product) != NULL) ? 777 1.1 skrll UMATCH_VENDOR_PRODUCT : UMATCH_NONE; 778 1.1 skrll } 779 1.1 skrll 780 1.1 skrll void 781 1.1 skrll smsc_attach(device_t parent, device_t self, void *aux) 782 1.1 skrll { 783 1.47 skrll struct smsc_softc * const sc = device_private(self); 784 1.47 skrll struct usbnet * const un = &sc->smsc_un; 785 1.1 skrll struct usb_attach_arg *uaa = aux; 786 1.27 skrll struct usbd_device *dev = uaa->uaa_device; 787 1.1 skrll usb_interface_descriptor_t *id; 788 1.1 skrll usb_endpoint_descriptor_t *ed; 789 1.1 skrll char *devinfop; 790 1.49 mrg unsigned bufsz; 791 1.38 mlelstv int err, i; 792 1.1 skrll uint32_t mac_h, mac_l; 793 1.1 skrll 794 1.47 skrll /* Switch to usbnet for device_private() */ 795 1.47 skrll self->dv_private = un; 796 1.1 skrll 797 1.1 skrll aprint_naive("\n"); 798 1.1 skrll aprint_normal("\n"); 799 1.1 skrll 800 1.47 skrll un->un_dev = self; 801 1.47 skrll un->un_udev = dev; 802 1.47 skrll un->un_sc = sc; 803 1.49 mrg un->un_ops = &smsc_ops; 804 1.47 skrll 805 1.47 skrll devinfop = usbd_devinfo_alloc(un->un_udev, 0); 806 1.1 skrll aprint_normal_dev(self, "%s\n", devinfop); 807 1.1 skrll usbd_devinfo_free(devinfop); 808 1.1 skrll 809 1.1 skrll err = usbd_set_config_no(dev, SMSC_CONFIG_INDEX, 1); 810 1.1 skrll if (err) { 811 1.1 skrll aprint_error_dev(self, "failed to set configuration" 812 1.1 skrll ", err=%s\n", usbd_errstr(err)); 813 1.1 skrll return; 814 1.1 skrll } 815 1.38 mlelstv 816 1.1 skrll /* Setup the endpoints for the SMSC LAN95xx device(s) */ 817 1.47 skrll err = usbd_device2interface_handle(dev, SMSC_IFACE_IDX, &un->un_iface); 818 1.1 skrll if (err) { 819 1.1 skrll aprint_error_dev(self, "getting interface handle failed\n"); 820 1.1 skrll return; 821 1.1 skrll } 822 1.1 skrll 823 1.47 skrll id = usbd_get_interface_descriptor(un->un_iface); 824 1.1 skrll 825 1.47 skrll if (dev->ud_speed >= USB_SPEED_HIGH) { 826 1.49 mrg bufsz = SMSC_MAX_BUFSZ; 827 1.47 skrll } else { 828 1.49 mrg bufsz = SMSC_MIN_BUFSZ; 829 1.47 skrll } 830 1.1 skrll 831 1.1 skrll /* Find endpoints. */ 832 1.1 skrll for (i = 0; i < id->bNumEndpoints; i++) { 833 1.47 skrll ed = usbd_interface2endpoint_descriptor(un->un_iface, i); 834 1.1 skrll if (!ed) { 835 1.1 skrll aprint_error_dev(self, "couldn't get ep %d\n", i); 836 1.1 skrll return; 837 1.1 skrll } 838 1.1 skrll if (UE_GET_DIR(ed->bEndpointAddress) == UE_DIR_IN && 839 1.1 skrll UE_GET_XFERTYPE(ed->bmAttributes) == UE_BULK) { 840 1.47 skrll un->un_ed[USBNET_ENDPT_RX] = ed->bEndpointAddress; 841 1.1 skrll } else if (UE_GET_DIR(ed->bEndpointAddress) == UE_DIR_OUT && 842 1.1 skrll UE_GET_XFERTYPE(ed->bmAttributes) == UE_BULK) { 843 1.47 skrll un->un_ed[USBNET_ENDPT_TX] = ed->bEndpointAddress; 844 1.47 skrll #if 0 /* not used yet */ 845 1.1 skrll } else if (UE_GET_DIR(ed->bEndpointAddress) == UE_DIR_IN && 846 1.1 skrll UE_GET_XFERTYPE(ed->bmAttributes) == UE_INTERRUPT) { 847 1.47 skrll un->un_ed[USBNET_ENDPT_INTR] = ed->bEndpointAddress; 848 1.47 skrll #endif 849 1.1 skrll } 850 1.1 skrll } 851 1.1 skrll 852 1.49 mrg usbnet_attach(un, "smscdet", SMSC_RX_LIST_CNT, SMSC_TX_LIST_CNT, 853 1.49 mrg USBD_SHORT_XFER_OK, USBD_FORCE_SHORT_XFER, bufsz, bufsz); 854 1.1 skrll 855 1.13 mlelstv #ifdef notyet 856 1.13 mlelstv /* 857 1.13 mlelstv * We can do TCPv4, and UDPv4 checksums in hardware. 858 1.13 mlelstv */ 859 1.47 skrll struct ifnet *ifp = usbnet_ifp(un); 860 1.47 skrll 861 1.13 mlelstv ifp->if_capabilities |= 862 1.13 mlelstv /*IFCAP_CSUM_TCPv4_Tx |*/ IFCAP_CSUM_TCPv4_Rx | 863 1.13 mlelstv /*IFCAP_CSUM_UDPv4_Tx |*/ IFCAP_CSUM_UDPv4_Rx; 864 1.13 mlelstv #endif 865 1.49 mrg struct ethercom *ec = usbnet_ec(un); 866 1.49 mrg ec->ec_capabilities = ETHERCAP_VLAN_MTU; 867 1.9 christos 868 1.1 skrll /* Setup some of the basics */ 869 1.47 skrll un->un_phyno = 1; 870 1.1 skrll 871 1.47 skrll usbnet_lock_mii(un); 872 1.1 skrll /* 873 1.1 skrll * Attempt to get the mac address, if an EEPROM is not attached this 874 1.1 skrll * will just return FF:FF:FF:FF:FF:FF, so in such cases we invent a MAC 875 1.1 skrll * address based on urandom. 876 1.1 skrll */ 877 1.47 skrll memset(un->un_eaddr, 0xff, ETHER_ADDR_LEN); 878 1.1 skrll 879 1.1 skrll prop_dictionary_t dict = device_properties(self); 880 1.1 skrll prop_data_t eaprop = prop_dictionary_get(dict, "mac-address"); 881 1.1 skrll 882 1.1 skrll if (eaprop != NULL) { 883 1.1 skrll KASSERT(prop_object_type(eaprop) == PROP_TYPE_DATA); 884 1.1 skrll KASSERT(prop_data_size(eaprop) == ETHER_ADDR_LEN); 885 1.47 skrll memcpy(un->un_eaddr, prop_data_data_nocopy(eaprop), 886 1.1 skrll ETHER_ADDR_LEN); 887 1.38 mlelstv } else { 888 1.38 mlelstv /* Check if there is already a MAC address in the register */ 889 1.47 skrll if ((smsc_readreg(un, SMSC_MAC_ADDRL, &mac_l) == 0) && 890 1.47 skrll (smsc_readreg(un, SMSC_MAC_ADDRH, &mac_h) == 0)) { 891 1.47 skrll un->un_eaddr[5] = (uint8_t)((mac_h >> 8) & 0xff); 892 1.47 skrll un->un_eaddr[4] = (uint8_t)((mac_h) & 0xff); 893 1.47 skrll un->un_eaddr[3] = (uint8_t)((mac_l >> 24) & 0xff); 894 1.47 skrll un->un_eaddr[2] = (uint8_t)((mac_l >> 16) & 0xff); 895 1.47 skrll un->un_eaddr[1] = (uint8_t)((mac_l >> 