Reinhard Meyer | a61a819 | 2010-09-12 16:23:49 +0200 | [diff] [blame] | 1 | /* |
| 2 | * (C) Copyright 2010 |
| 3 | * Reinhard Meyer, EMK Elektronik, reinhard.meyer@emk-elektronik.de |
| 4 | * Martin Krause, Martin.Krause@tqs.de |
| 5 | * reworked original enc28j60.c |
| 6 | * |
| 7 | * This program is free software; you can redistribute it and/or |
| 8 | * modify it under the terms of the GNU General Public License as |
| 9 | * published by the Free Software Foundation; either version 2 of |
| 10 | * the License, or (at your option) any later version. |
| 11 | * |
| 12 | * This program is distributed in the hope that it will be useful, |
| 13 | * but WITHOUT ANY WARRANTY; without even the implied warranty of |
| 14 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the |
| 15 | * GNU General Public License for more details. |
| 16 | * |
| 17 | * You should have received a copy of the GNU General Public License |
| 18 | * along with this program; if not, write to the Free Software |
| 19 | * Foundation, Inc., 59 Temple Place, Suite 330, Boston, |
| 20 | * MA 02111-1307 USA |
| 21 | */ |
| 22 | |
| 23 | #include <common.h> |
| 24 | #include <net.h> |
| 25 | #include <spi.h> |
| 26 | #include <malloc.h> |
| 27 | #include <netdev.h> |
| 28 | #include <miiphy.h> |
| 29 | #include "enc28j60.h" |
| 30 | |
| 31 | /* |
| 32 | * IMPORTANT: spi_claim_bus() and spi_release_bus() |
| 33 | * are called at begin and end of each of the following functions: |
| 34 | * enc_miiphy_read(), enc_miiphy_write(), enc_write_hwaddr(), |
| 35 | * enc_init(), enc_recv(), enc_send(), enc_halt() |
| 36 | * ALL other functions assume that the bus has already been claimed! |
| 37 | * Since NetReceive() might call enc_send() in return, the bus must be |
| 38 | * released, NetReceive() called and claimed again. |
| 39 | */ |
| 40 | |
| 41 | /* |
| 42 | * Controller memory layout. |
| 43 | * We only allow 1 frame for transmission and reserve the rest |
| 44 | * for reception to handle as many broadcast packets as possible. |
| 45 | * Also use the memory from 0x0000 for receiver buffer. See errata pt. 5 |
| 46 | * 0x0000 - 0x19ff 6656 bytes receive buffer |
| 47 | * 0x1a00 - 0x1fff 1536 bytes transmit buffer = |
| 48 | * control(1)+frame(1518)+status(7)+reserve(10). |
| 49 | */ |
| 50 | #define ENC_RX_BUF_START 0x0000 |
| 51 | #define ENC_RX_BUF_END 0x19ff |
| 52 | #define ENC_TX_BUF_START 0x1a00 |
| 53 | #define ENC_TX_BUF_END 0x1fff |
| 54 | #define ENC_MAX_FRM_LEN 1518 |
| 55 | #define RX_RESET_COUNTER 1000 |
| 56 | |
| 57 | /* |
| 58 | * For non data transfer functions, like phy read/write, set hwaddr, init |
| 59 | * we do not need a full, time consuming init including link ready wait. |
| 60 | * This enum helps to bring the chip through the minimum necessary inits. |
| 61 | */ |
| 62 | enum enc_initstate {none=0, setupdone, linkready}; |
| 63 | typedef struct enc_device { |
| 64 | struct eth_device *dev; /* back pointer */ |
| 65 | struct spi_slave *slave; |
| 66 | int rx_reset_counter; |
| 67 | u16 next_pointer; |
| 68 | u8 bank; /* current bank in enc28j60 */ |
| 69 | enum enc_initstate initstate; |
| 70 | } enc_dev_t; |
| 71 | |
| 72 | /* |
| 73 | * enc_bset: set bits in a common register |
| 74 | * enc_bclr: clear bits in a common register |
| 75 | * |
| 76 | * making the reg parameter u8 will give a compile time warning if the |
| 77 | * functions are called with a register not accessible in all Banks |
| 78 | */ |
| 79 | static void enc_bset(enc_dev_t *enc, const u8 reg, const u8 data) |
| 80 | { |
| 81 | u8 dout[2]; |
| 82 | |
| 83 | dout[0] = CMD_BFS(reg); |
| 84 | dout[1] = data; |
| 85 | spi_xfer(enc->slave, 2 * 8, dout, NULL, |
| 86 | SPI_XFER_BEGIN | SPI_XFER_END); |
| 87 | } |
| 88 | |
| 89 | static void enc_bclr(enc_dev_t *enc, const u8 reg, const u8 data) |
| 90 | { |
| 91 | u8 dout[2]; |
| 92 | |
| 93 | dout[0] = CMD_BFC(reg); |
| 94 | dout[1] = data; |
| 95 | spi_xfer(enc->slave, 2 * 8, dout, NULL, |
| 96 | SPI_XFER_BEGIN | SPI_XFER_END); |
| 97 | } |
| 98 | |
| 99 | /* |
| 100 | * high byte of the register contains bank number: |
| 101 | * 0: no bank switch necessary |
| 102 | * 1: switch to bank 0 |
| 103 | * 2: switch to bank 1 |
| 104 | * 3: switch to bank 2 |
| 105 | * 4: switch to bank 3 |
| 106 | */ |
| 107 | static void enc_set_bank(enc_dev_t *enc, const u16 reg) |
| 108 | { |
| 109 | u8 newbank = reg >> 8; |
| 110 | |
| 111 | if (newbank == 0 || newbank == enc->bank) |
| 112 | return; |
| 113 | switch (newbank) { |
| 114 | case 1: |
| 115 | enc_bclr(enc, CTL_REG_ECON1, |
| 116 | ENC_ECON1_BSEL0 | ENC_ECON1_BSEL1); |
| 117 | break; |
| 118 | case 2: |
| 119 | enc_bset(enc, CTL_REG_ECON1, ENC_ECON1_BSEL0); |
| 120 | enc_bclr(enc, CTL_REG_ECON1, ENC_ECON1_BSEL1); |
| 121 | break; |
| 122 | case 3: |
| 123 | enc_bclr(enc, CTL_REG_ECON1, ENC_ECON1_BSEL0); |
| 124 | enc_bset(enc, CTL_REG_ECON1, ENC_ECON1_BSEL1); |
| 125 | break; |
| 126 | case 4: |
| 127 | enc_bset(enc, CTL_REG_ECON1, |
| 128 | ENC_ECON1_BSEL0 | ENC_ECON1_BSEL1); |
| 129 | break; |
| 130 | } |
| 131 | enc->bank = newbank; |
| 132 | } |
| 133 | |
| 134 | /* |
| 135 | * local functions to access SPI |
| 136 | * |
| 137 | * reg: register inside ENC28J60 |
| 138 | * data: 8/16 bits to write |
| 139 | * c: number of retries |
| 140 | * |
| 141 | * enc_r8: read 8 bits |
| 142 | * enc_r16: read 16 bits |
| 143 | * enc_w8: write 8 bits |
| 144 | * enc_w16: write 16 bits |
| 145 | * enc_w8_retry: write 8 bits, verify and retry |
| 146 | * enc_rbuf: read from ENC28J60 into buffer |
| 147 | * enc_wbuf: write from buffer into ENC28J60 |
| 148 | */ |
| 149 | |
| 150 | /* |
| 151 | * MAC and MII registers need a 3 byte SPI transfer to read, |
| 152 | * all other registers need a 2 byte SPI transfer. |
| 153 | */ |
| 154 | static int enc_reg2nbytes(const u16 reg) |
| 155 | { |
| 156 | /* check if MAC or MII register */ |
| 157 | return ((reg >= CTL_REG_MACON1 && reg <= CTL_REG_MIRDH) || |
| 158 | (reg >= CTL_REG_MAADR1 && reg <= CTL_REG_MAADR4) || |
| 159 | (reg == CTL_REG_MISTAT)) ? 3 : 2; |
| 160 | } |
| 161 | |
| 162 | /* |
| 163 | * Read a byte register |
| 164 | */ |
| 165 | static u8 enc_r8(enc_dev_t *enc, const u16 reg) |
| 166 | { |
| 167 | u8 dout[3]; |
| 168 | u8 din[3]; |
| 169 | int nbytes = enc_reg2nbytes(reg); |
| 170 | |
| 171 | enc_set_bank(enc, reg); |
| 172 | dout[0] = CMD_RCR(reg); |
| 173 | spi_xfer(enc->slave, nbytes * 8, dout, din, |
| 174 | SPI_XFER_BEGIN | SPI_XFER_END); |
| 175 | return din[nbytes-1]; |
| 176 | } |
| 177 | |
| 178 | /* |
| 179 | * Read a L/H register pair and return a word. |
| 180 | * Must be called with the L register's address. |
| 181 | */ |
| 182 | static u16 enc_r16(enc_dev_t *enc, const u16 reg) |
| 183 | { |
| 184 | u8 dout[3]; |
| 185 | u8 din[3]; |
| 186 | u16 result; |
| 187 | int nbytes = enc_reg2nbytes(reg); |
| 188 | |
| 189 | enc_set_bank(enc, reg); |
| 190 | dout[0] = CMD_RCR(reg); |
| 191 | spi_xfer(enc->slave, nbytes * 8, dout, din, |
| 192 | SPI_XFER_BEGIN | SPI_XFER_END); |
| 193 | result = din[nbytes-1]; |
| 194 | dout[0]++; /* next register */ |
| 195 | spi_xfer(enc->slave, nbytes * 8, dout, din, |
| 196 | SPI_XFER_BEGIN | SPI_XFER_END); |
| 197 | result |= din[nbytes-1] << 8; |
| 198 | return result; |
| 199 | } |
| 200 | |
| 201 | /* |
| 202 | * Write a byte register |
| 203 | */ |
| 204 | static void enc_w8(enc_dev_t *enc, const u16 reg, const u8 data) |
| 205 | { |
| 206 | u8 dout[2]; |
| 207 | |
| 208 | enc_set_bank(enc, reg); |
| 209 | dout[0] = CMD_WCR(reg); |
| 210 | dout[1] = data; |
| 211 | spi_xfer(enc->slave, 2 * 8, dout, NULL, |
| 212 | SPI_XFER_BEGIN | SPI_XFER_END); |
| 213 | } |
| 214 | |
| 215 | /* |
| 216 | * Write a L/H register pair. |
| 217 | * Must be called with the L register's address. |
| 218 | */ |
| 219 | static void enc_w16(enc_dev_t *enc, const u16 reg, const u16 data) |
| 220 | { |
| 221 | u8 dout[2]; |
| 222 | |
| 223 | enc_set_bank(enc, reg); |
| 224 | dout[0] = CMD_WCR(reg); |
| 225 | dout[1] = data; |
| 226 | spi_xfer(enc->slave, 2 * 8, dout, NULL, |
| 227 | SPI_XFER_BEGIN | SPI_XFER_END); |
| 228 | dout[0]++; /* next register */ |
| 229 | dout[1] = data >> 8; |
| 230 | spi_xfer(enc->slave, 2 * 8, dout, NULL, |
| 231 | SPI_XFER_BEGIN | SPI_XFER_END); |
| 232 | } |
| 233 | |
| 234 | /* |
| 235 | * Write a byte register, verify and retry |
| 236 | */ |
| 237 | static void enc_w8_retry(enc_dev_t *enc, const u16 reg, const u8 data, const int c) |
| 238 | { |
| 239 | u8 dout[2]; |
| 240 | u8 readback; |