8) & 0xff); 896 1.47 skrll un->un_eaddr[0] = (uint8_t)((mac_l) & 0xff); 897 1.38 mlelstv } 898 1.1 skrll } 899 1.47 skrll usbnet_unlock_mii(un); 900 1.1 skrll 901 1.47 skrll usbnet_attach_ifp(un, true, IFF_SIMPLEX | IFF_BROADCAST | IFF_MULTICAST, 902 1.47 skrll 0, 0); 903 1.1 skrll } 904 1.1 skrll 905 1.1 skrll void 906 1.47 skrll smsc_rxeof_loop(struct usbnet * un, struct usbd_xfer *xfer, 907 1.47 skrll struct usbnet_chain *c, uint32_t total_len) 908 1.1 skrll { 909 1.47 skrll struct smsc_softc * const sc = usbnet_softc(un); 910 1.47 skrll struct ifnet *ifp = usbnet_ifp(un); 911 1.47 skrll uint8_t *buf = c->unc_buf; 912 1.1 skrll 913 1.49 mrg usbnet_isowned_rx(un); 914 1.1 skrll 915 1.13 mlelstv while (total_len != 0) { 916 1.38 mlelstv uint32_t rxhdr; 917 1.1 skrll if (total_len < sizeof(rxhdr)) { 918 1.47 skrll smsc_dbg_printf(un, "total_len %d < sizeof(rxhdr) %zu\n", 919 1.1 skrll total_len, sizeof(rxhdr)); 920 1.1 skrll ifp->if_ierrors++; 921 1.47 skrll return; 922 1.1 skrll } 923 1.1 skrll 924 1.1 skrll memcpy(&rxhdr, buf, sizeof(rxhdr)); 925 1.1 skrll rxhdr = le32toh(rxhdr); 926 1.13 mlelstv buf += sizeof(rxhdr); 927 1.1 skrll total_len -= sizeof(rxhdr); 928 1.1 skrll 929 1.24 mlelstv if (rxhdr & SMSC_RX_STAT_COLLISION) 930 1.24 mlelstv ifp->if_collisions++; 931 1.24 mlelstv 932 1.24 mlelstv if (rxhdr & (SMSC_RX_STAT_ERROR 933 1.45 msaitoh | SMSC_RX_STAT_LENGTH_ERROR 934 1.45 msaitoh | SMSC_RX_STAT_MII_ERROR)) { 935 1.47 skrll smsc_dbg_printf(un, "rx error (hdr 0x%08x)\n", rxhdr); 936 1.1 skrll ifp->if_ierrors++; 937 1.47 skrll return; 938 1.1 skrll } 939 1.1 skrll 940 1.38 mlelstv uint16_t pktlen = (uint16_t)SMSC_RX_STAT_FRM_LENGTH(rxhdr); 941 1.47 skrll smsc_dbg_printf(un, "rxeof total_len %d pktlen %d rxhdr " 942 1.1 skrll "0x%08x\n", total_len, pktlen, rxhdr); 943 1.13 mlelstv 944 1.22 jmcneill if (pktlen < ETHER_HDR_LEN) { 945 1.47 skrll smsc_dbg_printf(un, "pktlen %d < ETHER_HDR_LEN %d\n", 946 1.22 jmcneill pktlen, ETHER_HDR_LEN); 947 1.22 jmcneill ifp->if_ierrors++; 948 1.47 skrll return; 949 1.22 jmcneill } 950 1.22 jmcneill 951 1.13 mlelstv pktlen += ETHER_ALIGN; 952 1.13 mlelstv 953 1.17 mlelstv if (pktlen > MCLBYTES) { 954 1.47 skrll smsc_dbg_printf(un, "pktlen %d > MCLBYTES %d\n", 955 1.17 mlelstv pktlen, MCLBYTES); 956 1.17 mlelstv ifp->if_ierrors++; 957 1.47 skrll return; 958 1.17 mlelstv } 959 1.17 mlelstv 960 1.1 skrll if (pktlen > total_len) { 961 1.47 skrll smsc_dbg_printf(un, "pktlen %d > total_len %d\n", 962 1.1 skrll pktlen, total_len); 963 1.1 skrll ifp->if_ierrors++; 964 1.47 skrll return; 