| 241 | int i; |
| 242 | |
| 243 | enc_set_bank(enc, reg); |
| 244 | for (i = 0; i < c; i++) { |
| 245 | dout[0] = CMD_WCR(reg); |
| 246 | dout[1] = data; |
| 247 | spi_xfer(enc->slave, 2 * 8, dout, NULL, |
| 248 | SPI_XFER_BEGIN | SPI_XFER_END); |
| 249 | readback = enc_r8(enc, reg); |
| 250 | if (readback == data) |
| 251 | break; |
| 252 | /* wait 1ms */ |
| 253 | udelay(1000); |
| 254 | } |
| 255 | if (i == c) { |
| 256 | printf("%s: write reg 0x%03x failed\n", enc->dev->name, reg); |
| 257 | } |
| 258 | } |
| 259 | |
| 260 | /* |
| 261 | * Read ENC RAM into buffer |
| 262 | */ |
| 263 | static void enc_rbuf(enc_dev_t *enc, const u16 length, u8 *buf) |
| 264 | { |
| 265 | u8 dout[1]; |
| 266 | |
| 267 | dout[0] = CMD_RBM; |
| 268 | spi_xfer(enc->slave, 8, dout, NULL, SPI_XFER_BEGIN); |
| 269 | spi_xfer(enc->slave, length * 8, NULL, buf, SPI_XFER_END); |
| 270 | #ifdef DEBUG |
| 271 | puts("Rx:\n"); |
| 272 | print_buffer(0, buf, 1, length, 0); |
| 273 | #endif |
| 274 | } |
| 275 | |
| 276 | /* |
| 277 | * Write buffer into ENC RAM |
| 278 | */ |
| 279 | static void enc_wbuf(enc_dev_t *enc, const u16 length, const u8 *buf, const u8 control) |
| 280 | { |
| 281 | u8 dout[2]; |
| 282 | dout[0] = CMD_WBM; |
| 283 | dout[1] = control; |
| 284 | spi_xfer(enc->slave, 2 * 8, dout, NULL, SPI_XFER_BEGIN); |
| 285 | spi_xfer(enc->slave, length * 8, buf, NULL, SPI_XFER_END); |
| 286 | #ifdef DEBUG |
| 287 | puts("Tx:\n"); |
| 288 | print_buffer(0, buf, 1, length, 0); |
| 289 | #endif |
| 290 | } |
| 291 | |
| 292 | /* |
| 293 | * Try to claim the SPI bus. |
| 294 | * Print error message on failure. |
| 295 | */ |
| 296 | static int enc_claim_bus(enc_dev_t *enc) |
| 297 | { |
| 298 | int rc = spi_claim_bus(enc->slave); |
| 299 | if (rc) |
| 300 | printf("%s: failed to claim SPI bus\n", enc->dev->name); |
| 301 | return rc; |
| 302 | } |
| 303 | |
| 304 | /* |
| 305 | * Release previously claimed SPI bus. |
| 306 | * This function is mainly for symmetry to enc_claim_bus(). |
| 307 | * Let the toolchain decide to inline it... |
| 308 | */ |
| 309 | static void enc_release_bus(enc_dev_t *enc) |
| 310 | { |
| 311 | spi_release_bus(enc->slave); |
| 312 | } |
| 313 | |
| 314 | /* |
| 315 | * Read PHY register |
| 316 | */ |
Andy Fleming | 09c04c2 | 2011-03-22 22:49:13 -0500 | [diff] [blame^] | 317 | static u16 enc_phy_read(enc_dev_t *enc, const u8 addr) |
Reinhard Meyer | a61a819 | 2010-09-12 16:23:49 +0200 | [diff] [blame] | 318 | { |
| 319 | uint64_t etime; |
| 320 | u8 status; |
| 321 | |
| 322 | enc_w8(enc, CTL_REG_MIREGADR, addr); |
| 323 | enc_w8(enc, CTL_REG_MICMD, ENC_MICMD_MIIRD); |
| 324 | /* 1 second timeout - only happens on hardware problem */ |
| 325 | etime = get_ticks() + get_tbclk(); |
| 326 | /* poll MISTAT.BUSY bit until operation is complete */ |
| 327 | do |
| 328 | { |
| 329 | status = enc_r8(enc, CTL_REG_MISTAT); |
| 330 | } while (get_ticks() <= etime && (status & ENC_MISTAT_BUSY)); |
| 331 | if (status & ENC_MISTAT_BUSY) { |
| 332 | printf("%s: timeout reading phy\n", enc->dev->name); |
| 333 | return 0; |
| 334 | } |
| 335 | enc_w8(enc, CTL_REG_MICMD, 0); |
| 336 | return enc_r16(enc, CTL_REG_MIRDL); |
| 337 | } |
| 338 | |
| 339 | /* |
| 340 | * Write PHY register |
| 341 | */ |
Andy Fleming | 09c04c2 | 2011-03-22 22:49:13 -0500 | [diff] [blame^] | 342 | static void enc_phy_write(enc_dev_t *enc, const u8 addr, const u16 data) |
Reinhard Meyer | a61a819 | 2010-09-12 16:23:49 +0200 | [diff] [blame] | 343 | { |
| 344 | uint64_t etime; |
| 345 | u8 status; |
| 346 | |
| 347 | enc_w8(enc, CTL_REG_MIREGADR, addr); |
| 348 | enc_w16(enc, CTL_REG_MIWRL, data); |
| 349 | /* 1 second timeout - only happens on hardware problem */ |
| 350 | etime = get_ticks() + get_tbclk(); |
| 351 | /* poll MISTAT.BUSY bit until operation is complete */ |
| 352 | do |
| 353 | { |
| 354 | status = enc_r8(enc, CTL_REG_MISTAT); |
| 355 | } while (get_ticks() <= etime && (status & ENC_MISTAT_BUSY)); |
| 356 | if (status & ENC_MISTAT_BUSY) { |
| 357 | printf("%s: timeout writing phy\n", enc->dev->name); |
| 358 | return; |
| 359 | } |
| 360 | } |
| 361 | |
| 362 | /* |
| 363 | * Verify link status, wait if necessary |
| 364 | * |
| 365 | * Note: with a 10 MBit/s only PHY there is no autonegotiation possible, |
| 366 | * half/full duplex is a pure setup matter. For the time being, this driver |
| 367 | * will setup in half duplex mode only. |
| 368 | */ |
| 369 | static int enc_phy_link_wait(enc_dev_t *enc) |
| 370 | { |
| 371 | u16 status; |
| 372 | int duplex; |
| 373 | uint64_t etime; |
| 374 | |
| 375 | #ifdef CONFIG_ENC_SILENTLINK |
| 376 | /* check if we have a link, then just return */ |
Andy Fleming | 09c04c2 | 2011-03-22 22:49:13 -0500 | [diff] [blame^] | 377 | status = enc_phy_read(enc, PHY_REG_PHSTAT1); |
Reinhard Meyer | a61a819 | 2010-09-12 16:23:49 +0200 | [diff] [blame] | 378 | if (status & ENC_PHSTAT1_LLSTAT) |
| 379 | return 0; |
| 380 | #endif |
| 381 | |
| 382 | /* wait for link with 1 second timeout */ |
| 383 | etime = get_ticks() + get_tbclk(); |
| 384 | while (get_ticks() <= etime) { |
Andy Fleming | 09c04c2 | 2011-03-22 22:49:13 -0500 | [diff] [blame^] | 385 | status = enc_phy_read(enc, PHY_REG_PHSTAT1); |
Reinhard Meyer | a61a819 | 2010-09-12 16:23:49 +0200 | [diff] [blame] | 386 | if (status & ENC_PHSTAT1_LLSTAT) { |
| 387 | /* now we have a link */ |
Andy Fleming | 09c04c2 | 2011-03-22 22:49:13 -0500 | [diff] [blame^] | 388 | status = enc_phy_read(enc, PHY_REG_PHSTAT2); |
Reinhard Meyer | a61a819 | 2010-09-12 16:23:49 +0200 | [diff] [blame] | 389 | duplex = (status & ENC_PHSTAT2_DPXSTAT) ? 1 : 0; |
| 390 | printf("%s: link up, 10Mbps %s-duplex\n", |
| 391 | enc->dev->name, duplex ? "full" : "half"); |
| 392 | return 0; |
| 393 | } |
| 394 | udelay(1000); |
| 395 | } |
| 396 | |
| 397 | /* timeout occured */ |
| 398 | printf("%s: link down\n", enc->dev->name); |
| 399 | return 1; |
| 400 | } |
| 401 | |
| 402 | /* |
| 403 | * This function resets the receiver only. |
| 404 | */ |
| 405 | static void enc_reset_rx(enc_dev_t *enc) |
| 406 | { |
| 407 | u8 econ1; |
| 408 | |
| 409 | econ1 = enc_r8(enc, CTL_REG_ECON1); |
| 410 | if ((econ1 & ENC_ECON1_RXRST) == 0) { |
| 411 | enc_bset(enc, CTL_REG_ECON1, ENC_ECON1_RXRST); |
| 412 | enc->rx_reset_counter = RX_RESET_COUNTER; |
| 413 | } |
| 414 | } |
| 415 | |
| 416 | /* |
| 417 | * Reset receiver and reenable it. |
| 418 | */ |
| 419 | static void enc_reset_rx_call(enc_dev_t *enc) |
| 420 | { |
| 421 | enc_bclr(enc, CTL_REG_ECON1, ENC_ECON1_RXRST); |
| 422 | enc_bset(enc, CTL_REG_ECON1, ENC_ECON1_RXEN); |
| 423 | } |
| 424 | |
| 425 | /* |
| 426 | * Copy a packet from the receive ring and forward it to |
| 427 | * the protocol stack. |
| 428 | */ |
| 429 | static void enc_receive(enc_dev_t *enc) |
| 430 | { |
| 431 | u8 *packet = (u8 *)NetRxPackets[0]; |
| 432 | u16 pkt_len; |
| 433 | u16 copy_len; |
| 434 | u16 status; |
| 435 | u8 eir_reg; |
| 436 | u8 pkt_cnt = 0; |
| 437 | u16 rxbuf_rdpt; |
| 438 | u8 hbuf[6]; |
| 439 | |
| 440 | enc_w16(enc, CTL_REG_ERDPTL, enc->next_pointer); |
| 441 | do { |
| 442 | enc_rbuf(enc, 6, hbuf); |
| 443 | enc->next_pointer = hbuf[0] | (hbuf[1] << 8); |
| 444 | pkt_len = hbuf[2] | (hbuf[3] << 8); |
| 445 | status = hbuf[4] | (hbuf[5] << 8); |
| 446 | debug("next_pointer=$%04x pkt_len=%u status=$%04x\n", |
| 447 | enc->next_pointer, pkt_len, status); |
| 448 | if (pkt_len <= ENC_MAX_FRM_LEN) |
| 449 | copy_len = pkt_len; |
| 450 | else |
| 451 | copy_len = 0; |
| 452 | if ((status & (1L << 7)) == 0) /* check Received Ok bit */ |
| 453 | copy_len = 0; |
| 454 | /* check if next pointer is resonable */ |
| 455 | if (enc->next_pointer >= ENC_TX_BUF_START) |
| 456 | copy_len = 0; |
| 457 | if (copy_len > 0) { |
| 458 | enc_rbuf(enc, copy_len, packet); |
| 459 | } |
| 460 | /* advance read pointer to next pointer */ |
| 461 | enc_w16(enc, CTL_REG_ERDPTL, enc->next_pointer); |
| 462 | /* decrease packet counter */ |
| 463 | enc_bset(enc, CTL_REG_ECON2, ENC_ECON2_PKTDEC); |
| 464 | /* |
| 465 | * Only odd values should be written to ERXRDPTL, |
| 466 | * see errata B4 pt.13 |
| 467 | */ |
| 468 | rxbuf_rdpt = enc->next_pointer - 1; |
| 469 | if ((rxbuf_rdpt < enc_r16(enc, CTL_REG_ERXSTL)) || |
| 470 | (rxbuf_rdpt > enc_r16(enc, CTL_REG_ERXNDL))) { |
| 471 | enc_w16(enc, CTL_REG_ERXRDPTL, |
| 472 | enc_r16(enc, CTL_REG_ERXNDL)); |
| 473 | } else { |
| 474 | enc_w16(enc, CTL_REG_ERXRDPTL, rxbuf_rdpt); |
| 475 | } |
| 476 | /* read pktcnt */ |