965 1.1 skrll } 966 1.1 skrll 967 1.47 skrll uint8_t *pktbuf = buf + ETHER_ALIGN; 968 1.47 skrll size_t buflen = pktlen; 969 1.47 skrll int mbuf_flags = M_HASFCS; 970 1.47 skrll int csum_flags = 0; 971 1.47 skrll uint16_t csum_data = 0; 972 1.17 mlelstv 973 1.47 skrll KASSERT(pktlen < MCLBYTES); 974 1.1 skrll 975 1.13 mlelstv /* Check if RX TCP/UDP checksumming is being offloaded */ 976 1.13 mlelstv if (sc->sc_coe_ctrl & SMSC_COE_CTRL_RX_EN) { 977 1.47 skrll smsc_dbg_printf(un,"RX checksum offload checking\n"); 978 1.47 skrll struct ether_header *eh = (struct ether_header *)pktbuf; 979 1.47 skrll const size_t cssz = sizeof(csum_data); 980 1.13 mlelstv 981 1.13 mlelstv /* Remove the extra 2 bytes of the csum */ 982 1.47 skrll buflen -= cssz; 983 1.13 mlelstv 984 1.13 mlelstv /* 985 1.13 mlelstv * The checksum appears to be simplistically calculated 986 1.13 mlelstv * over the udp/tcp header and data up to the end of the 987 1.13 mlelstv * eth frame. Which means if the eth frame is padded 988 1.13 mlelstv * the csum calculation is incorrectly performed over 989 1.13 mlelstv * the padding bytes as well. Therefore to be safe we 990 1.13 mlelstv * ignore the H/W csum on frames less than or equal to 991 1.13 mlelstv * 64 bytes. 992 1.13 mlelstv * 993 1.13 mlelstv * Ignore H/W csum for non-IPv4 packets. 994 1.13 mlelstv */ 995 1.47 skrll smsc_dbg_printf(un,"Ethertype %02x pktlen %02x\n", 996 1.18 skrll be16toh(eh->ether_type), pktlen); 997 1.13 mlelstv if (be16toh(eh->ether_type) == ETHERTYPE_IP && 998 1.18 skrll pktlen > ETHER_MIN_LEN) { 999 1.13 mlelstv 1000 1.47 skrll csum_flags |= 1001 1.18 skrll (M_CSUM_TCPv4 | M_CSUM_UDPv4 | M_CSUM_DATA); 1002 1.13 mlelstv 1003 1.13 mlelstv /* 1004 1.13 mlelstv * Copy the TCP/UDP checksum from the last 2 1005 1.13 mlelstv * bytes of the transfer and put in the 1006 1.13 mlelstv * csum_data field. 1007 1.13 mlelstv */ 1008 1.47 skrll memcpy(&csum_data, buf + pktlen - cssz, cssz); 1009 1.47 skrll 1010 1.13 mlelstv /* 1011 1.13 mlelstv * The data is copied in network order, but the 1012 1.13 mlelstv * csum algorithm in the kernel expects it to be 1013 1.13 mlelstv * in host network order. 1014 1.13 mlelstv */ 1015 1.47 skrll csum_data = ntohs(csum_data); 1016 1.47 skrll smsc_dbg_printf(un, 1017 1.18 skrll "RX checksum offloaded (0x%04x)\n", 1018 1.47 skrll csum_data); 1019 1.13 mlelstv } 1020 1.13 mlelstv } 1021 1.13 mlelstv 1022 1.17 mlelstv /* round up to next longword */ 1023 1.17 mlelstv pktlen = (pktlen + 3) & ~0x3; 1024 1.17 mlelstv 1025 1.17 mlelstv /* total_len does not include the