| 477 | pkt_cnt = enc_r8(enc, CTL_REG_EPKTCNT); |
| 478 | if (copy_len == 0) { |
| 479 | eir_reg = enc_r8(enc, CTL_REG_EIR); |
| 480 | enc_reset_rx(enc); |
| 481 | printf("%s: receive copy_len=0\n", enc->dev->name); |
| 482 | continue; |
| 483 | } |
| 484 | /* |
| 485 | * Because NetReceive() might call enc_send(), we need to |
| 486 | * release the SPI bus, call NetReceive(), reclaim the bus |
| 487 | */ |
| 488 | enc_release_bus(enc); |
| 489 | NetReceive(packet, pkt_len); |
| 490 | if (enc_claim_bus(enc)) |
| 491 | return; |
| 492 | eir_reg = enc_r8(enc, CTL_REG_EIR); |
| 493 | } while (pkt_cnt); |
| 494 | /* Use EPKTCNT not EIR.PKTIF flag, see errata pt. 6 */ |
| 495 | } |
| 496 | |
| 497 | /* |
| 498 | * Poll for completely received packets. |
| 499 | */ |
| 500 | static void enc_poll(enc_dev_t *enc) |
| 501 | { |
| 502 | u8 eir_reg; |
| 503 | u8 estat_reg; |
| 504 | u8 pkt_cnt; |
| 505 | |
| 506 | #ifdef CONFIG_USE_IRQ |
| 507 | /* clear global interrupt enable bit in enc28j60 */ |
| 508 | enc_bclr(enc, CTL_REG_EIE, ENC_EIE_INTIE); |
| 509 | #endif |
| 510 | estat_reg = enc_r8(enc, CTL_REG_ESTAT); |
| 511 | eir_reg = enc_r8(enc, CTL_REG_EIR); |
| 512 | if (eir_reg & ENC_EIR_TXIF) { |
| 513 | /* clear TXIF bit in EIR */ |
| 514 | enc_bclr(enc, CTL_REG_EIR, ENC_EIR_TXIF); |
| 515 | } |
| 516 | /* We have to use pktcnt and not pktif bit, see errata pt. 6 */ |
| 517 | pkt_cnt = enc_r8(enc, CTL_REG_EPKTCNT); |
| 518 | if (pkt_cnt > 0) { |
| 519 | if ((eir_reg & ENC_EIR_PKTIF) == 0) { |
| 520 | debug("enc_poll: pkt cnt > 0, but pktif not set\n"); |
| 521 | } |
| 522 | enc_receive(enc); |
| 523 | /* |
| 524 | * clear PKTIF bit in EIR, this should not need to be done |
| 525 | * but it seems like we get problems if we do not |
| 526 | */ |
| 527 | enc_bclr(enc, CTL_REG_EIR, ENC_EIR_PKTIF); |
| 528 | } |
| 529 | if (eir_reg & ENC_EIR_RXERIF) { |
| 530 | printf("%s: rx error\n", enc->dev->name); |
| 531 | enc_bclr(enc, CTL_REG_EIR, ENC_EIR_RXERIF); |
| 532 | } |
| 533 | if (eir_reg & ENC_EIR_TXERIF) { |
| 534 | printf("%s: tx error\n", enc->dev->name); |
| 535 | enc_bclr(enc, CTL_REG_EIR, ENC_EIR_TXERIF); |
| 536 | } |
| 537 | #ifdef CONFIG_USE_IRQ |
| 538 | /* set global interrupt enable bit in enc28j60 */ |
| 539 | enc_bset(enc, CTL_REG_EIE, ENC_EIE_INTIE); |
| 540 | #endif |
| 541 | } |
| 542 | |
| 543 | /* |
| 544 | * Completely Reset the ENC |
| 545 | */ |
| 546 | static void enc_reset(enc_dev_t *enc) |
| 547 | { |
| 548 | u8 dout[1]; |
| 549 | |
| 550 | dout[0] = CMD_SRC; |
| 551 | spi_xfer(enc->slave, 8, dout, NULL, |
| 552 | SPI_XFER_BEGIN | SPI_XFER_END); |
| 553 | /* sleep 1 ms. See errata pt. 2 */ |
| 554 | udelay(1000); |
| 555 | } |
| 556 | |
| 557 | /* |
| 558 | * Initialisation data for most of the ENC registers |
| 559 | */ |
| 560 | static const u16 enc_initdata[] = { |
| 561 | /* |
| 562 | * Setup the buffer space. The reset values are valid for the |
| 563 | * other pointers. |
| 564 | * |
| 565 | * We shall not write to ERXST, see errata pt. 5. Instead we |
| 566 | * have to make sure that ENC_RX_BUS_START is 0. |
| 567 | */ |
| 568 | CTL_REG_ERXSTL, ENC_RX_BUF_START, |
| 569 | CTL_REG_ERXSTH, ENC_RX_BUF_START >> 8, |
| 570 | CTL_REG_ERXNDL, ENC_RX_BUF_END, |
| 571 | CTL_REG_ERXNDH, ENC_RX_BUF_END >> 8, |
| 572 | CTL_REG_ERDPTL, ENC_RX_BUF_START, |
| 573 | CTL_REG_ERDPTH, ENC_RX_BUF_START >> 8, |
| 574 | /* |
| 575 | * Set the filter to receive only good-CRC, unicast and broadcast |
| 576 | * frames. |
| 577 | * Note: some DHCP servers return their answers as broadcasts! |
| 578 | * So its unwise to remove broadcast from this. This driver |
| 579 | * might incur receiver overruns with packet loss on a broadcast |
| 580 | * flooded network. |
| 581 | */ |
| 582 | CTL_REG_ERXFCON, ENC_RFR_BCEN | ENC_RFR_UCEN | ENC_RFR_CRCEN, |
| 583 | |
| 584 | /* enable MAC to receive frames */ |
| 585 | CTL_REG_MACON1, |
| 586 | ENC_MACON1_MARXEN | ENC_MACON1_TXPAUS | ENC_MACON1_RXPAUS, |
| 587 | |
| 588 | /* configure pad, tx-crc and duplex */ |
| 589 | CTL_REG_MACON3, |
| 590 | ENC_MACON3_PADCFG0 | ENC_MACON3_TXCRCEN | |
| 591 | ENC_MACON3_FRMLNEN, |
| 592 | |
| 593 | /* Allow infinite deferals if the medium is continously busy */ |
| 594 | CTL_REG_MACON4, ENC_MACON4_DEFER, |
| 595 | |
| 596 | /* Late collisions occur beyond 63 bytes */ |
| 597 | CTL_REG_MACLCON2, 63, |
| 598 | |
| 599 | /* |
| 600 | * Set (low byte) Non-Back-to_Back Inter-Packet Gap. |
| 601 | * Recommended 0x12 |
| 602 | */ |
| 603 | CTL_REG_MAIPGL, 0x12, |
| 604 | |
| 605 | /* |
| 606 | * Set (high byte) Non-Back-to_Back Inter-Packet Gap. |
| 607 | * Recommended 0x0c for half-duplex. Nothing for full-duplex |
| 608 | */ |
| 609 | CTL_REG_MAIPGH, 0x0C, |
| 610 | |
| 611 | /* set maximum frame length */ |
| 612 | CTL_REG_MAMXFLL, ENC_MAX_FRM_LEN, |
| 613 | CTL_REG_MAMXFLH, ENC_MAX_FRM_LEN >> 8, |
| 614 | |
| 615 | /* |
| 616 | * Set MAC back-to-back inter-packet gap. |
| 617 | * Recommended 0x12 for half duplex |
| 618 | * and 0x15 for full duplex. |
| 619 | */ |
| 620 | CTL_REG_MABBIPG, 0x12, |
| 621 | |
| 622 | /* end of table */ |
| 623 | 0xffff |
| 624 | }; |
| 625 | |
| 626 | /* |
| 627 | * Wait for the XTAL oscillator to become ready |
| 628 | */ |
| 629 | static int enc_clock_wait(enc_dev_t *enc) |
| 630 | { |
| 631 | uint64_t etime; |
| 632 | |
| 633 | /* one second timeout */ |
| 634 | etime = get_ticks() + get_tbclk(); |
| 635 | |
| 636 | /* |
| 637 | * Wait for CLKRDY to become set (i.e., check that we can |
| 638 | * communicate with the ENC) |
| 639 | */ |
| 640 | do |
| 641 | { |
| 642 | if (enc_r8(enc, CTL_REG_ESTAT) & ENC_ESTAT_CLKRDY) |
| 643 | return 0; |
| 644 | } while (get_ticks() <= etime); |
| 645 | |
| 646 | printf("%s: timeout waiting for CLKRDY\n", enc->dev->name); |
| 647 | return -1; |
| 648 | } |
| 649 | |
| 650 | /* |
| 651 | * Write the MAC address into the ENC |
| 652 | */ |
| 653 | static int enc_write_macaddr(enc_dev_t *enc) |
| 654 | { |
| 655 | unsigned char *p = enc->dev->enetaddr; |
| 656 | |
| 657 | enc_w8_retry(enc, CTL_REG_MAADR5, *p++, 5); |
| 658 | enc_w8_retry(enc, CTL_REG_MAADR4, *p++, 5); |
| 659 | enc_w8_retry(enc, CTL_REG_MAADR3, *p++, 5); |
| 660 | enc_w8_retry(enc, CTL_REG_MAADR2, *p++, 5); |
| 661 | enc_w8_retry(enc, CTL_REG_MAADR1, *p++, 5); |
| 662 | enc_w8_retry(enc, CTL_REG_MAADR0, *p, 5); |
| 663 | return 0; |
| 664 | } |
| 665 | |
| 666 | /* |
| 667 | * Setup most of the ENC registers |
| 668 | */ |
| 669 | static int enc_setup(enc_dev_t *enc) |
| 670 | { |
| 671 | u16 phid1 = 0; |
| 672 | u16 phid2 = 0; |
| 673 | const u16 *tp; |
| 674 | |
| 675 | /* reset enc struct values */ |
| 676 | enc->next_pointer = ENC_RX_BUF_START; |
| 677 | enc->rx_reset_counter = RX_RESET_COUNTER; |
| 678 | enc->bank = 0xff; /* invalidate current bank in enc28j60 */ |
| 679 | |
| 680 | /* verify PHY identification */ |
Andy Fleming | 09c04c2 | 2011-03-22 22:49:13 -0500 | [diff] [blame^] | 681 | phid1 = enc_phy_read(enc, PHY_REG_PHID1); |
| 682 | phid2 = enc_phy_read(enc, PHY_REG_PHID2) & ENC_PHID2_MASK; |
Reinhard Meyer | a61a819 | 2010-09-12 16:23:49 +0200 | [diff] [blame] | 683 | if (phid1 != ENC_PHID1_VALUE || phid2 != ENC_PHID2_VALUE) { |
| 684 | printf("%s: failed to identify PHY. Found %04x:%04x\n", |
| 685 | enc->dev->name, phid1, phid2); |
| 686 | return -1; |
| 687 | } |
| 688 | |
| 689 | /* now program registers */ |
| 690 | for (tp = enc_initdata; *tp != 0xffff; tp += 2) |
| 691 | enc_w8_retry(enc, tp[0], tp[1], 10); |
| 692 | |
| 693 | /* |
| 694 | * Prevent automatic loopback of data beeing transmitted by setting |
| 695 | * ENC_PHCON2_HDLDIS |
| 696 | */ |
Andy Fleming | 09c04c2 | 2011-03-22 22:49:13 -0500 | [diff] [blame^] | 697 | enc_phy_write(enc, PHY_REG_PHCON2, (1<<8)); |
Reinhard Meyer | a61a819 | 2010-09-12 16:23:49 +0200 | [diff] [blame] | 698 | |
| 699 | /* |
| 700 | * LEDs configuration |
| 701 | * LEDA: LACFG = 0100 -> display link status |
| 702 | * LEDB: LBCFG = 0111 -> display TX & RX activity |
| 703 | * STRCH = 1 -> LED pulses |
| 704 | */ |
Andy Fleming | 09c04c2 | 2011-03-22 22:49:13 -0500 | [diff] [blame^] | 705 | enc_phy_write(enc, PHY_REG_PHLCON, 0x0472); |
Reinhard Meyer | a61a819 | 2010-09-12 16:23:49 +0200 | [diff] [blame] | 706 | |
| 707 | /* Reset PDPXMD-bit => half duplex */ |
Andy Fleming | 09c04c2 | 2011-03-22 22:49:13 -0500 | [diff] [blame^] | 708 | enc_phy_write(enc, PHY_REG_PHCON1, 0); |
Reinhard Meyer | a61a819 | 2010-09-12 16:23:49 +0200 | [diff] [blame] | 709 | |
| 710 | #ifdef CONFIG_USE_IRQ |