padding */ 1026 1.17 mlelstv if (pktlen > total_len) 1027 1.17 mlelstv pktlen = total_len; 1028 1.17 mlelstv 1029 1.13 mlelstv buf += pktlen; 1030 1.13 mlelstv total_len -= pktlen; 1031 1.1 skrll 1032 1.1 skrll /* push the packet up */ 1033 1.47 skrll usbnet_enqueue(un, pktbuf, buflen, csum_flags, csum_data, 1034 1.47 skrll mbuf_flags); 1035 1.13 mlelstv } 1036 1.1 skrll } 1037 1.1 skrll 1038 1.47 skrll static unsigned 1039 1.47 skrll smsc_tx_prepare(struct usbnet *un, struct mbuf *m, struct usbnet_chain *c) 1040 1.38 mlelstv { 1041 1.38 mlelstv uint32_t txhdr; 1042 1.38 mlelstv uint32_t frm_len = 0; 1043 1.1 skrll 1044 1.49 mrg usbnet_isowned_tx(un); 1045 1.47 skrll 1046 1.1 skrll /* 1047 1.1 skrll * Each frame is prefixed with two 32-bit values describing the 1048 1.1 skrll * length of the packet and buffer. 1049 1.1 skrll */ 1050 1.1 skrll txhdr = SMSC_TX_CTRL_0_BUF_SIZE(m->m_pkthdr.len) | 1051 1.38 mlelstv SMSC_TX_CTRL_0_FIRST_SEG | SMSC_TX_CTRL_0_LAST_SEG; 1052 1.1 skrll txhdr = htole32(txhdr); 1053 1.47 skrll memcpy(c->unc_buf, &txhdr, sizeof(txhdr)); 1054 1.1 skrll 1055 1.1 skrll txhdr = SMSC_TX_CTRL_1_PKT_LENGTH(m->m_pkthdr.len); 1056 1.1 skrll txhdr = htole32(txhdr); 1057 1.47 skrll memcpy(c->unc_buf + 4, &txhdr, sizeof(txhdr)); 1058 1.1 skrll 1059 1.1 skrll frm_len += 8; 1060 1.1 skrll 1061 1.1 skrll /* Next copy in the actual packet */ 1062 1.47 skrll m_copydata(m, 0, m->m_pkthdr.len, c->unc_buf + frm_len); 1063 1.1 skrll frm_len += m->m_pkthdr.len; 1064 1.1 skrll 1065 1.47 skrll return frm_len; 1066 1.47 skrll } 1067 1.1 skrll 1068 1.47 skrll MODULE(MODULE_CLASS_DRIVER, if_smsc, "usbnet"); 1069 1.1 skrll 1070 1.47 skrll #ifdef _MODULE 1071 1.47 skrll #include "ioconf.c" 1072 1.47 skrll #endif 1073 1.47 skrll 1074 1.47 skrll static int 1075 1.47 skrll if_smsc_modcmd(modcmd_t cmd, void *aux) 1076 1.47 skrll { 1077 1.47 skrll int error = 0; 1078 1.47 skrll 1079 1.47 skrll switch (cmd) { 1080 1.47 skrll case MODULE_CMD_INIT: 1081 1.47 skrll #ifdef _MODULE 1082 1.47 skrll error = config_init_component(cfdriver_ioconf_smsc, 1083 1.47 skrll cfattach_ioconf_smsc, cfdata_ioconf_smsc); 1084 1.47 skrll #endif 1085 1.47 skrll return error; 1086 1.47 skrll case MODULE_CMD_FINI: 1087 1.47 skrll #ifdef _MODULE 1088 1.47 skrll error = config_fini_component(cfdriver_ioconf_smsc, 1089 1.48 mrg cfattach_ioconf_smsc, cfdata_ioconf_smsc); 1090 1.47 skrll #endif 1091 1.47 skrll return error; 1092 1.47 skrll default: 1093 1.47 skrll return ENOTTY; 1094 1.1 skrll } 1095 1.1 skrll } 1096
Indexes created Thu Oct 02 01:09:59 GMT 2025