| 711 | /* enable interrupts */ |
| 712 | enc_bset(enc, CTL_REG_EIE, ENC_EIE_PKTIE); |
| 713 | enc_bset(enc, CTL_REG_EIE, ENC_EIE_TXIE); |
| 714 | enc_bset(enc, CTL_REG_EIE, ENC_EIE_RXERIE); |
| 715 | enc_bset(enc, CTL_REG_EIE, ENC_EIE_TXERIE); |
| 716 | enc_bset(enc, CTL_REG_EIE, ENC_EIE_INTIE); |
| 717 | #endif |
| 718 | |
| 719 | return 0; |
| 720 | } |
| 721 | |
| 722 | /* |
| 723 | * Check if ENC has been initialized. |
| 724 | * If not, try to initialize it. |
| 725 | * Remember initialized state in struct. |
| 726 | */ |
| 727 | static int enc_initcheck(enc_dev_t *enc, const enum enc_initstate requiredstate) |
| 728 | { |
| 729 | if (enc->initstate >= requiredstate) |
| 730 | return 0; |
| 731 | |
| 732 | if (enc->initstate < setupdone) { |
| 733 | /* Initialize the ENC only */ |
| 734 | enc_reset(enc); |
| 735 | /* if any of functions fails, skip the rest and return an error */ |
| 736 | if (enc_clock_wait(enc) || enc_setup(enc) || enc_write_macaddr(enc)) { |
| 737 | return -1; |
| 738 | } |
| 739 | enc->initstate = setupdone; |
| 740 | } |
| 741 | /* if that's all we need, return here */ |
| 742 | if (enc->initstate >= requiredstate) |
| 743 | return 0; |
| 744 | |
| 745 | /* now wait for link ready condition */ |
| 746 | if (enc_phy_link_wait(enc)) { |
| 747 | return -1; |
| 748 | } |
| 749 | enc->initstate = linkready; |
| 750 | return 0; |
| 751 | } |
| 752 | |
| 753 | #if defined(CONFIG_CMD_MII) |
| 754 | /* |
| 755 | * Read a PHY register. |
| 756 | * |
| 757 | * This function is registered with miiphy_register(). |
| 758 | */ |
| 759 | int enc_miiphy_read(const char *devname, u8 phy_adr, u8 reg, u16 *value) |
| 760 | { |
| 761 | struct eth_device *dev = eth_get_dev_by_name(devname); |
| 762 | enc_dev_t *enc; |
| 763 | |
| 764 | if (!dev || phy_adr != 0) |
| 765 | return -1; |
| 766 | |
| 767 | enc = dev->priv; |
| 768 | if (enc_claim_bus(enc)) |
| 769 | return -1; |
| 770 | if (enc_initcheck(enc, setupdone)) { |
| 771 | enc_release_bus(enc); |
| 772 | return -1; |
| 773 | } |
Andy Fleming | 09c04c2 | 2011-03-22 22:49:13 -0500 | [diff] [blame^] | 774 | *value = enc_phy_read(enc, reg); |
Reinhard Meyer | a61a819 | 2010-09-12 16:23:49 +0200 | [diff] [blame] | 775 | enc_release_bus(enc); |
| 776 | return 0; |
| 777 | } |
| 778 | |
| 779 | /* |
| 780 | * Write a PHY register. |
| 781 | * |
| 782 | * This function is registered with miiphy_register(). |
| 783 | */ |
| 784 | int enc_miiphy_write(const char *devname, u8 phy_adr, u8 reg, u16 value) |
| 785 | { |
| 786 | struct eth_device *dev = eth_get_dev_by_name(devname); |
| 787 | enc_dev_t *enc; |
| 788 | |
| 789 | if (!dev || phy_adr != 0) |
| 790 | return -1; |
| 791 | |
| 792 | enc = dev->priv; |
| 793 | if (enc_claim_bus(enc)) |
| 794 | return -1; |
| 795 | if (enc_initcheck(enc, setupdone)) { |
| 796 | enc_release_bus(enc); |
| 797 | return -1; |
| 798 | } |
Andy Fleming | 09c04c2 | 2011-03-22 22:49:13 -0500 | [diff] [blame^] | 799 | enc_phy_write(enc, reg, value); |
Reinhard Meyer | a61a819 | 2010-09-12 16:23:49 +0200 | [diff] [blame] | 800 | enc_release_bus(enc); |
| 801 | return 0; |
| 802 | } |
| 803 | #endif |
| 804 | |
| 805 | /* |
| 806 | * Write hardware (MAC) address. |
| 807 | * |
| 808 | * This function entered into eth_device structure. |
| 809 | */ |
| 810 | static int enc_write_hwaddr(struct eth_device *dev) |
| 811 | { |
| 812 | enc_dev_t *enc = dev->priv; |
| 813 | |
| 814 | if (enc_claim_bus(enc)) |
| 815 | return -1; |
| 816 | if (enc_initcheck(enc, setupdone)) { |
| 817 | enc_release_bus(enc); |
| 818 | return -1; |
| 819 | } |
| 820 | enc_release_bus(enc); |
| 821 | return 0; |
| 822 | } |
| 823 | |
| 824 | /* |
| 825 | * Initialize ENC28J60 for use. |
| 826 | * |
| 827 | * This function entered into eth_device structure. |
| 828 | */ |
| 829 | static int enc_init(struct eth_device *dev, bd_t *bis) |
| 830 | { |
| 831 | enc_dev_t *enc = dev->priv; |
| 832 | |
| 833 | if (enc_claim_bus(enc)) |
| 834 | return -1; |
| 835 | if (enc_initcheck(enc, linkready)) { |
| 836 | enc_release_bus(enc); |
| 837 | return -1; |
| 838 | } |
| 839 | /* enable receive */ |
| 840 | enc_bset(enc, CTL_REG_ECON1, ENC_ECON1_RXEN); |
| 841 | enc_release_bus(enc); |
| 842 | return 0; |
| 843 | } |
| 844 | |
| 845 | /* |
| 846 | * Check for received packets. |
| 847 | * |
| 848 | * This function entered into eth_device structure. |
| 849 | */ |
| 850 | static int enc_recv(struct eth_device *dev) |
| 851 | { |
| 852 | enc_dev_t *enc = dev->priv; |
| 853 | |
| 854 | if (enc_claim_bus(enc)) |
| 855 | return -1; |
| 856 | if (enc_initcheck(enc, linkready)) { |
| 857 | enc_release_bus(enc); |
| 858 | return -1; |
| 859 | } |
| 860 | /* Check for dead receiver */ |
| 861 | if (enc->rx_reset_counter > 0) |
| 862 | enc->rx_reset_counter--; |
| 863 | else |
| 864 | enc_reset_rx_call(enc); |
| 865 | enc_poll(enc); |
| 866 | enc_release_bus(enc); |
| 867 | return 0; |
| 868 | } |
| 869 | |
| 870 | /* |
| 871 | * Send a packet. |
| 872 | * |
| 873 | * This function entered into eth_device structure. |
| 874 | * |
| 875 | * Should we wait here until we have a Link? Or shall we leave that to |
| 876 | * protocol retries? |
| 877 | */ |
| 878 | static int enc_send( |
| 879 | struct eth_device *dev, |
| 880 | volatile void *packet, |
| 881 | int length) |
| 882 | { |
| 883 | enc_dev_t *enc = dev->priv; |
| 884 | |
| 885 | if (enc_claim_bus(enc)) |
| 886 | return -1; |
| 887 | if (enc_initcheck(enc, linkready)) { |
| 888 | enc_release_bus(enc); |
| 889 | return -1; |
| 890 | } |
| 891 | /* setup transmit pointers */ |
| 892 | enc_w16(enc, CTL_REG_EWRPTL, ENC_TX_BUF_START); |
| 893 | enc_w16(enc, CTL_REG_ETXNDL, length + ENC_TX_BUF_START); |
| 894 | enc_w16(enc, CTL_REG_ETXSTL, ENC_TX_BUF_START); |
| 895 | /* write packet to ENC */ |
| 896 | enc_wbuf(enc, length, (u8 *) packet, 0x00); |
| 897 | /* |
| 898 | * Check that the internal transmit logic has not been altered |
| 899 | * by excessive collisions. Reset transmitter if so. |
| 900 | * See Errata B4 12 and 14. |
| 901 | */ |
| 902 | if (enc_r8(enc, CTL_REG_EIR) & ENC_EIR_TXERIF) { |
| 903 | enc_bset(enc, CTL_REG_ECON1, ENC_ECON1_TXRST); |
| 904 | enc_bclr(enc, CTL_REG_ECON1, ENC_ECON1_TXRST); |
| 905 | } |
| 906 | enc_bclr(enc, CTL_REG_EIR, (ENC_EIR_TXERIF | ENC_EIR_TXIF)); |
| 907 | /* start transmitting */ |
| 908 | enc_bset(enc, CTL_REG_ECON1, ENC_ECON1_TXRTS); |
| 909 | enc_release_bus(enc); |
| 910 | return 0; |
| 911 | } |
| 912 | |
| 913 | /* |
| 914 | * Finish use of ENC. |
| 915 | * |
| 916 | * This function entered into eth_device structure. |
| 917 | */ |
| 918 | static void enc_halt(struct eth_device *dev) |
| 919 | { |
| 920 | enc_dev_t *enc = dev->priv; |
| 921 | |
| 922 | if (enc_claim_bus(enc)) |
| 923 | return; |
| 924 | /* Just disable receiver */ |
| 925 | enc_bclr(enc, CTL_REG_ECON1, ENC_ECON1_RXEN); |
| 926 | enc_release_bus(enc); |
| 927 | } |
| 928 | |
| 929 | /* |
| 930 | * This is the only exported function. |
| 931 | * |
| 932 | * It may be called several times with different bus:cs combinations. |
| 933 | */ |
| 934 | int enc28j60_initialize(unsigned int bus, unsigned int cs, |
| 935 | unsigned int max_hz, unsigned int mode) |
| 936 | { |
| 937 | struct eth_device *dev; |
| 938 | enc_dev_t *enc; |
| 939 | |
| 940 | /* try to allocate, check and clear eth_device object */ |
| 941 | dev = malloc(sizeof(*dev)); |
| 942 | if (!dev) { |
| 943 | return -1; |
| 944 | } |
| 945 | memset(dev, 0, sizeof(*dev)); |
| 946 | |
| 947 | /* try to allocate, check and clear enc_dev_t object */ |
| 948 | enc = malloc(sizeof(*enc)); |
| 949 | if (!enc) { |
| 950 | free(dev); |
| 951 | return -1; |
| 952 | } |
| 953 | memset(enc, 0, sizeof(*enc)); |
| 954 | |
| 955 | /* try to setup the SPI slave */ |
| 956 | enc->slave = spi_setup_slave(bus, cs, max_hz, mode); |
| 957 | if (!enc->slave) { |
| 958 | printf("enc28j60: invalid SPI device %i:%i\n", bus, cs); |
| 959 | free(enc); |
| 960 | free(dev); |
| 961 | return -1; |
| 962 | } |
| 963 | |
| 964 | enc->dev = dev; |
| 965 | /* now fill the eth_device object */ |
| 966 | dev->priv = enc; |
| 967 | dev->init = enc_init; |
| 968 | dev->halt = enc_halt; |
| 969 | dev->send = enc_send; |
| 970 | dev->recv = enc_recv; |
| 971 | dev->write_hwaddr = enc_write_hwaddr; |
| 972 | sprintf(dev->name, "enc%i.%i", bus, cs); |
| 973 | eth_register(dev); |
| 974 | #if defined(CONFIG_CMD_MII) |
| 975 | miiphy_register(dev->name, enc_miiphy_read, enc_miiphy_write); |
| 976 | #endif |
| 977 | return 0; |
| 978 | } |